Datasheet RL78/G13 RENESAS MCU R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 True low-power platform (66 A/MHz, and 0.57 A for operation with only RTC and LVD) for the general-purpose applications, with 1.6-V to 5.5-V operation, 16- to 512-Kbyte code flash memory, and 41 DMIPS at 32 MHz 1. OUTLINE 1.1 Features Ultra-low power consumption technology VDD = single power supply voltage of 1.6 to 5.5 V HALT mode STOP mode SNOOZE mode RL78 CPU core CISC architecture with 3-stage pipeline Minimum instruction execution time: Can be changed from high speed (0.03125 s: @ 32 MHz operation with high-speed on-chip oscillator) to ultra-low speed (30.5 s: @ 32.768 kHz operation with subsystem clock) Address space: 1 MB General-purpose registers: (8-bit register x 8) x 4 banks On-chip RAM: 2 to 32 KB Code flash memory Code flash memory: 16 to 512 KB Block size: 1 KB Prohibition of block erase and rewriting (security function) On-chip debug function Self-programming (with boot swap function/flash shield window function) Data Flash Memory Data flash memory: 4 KB to 8 KB Back ground operation (BGO): Instructions can be executed from the program memory while rewriting the data flash memory. Number of rewrites: 1,000,000 times (TYP.) Voltage of rewrites: VDD = 1.8 to 5.5 V High-speed on-chip oscillator Select from 32 MHz, 24 MHz, 16 MHz, 12 MHz, 8 MHz, 6 MHz, 4 MHz, 3 MHz, 2 MHz, and 1 MHz High accuracy: +/- 1.0 % (VDD = 1.8 to 5.5 V, TA = -20 to +85C) Operating ambient temperature TA = -40 to +85C (A: Consumer applications, D: Industrial applications ) TA = -40 to +105C (G: Industrial applications) Power management and reset function On-chip power-on-reset (POR) circuit On-chip voltage detector (LVD) (Select interrupt and reset from 14 levels) DMA (Direct Memory Access) controller 2/4 channels Number of clocks during transfer between 8/16-bit SFR and internal RAM: 2 clocks Multiplier and divider/multiply-accumulator 16 bits x 16 bits = 32 bits (Unsigned or signed) 32 bits / 32 bits = 32 bits (Unsigned) 16 bits x 16 bits + 32 bits = 32 bits (Unsigned or signed) Serial interface CSI: 2 to 8 channels UART/UART (LIN-bus supported): 2 to 4 channels I2C/Simplified I2C communication: 2 to 8 channels Timer 16-bit timer: 8 to 16 channels 12-bit interval timer: 1 channel Real-time clock: 1 channel (calendar for 99 years, alarm function, and clock correction function) Watchdog timer: 1 channel (operable with the dedicated low-speed on-chip oscillator) A/D converter 8/10-bit resolution A/D converter (VDD = 1.6 to 5.5 V) Analog input: 6 to 26 channels Internal reference voltage (1.45 V) and temperature sensor Note 1 I/O port I/O port: 16 to 120 (N-ch open drain I/O [withstand voltage of 6 V]: 0 to 4, N-ch open drain I/O [VDD withstand voltage Note 2/EVDD withstand voltage Note 3]: 5 to 25) Can be set to N-ch open drain, TTL input buffer, and on-chip pull-up resistor Different potential interface: Can connect to a 1.8/2.5/3 V device On-chip key interrupt function On-chip clock output/buzzer output controller Others On-chip BCD (binary-coded decimal) correction circuit Notes 1. Can be selected only in HS (high-speed main) mode 2. Products with 20 to 52 pins 3. Products with 64 to 128 pins Remark The functions mounted depend on the product. See 1.6 Outline of Functions. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 1 of 214 RL78/G13 1. OUTLINE ROM, RAM capacities Flash Data RAM RL78/G13 ROM flash 20 pins 24 pins 25 pins 30 pins 32 pins 36 pins 128 8 KB 12 - - - R5F100AG R5F100BG R5F100CG KB - KB - - - R5F101AG R5F101BG R5F101CG 96 8 KB 8 KB - - - R5F100AF R5F100BF R5F100CF - - - R5F101AF R5F101BF R5F101CF KB - 64 4 KB 4 KB R5F1006E R5F1007E R5F1008E R5F100AE R5F100BE R5F100CE KB - Note R5F1016E R5F1017E R5F1018E R5F101AE R5F101BE R5F101CE 48 4 KB 3 KB R5F1006D R5F1007D R5F1008D R5F100AD R5F100BD R5F100CD R5F1016D R5F1017D R5F1018D R5F101AD R5F101BD R5F101CD R5F1006C R5F1007C R5F1008C R5F100AC R5F100BC R5F100CC R5F1016C R5F1017C R5F1018C R5F101AC R5F101BC R5F101CC R5F1006A R5F1007A R5F1008A R5F100AA R5F100BA R5F100CA R5F1016A R5F1017A R5F1018A R5F101AA R5F101BA R5F101CA KB Note - 32 4 KB KB - 16 4 KB KB Data ROM flash 512 8 KB 8 KB - 256 8 KB - 128 8 KB KB - 96 8 KB KB 32 KB 16 KB Note 44 pins 48 pins 52 pins 64 pins 80 pins 100 pins 128 pins - R5F100FL R5F100GL R5F100JL R5F100LL R5F100ML R5F100PL R5F100SL - R5F101FL R5F101GL R5F101JL R5F101LL R5F101ML R5F101PL R5F101SL - R5F100FK R5F100GK R5F100JK R5F100LK R5F100MK R5F100PK R5F100SK - R5F101FK R5F101GK R5F101JK R5F101LK R5F101MK R5F101PK R5F101SK 20 KB - R5F100FJ R5F100GJ R5F100JJ R5F100LJ R5F100MJ R5F100PJ R5F100SJ R5F101FJ R5F101MJ - KB 48 24 KB - 8 KB KB 40 pins Note 192 64 32 KB RL78/G13 Note KB KB RAM - 384 KB 2 KB - Flash KB 2 KB 16 KB 12 KB R5F101JJ R5F101LJ R5F101PJ R5F101SJ R5F100FH R5F100GH R5F100JH R5F100LH R5F100MH R5F100PH R5F100SH R5F101EH R5F101FH R5F101GH R5F101JH R5F101LH R5F101MH R5F101PH R5F101SH R5F100EG R5F100FG R5F100GG R5F100JG R5F100LG R5F100MG R5F100PG - R5F101EG R5F101FG R5F101GG R5F101JG R5F101LG R5F101MG R5F101PG - 8 KB R5F100EF R5F100LF R5F100MF R5F100PF - R5F101EF R5F101FF R5F101GF R5F101JF R5F101LF R5F101MF R5F101PF - 4 KB R5F100EE R5F100FE R5F100GE R5F100JE R5F100LE - - - R5F101EE R5F101FE R5F101GE R5F101JE R5F101LE - - - R5F100ED R5F100FD R5F100GD R5F100JD R5F100LD - - - - 4 KB R5F101GJ R5F100EH R5F100FF R5F100GF R5F100JF Note - 4 KB 3 KB Note - 4 KB 2 KB - 4 KB - 2 KB R5F101ED R5F101FD R5F101GD R5F101JD R5F101LD - - - R5F100EC R5F100FC R5F100GC R5F100JC R5F100LC - - - R5F101EC R5F101FC R5F101GC R5F101JC R5F101LC - - - R5F100EA R5F100FA R5F100GA - - - - - R5F101EA R5F101FA R5F101GA - - - - - The flash library uses RAM in self-programming and rewriting of the data flash memory. The target products and start address of the RAM areas used by the flash library are shown below. R5F100xD, R5F101xD (x = 6 to 8, A to C, E to G, J, L): Start address FF300H R5F100xE, R5F101xE (x = 6 to 8, A to C, E to G, J, L): Start address FEF00H R5F100xJ, R5F101xJ (x = F, G, J, L, M, P): Start address FAF00H R5F100xL, R5F101xL (x = F, G, J, L, M, P, S): Start address F7F00H For the RAM areas used by the flash library, see Self RAM list of Flash Self-Programming Library for RL78 Family (R20UT2944). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 2 of 214 RL78/G13 1. OUTLINE 1.2 List of Part Numbers Figure 1-1. Part Number, Memory Size, and Package of RL78/G13 Part No. R 5 F 1 0 0 L E A x x x F B #V0 Packaging specification #U0, #20 : #V0, #30 : #W0, #40 : #X0, #50 : Tray (HWQFN,VFBGA,WFLGA) Tray (LFQFP,LQFP,LSSOP) Embossed Tape (HWQFN,VFBGA,WFLGA) Embossed Tape (LFQFP,LQFP,LSSOP) Package type: SP : LSSOP, 0.65 mm pitch FP : LQFP, 0.80 mm pitch FA : LQFP, 0.65 mm pitch FB : LFQFP, 0.50 mm pitch NA : HWQFN, 0.50 mm pitch LA : WFLGA, 0.50 mm pitchNote1 BG : VFBGA, 0.40 mm pitchNote1 ROM number (Omitted with blank products) Fields of application: A : Consumer applications, operating ambient temperature : -40C to +85C D : Industrial applications, operating ambient temperature : -40C to +85C G : Industrial applications, operating ambient temperature : -40C to +105C ROM capacity: A : 16 KB C : 32 KB D : 48 KB E : 64 KB F : 96 KB G : 128 KB H : 192 KB J : 256 KB K : 384 KBNote2 L : 512 KBNote2 Pin count: 6 : 20-pin 7 : 24-pin 8 : 25-pinNote1 A : 30-pin B : 32-pin C : 36-pinNote1 E : 40-pin F : 44-pin G : 48-pin J : 52-pin L : 64-pin M : 80-pin P : 100-pin S : 128-pinNote2 RL78/G13 group 100 : Data flash is provided 101 : Data flash is not providedNote2 Memory type: F : Flash memory Renesas MCU Renesas semiconductor product Notes 1. Products only for "A: Consumer applications (TA = -40 to +85C)", and "G: Industrial applications (TA = -40 to +105C)" 2. Products only for "A: Consumer applications (TA = -40 to +85C)", and "D: Industrial applications (TA = -40 to +85C)" R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 3 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (1/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 20 pins 20-pin plastic Mounted A R5F1006AASP#V0, R5F1006CASP#V0, R5F1006DASP#V0, LSSOP R5F1006EASP#V0 (7.62 mm (300), R5F1006AASP#X0, R5F1006CASP#X0, R5F1006DASP#X0, 0.65 mm pitch) R5F1006EASP#X0 PLSP0020JC-A R5F1006AASP#30, R5F1006CASP#30, R5F1006DASP#30, R5F1006EASP#30 R5F1006AASP#50, R5F1006CASP#50, R5F1006DASP#50, R5F1006EASP#50 D R5F1006ADSP#V0, R5F1006CDSP#V0, R5F1006DDSP#V0, R5F1006EDSP#V0 R5F1006ADSP#X0, R5F1006CDSP#X0, R5F1006DDSP#X0, R5F1006EDSP#X0 R5F1006ADSP#30, R5F1006CDSP#30, R5F1006DDSP#30, R5F1006EDSP#30 R5F1006ADSP#50, R5F1006CDSP#50, R5F1006DDSP#50, R5F1006EDSP#50 G R5F1006AGSP#V0, R5F1006CGSP#V0, R5F1006DGSP#V0, R5F1006EGSP#V0 R5F1006AGSP#X0, R5F1006CGSP#X0, R5F1006DGSP#X0, R5F1006EGSP#X0 R5F1006AGSP#30, R5F1006CGSP#30, R5F1006DGSP#30, R5F1006EGSP#30 R5F1006AGSP#50, R5F1006CGSP#50, R5F1006DGSP#50, R5F1006EGSP#50 Not A mounted R5F1016AASP#V0, R5F1016CASP#V0, R5F1016DASP#V0, PLSP0020JC-A R5F1016EASP#V0 R5F1016AASP#X0, R5F1016CASP#X0, R5F1016DASP#X0, R5F1016EASP#X0 R5F1016AASP#30, R5F1016CASP#30, R5F1016DASP#30, R5F1016EASP#30 R5F1016AASP#50, R5F1016CASP#50, R5F1016DASP#50, R5F1016EASP#50 D R5F1016ADSP#V0, R5F1016CDSP#V0, R5F1016DDSP#V0, R5F1016EDSP#V0 R5F1016ADSP#X0, R5F1016CDSP#X0, R5F1016DDSP#X0, R5F1016EDSP#X0 R5F1016ADSP#30, R5F1016CDSP#30, R5F1016DDSP#30, R5F1016EDSP#30 R5F1016ADSP#50, R5F1016CDSP#50, R5F1016DDSP#50, R5F1016EDSP#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 4 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (2/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F1007AANA#U0, R5F1007CANA#U0, R5F1007DANA#U0, PWQN0024KE-A Fields of Application Note count 24 pins 24-pin plastic Mounted A HWQFN R5F1007EANA#U0 (4 x 4 mm, R5F1007AANA#W0, R5F1007CANA#W0, R5F1007DANA#W0, 0.5 mm pitch) R5F1007EANA#W0 R5F1007AANA#20, R5F1007CANA#20, R5F1007DANA#20, PWQN0024KF-A R5F1007EANA#20 R5F1007AANA#40, R5F1007CANA#40, R5F1007DANA#40, R5F1007EANA#40 D R5F1007ADNA#U0, R5F1007CDNA#U0, R5F1007DDNA#U0, PWQN0024KE-A R5F1007EDNA#U0 R5F1007ADNA#W0, R5F1007CDNA#W0, R5F1007DDNA#W0, R5F1007EDNA#W0 G R5F1007AGNA#U0, R5F1007CGNA#U0, R5F1007DGNA#U0, R5F1007EGNA#U0 R5F1007AGNA#W0, R5F1007CGNA#W0, R5F1007DGNA#W0, R5F1007EGNA#W0 R5F1007AGNA#20, R5F1007CGNA#20, R5F1007DGNA#20, PWQN0024KF-A R5F1007EGNA#20 R5F1007AGNA#40, R5F1007CGNA#40, R5F1007DGNA#40, R5F1007EGNA#40 Not A mounted R5F1017AANA#U0, R5F1017CANA#U0, R5F1017DANA#U0, PWQN0024KE-A R5F1017EANA#U0 R5F1017AANA#W0, R5F1017CANA#W0, R5F1017DANA#W0, R5F1017EANA#W0 R5F1017AANA#20, R5F1017CANA#20, R5F1017DANA#20, PWQN0024KF-A R5F1017EANA#20 R5F1017AANA#40, R5F1017CANA#40, R5F1017DANA#40, R5F1017EANA#40 D R5F1017ADNA#U0, R5F1017CDNA#U0, R5F1017DDNA#U0, PWQN0024KE-A R5F1017EDNA#U0 R5F1017ADNA#W0, R5F1017CDNA#W0, R5F1017DDNA#W0, R5F1017EDNA#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 5 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (3/25) Pin count Package 25 pins 25-pin plastic Data flash Fields of Application Note Mounted A Ordering Part Number R5F1008AALA#U0, R5F1008CALA#U0, R5F1008DALA#U0, WFLGA R5F1008EALA#U0 (3 x 3 mm, R5F1008AALA#W0, R5F1008CALA#W0, R5F1008DALA#W0, 0.5 mm pitch) R5F1008EALA#W0 G RENESAS Code PWLG0025KA-A R5F1008AGLA#U0, R5F1008CGLA#U0, R5F1008DGLA#U0, R5F1008EGLA#U0 R5F1008AGLA#W0, R5F1008CGLA#W0, R5F1008DGLA#W0, R5F1008EGLA#W0 Not A mounted R5F1018AALA#U0, R5F1018CALA#U0, R5F1018DALA#U0, PWLG0025KA-A R5F1018EALA#U0 R5F1018AALA#W0, R5F1018CALA#W0, R5F1018DALA#W0, R5F1018EALA#W0 30 pins 30-pin plastic Mounted A R5F100AAASP#V0, R5F100ACASP#V0, R5F100ADASP#V0, LSSOP R5F100AEASP#V0, R5F100AFASP#V0, R5F100AGASP#V0 (7.62 mm (300), R5F100AAASP#X0, R5F100ACASP#X0, R5F100ADASP#X0, 0.65 mm pitch) R5F100AEASP#X0, R5F100AFASP#X0, R5F100AGASP#X0 PLSP0030JB-B R5F100AAASP#30, R5F100ACASP#30, R5F100ADASP#30, R5F100AEASP#30, R5F100AFASP#30, R5F100AGASP#30 R5F100AAASP#50, R5F100ACASP#50, R5F100ADASP#50, R5F100AEASP#50, R5F100AFASP#50, R5F100AGASP#50 D R5F100AADSP#V0, R5F100ACDSP#V0, R5F100ADDSP#V0, R5F100AEDSP#V0, R5F100AFDSP#V0, R5F100AGDSP#V0 R5F100AADSP#X0, R5F100ACDSP#X0, R5F100ADDSP#X0, R5F100AEDSP#X0, R5F100AFDSP#X0, R5F100AGDSP#X0 R5F100AADSP#30, R5F100ACDSP#30, R5F100ADDSP#30, R5F100AEDSP#30, R5F100AFDSP#30, R5F100AGDSP#30 R5F100AADSP#50, R5F100ACDSP#50, R5F100ADDSP#50, R5F100AEDSP#50, R5F100AFDSP#50, R5F100AGDSP#50 G R5F100AAGSP#V0, R5F100ACGSP#V0, R5F100ADGSP#V0, R5F100AEGSP#V0, R5F100AFGSP#V0, R5F100AGGSP#V0 R5F100AAGSP#X0, R5F100ACGSP#X0, R5F100ADGSP#X0, R5F100AEGSP#X0, R5F100AFGSP#X0, R5F100AGGSP#X0 R5F100AAGSP#30, R5F100ACGSP#30, R5F100ADGSP#30, R5F100AEGSP#30, R5F100AFGSP#30, R5F100AGGSP#30 R5F100AAGSP#50, R5F100ACGSP#50, R5F100ADGSP#50, R5F100AEGSP#50, R5F100AFGSP#50, R5F100AGGSP#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 6 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (4/25) Pin count Package 30 pins 30-pin plastic LSSOP Data flash Fields of Application Note Not A mounted Ordering Part Number R5F101AAASP#V0, R5F101ACASP#V0, R5F101ADASP#V0, RENESAS Code PLSP0030JB-B R5F101AEASP#V0, R5F101AFASP#V0, R5F101AGASP#V0 (7.62 mm (300), R5F101AAASP#X0, R5F101ACASP#X0, R5F101ADASP#X0, 0.65 mm pitch) R5F101AEASP#X0, R5F101AFASP#X0, R5F101AGASP#X0 R5F101AAASP#30, R5F101ACASP#30, R5F101ADASP#30, R5F101AEASP#30, R5F101AFASP#30, R5F101AGASP#30 R5F101AAASP#50, R5F101ACASP#50, R5F101ADASP#50, R5F101AEASP#50, R5F101AFASP#50, R5F101AGASP#50 D R5F101AADSP#V0, R5F101ACDSP#V0, R5F101ADDSP#V0, R5F101AEDSP#V0, R5F101AFDSP#V0, R5F101AGDSP#V0 R5F101AADSP#X0, R5F101ACDSP#X0, R5F101ADDSP#X0, R5F101AEDSP#X0, R5F101AFDSP#X0, R5F101AGDSP#X0 R5F101AADSP#30, R5F101ACDSP#30, R5F101ADDSP#30, R5F101AEDSP#30, R5F101AFDSP#30, R5F101AGDSP#30 R5F101AADSP#50, R5F101ACDSP#50, R5F101ADDSP#50, R5F101AEDSP#50, R5F101AFDSP#50, R5F101AGDSP#50 32 pins 32-pin plastic Mounted A R5F100BAANA#U0, R5F100BCANA#U0, R5F100BDANA#U0, HWQFN R5F100BEANA#U0, R5F100BFANA#U0, R5F100BGANA#U0 (5 x 5 mm, R5F100BAANA#W0, R5F100BCANA#W0, R5F100BDANA#W0, 0.5 mm pitch) R5F100BEANA#W0, R5F100BFANA#W0, R5F100BGANA#W0 R5F100BAANA#20, R5F100BCANA#20, R5F100BDANA#20, PWQN0032KB-A PWQN0032KE-A R5F100BEANA#20, R5F100BFANA#20, R5F100BGANA#20 R5F100BAANA#40, R5F100BCANA#40, R5F100BDANA#40, R5F100BEANA#40, R5F100BFANA#40, R5F100BGANA#40 D R5F100BADNA#U0, R5F100BCDNA#U0, R5F100BDDNA#U0, PWQN0032KB-A R5F100BEDNA#U0, R5F100BFDNA#U0, R5F100BGDNA#U0 R5F100BADNA#W0, R5F100BCDNA#W0, R5F100BDDNA#W0, R5F100BEDNA#W0, R5F100BFDNA#W0, R5F100BGDNA#W0 G R5F100BAGNA#U0, R5F100BCGNA#U0, R5F100BDGNA#U0, R5F100BEGNA#U0, R5F100BFGNA#U0, R5F100BGGNA#U0 R5F100BAGNA#W0, R5F100BCGNA#W0, R5F100BDGNA#W0, R5F100BEGNA#W0, R5F100BFGNA#W0, R5F100BGGNA#W0 R5F100BAGNA#20, R5F100BCGNA#20, R5F100BDGNA#20, PWQN0032KE-A R5F100BEGNA#20, R5F100BFGNA#20, R5F100BGGNA#20 R5F100BAGNA#40, R5F100BCGNA#40, R5F100BDGNA#40, R5F100BEGNA#40, R5F100BFGNA#40, R5F100BGGNA#40 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 7 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (5/25) Pin count Package 32 pins 32-pin plastic HWQFN (5 x 5 mm, Data flash Fields of Application Note Not A mounted Ordering Part Number RENESAS Code R5F101BAANA#U0, R5F101BCANA#U0, R5F101BDANA#U0, PWQN0032KB-A R5F101BEANA#U0, R5F101BFANA#U0, R5F101BGANA#U0 R5F101BAANA#W0, R5F101BCANA#W0, R5F101BDANA#W0, 0.5 mm pitch) R5F101BEANA#W0, R5F101BFANA#W0, R5F101BGANA#W0 R5F101BAANA#20, R5F101BCANA#20, R5F101BDANA#20, PWQN0032KE-A R5F101BEANA#20, R5F101BFANA#20, R5F101BGANA#20 R5F101BAANA#40, R5F101BCANA#40, R5F101BDANA#40, R5F101BEANA#40, R5F101BFANA#40, R5F101BGANA#40 D R5F101BADNA#U0, R5F101BCDNA#U0, R5F101BDDNA#U0, PWQN0032KB-A R5F101BEDNA#U0, R5F101BFDNA#U0, R5F101BGDNA#U0 R5F101BADNA#W0, R5F101BCDNA#W0, R5F101BDDNA#W0, R5F101BEDNA#W0, R5F101BFDNA#W0, R5F101BGDNA#W0 36 pins 36-pin plastic Mounted A R5F100CAALA#U0, R5F100CCALA#U0, R5F100CDALA#U0, WFLGA (4 x 4 mm, R5F100CEALA#U0, R5F100CFALA#U0, R5F100CGALA#U0 0.5 mm pitch) R5F100CEALA#W0, R5F100CFALA#W0, R5F100CGALA#W0 PWLG0036KA-A R5F100CAALA#W0, R5F100CCALA#W0, R5F100CDALA#W0, G R5F100CAGLA#U0, R5F100CCGLA#U0, R5F100CDGLA#U0, R5F100CEGLA#U0, R5F100CFGLA#U0, R5F100CGGLA#U0 R5F100CAGLA#W0, R5F100CCGLA#W0, R5F100CDGLA#W0, R5F100CEGLA#W0, R5F100CFGLA#W0, R5F100CGGLA#W0 Not mounted A R5F101CAALA#U0, R5F101CCALA#U0, R5F101CDALA#U0, PWLG0036KA-A R5F101CEALA#U0, R5F101CFALA#U0, R5F101CGALA#U0 R5F101CAALA#W0, R5F101CCALA#W0, R5F101CDALA#W0, R5F101CEALA#W0, R5F101CFALA#W0, R5F101CGALA#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 8 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (6/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F100EAANA#U0, R5F100ECANA#U0, R5F100EDANA#U0, PWQN0040KC-A Fields of Application Note count 40 pins 40-pin plastic Mounted A HWQFN R5F100EEANA#U0, R5F100EFANA#U0, R5F100EGANA#U0, (6 x 6 mm, R5F100EHANA#U0 0.5 mm pitch) R5F100EAANA#W0, R5F100ECANA#W0, R5F100EDANA#W0, R5F100EEANA#W0, R5F100EFANA#W0, R5F100EGANA#W0, R5F100EHANA#W0 D R5F100EADNA#U0, R5F100ECDNA#U0, R5F100EDDNA#U0, R5F100EEDNA#U0, R5F100EFDNA#U0, R5F100EGDNA#U0, R5F100EHDNA#U0 R5F100EADNA#W0, R5F100ECDNA#W0, R5F100EDDNA#W0, R5F100EEDNA#W0, R5F100EFDNA#W0, R5F100EGDNA#W0, R5F100EHDNA#W0 G R5F100EAGNA#U0, R5F100ECGNA#U0, R5F100EDGNA#U0, R5F100EEGNA#U0, R5F100EFGNA#U0, R5F100EGGNA#U0, R5F100EHGNA#U0 R5F100EAGNA#W0, R5F100ECGNA#W0, R5F100EDGNA#W0, R5F100EEGNA#W0, R5F100EFGNA#W0, R5F100EGGNA#W0, R5F100EHGNA#W0 Not A mounted R5F101EAANA#U0, R5F101ECANA#U0, R5F101EDANA#U0, PWQN0040KC-A R5F101EEANA#U0, R5F101EFANA#U0, R5F101EGANA#U0, R5F101EHANA#U0 R5F101EAANA#W0, R5F101ECANA#W0, R5F101EDANA#W0, R5F101EEANA#W0, R5F101EFANA#W0, R5F101EGANA#W0, R5F101EHANA#W0 D R5F101EADNA#U0, R5F101ECDNA#U0, R5F101EDDNA#U0, R5F101EEDNA#U0, R5F101EFDNA#U0, R5F101EGDNA#U0, R5F101EHDNA#U0 R5F101EADNA#W0, R5F101ECDNA#W0, R5F101EDDNA#W0, R5F101EEDNA#W0, R5F101EFDNA#W0, R5F101EGDNA#W0, R5F101EHDNA#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 9 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (7/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 44 pins 44-pin plastic Mounted A R5F100FAAFP#V0, R5F100FCAFP#V0, R5F100FDAFP#V0, LQFP R5F100FEAFP#V0, R5F100FFAFP#V0, R5F100FGAFP#V0, (10 x 10 mm, R5F100FHAFP#V0, R5F100FJAFP#V0, R5F100FKAFP#V0, 0.8 mm pitch) R5F100FLAFP#V0 PLQP0044GC-A R5F100FAAFP#X0, R5F100FCAFP#X0, R5F100FDAFP#X0, R5F100FEAFP#X0, R5F100FFAFP#X0, R5F100FGAFP#X0, R5F100FHAFP#X0, R5F100FJAFP#X0, R5F100FKAFP#X0, R5F100FLAFP#X0 R5F100FAAFP#30, R5F100FCAFP#30, R5F100FDAFP#30, PLQP0044GC-A/ R5F100FEAFP#30, R5F100FFAFP#30, R5F100FGAFP#30, PLQP0044GC-D R5F100FHAFP#30, R5F100FJAFP#30, R5F100FKAFP#30, R5F100FLAFP#30 R5F100FAAFP#50, R5F100FCAFP#50, R5F100FDAFP#50, R5F100FEAFP#50, R5F100FFAFP#50, R5F100FGAFP#50, R5F100FHAFP#50, R5F100FJAFP#50, R5F100FKAFP#50, R5F100FLAFP#50 D R5F100FADFP#V0, R5F100FCDFP#V0, R5F100FDDFP#V0, PLQP0044GC-A R5F100FEDFP#V0, R5F100FFDFP#V0, R5F100FGDFP#V0, R5F100FHDFP#V0, R5F100FJDFP#V0, R5F100FKDFP#V0, R5F100FLDFP#V0 R5F100FADFP#X0, R5F100FCDFP#X0, R5F100FDDFP#X0, R5F100FEDFP#X0, R5F100FFDFP#X0, R5F100FGDFP#X0, R5F100FHDFP#X0, R5F100FJDFP#X0, R5F100FKDFP#X0, R5F100FLDFP#X0 R5F100FADFP#30, R5F100FCDFP#30, R5F100FDDFP#30, PLQP0044GC-A/ R5F100FEDFP#30, R5F100FFDFP#30, R5F100FGDFP#30, PLQP0044GC-D R5F100FHDFP#30, R5F100FJDFP#30, R5F100FKDFP#30, R5F100FLDFP#30 R5F100FADFP#50, R5F100FCDFP#50, R5F100FDDFP#50, R5F100FEDFP#50, R5F100FFDFP#50, R5F100FGDFP#50, R5F100FHDFP#50, R5F100FJDFP#50, R5F100FKDFP#50, R5F100FLDFP#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 10 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (8/25) Pin Package Data flash Fields of Ordering Part Number RENESAS Code R5F100FAGFP#V0, R5F100FCGFP#V0, R5F100FDGFP#V0, PLQP0044GC-A Application Note count 44 pins 44-pin plastic Mounted G LQFP R5F100FEGFP#V0, R5F100FFGFP#V0, R5F100FGGFP#V0, (10 x 10 mm, R5F100FHGFP#V0, R5F100FJGFP#V0 0.8 mm pitch) R5F100FAGFP#X0, R5F100FCGFP#X0, R5F100FDGFP#X0, R5F100FEGFP#X0, R5F100FFGFP#X0, R5F100FGGFP#X0, R5F100FHGFP#X0, R5F100FJGFP#X0 R5F100FAGFP#30, R5F100FCGFP#30, R5F100FDGFP#30, PLQP0044GC-A/ R5F100FEGFP#30, R5F100FFGFP#30, R5F100FGGFP#30, PLQP0044GC-D R5F100FHGFP#30, R5F100FJGFP#30 R5F100FAGFP#50, R5F100FCGFP#50, R5F100FDGFP#50, R5F100FEGFP#50, R5F100FFGFP#50, R5F100FGGFP#50, R5F100FHGFP#50, R5F100FJGFP#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 11 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (9/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 44 pins 44-pin plastic LQFP Not A mounted R5F101FAAFP#V0, R5F101FCAFP#V0, R5F101FDAFP#V0, PLQP0044GC-A R5F101FEAFP#V0, R5F101FFAFP#V0, R5F101FGAFP#V0, (10 x 10 mm, R5F101FHAFP#V0, R5F101FJAFP#V0, R5F101FKAFP#V0, 0.8 mm pitch) R5F101FLAFP#V0 R5F101FAAFP#X0, R5F101FCAFP#X0, R5F101FDAFP#X0, R5F101FEAFP#X0, R5F101FFAFP#X0, R5F101FGAFP#X0, R5F101FHAFP#X0, R5F101FJAFP#X0, R5F101FKAFP#X0, R5F101FLAFP#X0 R5F101FAAFP#30, R5F101FCAFP#30, R5F101FDAFP#30, PLQP0044GC-A/ R5F101FEAFP#30, R5F101FFAFP#30, R5F101FGAFP#30, PLQP0044GC-D R5F101FHAFP#30, R5F101FJAFP#30, R5F101FKAFP#30, R5F101FLAFP#30 R5F101FAAFP#50, R5F101FCAFP#50, R5F101FDAFP#50, R5F101FEAFP#50, R5F101FFAFP#50, R5F101FGAFP#50, R5F101FHAFP#50, R5F101FJAFP#50, R5F101FKAFP#50, R5F101FLAFP#50 D R5F101FADFP#V0, R5F101FCDFP#V0, R5F101FDDFP#V0, PLQP0044GC-A R5F101FEDFP#V0, R5F101FFDFP#V0, R5F101FGDFP#V0, R5F101FHDFP#V0, R5F101FJDFP#V0, R5F101FKDFP#V0, R5F101FLDFP#V0 R5F101FADFP#X0, R5F101FCDFP#X0, R5F101FDDFP#X0, R5F101FEDFP#X0, R5F101FFDFP#X0, R5F101FGDFP#X0, R5F101FHDFP#X0, R5F101FJDFP#X0, R5F101FKDFP#X0, R5F101FLDFP#X0 R5F101FADFP#30, R5F101FCDFP#30, R5F101FDDFP#30, PLQP0044GC-A/ R5F101FEDFP#30, R5F101FFDFP#30, R5F101FGDFP#30, PLQP0044GC-D R5F101FHDFP#30, R5F101FJDFP#30, R5F101FKDFP#30, R5F101FLDFP#30 R5F101FADFP#50, R5F101FCDFP#50, R5F101FDDFP#50, R5F101FEDFP#50, R5F101FFDFP#50, R5F101FGDFP#50, R5F101FHDFP#50, R5F101FJDFP#50, R5F101FKDFP#50, R5F101FLDFP#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 12 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (10/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F100GAAFB#V0, R5F100GCAFB#V0, R5F100GDAFB#V0, PLQP0048KF-A Fields of Application Note count 48 pins 48-pin plastic Mounted A LFQFP R5F100GEAFB#V0, R5F100GFAFB#V0, R5F100GGAFB#V0, (7 x 7 mm, R5F100GHAFB#V0, R5F100GJAFB#V0, R5F100GKAFB#V0, 0.5 mm pitch) R5F100GLAFB#V0 R5F100GAAFB#X0, R5F100GCAFB#X0, R5F100GDAFB#X0, R5F100GEAFB#X0, R5F100GFAFB#X0, R5F100GGAFB#X0, R5F100GHAFB#X0, R5F100GJAFB#X0, R5F100GKAFB#X0, R5F100GLAFB#X0 R5F100GAAFB#30, R5F100GCAFB#30, R5F100GDAFB#30, PLQP0048KB-B R5F100GEAFB#30, R5F100GFAFB#30, R5F100GGAFB#30, R5F100GHAFB#30, R5F100GJAFB#30, R5F100GKAFB#30, R5F100GLAFB#30 R5F100GAAFB#50, R5F100GCAFB#50, R5F100GDAFB#50, R5F100GEAFB#50, R5F100GFAFB#50, R5F100GGAFB#50, R5F100GHAFB#50, R5F100GJAFB#50, R5F100GKAFB#50, R5F100GLAFB#50 D R5F100GADFB#V0, R5F100GCDFB#V0, R5F100GDDFB#V0, PLQP0048KF-A R5F100GEDFB#V0, R5F100GFDFB#V0, R5F100GGDFB#V0, R5F100GHDFB#V0, R5F100GJDFB#V0, R5F100GKDFB#V0, R5F100GLDFB#V0 R5F100GADFB#X0, R5F100GCDFB#X0, R5F100GDDFB#X0, R5F100GEDFB#X0, R5F100GFDFB#X0, R5F100GGDFB#X0, R5F100GHDFB#X0, R5F100GJDFB#X0, R5F100GKDFB#X0, R5F100GLDFB#X0 R5F100GADFB#30, R5F100GCDFB#30, R5F100GDDFB#30, PLQP0048KB-B R5F100GEDFB#30, R5F100GFDFB#30, R5F100GGDFB#30, R5F100GHDFB#30, R5F100GJDFB#30, R5F100GKDFB#30, R5F100GLDFB#30 R5F100GADFB#50, R5F100GCDFB#50, R5F100GDDFB#50, R5F100GEDFB#50, R5F100GFDFB#50, R5F100GGDFB#50, R5F100GHDFB#50, R5F100GJDFB#50, R5F100GKDFB#50, R5F100GLDFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 13 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (11/25) Pin Package Data flash Fields of Ordering Part Number RENESAS Code Application Note count 48 pins 48-pin plastic Mounted G R5F100GAGFB#V0, R5F100GCGFB#V0, R5F100GDGFB#V0, PLQP0048KF-A LFQFP R5F100GEGFB#V0, R5F100GFGFB#V0, R5F100GGGFB#V0, (7 x 7 mm, R5F100GHGFB#V0, R5F100GJGFB#V0 0.5 mm pitch) R5F100GAGFB#X0, R5F100GCGFB#X0, R5F100GDGFB#X0, R5F100GEGFB#X0, R5F100GFGFB#X0, R5F100GGGFB#X0, R5F100GHGFB#X0, R5F100GJGFB#X0 R5F100GAGFB#30, R5F100GCGFB#30, R5F100GDGFB#30, PLQP0048KB-B R5F100GEGFB#30, R5F100GFGFB#30, R5F100GGGFB#30, R5F100GHGFB#30, R5F100GJGFB#30 R5F100GAGFB#50, R5F100GCGFB#50, R5F100GDGFB#50, R5F100GEGFB#50, R5F100GFGFB#50, R5F100GGGFB#50, R5F100GHGFB#50, R5F100GJGFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 14 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (12/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F101GAAFB#V0, R5F101GCAFB#V0, R5F101GDAFB#V0, PLQP0048KF-A Fields of Application Note count 48 pins 48-pin plastic LFQFP Not A mounted R5F101GEAFB#V0, R5F101GFAFB#V0, R5F101GGAFB#V0, (7 x 7 mm, R5F101GHAFB#V0, R5F101GJAFB#V0, R5F101GKAFB#V0, 0.5 mm pitch) R5F101GLAFB#V0 R5F101GAAFB#X0, R5F101GCAFB#X0, R5F101GDAFB#X0, R5F101GEAFB#X0, R5F101GFAFB#X0, R5F101GGAFB#X0, R5F101GHAFB#X0, R5F101GJAFB#X0, R5F101GKAFB#X0, R5F101GLAFB#X0 R5F101GAAFB#30, R5F101GCAFB#30, R5F101GDAFB#30, PLQP0048KB-B R5F101GEAFB#30, R5F101GFAFB#30, R5F101GGAFB#30, R5F101GHAFB#30, R5F101GJAFB#30, R5F101GKAFB#30, R5F101GLAFB#30 R5F101GAAFB#50, R5F101GCAFB#50, R5F101GDAFB#50, R5F101GEAFB#50, R5F101GFAFB#50, R5F101GGAFB#50, R5F101GHAFB#50, R5F101GJAFB#50, R5F101GKAFB#50, R5F101GLAFB#50 D R5F101GADFB#V0, R5F101GCDFB#V0, R5F101GDDFB#V0, PLQP0048KF-A R5F101GEDFB#V0, R5F101GFDFB#V0, R5F101GGDFB#V0, R5F101GHDFB#V0, R5F101GJDFB#V0, R5F101GKDFB#V0, R5F101GLDFB#V0 R5F101GADFB#X0, R5F101GCDFB#X0, R5F101GDDFB#X0, R5F101GEDFB#X0, R5F101GFDFB#X0, R5F101GGDFB#X0, R5F101GHDFB#X0, R5F101GJDFB#X0, R5F101GKDFB#X0, R5F101GLDFB#X0 R5F101GADFB#30, R5F101GCDFB#30, R5F101GDDFB#30, PLQP0048KB-B R5F101GEDFB#30, R5F101GFDFB#30, R5F101GGDFB#30, R5F101GHDFB#30, R5F101GJDFB#30, R5F101GKDFB#30, R5F101GLDFB#30 R5F101GADFB#50, R5F101GCDFB#50, R5F101GDDFB#50, R5F101GEDFB#50, R5F101GFDFB#50, R5F101GGDFB#50, R5F101GHDFB#50, R5F101GJDFB#50, R5F101GKDFB#50, R5F101GLDFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 15 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (13/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F100GAANA#U0, R5F100GCANA#U0, R5F100GDANA#U0, PWQN0048KB-A Fields of Application Note count 48 pins 48-pin plastic Mounted A HWQFN R5F100GEANA#U0, R5F100GFANA#U0, R5F100GGANA#U0, (7 x 7 mm, R5F100GHANA#U0, R5F100GJANA#U0, R5F100GKANA#U0, 0.5 mm pitch) R5F100GLANA#U0 R5F100GAANA#W0, R5F100GCANA#W0, R5F100GDANA#W0, R5F100GEANA#W0, R5F100GFANA#W0, R5F100GGANA#W0, R5F100GHANA#W0, R5F100GJANA#W0, R5F100GKANA#W0, R5F100GLANA#W0 D R5F100GADNA#U0, R5F100GCDNA#U0, R5F100GDDNA#U0, R5F100GEDNA#U0, R5F100GFDNA#U0, R5F100GGDNA#U0, R5F100GHDNA#U0, R5F100GJDNA#U0, R5F100GKDNA#U0, R5F100GLDNA#U0 R5F100GADNA#W0, R5F100GCDNA#W0, R5F100GDDNA#W0, R5F100GEDNA#W0, R5F100GFDNA#W0, R5F100GGDNA#W0, R5F100GHDNA#W0, R5F100GJDNA#W0, R5F100GKDNA#W0, R5F100GLDNA#W0 G R5F100GAGNA#U0, R5F100GCGNA#U0, R5F100GDGNA#U0, R5F100GEGNA#U0, R5F100GFGNA#U0, R5F100GGGNA#U0, R5F100GHGNA#U0, R5F100GJGNA#U0 R5F100GAGNA#W0, R5F100GCGNA#W0, R5F100GDGNA#W0, R5F100GEGNA#W0, R5F100GFGNA#W0, R5F100GGGNA#W0, R5F100GHGNA#W0, R5F100GJGNA#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 16 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (14/25) Pin Package Data flash Ordering Part Number RENESAS Code R5F101GAANA#U0, R5F101GCANA#U0, R5F101GDANA#U0, PWQN0048KB-A Fields of Application Note count 48 pins 48-pin plastic HWQFN Not A mounted R5F101GEANA#U0, R5F101GFANA#U0, R5F101GGANA#U0, (7 x 7 mm, R5F101GHANA#U0, R5F101GJANA#U0, R5F101GKANA#U0, 0.5 mm pitch) R5F101GLANA#U0 R5F101GAANA#W0, R5F101GCANA#W0, R5F101GDANA#W0, R5F101GEANA#W0, R5F101GFANA#W0, R5F101GGANA#W0, R5F101GHANA#W0, R5F101GJANA#W0, R5F101GKANA#W0, R5F101GLANA#W0 D R5F101GADNA#U0, R5F101GCDNA#U0, R5F101GDDNA#U0, R5F101GEDNA#U0, R5F101GFDNA#U0, R5F101GGDNA#U0, R5F101GHDNA#U0, R5F101GJDNA#U0, R5F101GKDNA#U0, R5F101GLDNA#U0 R5F101GADNA#W0, R5F101GCDNA#W0, R5F101GDDNA#W0, R5F101GEDNA#W0, R5F101GFDNA#W0, R5F101GGDNA#W0, R5F101GHDNA#W0, R5F101GJDNA#W0, R5F101GKDNA#W0, R5F101GLDNA#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 17 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (15/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 52 pins 52-pin plastic Mounted A R5F100JCAFA#V0, R5F100JDAFA#V0, R5F100JEAFA#V0, LQFP R5F100JFAFA#V0, R5F100JGAFA#V0, R5F100JHAFA#V0, (10 x 10 mm, R5F100JJAFA#V0, R5F100JKAFA#V0, R5F100JLAFA#V0 0.65 mm pitch) R5F100JCAFA#X0, R5F100JDAFA#X0, R5F100JEAFA#X0, PLQP0052JA-A R5F100JFAFA#X0, R5F100JGAFA#X0, R5F100JHAFA#X0, R5F100JJAFA#X0, R5F100JKAFA#X0, R5F100JLAFA#X0 R5F100JCAFA#30, R5F100JDAFA#30, R5F100JEAFA#30, R5F100JFAFA#30, R5F100JGAFA#30, R5F100JHAFA#30, R5F100JJAFA#30, R5F100JKAFA#30, R5F100JLAFA#30 R5F100JCAFA#50, R5F100JDAFA#50, R5F100JEAFA#50, R5F100JFAFA#50, R5F100JGAFA#50, R5F100JHAFA#50, R5F100JJAFA#50, R5F100JKAFA#50, R5F100JLAFA#50 D R5F100JCDFA#V0, R5F100JDDFA#V0, R5F100JEDFA#V0, R5F100JFDFA#V0, R5F100JGDFA#V0, R5F100JHDFA#V0, R5F100JJDFA#V0, R5F100JKDFA#V0, R5F100JLDFA#V0 R5F100JCDFA#X0, R5F100JDDFA#X0, R5F100JEDFA#X0, R5F100JFDFA#X0, R5F100JGDFA#X0, R5F100JHDFA#X0, R5F100JJDFA#X0, R5F100JKDFA#X0, R5F100JLDFA#X0 R5F100JCDFA#30, R5F100JDDFA#30, R5F100JEDFA#30, R5F100JFDFA#30, R5F100JGDFA#30, R5F100JHDFA#30, R5F100JJDFA#30, R5F100JKDFA#30, R5F100JLDFA#30 R5F100JCDFA#50, R5F100JDDFA#50, R5F100JEDFA#50, R5F100JFDFA#50, R5F100JGDFA#50, R5F100JHDFA#50, R5F100JJDFA#50, R5F100JKDFA#50, R5F100JLDFA#50 G R5F100JCGFA#V0, R5F100JDGFA#V0, R5F100JEGFA#V0, R5F100JFGFA#V0, R5F100JGGFA#V0, R5F100JHGFA#V0, R5F100JJGFA#V0 R5F100JCGFA#X0, R5F100JDGFA#X0, R5F100JEGFA#X0, R5F100JFGFA#X0, R5F100JGGFA#X0, R5F100JHGFA#X0, R5F100JJGFA#X0 R5F100JCGFA#30, R5F100JDGFA#30, R5F100JEGFA#30, R5F100JFGFA#30, R5F100JGGFA#30, R5F100JHGFA#30, R5F100JJGFA#30 R5F100JCGFA#50, R5F100JDGFA#50, R5F100JEGFA#50, R5F100JFGFA#50, R5F100JGGFA#50, R5F100JHGFA#50, R5F100JJGFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 18 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (16/25) Pin Package Data flash Ordering Part Number RENESAS Code Application Note count 52 pins Fields of 52-pin plastic Not LQFP mounted A R5F101JCAFA#V0, R5F101JDAFA#V0, R5F101JEAFA#V0, PLQP0052JA-A R5F101JFAFA#V0, R5F101JGAFA#V0, R5F101JHAFA#V0, (10 x 10 mm, R5F101JJAFA#V0, R5F101JKAFA#V0, R5F101JLAFA#V0 0.65 mm pitch) R5F101JCAFA#X0, R5F101JDAFA#X0, R5F101JEAFA#X0, R5F101JFAFA#X0, R5F101JGAFA#X0, R5F101JHAFA#X0, R5F101JJAFA#X0, R5F101JKAFA#X0, R5F101JLAFA#X0 R5F101JCAFA#30, R5F101JDAFA#30, R5F101JEAFA#30, R5F101JFAFA#30, R5F101JGAFA#30, R5F101JHAFA#30, R5F101JJAFA#30, R5F101JKAFA#30, R5F101JLAFA#30 R5F101JCAFA#50, R5F101JDAFA#50, R5F101JEAFA#50, R5F101JFAFA#50, R5F101JGAFA#50, R5F101JHAFA#50, R5F101JJAFA#50, R5F101JKAFA#50, R5F101JLAFA#50 D R5F101JCDFA#V0, R5F101JDDFA#V0, R5F101JEDFA#V0, R5F101JFDFA#V0, R5F101JGDFA#V0, R5F101JHDFA#V0, R5F101JJDFA#V0, R5F101JKDFA#V0, R5F101JLDFA#V0 R5F101JCDFA#X0, R5F101JDDFA#X0, R5F101JEDFA#X0, R5F101JFDFA#X0, R5F101JGDFA#X0, R5F101JHDFA#X0, R5F101JJDFA#X0, R5F101JKDFA#X0, R5F101JLDFA#X0 R5F101JCDFA#30, R5F101JDDFA#30, R5F101JEDFA#30, R5F101JFDFA#30, R5F101JGDFA#30, R5F101JHDFA#30, R5F101JJDFA#30, R5F101JKDFA#30, R5F101JLDFA#30 R5F101JCDFA#50, R5F101JDDFA#50, R5F101JEDFA#50, R5F101JFDFA#50, R5F101JGDFA#50, R5F101JHDFA#50, R5F101JJDFA#50, R5F101JKDFA#50, R5F101JLDFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 19 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (17/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 64 pins 64-pin plastic Mounted A R5F100LCAFA#V0, R5F100LDAFA#V0, R5F100LEAFA#V0, LQFP R5F100LFAFA#V0, R5F100LGAFA#V0, R5F100LHAFA#V0, (12 x 12 mm, R5F100LJAFA#V0, R5F100LKAFA#V0, R5F100LLAFA#V0 0.65 mm pitch) R5F100LCAFA#X0, R5F100LDAFA#X0, R5F100LEAFA#X0, PLQP0064JA-A R5F100LFAFA#X0, R5F100LGAFA#X0, R5F100LHAFA#X0, R5F100LJAFA#X0, R5F100LKAFA#X0, R5F100LLAFA#X0 R5F100LCAFA#30, R5F100LDAFA#30, R5F100LEAFA#30, R5F100LFAFA#30, R5F100LGAFA#30, R5F100LHAFA#30, R5F100LJAFA#30, R5F100LKAFA#30, R5F100LLAFA#30 R5F100LCAFA#50, R5F100LDAFA#50, R5F100LEAFA#50, R5F100LFAFA#50, R5F100LGAFA#50, R5F100LHAFA#50, R5F100LJAFA#50, R5F100LKAFA#50, R5F100LLAFA#50 D R5F100LCDFA#V0, R5F100LDDFA#V0, R5F100LEDFA#V0, R5F100LFDFA#V0, R5F100LGDFA#V0, R5F100LHDFA#V0, R5F100LJDFA#V0, R5F100LKDFA#V0, R5F100LLDFA#V0 R5F100LCDFA#X0, R5F100LDDFA#X0, R5F100LEDFA#X0, R5F100LFDFA#X0, R5F100LGDFA#X0, R5F100LHDFA#X0, R5F100LJDFA#X0, R5F100LKDFA#X0, R5F100LLDFA#X0 R5F100LCDFA#30, R5F100LDDFA#30, R5F100LEDFA#30, R5F100LFDFA#30, R5F100LGDFA#30, R5F100LHDFA#30, R5F100LJDFA#30, R5F100LKDFA#30, R5F100LLDFA#30 R5F100LCDFA#50, R5F100LDDFA#50, R5F100LEDFA#50, R5F100LFDFA#50, R5F100LGDFA#50, R5F100LHDFA#50, R5F100LJDFA#50, R5F100LKDFA#50, R5F100LLDFA#50 G R5F100LCGFA#V0, R5F100LDGFA#V0, R5F100LEGFA#V0, R5F100LFGFA#V0, R5F100LGGFA#V0, R5F100LHGFA#V0, R5F100LJGFA#V0 R5F100LCGFA#X0, R5F100LDGFA#X0, R5F100LEGFA#X0, R5F100LFGFA#X0, R5F100LGGFA#X0, R5F100LHGFA#X0, R5F100LJGFA#X0 R5F100LCGFA#30, R5F100LDGFA#30, R5F100LEGFA#30, R5F100LFGFA#30, R5F100LGGFA#30, R5F100LHGFA#30, R5F100LJGFA#30 R5F100LCGFA#50, R5F100LDGFA#50, R5F100LEGFA#50, R5F100LFGFA#50, R5F100LGGFA#50, R5F100LHGFA#50, R5F100LJGFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 20 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (18/25) Pin Package Data flash Fields of Ordering Part Number RENESAS Code Application Note count 64 pins 64-pin plastic LQFP Not A mounted R5F101LCAFA#V0, R5F101LDAFA#V0, R5F101LEAFA#V0, PLQP0064JA-A R5F101LFAFA#V0, R5F101LGAFA#V0, R5F101LHAFA#V0, (12 x 12 mm, R5F101LJAFA#V0, R5F101LKAFA#V0, R5F101LLAFA#V0 0.65 mm pitch) R5F101LCAFA#X0, R5F101LDAFA#X0, R5F101LEAFA#X0, R5F101LFAFA#X0, R5F101LGAFA#X0, R5F101LHAFA#X0, R5F101LJAFA#X0, R5F101LKAFA#X0, R5F101LLAFA#X0 R5F101LCAFA#30, R5F101LDAFA#30, R5F101LEAFA#30, R5F101LFAFA#30, R5F101LGAFA#30, R5F101LHAFA#30, R5F101LJAFA#30, R5F101LKAFA#30, R5F101LLAFA#30 R5F101LCAFA#50, R5F101LDAFA#50, R5F101LEAFA#50, R5F101LFAFA#50, R5F101LGAFA#50, R5F101LHAFA#50, R5F101LJAFA#50, R5F101LKAFA#50, R5F101LLAFA#50 D R5F101LCDFA#V0, R5F101LDDFA#V0, R5F101LEDFA#V0, R5F101LFDFA#V0, R5F101LGDFA#V0, R5F101LHDFA#V0, R5F101LJDFA#V0, R5F101LKDFA#V0, R5F101LLDFA#V0 R5F101LCDFA#X0, R5F101LDDFA#X0, R5F101LEDFA#X0, R5F101LFDFA#X0, R5F101LGDFA#X0, R5F101LHDFA#X0, R5F101LJDFA#X0, R5F101LKDFA#X0, R5F101LLDFA#X0 R5F101LCDFA#30, R5F101LDDFA#30, R5F101LEDFA#30, R5F101LFDFA#30, R5F101LGDFA#30, R5F101LHDFA#30, R5F101LJDFA#30, R5F101LKDFA#30, R5F101LLDFA#30 R5F101LCDFA#50, R5F101LDDFA#50, R5F101LEDFA#50, R5F101LFDFA#50, R5F101LGDFA#50, R5F101LHDFA#50, R5F101LJDFA#50, R5F101LKDFA#50, R5F101LLDFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 21 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (19/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 64 pins 64-pin plastic Mounted A R5F100LCAFB#V0, R5F100LDAFB#V0, R5F100LEAFB#V0, LFQFP R5F100LFAFB#V0, R5F100LGAFB#V0, R5F100LHAFB#V0, (10 x 10 mm, R5F100LJAFB#V0, R5F100LKAFB#V0, R5F100LLAFB#V0 0.5 mm pitch) R5F100LCAFB#X0, R5F100LDAFB#X0, R5F100LEAFB#X0, PLQP0064KF-A R5F100LFAFB#X0, R5F100LGAFB#X0, R5F100LHAFB#X0, R5F100LJAFB#X0, R5F100LKAFB#X0, R5F100LLAFB#X0 R5F100LCAFB#30, R5F100LDAFB#30, R5F100LEAFB#30, PLQP0064KB-C R5F100LFAFB#30, R5F100LGAFB#30, R5F100LHAFB#30, R5F100LJAFB#30, R5F100LKAFB#30, R5F100LLAFB#30 R5F100LCAFB#50, R5F100LDAFB#50, R5F100LEAFB#50, R5F100LFAFB#50, R5F100LGAFB#50, R5F100LHAFB#50, R5F100LJAFB#50, R5F100LKAFB#50, R5F100LLAFB#50 D R5F100LCDFB#V0, R5F100LDDFB#V0, R5F100LEDFB#V0, PLQP0064KF-A R5F100LFDFB#V0, R5F100LGDFB#V0, R5F100LHDFB#V0, R5F100LJDFB#V0, R5F100LKDFB#V0, R5F100LLDFB#V0 R5F100LCDFB#X0, R5F100LDDFB#X0, R5F100LEDFB#X0, R5F100LFDFB#X0, R5F100LGDFB#X0, R5F100LHDFB#X0, R5F100LJDFB#X0, R5F100LKDFB#X0, R5F100LLDFB#X0 R5F100LCDFB#30, R5F100LDDFB#30, R5F100LEDFB#30, PLQP0064KB-C R5F100LFDFB#30, R5F100LGDFB#30, R5F100LHDFB#30, R5F100LJDFB#30, R5F100LKDFB#30, R5F100LLDFB#30 R5F100LCDFB#50, R5F100LDDFB#50, R5F100LEDFB#50, R5F100LFDFB#50, R5F100LGDFB#50, R5F100LHDFB#50, R5F100LJDFB#50, R5F100LKDFB#50, R5F100LLDFB#50 G R5F100LCGFB#V0, R5F100LDGFB#V0, R5F100LEGFB#V0, PLQP0064KF-A R5F100LFGFB#V0, R5F100LGGFB#V0, R5F100LHGFB#V0, R5F100LJGFB#V0 R5F100LCGFB#X0, R5F100LDGFB#X0, R5F100LEGFB#X0, R5F100LFGFB#X0, R5F100LGGFB#X0, R5F100LHGFB#X0, R5F100LJGFB#X0 R5F100LCGFB#30, R5F100LDGFB#30, R5F100LEGFB#30, PLQP0064KB-C R5F100LFGFB#30, R5F100LGGFB#30, R5F100LHGFB#30, R5F100LJGFB#30 R5F100LCGFB#50, R5F100LDGFB#50, R5F100LEGFB#50, R5F100LFGFB#50, R5F100LGGFB#50, R5F100LHGFB#50, R5F100LJGFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 22 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (20/25) Pin Package Data flash RENESAS Code Application Note count 64 pins Ordering Part Number Fields of 64-pin plastic Not LFQFP A R5F101LCAFB#V0, R5F101LDAFB#V0, R5F101LEAFB#V0, PLQP0064KF-A R5F101LFAFB#V0, R5F101LGAFB#V0, R5F101LHAFB#V0, mounted (10 x 10 mm, R5F101LJAFB#V0, R5F101LKAFB#V0, R5F101LLAFB#V0 0.5 mm pitch) R5F101LCAFB#X0, R5F101LDAFB#X0, R5F101LEAFB#X0, R5F101LFAFB#X0, R5F101LGAFB#X0, R5F101LHAFB#X0, R5F101LJAFB#X0, R5F101LKAFB#X0, R5F101LLAFB#X0 R5F101LCAFB#30, R5F101LDAFB#30, R5F101LEAFB#30, PLQP0064KB-C R5F101LFAFB#30, R5F101LGAFB#30, R5F101LHAFB#30, R5F101LJAFB#30, R5F101LKAFB#30, R5F101LLAFB#30 R5F101LCAFB#50, R5F101LDAFB#50, R5F101LEAFB#50, R5F101LFAFB#50, R5F101LGAFB#50, R5F101LHAFB#50, R5F101LJAFB#50, R5F101LKAFB#50, R5F101LLAFB#50 D R5F101LCDFB#V0, R5F101LDDFB#V0, R5F101LEDFB#V0, PLQP0064KF-A R5F101LFDFB#V0, R5F101LGDFB#V0, R5F101LHDFB#V0, R5F101LJDFB#V0, R5F101LKDFB#V0, R5F101LLDFB#V0 R5F101LCDFB#X0, R5F101LDDFB#X0, R5F101LEDFB#X0, R5F101LFDFB#X0, R5F101LGDFB#X0, R5F101LHDFB#X0, R5F101LJDFB#X0, R5F101LKDFB#X0, R5F101LLDFB#X0 R5F101LCDFB#30, R5F101LDDFB#30, R5F101LEDFB#30, PLQP0064KB-C R5F101LFDFB#30, R5F101LGDFB#30, R5F101LHDFB#30, R5F101LJDFB#30, R5F101LKDFB#30, R5F101LLDFB#30 R5F101LCDFB#50, R5F101LDDFB#50, R5F101LEDFB#50, R5F101LFDFB#50, R5F101LGDFB#50, R5F101LHDFB#50, R5F101LJDFB#50, R5F101LKDFB#50, R5F101LLDFB#50 64-pin plastic Mounted A R5F100LCABG#U0, R5F100LDABG#U0, R5F100LEABG#U0, VFBGA R5F100LFABG#U0, R5F100LGABG#U0, R5F100LHABG#U0, (4 x 4 mm, R5F100LJABG#U0 0.4 mm pitch) R5F100LCABG#W0, R5F100LDABG#W0, R5F100LEABG#W0, PVBG0064LA-A R5F100LFABG#W0, R5F100LGABG#W0, R5F100LHABG#W0, R5F100LJABG#W0 G R5F100LCGBG#U0, R5F100LDGBG#U0, R5F100LEGBG#U0, R5F100LFGBG#U0, R5F100LGGBG#U0, R5F100LHGBG#U0, R5F100LJGBG#U0 R5F100LCGBG#W0, R5F100LDGBG#W0, R5F100LEGBG#W0, R5F100LFGBG#W0, R5F100LGGBG#W0, R5F100LHGBG#W0, R5F100LJGBG#W0 Not mounted A R5F101LCABG#U0, R5F101LDABG#U0, R5F101LEABG#U0, PVBG0064LA-A R5F101LFABG#U0, R5F101LGABG#U0, R5F101LHABG#U0, R5F101LJABG#U0 R5F101LCABG#W0, R5F101LDABG#W0, R5F101LEABG#W0, R5F101LFABG#W0, R5F101LGABG#W0, R5F101LHABG#W0, R5F101LJABG#W0 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 23 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (21/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 80 pins 80-pin plastic Mounted A R5F100MFAFA#V0, R5F100MGAFA#V0, R5F100MHAFA#V0, LQFP R5F100MJAFA#V0, R5F100MKAFA#V0, R5F100MLAFA#V0 (14 x 14 mm, R5F100MFAFA#X0, R5F100MGAFA#X0, R5F100MHAFA#X0, 0.65 mm pitch) R5F100MJAFA#X0, R5F100MKAFA#X0, R5F100MLAFA#X0 PLQP0080JB-E R5F100MFAFA#30, R5F100MGAFA#30, R5F100MHAFA#30, R5F100MJAFA#30, R5F100MKAFA#30, R5F100MLAFA#30 R5F100MFAFA#50, R5F100MGAFA#50, R5F100MHAFA#50, R5F100MJAFA#50, R5F100MKAFA#50, R5F100MLAFA#50 D R5F100MFDFA#V0, R5F100MGDFA#V0, R5F100MHDFA#V0, R5F100MJDFA#V0, R5F100MKDFA#V0, R5F100MLDFA#V0 R5F100MFDFA#X0, R5F100MGDFA#X0, R5F100MHDFA#X0, R5F100MJDFA#X0, R5F100MKDFA#X0, R5F100MLDFA#X0 R5F100MFDFA#30, R5F100MGDFA#30, R5F100MHDFA#30, R5F100MJDFA#30, R5F100MKDFA#30, R5F100MLDFA#30 R5F100MFDFA#50, R5F100MGDFA#50, R5F100MHDFA#50, R5F100MJDFA#50, R5F100MKDFA#50, R5F100MLDFA#50 G R5F100MFGFA#V0, R5F100MGGFA#V0, R5F100MHGFA#V0, R5F100MJGFA#V0 R5F100MFGFA#X0, R5F100MGGFA#X0, R5F100MHGFA#X0, R5F100MJGFA#X0 R5F100MFGFA#30, R5F100MGGFA#30, R5F100MHGFA#30, R5F100MJGFA#30 R5F100MFGFA#50, R5F100MGGFA#50, R5F100MHGFA#50, R5F100MJGFA#50 Not A mounted R5F101MFAFA#V0, R5F101MGAFA#V0, R5F101MHAFA#V0, PLQP0080JB-E R5F101MJAFA#V0, R5F101MKAFA#V0, R5F101MLAFA#V0 R5F101MFAFA#X0, R5F101MGAFA#X0, R5F101MHAFA#X0, R5F101MJAFA#X0, R5F101MKAFA#X0, R5F101MLAFA#X0 R5F101MFAFA#30, R5F101MGAFA#30, R5F101MHAFA#30, R5F101MJAFA#30, R5F101MKAFA#30, R5F101MLAFA#30 R5F101MFAFA#50, R5F101MGAFA#50, R5F101MHAFA#50, R5F101MJAFA#50, R5F101MKAFA#50, R5F101MLAFA#50 D R5F101MFDFA#V0, R5F101MGDFA#V0, R5F101MHDFA#V0, R5F101MJDFA#V0, R5F101MKDFA#V0, R5F101MLDFA#V0 R5F101MFDFA#X0, R5F101MGDFA#X0, R5F101MHDFA#X0, R5F101MJDFA#X0, R5F101MKDFA#X0, R5F101MLDFA#X0 R5F101MFDFA#30, R5F101MGDFA#30, R5F101MHDFA#30, R5F101MJDFA#30, R5F101MKDFA#30, R5F101MLDFA#30 R5F101MFDFA#50, R5F101MGDFA#50, R5F101MHDFA#50, R5F101MJDFA#50, R5F101MKDFA#50, R5F101MLDFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 24 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (22/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 80 pins 80-pin plastic Mounted A R5F100MFAFB#V0, R5F100MGAFB#V0, R5F100MHAFB#V0, LFQFP R5F100MJAFB#V0, R5F100MKAFB#V0, R5F100MLAFB#V0 (12 x 12 mm, R5F100MFAFB#X0, R5F100MGAFB#X0, R5F100MHAFB#X0, 0.5 mm pitch) R5F100MJAFB#X0, R5F100MKAFB#X0, R5F100MLAFB#X0 R5F100MFAFB#30, R5F100MGAFB#30, R5F100MHAFB#30, PLQP0080KE-A PLQP0080KB-B R5F100MJAFB#30, R5F100MKAFB#30, R5F100MLAFB#30 R5F100MFAFB#50, R5F100MGAFB#50, R5F100MHAFB#50, R5F100MJAFB#50, R5F100MKAFB#50, R5F100MLAFB#50 D R5F100MFDFB#V0, R5F100MGDFB#V0, R5F100MHDFB#V0, PLQP0080KE-A R5F100MJDFB#V0, R5F100MKDFB#V0, R5F100MLDFB#V0 R5F100MFDFB#X0, R5F100MGDFB#X0, R5F100MHDFB#X0, R5F100MJDFB#X0, R5F100MKDFB#X0, R5F100MLDFB#X0 R5F100MFDFB#30, R5F100MGDFB#30, R5F100MHDFB#30, PLQP0080KB-B R5F100MJDFB#30, R5F100MKDFB#30, R5F100MLDFB#30 R5F100MFDFB#50, R5F100MGDFB#50, R5F100MHDFB#50, R5F100MJDFB#50, R5F100MKDFB#50, R5F100MLDFB#50 G R5F100MFGFB#V0, R5F100MGGFB#V0, R5F100MHGFB#V0, PLQP0080KE-A R5F100MJGFB#V0 R5F100MFGFB#X0, R5F100MGGFB#X0, R5F100MHGFB#X0, R5F100MJGFB#X0 R5F100MFGFB#30, R5F100MGGFB#30, R5F100MHGFB#30, PLQP0080KB-B R5F100MJGFB#30 R5F100MFGFB#50, R5F100MGGFB#50, R5F100MHGFB#50, R5F100MJGFB#50 Not A mounted R5F101MFAFB#V0, R5F101MGAFB#V0, R5F101MHAFB#V0, PLQP0080KE-A R5F101MJAFB#V0, R5F101MKAFB#V0, R5F101MLAFB#V0 R5F101MFAFB#X0, R5F101MGAFB#X0, R5F101MHAFB#X0, R5F101MJAFB#X0, R5F101MKAFB#X0, R5F101MLAFB#X0 R5F101MFAFB#30, R5F101MGAFB#30, R5F101MHAFB#30, PLQP0080KB-B R5F101MJAFB#30, R5F101MKAFB#30, R5F101MLAFB#30 R5F101MFAFB#50, R5F101MGAFB#50, R5F101MHAFB#50, R5F101MJAFB#50, R5F101MKAFB#50, R5F101MLAFB#50 D R5F101MFDFB#V0, R5F101MGDFB#V0, R5F101MHDFB#V0, PLQP0080KE-A R5F101MJDFB#V0, R5F101MKDFB#V0, R5F101MLDFB#V0 R5F101MFDFB#X0, R5F101MGDFB#X0, R5F101MHDFB#X0, R5F101MJDFB#X0, R5F101MKDFB#X0, R5F101MLDFB#X0 R5F101MFDFB#30, R5F101MGDFB#30, R5F101MHDFB#30, PLQP0080KB-B R5F101MJDFB#30, R5F101MKDFB#30, R5F101MLDFB#30 R5F101MFDFB#50, R5F101MGDFB#50, R5F101MHDFB#50, R5F101MJDFB#50, R5F101MKDFB#50, R5F101MLDFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 25 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (23/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 100 100-pin plastic pins LFQFP R5F100PJAFB#V0, R5F100PKAFB#V0, R5F100PLAFB#V0 (14 x 14 mm, R5F100PFAFB#X0, R5F100PGAFB#X0, R5F100PHAFB#X0, 0.5 mm pitch) R5F100PJAFB#X0, R5F100PKAFB#X0, R5F100PLAFB#X0 Mounted A R5F100PFAFB#V0, R5F100PGAFB#V0, R5F100PHAFB#V0, R5F100PFAFB#30, R5F100PGAFB#30, R5F100PHAFB#30, PLQP0100KE-A PLQP0100KB-B R5F100PJAFB#30, R5F100PKAFB#30, R5F100PLAFB#30 R5F100PFAFB#50, R5F100PGAFB#50, R5F100PHAFB#50, R5F100PJAFB#50, R5F100PKAFB#50, R5F100PLAFB#50 D R5F100PFDFB#V0, R5F100PGDFB#V0, R5F100PHDFB#V0, PLQP0100KE-A R5F100PJDFB#V0, R5F100PKDFB#V0, R5F100PLDFB#V0 R5F100PFDFB#X0, R5F100PGDFB#X0, R5F100PHDFB#X0, R5F100PJDFB#X0, R5F100PKDFB#X0, R5F100PLDFB#X0 R5F100PFDFB#30, R5F100PGDFB#30, R5F100PHDFB#30, PLQP0100KB-B R5F100PJDFB#30, R5F100PKDFB#30, R5F100PLDFB#30 R5F100PFDFB#50, R5F100PGDFB#50, R5F100PHDFB#50, R5F100PJDFB#50, R5F100PKDFB#50, R5F100PLDFB#50 G R5F100PFGFB#V0, R5F100PGGFB#V0, R5F100PHGFB#V0, PLQP0100KE-A R5F100PJGFB#V0 R5F100PFGFB#X0, R5F100PGGFB#X0, R5F100PHGFB#X0, R5F100PJGFB#X0 R5F100PFGFB#30, R5F100PGGFB#30, R5F100PHGFB#30, PLQP0100KB-B R5F100PJGFB#30 R5F100PFGFB#50, R5F100PGGFB#50, R5F100PHGFB#50, R5F100PJGFB#50 Not A mounted R5F101PFAFB#V0, R5F101PGAFB#V0, R5F101PHAFB#V0, PLQP0100KE-A R5F101PJAFB#V0, R5F101PKAFB#V0, R5F101PLAFB#V0 R5F101PFAFB#X0, R5F101PGAFB#X0, R5F101PHAFB#X0, R5F101PJAFB#X0, R5F101PKAFB#X0, R5F101PLAFB#X0 R5F101PFAFB#30, R5F101PGAFB#30, R5F101PHAFB#30, PLQP0100KB-B R5F101PJAFB#30, R5F101PKAFB#30, R5F101PLAFB#30 R5F101PFAFB#50, R5F101PGAFB#50, R5F101PHAFB#50, R5F101PJAFB#50, R5F101PKAFB#50, R5F101PLAFB#50 D R5F101PFDFB#V0, R5F101PGDFB#V0, R5F101PHDFB#V0, PLQP0100KE-A R5F101PJDFB#V0, R5F101PKDFB#V0, R5F101PLDFB#V0 R5F101PFDFB#X0, R5F101PGDFB#X0, R5F101PHDFB#X0, R5F101PJDFB#X0, R5F101PKDFB#X0, R5F101PLDFB#X0 R5F101PFDFB#30, R5F101PGDFB#30, R5F101PHDFB#30, PLQP0100KB-B R5F101PJDFB#30, R5F101PKDFB#30, R5F101PLDFB#30 R5F101PFDFB#50, R5F101PGDFB#50, R5F101PHDFB#50, R5F101PJDFB#50, R5F101PKDFB#50, R5F101PLDFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 26 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (24/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 100 100-pin plastic pins LQFP R5F100PJAFA#V0, R5F100PKAFA#V0, R5F100PLAFA#V0 (14 x 20 mm, R5F100PFAFA#X0, R5F100PGAFA#X0, R5F100PHAFA#X0, 0.65 mm pitch) R5F100PJAFA#X0, R5F100PKAFA#X0, R5F100PLAFA#X0 Mounted A R5F100PFAFA#V0, R5F100PGAFA#V0, R5F100PHAFA#V0, PLQP0100JC-A R5F100PFAFA#30, R5F100PGAFA#30, R5F100PHAFA#30, R5F100PJAFA#30, R5F100PKAFA#30, R5F100PLAFA#30 R5F100PFAFA#50, R5F100PGAFA#50, R5F100PHAFA#50, R5F100PJAFA#50, R5F100PKAFA#50, R5F100PLAFA#50 D R5F100PFDFA#V0, R5F100PGDFA#V0, R5F100PHDFA#V0, R5F100PJDFA#V0, R5F100PKDFA#V0, R5F100PLDFA#V0 R5F100PFDFA#X0, R5F100PGDFA#X0, R5F100PHDFA#X0, R5F100PJDFA#X0, R5F100PKDFA#X0, R5F100PLDFA#X0 R5F100PFDFA#30, R5F100PGDFA#30, R5F100PHDFA#30, R5F100PJDFA#30, R5F100PKDFA#30, R5F100PLDFA#30 R5F100PFDFA#50, R5F100PGDFA#50, R5F100PHDFA#50, R5F100PJDFA#50, R5F100PKDFA#50, R5F100PLDFA#50 G R5F100PFGFA#V0, R5F100PGGFA#V0, R5F100PHGFA#V0, R5F100PJGFA#V0 R5F100PFGFA#X0, R5F100PGGFA#X0, R5F100PHGFA#X0, R5F100PJGFA#X0 R5F100PFGFA#30, R5F100PGGFA#30, R5F100PHGFA#30, R5F100PJGFA#30 R5F100PFGFA#50, R5F100PGGFA#50, R5F100PHGFA#50, R5F100PJGFA#50 Not A mounted R5F101PFAFA#V0, R5F101PGAFA#V0, R5F101PHAFA#V0, PLQP0100JC-A R5F101PJAFA#V0, R5F101PKAFA#V0, R5F101PLAFA#V0 R5F101PFAFA#X0, R5F101PGAFA#X0, R5F101PHAFA#X0, R5F101PJAFA#X0, R5F101PKAFA#X0, R5F101PLAFA#X0 R5F101PFAFA#30, R5F101PGAFA#30, R5F101PHAFA#30, R5F101PJAFA#30, R5F101PKAFA#30, R5F101PLAFA#30 R5F101PFAFA#50, R5F101PGAFA#50, R5F101PHAFA#50, R5F101PJAFA#50, R5F101PKAFA#50, R5F101PLAFA#50 D R5F101PFDFA#V0, R5F101PGDFA#V0, R5F101PHDFA#V0, R5F101PJDFA#V0, R5F101PKDFA#V0, R5F101PLDFA#V0 R5F101PFDFA#X0, R5F101PGDFA#X0, R5F101PHDFA#X0, R5F101PJDFA#X0, R5F101PKDFA#X0, R5F101PLDFA#X0 R5F101PFDFA#30, R5F101PGDFA#30, R5F101PHDFA#30, R5F101PJDFA#30, R5F101PKDFA#30, R5F101PLDFA#30 R5F101PFDFA#50, R5F101PGDFA#50, R5F101PHDFA#50, R5F101PJDFA#50, R5F101PKDFA#50, R5F101PLDFA#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 27 of 214 RL78/G13 1. OUTLINE Table 1-1. List of Ordering Part Numbers (25/25) Pin Package Data flash Ordering Part Number Fields of RENESAS Code Application Note count 128 128-pin plastic pins LFQFP R5F100SLAFB#V0 (14 x 20 mm, R5F100SHAFB#X0, R5F100SJAFB#X0, R5F100SKAFB#X0, 0.5 mm pitch) R5F100SLAFB#X0 Mounted A R5F100SHAFB#V0, R5F100SJAFB#V0, R5F100SKAFB#V0, PLQP0128KD-A R5F100SHAFB#30, R5F100SJAFB#30, R5F100SKAFB#30, R5F100SLAFB#30 R5F100SHAFB#50, R5F100SJAFB#50, R5F100SKAFB#50, R5F100SLAFB#50 D R5F100SHDFB#V0, R5F100SJDFB#V0, R5F100SKDFB#V0, R5F100SLDFB#V0 R5F100SHDFB#X0, R5F100SJDFB#X0, R5F100SKDFB#X0, R5F100SLDFB#X0 R5F100SHDFB#30, R5F100SJDFB#30, R5F100SKDFB#30, R5F100SLDFB#30 R5F100SHDFB#50, R5F100SJDFB#50, R5F100SKDFB#50, R5F100SLDFB#50 Not A mounted R5F101SHAFB#V0, R5F101SJAFB#V0, R5F101SKAFB#V0, PLQP0128KD-A R5F101SLAFB#V0 R5F101SHAFB#X0, R5F101SJAFB#X0, R5F101SKAFB#X0, R5F101SLAFB#X0 R5F101SHAFB#30, R5F101SJAFB#30, R5F101SKAFB#30, R5F101SLAFB#30 R5F101SHAFB#50, R5F101SJAFB#50, R5F101SKAFB#50, R5F101SLAFB#50 D R5F101SHDFB#V0, R5F101SJDFB#V0, R5F101SKDFB#V0, R5F101SLDFB#V0 R5F101SHDFB#X0, R5F101SJDFB#X0, R5F101SKDFB#X0, R5F101SLDFB#X0 R5F101SHDFB#30, R5F101SJDFB#30, R5F101SKDFB#30, R5F101SLDFB#30 R5F101SHDFB#50, R5F101SJDFB#50, R5F101SKDFB#50, R5F101SLDFB#50 Note For the fields of application, refer to Figure 1-1 Part Number, Memory Size, and Package of RL78/G13. Caution The ordering part numbers represent the numbers at the time of publication. For the latest ordering part numbers, refer to the target product page of the Renesas Electronics website. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 28 of 214 RL78/G13 1. OUTLINE 1.3 Pin Configuration (Top View) 1.3.1 20-pin products 20-pin plastic LSSOP (7.62 mm (300), 0.65 mm pitch) 1 2 3 4 5 6 7 8 9 10 RL78/G13 (Top View) P01/ANI16/TO00/RxD1 P00/ANI17/TI00/TxD1 P40/TOOL0 RESET P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD 20 19 18 17 16 15 14 13 12 11 P20/ANI0/AVREFP P21/ANI1/AVREFM P22/ANI2 P147/ANI18 P10/SCK00/SCL00 P11/SI00/RxD0/TOOLRxD/SDA00 P12/SO00/TxD0/TOOLTxD P16/TI01/TO01/INTP5/SO11 P17/TI02/TO02/SI11/SDA11 P30/INTP3/SCK11/SCL11 Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remark For pin identification, see 1.4 Pin Identification. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 29 of 214 RL78/G13 1. OUTLINE 1.3.2 24-pin products P22/ANI2 P147/ANI18 P10/SCK00/SCL00 P11/SI00/RxD0/TOOLRxD/SDA00 P12/SO00/TxD0/TOOLTxD P16/TI01/TO01/INTP5 24-pin plastic HWQFN (4 x 4 mm, 0.5 mm pitch) exposed die pad P21/ANI1/AVREFM P20/ANI0/AVREFP P01/ANI16/TO00/RxD1 P00/ANI17/TI00/TxD1 P40/TOOL0 RESET 18 17 16 15 14 13 19 12 20 11 RL78/G13 21 10 (Top View) 22 9 23 8 24 7 1 2 3 4 5 6 P17/TI02/TO02/SO11 P50/INTP1/SI11/SDA11 P30/INTP3/SCK11/SCL11 P31/TI03/TO03/INTP4/PCLBUZ0 P61/SDAA0 P60/SCLA0 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD INDEX MARK Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. 2. For pin identification, see 1.4 Pin Identification. It is recommended to connect an exposed die pad to Vss. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 30 of 214 RL78/G13 1. OUTLINE 1.3.3 25-pin products 25-pin plastic WFLGA (3 x 3 mm, 0.50 mm pitch) Bottom View Top View 5 4 RL78/G13 (Top View) 3 2 1 A B C D E E D C B A INDEX MARK INDEX MARK A P40/TOOL0 B RESET 5 4 P122/X2/ EXCLK P137/INTP0 P121/X1 VDD 3 REGC VSS 2 P60/SCLA0 P61/SDAA0 1 A C D E P01/ANI16/ TO00/RxD1 P22/ANI2 P00/ANI17/ TI00/TxD1 P21/ANI1/ AVREFM P10/SCK00/ SCL00 P20/ANI0/ AVREFP P12/SO00/ TxD0/ TOOLTxD P30/INTP3/ SCK11/SCL11 P17/TI02/ TO02/SO11 P11/SI00/ RxD0/ TOOLRxD/ SDA00 P50/INTP1/ SI11/SDA11 P31/TI03/ TO03/INTP4/ PCLBUZ0 P16/TI01/ TO01/INTP5 B P147/ANI18 5 C D 4 3 2 P130 1 E Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remark For pin identification, see 1.4 Pin Identification. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 31 of 214 RL78/G13 1. OUTLINE 1.3.4 30-pin products 30-pin plastic LSSOP (7.62 mm (300), 0.65 mm pitch) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 RL78/G13 (Top View) P20/ANI0/AVREFP P01/ANI16/TO00/RxD1 P00/ANI17/TI00/TxD1 P120/ANI19 P40/TOOL0 RESET P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD P60/SCLA0 P61/SDAA0 P31/TI03/TO03/INTP4/PCLBUZ0 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 P21/ANI1/AVREFM P22/ANI2 P23/ANI3 P147/ANI18 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) P51/INTP2/SO11 P50/INTP1/SI11/SDA11 P30/INTP3/SCK11/SCL11 Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 32 of 214 RL78/G13 1. OUTLINE 1.3.5 32-pin products P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) 32-pin plastic HWQFN (5 x 5 mm, 0.5 mm pitch) exposed die pad P147/ANI18 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P01/ANI16/TO00/RxD1 P00/ANI17/TI00/TxD1 P120/ANI19 24 23 22 21 2019 18 17 16 25 15 26 14 27 RL78/G13 13 28 (Top View) 12 29 11 30 10 31 9 32 1 2 3 4 5 6 7 8 P51/INTP2/SO11 P50/INTP1/SI11/SDA11 P30/INTP3/SCK11/SCL11 P70 P31/TI03/TO03/INTP4/PCLBUZ0 P62 P61/SDAA0 P60/SCLA0 P40/TOOL0 RESET P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD INDEX MARK Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. 3. It is recommended to connect an exposed die pad to Vss. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 33 of 214 RL78/G13 1. OUTLINE 1.3.6 36-pin products 36-pin plastic WFLGA (4 x 4 mm, 0.5 mm pitch) Top View Bottom View 6 5 RL78/G13 (Top View) 4 3 2 1 A B C D E F F E D C B A INDEX MARK A P60/SCLA0 B VDD C P121/X1 D P122/X2/EXCLK E P137/INTP0 F P40/TOOL0 6 6 P62 P61/SDAA0 VSS REGC RESET P120/ANI19 5 5 P72/SO21 P71/SI21/ SDA21 P14/RxD2/SI20/ SDA20/(SCLA0) /(TI03)/(TO03) P31/TI03/TO03/ INTP4/ PCLBUZ0 P00/TI00/TxD1 P50/INTP1/ SI11/SDA11 P70/SCK21/ SCL21 P15/PCLBUZ1/ SCK20/SCL20/ (TI02)/(TO02) P22/ANI2 P20/ANI0/ AVREFP P21/ANI1/ AVREFM P30/INTP3/ SCK11/SCL11 P16/TI01/TO01/ INTP5/(RxD0) P12/SO00/ TxD0/TOOLTxD /(TI05)/(TO05) P24/ANI4 P23/ANI3 P51/INTP2/ SO11 P17/TI02/TO02/ (TxD0) P13/TxD2/ SO20/(SDAA0)/ (TI04)/(TO04) P11/SI00/RxD0/ TOOLRxD/ SDA00/(TI06)/ (TO06) P10/SCK00/ SCL00/(TI07)/ (TO07) B C D 4 3 2 1 A P01/TO00/RxD1 4 3 2 P147/ANI18 P25/ANI5 1 E F Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 34 of 214 RL78/G13 1. OUTLINE 1.3.7 40-pin products P147/ANI18 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) P51/INTP2/SO11 40-pin plastic HWQFN (6 x 6 mm, 0.5 mm pitch) P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P01/TO00/RxD1 P00/TI00/TxD1 P120/ANI19 30 29 28 27 26 25 24 23 22 21 20 31 exposed die pad 19 32 18 33 17 34 RL78/G13 16 35 15 36 (Top View) 14 37 13 38 12 39 11 40 1 2 3 4 5 6 7 8 9 10 P50/INTP1/SI11/SDA11 P30/INTP3/RTC1HZ/SCK11/SCL11 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3 P31/TI03/TO03/INTP4/PCLBUZ0 P62 P61/SDAA0 P60/SCLA0 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD INDEX MARK Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. 3. It is recommended to connect an exposed die pad to Vss. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 35 of 214 RL78/G13 1. OUTLINE 1.3.8 44-pin products P147/ANI18 P146 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) P51/INTP2/SO11 44-pin plastic LQFP (10 x 10 mm, 0.8 mm pitch) 33 32 31 30 29 28 27 26 25 24 23 22 34 21 35 20 36 19 37 RL78/G13 18 38 17 39 (Top View) 16 40 15 41 14 42 13 43 12 44 1 2 3 4 5 6 7 8 9 10 11 P50/INTP1/SI11/SDA11 P30/INTP3/RTC1HZ/SCK11/SCL11 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3 P31/TI03/TO03/INTP4/PCLBUZ0 P63 P62 P61/SDAA0 P60/SCLA0 P41/TI07/TO07 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P01/TO00/RxD1 P00/TI00/TxD1 P120/ANI19 Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 36 of 214 RL78/G13 1. OUTLINE 1.3.9 48-pin products P140/PCLBUZ0/INTP6 P00/TI00/TxD1 P01/TO00/RxD1 P130 P20/ANI0/AVREFP P21/ANI1/AVREFM P22/ANI2 P23/ANI3 P24/ANI4 P25/ANI5 P26/ANI6 P27/ANI7 48-pin plastic LFQFP (7 x 7 mm, 0.5 mm pitch) 36 35 34 33 32 31 30 29 28 27 26 25 24 37 23 38 22 39 21 40 20 41 RL78/G13 19 42 18 43 (Top View) 17 44 16 45 15 46 14 47 13 48 1 2 3 4 5 6 7 8 9 10 11 12 P147/ANI18 P146 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) P51/INTP2/SO11 P50/INTP1/SI11/SDA11 P60/SCLA0 P61/SDAA0 P62 P63 P31/TI03/TO03/INTP4/(PCLBUZ0) P75/KR5/INTP9/SCK01/SCL01 P74/KR4/INTP8/SI01/SDA01 P73/KR3/SO01 P72/KR2/SO21 P71/KR1/SI21/SDA21 P70/KR0/SCK21/SCL21 P30/INTP3/RTC1HZ/SCK11/SCL11 P120/ANI19 P41/TI07/TO07 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 37 of 214 RL78/G13 1. OUTLINE P140/PCLBUZ0/INTP6 P00/TI00/TxD1 P01/TO00/RxD1 P130 P20/ANI0/AVREFP P21/ANI1/AVREFM P22/ANI2 P23/ANI3 P24/ANI4 P25/ANI5 P26/ANI6 P27/ANI7 48-pin plastic HWQFN (7 x 7 mm, 0.5 mm pitch) P120/ANI19 P41/TI07/TO07 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS VDD 36 35 34 33 32 31 30 29 28 27 26 25 37 24 38 23 exposed die pad 39 22 40 21 41 20 RL78/G13 42 19 43 18 (Top View) 44 17 45 16 46 15 47 14 48 13 1 2 3 4 5 6 7 8 9 10 11 12 P147/ANI18 P146 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(RxD0) P17/TI02/TO02/(TxD0) P51/INTP2/SO11 P50/INTP1/SI11/SDA11 P60/SCLA0 P61/SDAA0 P62 P63 P31/TI03/TO03/INTP4/(PCLBUZ0) P75/KR5/INTP9/SCK01/SCL01 P74/KR4/INTP8/SI01/SDA01 P73/KR3/SO01 P72/KR2/SO21 P71/KR1/SI21/SDA21 P70/KR0/SCK21/SCL21 P30/INTP3/RTC1HZ/SCK11/SCL11 INDEX MARK Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. 3. It is recommended to connect an exposed die pad to Vss. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 38 of 214 RL78/G13 1. OUTLINE 1.3.10 52-pin products P30/INTP3/RTC1HZ/SCK11/SCL11 P50/INTP1/SI11/SDA11 P51/INTP2/SO11 P17/TI02/TO02/(TxD0) P16/TI01/TO01/INTP5/(RxD0) P15/PCLBUZ1/SCK20/SCL20/(TI02)/(TO02) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P12/SO00/TxD0/TOOLTxD/(TI05)/(TO05) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P10/SCK00/SCL00/(TI07)/(TO07) P146 P147/ANI18 52-pin plastic LQFP (10 x 10 mm, 0.65 mm pitch) 39 38 37 36 35 34 33 32 31 30 29 28 27 P27/ANI7 40 26 P70/KR0/SCK21/SCL21 P26/ANI6 41 25 P71/KR1/SI21/SDA21 P25/ANI5 42 24 P72/KR2/SO21 P24/ANI4 43 23 P73/KR3/SO01 P23/ANI3 44 22 P74/KR4/INTP8/SI01/SDA01 P22/ANI2 45 21 P75/KR5/INTP9/SCK01/SCL01 P21/ANI1/AVREFM 46 20 P76/KR6/INTP10/(RxD2) P20/ANI0/AVREFP 47 19 P77/KR7/INTP11/(TxD2) RL78/G13 (Top View) 50 16 P62 P01/TO00 51 15 P61/SDAA0 P00/TI00 52 14 P60/SCLA0 VDD VSS REGC 8 9 10 11 12 13 P121/X1 6 7 P122/X2/EXCLK 5 P137/INTP0 3 4 P123/XT1 2 P40/TOOL0 1 RESET P63 P02/ANI17/TxD1 P124/XT2/EXCLKS P31/TI03/TO03/INTP4/(PCLBUZ0) 17 P41/TI07/TO07 18 49 P120/ANI19 48 P140/PCLBUZ0/INTP6 P130 P03/ANI16/RxD1 Caution Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 39 of 214 RL78/G13 1. OUTLINE 1.3.11 64-pin products 64-pin plastic LQFP (12 x 12 mm, 0.65 mm pitch) P50/INTP1/SI11/SDA11 P51/INTP2/SO11 P52/(INTP10) P53/(INTP11) P54 P55/(PCLBUZ1)/(SCK00) P17/TI02/TO02/(SO00)/(TxD0) P16/TI01/TO01/INTP5/(SI00)/(RxD0) P15/SCK20/SCL20/(TI02)/(TO02) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P10/SCK00/SCL00/(TI07)/(TO07) P146 P147/ANI18 64-pin plastic LFQFP (10 x 10 mm, 0.5 mm pitch) 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P130 P04/SCK10/SCL10 P03/ANI16/SI10/RxD1/SDA10 P02/ANI17/SO10/TxD1 P01/TO00 P00/TI00 P141/PCLBUZ1/INTP7 P140/PCLBUZ0/INTP6 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 RL78/G13 (Top View) P30/INTP3/RTC1HZ/SCK11/SCL11 P05/TI05/TO05 P06/TI06/TO06 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3/SO01 P74/KR4/INTP8/SI01/SDA01 P75/KR5/INTP9/SCK01/SCL01 P76/KR6/INTP10/(RxD2) P77/KR7/INTP11/(TxD2) P31/TI03/TO03/INTP4/(PCLBUZ0) P63 P62 P61/SDAA0 P60/SCLA0 EVDD0 VDD EVSS0 VSS REGC P121/X1 P122/X2/EXCLK P137/INTP0 P123/XT1 P124/XT2/EXCLKS RESET P40/TOOL0 P41/TI07/TO07 P42/TI04/TO04 P43 P120/ANI19 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Cautions 1. Make EVSS0 pin the same potential as VSS pin. 2. Make VDD pin the potential that is higher than EVDD0 pin. 3. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD and EVDD0 pins and connect the VSS and EVSS0 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 40 of 214 RL78/G13 1. OUTLINE 64-pin plastic VFBGA (4 x 4 mm, 0.4 mm pitch) Top View Bottom View 8 7 6 RL78/G13 (Top View) 5 4 3 2 1 A B C D E F G H H G F E D C B A Index mark Pin No. Name Pin No. Name Pin No. Name Pin No. Name A1 P05/TI05/TO05 C1 P51/INTP2/SO11 E1 P13/TxD2/SO20/ G1 (SDAA0)/(TI04)/(TO04) P146 A2 P30/INTP3/RTC1HZ /SCK11/SCL11 C2 P71/KR1/SI21/SDA21 E2 P14/RxD2/SI20/SDA20 G2 /(SCLA0)/(TI03)/(TO03) P25/ANI5 A3 P70/KR0/SCK21 /SCL21 C3 P74/KR4/INTP8/SI01 /SDA01 E3 P15/SCK20/SCL20/ (TI02)/(TO02) G3 P24/ANI4 A4 P75/KR5/INTP9 /SCK01/SCL01 C4 P52/(INTP10) E4 P16/TI01/TO01/INTP5 G4 /(SI00)/(RxD0) P22/ANI2 A5 P77/KR7/INTP11/ (TxD2) C5 P53/(INTP11) E5 P03/ANI16/SI10/RxD1 G5 /SDA10 P130 A6 P61/SDAA0 C6 P63 E6 P41/TI07/TO07 G6 P02/ANI17/SO10/TxD1 A7 P60/SCLA0 C7 VSS E7 RESET G7 P00/TI00 A8 EVDD0 C8 P121/X1 E8 P137/INTP0 G8 P124/XT2/EXCLKS B1 P50/INTP1/SI11 /SDA11 D1 P55/(PCLBUZ1)/ (SCK00) F1 P10/SCK00/SCL00/ (TI07)/(TO07) H1 P147/ANI18 B2 P72/KR2/SO21 D2 P06/TI06/TO06 F2 P11/SI00/RxD0 /TOOLRxD/SDA00/ (TI06)/(TO06) H2 P27/ANI7 B3 P73/KR3/SO01 D3 P17/TI02/TO02/ (SO00)/(TxD0) F3 P12/SO00/TxD0 /TOOLTxD/(INTP5)/ H3 P26/ANI6 B4 P76/KR6/INTP10/ (RxD2) D4 P54 F4 P21/ANI1/AVREFM H4 P23/ANI3 B5 P31/TI03/TO03 /INTP4/(PCLBUZ0) D5 P42/TI04/TO04 F5 P04/SCK10/SCL10 H5 P20/ANI0/AVREFP B6 P62 D6 P40/TOOL0 F6 P43 H6 P141/PCLBUZ1/INTP7 B7 VDD D7 REGC F7 P01/TO00 H7 P140/PCLBUZ0/INTP6 B8 EVSS0 D8 P122/X2/EXCLK F8 P123/XT1 H8 P120/ANI19 (TI05)/(TO05) Cautions 1. 2. 3. Remarks 1. 2. Make EVSS0 pin the same potential as VSS pin. Make VDD pin the potential that is higher than EVDD0 pin. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). For pin identification, see 1.4 Pin Identification. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD and EVDD0 pins and connect the VSS and EVSS0 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 41 of 214 RL78/G13 1. OUTLINE 1.3.12 80-pin products 80-pin plastic LQFP (14 x 14 mm, 0.65 mm pitch) P52/SO31 P51/INTP2/SO11 P50/INTP1/SI11/SDA11 P55/(PCLBUZ1)/(SCK00) P54/SCK31/SCL31 P53/SI31/SDA31 P17/TI02/TO02/(SO00)/(TxD0) P15/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(SI00)/(RxD0) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P110/(INTP10) P10/SCK00/SCL00/(TI07)/(TO07) P146 P111/(INTP11) P153/ANI11 P100/ANI20 P147/ANI18 80-pin plastic LFQFP (12 x 12 mm, 0.5 mm pitch) 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 P152/ANI10 P151/ANI9 P150/ANI8 P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P130 P04/SCK10/SCL10 P03/ANI16/SI10/RxD1/SDA10 P02/ANI17/SO10/TxD1 P01/TO00 P00/TI00 P144/SO30/TxD3 P143/SI30/RxD3/SDA30 P142/SCK30/SCL30 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 RL78/G13 (Top View) 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 P30/INTP3/RTC1HZ/SCK11/SCL11 P05/TI05/TO05 P06/TI06/TO06 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3 P74/KR4/INTP8 P75/KR5/INTP9 P76/KR6/INTP10/(RxD2) P77/KR7/INTP11/(TxD2) P67/TI13/TO13 P66/TI12/TO12 P65/TI11/TO11 P64/TI10/TO10 P31/TI03/TO03/INTP4/(PCLBUZ0) P63/SDAA1 P62/SCLA1 P61/SDAA0 P60/SCLA0 P141/PCLBUZ1/INTP7 P140/PCLBUZ0/INTP6 P120/ANI19 P45/SO01 P44/SI01/SDA01 P43/SCK01/SCL01 P42/TI04/TO04 P41/TI07/TO07 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS EVSS0 VDD EVDD0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Cautions 1. Make EVSS0 pin the same potential as VSS pin. 2. Make VDD pin the potential that is higher than EVDD0 pin. 3. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD and EVDD0 pins and connect the VSS and EVSS0 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 42 of 214 RL78/G13 1. OUTLINE 1.3.13 100-pin products P100/ANI20 P147/ANI18 P146/(INTP4) P111/(INTP11) P110/(INTP10) P101 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(SI00)/(RxD0) P17/TI02/TO02/(SO00)/(TxD0) P57/(INTP3) P56/(INTP1) P55/(PCLBUZ1)/(SCK00) P54/SCK31/SCL31 P53/SI31/SDA31 P52/SO31 P51/SO11 P50/SI11/SDA11 EVDD1 P30/INTP3/RTC1HZ/SCK11/SCL11 P87/(INTP9) 100-pin plastic LFQFP (14 x 14 mm, 0.5 mm pitch) 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 76 49 77 48 78 47 79 46 80 45 81 44 82 43 83 42 84 41 85 40 86 39 87 38 88 37 89 36 90 35 91 34 92 33 93 32 94 31 95 30 96 29 97 28 98 27 99 26 100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 RL78/G13 (Top View) P86/(INTP8) P85/(INTP7) P84/(INTP6) P83 P82/(SO10)/(TxD1) P81/(SI10)/(RxD1)/(SDA10) P80/(SCK10)/(SCL10) EVSS1 P05 P06 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3 P74/KR4/INTP8 P75/KR5/INTP9 P76/KR6/INTP10/(RxD2) P77/KR7/INTP11/(TxD2) P67/TI13/TO13 P66/TI12/TO12 P65/TI11/TO11 P64/TI10/TO10 P31/TI03/TO03/INTP4/(PCLBUZ0) P63/SDAA1 P62/SCLA1 P142/SCK30/SCL30 P141/PCLBUZ1/INTP7 P140/PCLBUZ0/INTP6 P120/ANI19 P47/INTP2 P46/INTP1/TI05/TO05 P45/SO01 P44/SI01/SDA01 P43/SCK01/SCL01 P42/TI04/TO04 P41 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS EVSS0 VDD EVDD0 P60/SCLA0 P61/SDAA0 P156/ANI14 P155/ANI13 P154/ANI12 P153/ANI11 P152/ANI10 P151/ANI9 P150/ANI8 P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P130 P102/TI06/TO06 P04/SCK10/SCL10 P03/ANI16/SI10/RxD1/SDA10 P02/ANI17/SO10/TxD1 P01/TO00 P00/TI00 P145/TI07/TO07 P144/SO30/TxD3 P143/SI30/RxD3/SDA30 Cautions 1. Make EVSS0, EVSS1 pins the same potential as VSS pin. 2. Make VDD pin the potential that is higher than EVDD0, EVDD1 pins (EVDD0 = EVDD1). 3. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD, EVDD0 and EVDD1 pins and connect the VSS, EVSS0 and EVSS1 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 43 of 214 RL78/G13 1. OUTLINE P140/PCLBUZ0/INTP6 P141/PCLBUZ1/INTP7 P142/SCK30/SCL30 P143/SI30/RxD3/SDA30 P144/SO30/TxD3 P145/TI07/TO07 P00/TI00 P01/TO00 P02/ANI17/SO10/TxD1 P03/ANI16/SI10/RxD1/SDA10 P04/SCK10/SCL10 P102/TI06/TO06 P130 P20/ANI0/AVREFP P21/ANI1/AVREFM P22/ANI2 P23/ANI3 P24/ANI4 P25/ANI5 P26/ANI6 P27/ANI7 P150/ANI8 P151/ANI9 P152/ANI10 P153/ANI11 P154/ANI12 P155/ANI13 P156/ANI14 P100/ANI20 P147/ANI18 100-pin plastic LQFP (14 x 20 mm, 0.65 mm pitch) 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 81 49 82 48 83 47 84 46 85 45 86 44 87 43 88 42 89 41 90 40 91 39 92 38 93 37 94 36 95 35 96 34 97 33 98 32 99 31 100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 RL78/G13 (Top View) P146/(INTP4) P111/(INTP11) P110/(INTP10) P101 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(SI00)/(RxD0) P17/TI02/TO02/(SO00)/(TxD0) P57/(INTP3) P56/(INTP1) P55/(PCLBUZ1)/(SCK00) P54/SCK31/SCL31 P53/SI31/SDA31 P52/SO31 P51/SO11 P50/SI11/SDA11 P60/SCLA0 P61/SDAA0 P62/SCLA1 P63/SDAA1 P31/TI03/TO03/INTP4/(PCLBUZ0) P64/TI10/TO10 P65/TI11/TO11 P66/TI12/TO12 P67/TI13/TO13 P77/KR7/INTP11/(TxD2) P76/KR6/INTP10/(RxD2) P75/KR5/INTP9 P74/KR4/INTP8 P73/KR3 P72/KR2/SO21 P71/KR1/SI21/SDA21 P70/KR0/SCK21/SCL21 P06 P05 EVSS1 P80/(SCK10)/(SCL10) P81/(SI10)/(RxD1)/(SDA10) P82/(SO10)/(TxD1) P83 P84/(INTP6) P85/(INTP7) P86/(INTP8) P87/(INTP9) P30/INTP3/RTC1HZ/SCK11/SCL11 EVDD1 P120/ANI19 P47/INTP2 P46/INTP1/TI05/TO05 P45/SO01 P44/SI01/SDA01 P43/SCK01/SCL01 P42/TI04/TO04 P41 P40/TOOL0 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS EVSS0 VDD EVDD0 Cautions 1. Make EVSS0, EVSS1 pins the same potential as VSS pin. 2. Make VDD pin the potential that is higher than EVDD0, EVDD1 pins (EVDD0 = EVDD1). 3. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD, EVDD0 and EVDD1 pins and connect the VSS, EVSS0 and EVSS1 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 44 of 214 RL78/G13 1. OUTLINE 1.3.14 128-pin products P100/ANI20 P147/ANI18 P146/(INTP4) P111/(INTP11) P110/(INTP10) P101 P117/ANI24 P116/ANI25 P115/ANI26 P114 P113 P112 P97/SO11 P96/SI11/SDA11 P95/SCK11/SCL11 P94 P93 P92 P91 P90 P10/SCK00/SCL00/(TI07)/(TO07) P11/SI00/RxD0/TOOLRxD/SDA00/(TI06)/(TO06) P12/SO00/TxD0/TOOLTxD/(INTP5)/(TI05)/(TO05) P13/TxD2/SO20/(SDAA0)/(TI04)/(TO04) P14/RxD2/SI20/SDA20/(SCLA0)/(TI03)/(TO03) P15/SCK20/SCL20/(TI02)/(TO02) P16/TI01/TO01/INTP5/(SI00)/(RxD0) P17/TI02/TO02/(SO00)/(TxD0) P57/(INTP3) P56/(INTP1) P55/(PCLBUZ1)/(SCK00) P54/SCK31/SCL31 P53/SI31/SDA31 P52/SO31 P51 P50 P30/INTP3/RTC1HZ P87/(INTP9) 128-pin plastic LFQFP (14 x 20 mm, 0.5 mm pitch) 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 103 64 104 63 105 62 106 61 107 60 108 59 109 58 110 57 111 56 112 55 113 54 114 53 RL78/G13 115 52 51 116 (Top View) 50 117 49 118 48 119 47 120 46 121 45 122 44 123 43 124 42 125 41 126 40 127 39 128 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 P86/(INTP8) P85/(INTP7) P84/(INTP6) P83 P82/(SO10)/(TxD1) P81/(SI10)/(RxD1)/(SDA10) P80/(SCK10)/(SCL10) EVDD1 EVSS1 P05 P06 P70/KR0/SCK21/SCL21 P71/KR1/SI21/SDA21 P72/KR2/SO21 P73/KR3 P74/KR4/INTP8 P75/KR5/INTP9 P76/KR6/INTP10/(RxD2) P77/KR7/INTP11/(TxD2) P67/TI13/TO13 P66/TI12/TO12 P65/TI11/TO11 P64/TI10/TO10 P31/TI03/TO03/INTP4/(PCLBUZ0) P63/SDAA1 P62/SCLA1 P142/SCK30/SCL30 P141/PCLBUZ1/INTP7 P140/PCLBUZ0/INTP6 P120/ANI19 P37/ANI21 P36/ANI22 P35/ANI23 P34 P33 P32 P106/TI17/TO17 P105/TI16/TO16 P104/TI15/TO15 P103/TI14/TO14 P47/INTP2 P46/INTP1/TI05/TO05 P45/SO01 P44/SI01/SDA01 P43/SCK01/SCL01 P42/TI04/TO04 P41 P40/TOOL0 P127 P126 P125 RESET P124/XT2/EXCLKS P123/XT1 P137/INTP0 P122/X2/EXCLK P121/X1 REGC VSS EVSS0 VDD EVDD0 P60/SCLA0 P61/SDAA0 P156/ANI14 P155/ANI13 P154/ANI12 P153/ANI11 P152/ANI10 P151/ANI9 P150/ANI8 P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1/AVREFM P20/ANI0/AVREFP P130 P102/TI06/TO06 P07 P04/SCK10/SCL10 P03/ANI16/SI10/RxD1/SDA10 P02/ANI17/SO10/TxD1 P01/TO00 P00/TI00 P145/TI07/TO07 P144/SO30/TxD3 P143/SI30/RxD3/SDA30 Cautions 1. Make EVSS0, EVSS1 pins the same potential as VSS pin. 2. Make VDD pin the potential that is higher than EVDD0, EVDD1 pins (EVDD0 = EVDD1). 3. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). Remarks 1. For pin identification, see 1.4 Pin Identification. 2. When using the microcontroller for an application where the noise generated inside the microcontroller must be reduced, it is recommended to supply separate powers to the VDD, EVDD0 and EVDD1 pins and connect the VSS, EVSS0 and EVSS1 pins to separate ground lines. 3. Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 45 of 214 RL78/G13 1. OUTLINE 1.4 Pin Identification ANI0 to ANI14, REGC: Regulator capacitance ANI16 to ANI26: Analog input RESET: Reset AVREFM: A/D converter reference RTC1HZ: Real-time clock correction clock A/D converter reference RxD0 to RxD3: Receive data potential (+ side) input SCLA0, SCLA1, Power supply for port SCK00, SCK01, SCK10, EVSS0, EVSS1: Ground for port SCK11, SCK20, SCK21, EXCLK: External clock input (Main SCK30, SCK31: (1 Hz) output potential (- side) input AVREFP: EVDD0, EVDD1: system clock) SCL00, SCL01, SCL10, EXCLKS: External clock input SCL11, SCL20, SCL21, (Subsystem clock) SCL30, SCL31: INTP0 to INTP11: Interrupt request from SDAA0, SDAA1, SDA00, Serial clock input/output Serial clock output peripheral SDA01,SDA10, SDA11, KR0 to KR7: Key return SDA20,SDA21, SDA30, P00 to P07: Port 0 SDA31: P10 to P17: Port 1 SI00, SI01, SI10, SI11, P20 to P27: Port 2 SI20, SI21, SI30, SI31: P30 to P37: Port 3 SO00, SO01, SO10, P40 to P47: Port 4 SO11, SO20, SO21, P50 to P57: Port 5 SO30, SO31: P60 to P67: Port 6 TI00 to TI07, P70 to P77: Port 7 TI10 to TI17: P80 to P87: Port 8 TO00 to TO07, P90 to P97: Port 9 TO10 to TO17: P100 to P106: Port 10 TOOL0: Data input/output for tool P110 to P117: Port 11 TOOLRxD, TOOLTxD: Data input/output for external device P120 to P127: Port 12 TxD0 to TxD3: Transmit data P130, P137: Port 13 VDD: Power supply P140 to P147: Port 14 VSS: Ground P150 to P156: Port 15 X1, X2: Crystal oscillator (main system clock) XT1, XT2: Crystal oscillator (subsystem clock) PCLBUZ0, PCLBUZ1: Programmable clock Serial data input/output Serial data input Serial data output Timer input Timer output output/buzzer output R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 46 of 214 RL78/G13 1. OUTLINE 1.5 Block Diagram 1.5.1 20-pin products TIMER ARRAY UNIT (8ch) TI00/P00 TO00/P01 ch0 TI01/TO01/P16 ch1 TI02/TO02/P17 PORT 0 2 P00, P01 PORT 1 5 P10 to P12, P16, P17 PORT 2 3 P20 to P22 ch2 PORT 3 P30 PORT 4 P40 ch3 ch4 PORT 12 ch5 ch6 ch7 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR RL78 CPU CORE PORT 13 P137 PORT 14 P147 CODE FLASH MEMORY DATA FLASH MEMORY ANI0/P20 to ANI2/P22 3 A/D CONVERTER 12- BIT INTERVAL TIMER POWER ON RESET/ VOLTAGE DETECTOR REAL-TIME CLOCK P121, P122 2 3 ANI16/P01, ANI17/P00, ANI18/P147 AVREFP/P20 AVREFM/P21 POR/LVD CONTROL RAM SERIAL ARRAY UNIT0 (4ch) RxD0/P11 TxD0/P12 RESET CONTROL ON-CHIP DEBUG UART0 VDD RxD1/P01 TxD1/P00 SCK00/P10 SI00/P11 SO00/P12 VSS TOOLRxD/P11, TOOLTxD/P12 UART1 CSI00 SCK11/P30 SI11/P17 SO11/P16 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P17 IIC11 R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR CRC SYSTEM CONTROL HIGH-SPEED ON-CHIP OSCILLATOR VOLTAGE REGULATOR DIRECT MEMORY ACCESS CONTROL BCD ADJUSTMENT TOOL0/P40 RESET X1/P121 X2/EXCLK/P122 REGC INTP0/P137 INTERRUPT CONTROL INTP3/P30 INTP5/P16 47 of 214 RL78/G13 1. OUTLINE 1.5.2 24-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 5 P10 to P12, P16, P17 TI01/TO01/P16 ch1 PORT 2 3 P20 to P22 TI02/TO02/P17 ch2 PORT 3 2 P30, P31 TI03/TO03/P31 ch3 PORT 4 P40 PORT 5 P50 ch4 ch5 ch6 ch7 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR 12- BIT INTERVAL TIMER RL78 CPU CORE PORT 6 2 P60, P61 PORT 12 2 P121, P122 PORT 13 P137 PORT 14 P147 CODE FLASH MEMORY DATA FLASH MEMORY A/D CONVERTER 3 ANI0/P20 to ANI2/P22 3 ANI16/P01, ANI17/P00, ANI18/P147 REAL-TIME CLOCK SERIAL ARRAY UNIT0 (4ch) RxD0/P11 TxD0/P12 UART0 RxD1/P01 TxD1/P00 UART1 AVREFP/P20 AVREFM/P21 POWER ON RESET/ VOLTAGE DETECTOR RAM POR/LVD CONTROL RESET CONTROL VDD SCK00/P10 SI00/P11 SO00/P12 CSI00 SCK11/P30 SI11/P50 SO11/P17 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 VSS TOOLRxD/P11, TOOLTxD/P12 ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL SERIAL INTERFACE IICA0 SCLA0/P60 SDAA0/P61 BUZZER OUTPUT PCLBUZ0/P31 CLOCK OUTPUT CONTROL DIRECT MEMORY ACCESS CONTROL BCD ADJUSTMENT MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR RESET X1/P121 HIGH-SPEED ON-CHIP OSCILLATOR X2/EXCLK/P122 VOLTAGE REGULATOR REGC INTP0/P137 CRC INTP1/P50 INTERRUPT CONTROL 2 INTP3/P30, INTP4/P31 INTP5/P16 R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 48 of 214 RL78/G13 1. OUTLINE 1.5.3 25-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 5 P10 to P12, P16, P17 TI01/TO01/P16 ch1 PORT 2 3 P20 to P22 TI02/TO02/P17 ch2 PORT 3 2 P30, P31 TI03/TO03/P31 ch3 PORT 4 P40 PORT 5 P50 ch4 ch5 ch6 ch7 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR 12- BIT INTERVAL TIMER RL78 CPU CORE PORT 6 2 P60, P61 PORT 12 2 P121, P122 PORT 13 P130 P137 PORT 14 P147 CODE FLASH MEMORY DATA FLASH MEMORY A/D CONVERTER 3 ANI0/P20 to ANI2/P22 3 ANI16/P01, ANI17/P00, ANI18/P147 REAL-TIME CLOCK SERIAL ARRAY UNIT0 (4ch) RxD0/P11 TxD0/P12 UART0 RxD1/P01 TxD1/P00 UART1 SCK00/P10 SI00/P11 SO00/P12 CSI00 SCK11/P30 SI11/P50 SO11/P17 CSI11 AVREFP/P20 AVREFM/P21 POWER ON RESET/ VOLTAGE DETECTOR RAM POR/LVD CONTROL RESET CONTROL VDD VSS TOOLRxD/P11, TOOLTxD/P12 ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 SERIAL INTERFACE IICA0 SCLA0/P60 SDAA0/P61 BUZZER OUTPUT PCLBUZ0/P31 CLOCK OUTPUT CONTROL DIRECT MEMORY ACCESS CONTROL BCD ADJUSTMENT MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR RESET X1/P121 HIGH-SPEED ON-CHIP OSCILLATOR X2/EXCLK/P122 VOLTAGE REGULATOR REGC INTP0/P137 CRC INTP1/P50 INTERRUPT CONTROL 2 INTP3/P30, INTP4/P31 INTP5/P16 R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 49 of 214 RL78/G13 1. OUTLINE 1.5.4 30-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 4 P20 to P23 PORT 3 2 P30, P31 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) ch6 (TI07/TO07/P10) RxD2/P14 ch7 P40 PORT 4 2 P50, P51 PORT 6 2 P60, P61 PORT 12 2 P121, P122 P120 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR PORT 5 PORT 13 P137 PORT 14 P147 12- BIT INTERVAL TIMER REAL-TIME CLOCK SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P01 TxD1/P00 UART1 4 ANI0/P20 to ANI3/P23 4 ANI16/P01, ANI17/P00, ANI18/P147, ANI19/P120 CODE FLASH MEMORY RL78 CPU CORE A/D CONVERTER DATA FLASH MEMORY AVREFP/P20 AVREFM/P21 POWER ON RESET/ VOLTAGE DETECTOR POR/LVD CONTROL RAM SCK00/P10 SI00/P11 SO00/P12 CSI00 SCK11/P30 SI11/P50 SO11/P51 CSI11 VDD SCL00/P10 SDA00/P11 IIC00 SERIAL INTERFACE IICA0 RESET CONTROL VSS TOOLRxD/P11, TOOLTxD/P12 SCLA0/P60(SCLA0/P14) ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL RESET SDAA0/P61(SDAA0/P13) SCL11/P30 SDA11/P50 IIC11 BUZZER OUTPUT 2 SERIAL ARRAY UNIT1 (2ch) CLOCK OUTPUT CONTROL UART2 LINSEL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR SCK20/P15 SI20/P14 SO20/P13 CSI20 DIRECT MEMORY ACCESS CONTROL SCL20/P15 SDA20/P14 IIC20 RxD2/P14 TxD2/P13 Remark BCD ADJUSTMENT PCLBUZ0/P31, PCLBUZ1/P15 X1/P121 HIGH-SPEED ON-CHIP OSCILLATOR X2/EXCLK/P122 VOLTAGE REGULATOR REGC CRC RxD2/P14 INTP0/P137 INTERRUPT CONTROL 2 INTP1/P50, INTP2/P51 2 INTP3/P30, INTP4/P31 INTP5/P16 Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 50 of 214 RL78/G13 1. OUTLINE 1.5.5 32-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 4 P20 to P23 PORT 3 2 P30, P31 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) (TI07/TO07/P10) RxD2/P14 P40 PORT 4 PORT 5 2 P50, P51 ch6 PORT 6 3 P60 to P62 ch7 PORT 7 PORT 12 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR 12- BIT INTERVAL TIMER UART0 RxD1/P01 TxD1/P00 UART1 SCK00/P10 SI00/P11 SO00/P12 CSI00 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 SCL20/P15 SDA20/P14 Remark P147 4 ANI0/P20 to ANI3/P23 4 ANI16/P01, ANI17/P00, ANI18/P147, ANI19/P120 POWER ON RESET/ VOLTAGE DETECTOR RAM POR/LVD CONTROL RESET CONTROL VSS TOOLRxD/P11, TOOLTxD/P12 ON-CHIP DEBUG CLOCK OUTPUT CONTROL LINSEL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR CSI20 DIRECT MEMORY ACCESS CONTROL IIC20 BCD ADJUSTMENT UART2 TOOL0/P40 SCLA0/P60(SCLA0/P14) SERIAL INTERFACE IICA0 SDAA0/P61(SDAA0/P13) BUZZER OUTPUT SERIAL ARRAY UNIT1 (2ch) SCK20/P15 SI20/P14 SO20/P13 PORT 14 AVREFP/P20 AVREFM/P21 2 RxD2/P14 TxD2/P13 P137 A/D CONVERTER VDD SCK11/P30 SI11/P50 SO11/P51 PORT 13 DATA FLASH MEMORY SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) P120 P121, P122 2 CODE FLASH MEMORY RL78 CPU CORE REAL-TIME CLOCK P70 PCLBUZ0/P31, PCLBUZ1/P15 CRC SYSTEM CONTROL RESET X1/P121 HIGH-SPEED ON-CHIP OSCILLATOR X2/EXCLK/P122 VOLTAGE REGULATOR REGC RxD2/P14 INTP0/P137 INTERRUPT CONTROL 2 INTP1/P50, INTP2/P51 2 INTP3/P30, INTP4/P31 INTP5/P16 Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 51 of 214 RL78/G13 1. OUTLINE 1.5.6 36-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 6 P20 to P25 TI02/TO02/P17 (TI02/TO02/P15) ch2 PORT 3 2 P30, P31 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) (TI07/TO07/P10) RxD2/P14 PORT 4 PORT 5 2 P50, P51 ch6 PORT 6 3 P60 to P62 ch7 PORT 7 3 P70 to P72 2 P121, P122 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR PORT 12 CODE FLASH MEMORY RL78 CPU CORE RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P01 TxD1/P00 UART1 SCK00/P10 SI00/P11 SO00/P12 CSI00 SCK11/P30 SI11/P50 SO11/P51 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 P137 PORT 14 P147 A/D CONVERTER POWER ON RESET/ VOLTAGE DETECTOR RAM VSS TOOLRxD/P11, TOOLTxD/P12 SCLA0/P60(SCLA0/P14) SDAA0/P61(SDAA0/P13) SERIAL ARRAY UNIT1 (2ch) BUZZER OUTPUT 2 LINSEL CLOCK OUTPUT CONTROL CSI20 MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR CSI21 SCL20/P15 SDA20/P14 IIC20 SCL21/P70 SDA21/P71 IIC21 ANI0/P20 to ANI5/P25 2 ANI18/P147, ANI19/P120 POR/LVD CONTROL RESET CONTROL VDD UART2 6 AVREFP/P20 AVREFM/P21 SERIAL INTERFACE IICA0 Remark PORT 13 DATA FLASH MEMORY SERIAL ARRAY UNIT0 (4ch) SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 P120 12- BIT INTERVAL TIMER REAL-TIME CLOCK RxD2/P14 TxD2/P13 P40 PCLBUZ0/P31, PCLBUZ1/P15 ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR VOLTAGE REGULATOR REGC RxD2/P14 INTP0/P137 CRC INTERRUPT CONTROL 2 2 DIRECT MEMORY ACCESS CONTROL INTP1/P50, INTP2/P51 INTP3/P30, INTP4/P31 INTP5/P16 BCD ADJUSTMENT Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 52 of 214 RL78/G13 1. OUTLINE 1.5.7 40-pin products TIMER ARRAY UNIT (8ch) TI00/P00 TO00/P01 ch0 TI01/TO01/P16 ch1 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) ch6 (TI07/TO07/P10) RxD2/P14 ch7 PORT 0 2 P00, P01 PORT 1 8 P10 to P17 PORT 2 7 P20 to P26 PORT 3 2 P30, P31 P40 PORT 4 RTC1HZ/P30 REAL-TIME CLOCK RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P01 TxD1/P00 UART1 SCK00/P10 SI00/P11 SO00/P12 CSI00 SCK11/P30 SI11/P50 SO11/P51 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 CODE FLASH MEMORY RL78 CPU CORE 3 P60 to P62 PORT 7 4 P70 to P73 PORT 12 4 P121 to P124 PORT 13 P137 PORT 14 P147 POWER ON RESET/ VOLTAGE DETECTOR KR0/P70 to KR3/P73 4 VSS TOOLRxD/P11, TOOLTxD/P12 SDAA0/P61(SDAA0/P13) POR/LVD CONTROL RESET CONTROL ON-CHIP DEBUG TOOL0/P40 SCLA0/P60(SCLA0/P14) SYSTEM CONTROL BUZZER OUTPUT 2 UART2 CLOCK OUTPUT CONTROL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR PCLBUZ0/P31, PCLBUZ1/P15 CRC RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC RxD2/P14 INTP0/P137 CSI21 SCL20/P15 SDA20/P14 IIC20 SCL21/P70 SDA21/P71 IIC21 ANI18/P147, ANI19/P120 RAM VDD CSI20 2 AVREFP/P20 AVREFM/P21 KEY RETURN LINSEL ANI0/P20 to ANI6/P26 7 A/D CONVERTER SERIAL ARRAY UNIT1 (2ch) Remark PORT 6 DATA FLASH MEMORY SERIAL INTERFACE IICA0 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 P50, P51 12- BIT INTERVAL TIMER SERIAL ARRAY UNIT0 (4ch) RxD2/P14 TxD2/P13 2 P120 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR PORT 5 DIRECT MEMORY ACCESS CONTROL BCD ADJUSTMENT INTERRUPT CONTROL 2 INTP1/P50, INTP2/P51 2 INTP3/P30, INTP4/P31 INTP5/P16 Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 53 of 214 RL78/G13 1. OUTLINE 1.5.8 44-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 8 P20 to P27 TI02/TO02/P17 (TI02/TO02/P15) ch2 PORT 3 2 TI03/TO03/P31 (TI03/TO03/P14) P30, P31 ch3 PORT 4 2 ch4 P40, P41 (TI04/TO04/P13) (TI05/TO05/P12) ch5 PORT 5 2 P50, P51 (TI06/TO06/P11) TI07/TO07/P41 (TI07/TO07/P10) RxD2/P14 ch6 PORT 6 4 P60 to P63 ch7 PORT 7 4 P70 to P73 4 P121 to P124 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR RTC1HZ/P30 PORT 12 PORT 13 12- BIT INTERVAL TIMER REAL-TIME CLOCK CODE FLASH MEMORY RL78 CPU CORE TxD0/P12(TxD0/P17) RxD1/P01 TxD1/P00 SCK11/P30 SI11/P50 SO11/P51 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL11/P30 SDA11/P50 IIC11 P146, P147 8 ANI0/P20 to ANI7/P27 2 ANI18/P147, ANI19/P120 KEY RETURN KR0/P70 to KR3/P73 4 RAM POWER ON RESET/ VOLTAGE DETECTOR VDD UART2 LINSEL CSI20 POR/LVD CONTROL VSS TOOLRxD/P11, TOOLTxD/P12 RESET CONTROL SCLA0/P60(SCLA0/P14) SERIAL INTERFACE IICA0 SERIAL ARRAY UNIT1 (2ch) ON-CHIP DEBUG TOOL0/P40 SDAA0/P61(SDAA0/P13) SYSTEM CONTROL BUZZER OUTPUT 2 CLOCK OUTPUT CONTROL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR PCLBUZ0/P31, PCLBUZ1/P15 CRC RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC RxD2/P14 INTP0/P137 CSI21 SCL20/P15 SDA20/P14 IIC20 SCL21/P70 SDA21/P71 IIC21 Remark 2 AVREFP/P20 AVREFM/P21 UART1 CSI00 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 A/D CONVERTER P137 UART0 SCK00/P10 SI00/P11 SO00/P12 RxD2/P14 TxD2/P13 PORT 14 DATA FLASH MEMORY SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) P120 DIRECT MEMORY ACCESS CONTROL BCD ADJUSTMENT INTERRUPT CONTROL 2 INTP1/P50, INTP2/P51 2 INTP3/P30, INTP4/P31 INTP5/P16 Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 54 of 214 RL78/G13 1. OUTLINE 1.5.9 48-pin products TIMER ARRAY UNIT (8ch) PORT 0 2 P00, P01 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 8 P20 to P27 PORT 3 2 P30, P31 PORT 4 2 P40, P41 PORT 5 2 P50, P51 PORT 6 4 P60 to P63 PORT 7 6 P70 to P75 PORT 12 4 P121 to P124 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) ch6 TI07/TO07/P41 (TI07/TO07/P10) RxD2/P14 ch7 P120 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR RTC1HZ/P30 PORT 14 REAL-TIME CLOCK SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P01 TxD1/P00 UART1 SCK00/P10 SI00/P11 SO00/P12 SCK01/P75 SI01/P74 SO01/P73 SCL01/P75 SDA01/P74 IIC01 SCL11/P30 SDA11/P50 IIC11 A/D CONVERTER POWER ON RESET/ VOLTAGE DETECTOR VDD SERIAL ARRAY UNIT1 (2ch) UART2 LINSEL Remark 8 ANI0/P20 to ANI7/P27 2 ANI18/P147, ANI19/P120 AVREFP/P20 AVREFM/P21 CSI01 IIC00 SCL21/P70 SDA21/P71 DATA FLASH MEMORY RAM SCL00/P10 SDA00/P11 SCL20/P15 SDA20/P14 P140, P146, P147 KR0/P70 to KR5/P75 6 CSI00 CSI11 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 3 CODE FLASH MEMORY RL78 CPU CORE KEY RETURN SCK11/P30 SI11/P50 SO11/P51 RxD2/P14 TxD2/P13 P130 P137 PORT 13 12- BIT INTERVAL TIMER CSI20 CSI21 VSS TOOLRxD/P11, TOOLTxD/P12 POR/LVD CONTROL RESET CONTROL ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL SERIAL INTERFACE IICA0 SDAA0/P61(SDAA0/P13) BUZZER OUTPUT 2 CLOCK OUTPUT CONTROL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR DIRECT MEMORY ACCESS CONTROL RESET X1/P121 X2/EXCLK/P122 SCLA0/P60(SCLA0/P14) PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P15 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC RxD2/P14 INTP0/P137 CRC 2 INTERRUPT CONTROL 2 INTP5/P16 INTP6/P140 IIC20 IIC21 INTP1/P50, INTP2/P51 INTP3/P30, INTP4/P31 BCD ADJUSTMENT 2 INTP8/P74, INTP9/P75 Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 55 of 214 RL78/G13 1. OUTLINE 1.5.10 52-pin products TIMER ARRAY UNIT (8ch) PORT 0 4 P00 to P03 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 PORT 2 8 P20 to P27 PORT 3 2 P30, P31 PORT 4 2 P40, P41 PORT 5 2 P50, P51 TI01/TO01/P16 ch1 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 (TI04/TO04/P13) ch4 (TI05/TO05/P12) ch5 (TI06/TO06/P11) ch6 PORT 6 4 P60 to P63 TI07/TO07/P41 (TI07/TO07/P10) RxD2/P14 (RxD2/P76) ch7 PORT 7 8 P70 to P77 PORT 12 WINDOW WATCHDOG TIMER P120 4 P121 to P124 P130 P137 PORT 13 LOW-SPEED ON-CHIP OSCILLATOR RTC1HZ/P30 12- BIT INTERVAL TIMER REAL-TIME CLOCK SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P03 TxD1/P02 UART1 SCK00/P10 SI00/P11 SO00/P12 SCK01/P75 SI01/P74 SO01/P73 PORT 14 RL78 CPU CORE IIC00 SCL01/P75 SDA01/P74 IIC01 SCL11/P30 SDA11/P50 IIC11 A/D CONVERTER 4 KEY RETURN 8 POWER ON RESET/ VOLTAGE DETECTOR ANI16/P03, ANI17/P02, ANI18/P147, ANI19/P120 AVREFP/P20 AVREFM/P21 KR0/P70 to KR7/P77 POR/LVD CONTROL RESET CONTROL VDD VSS TOOLRxD/P11, TOOLTxD/P12 ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL SCLA0/P60(SCLA0/P14) SERIAL INTERFACE IICA0 SDAA0/P61(SDAA0/P13) SERIAL ARRAY UNIT1 (2ch) BUZZER OUTPUT UART2 2 LINSEL CLOCK OUTPUT CONTROL CSI20 MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P15 RxD2/P14 (RxD2/P76) INTP0/P137 2 CRC INTERRUPT CONTROL 2 IIC20 SCL21/P70 SDA21/P71 IIC21 INTP1/P50, INTP2/P51 INTP3/P30, INTP4/P31 INTP5/P16 CSI21 SCL20/P15 SDA20/P14 Remark ANI0/P20 to ANI7/P27 CSI01 SCL00/P10 SDA00/P11 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 8 DATA FLASH MEMORY RAM CSI11 TxD2/P13(TxD2/P77) P140, P146, P147 CODE FLASH MEMORY CSI00 SCK11/P30 SI11/P50 SO11/P51 RxD2/P14(RxD2/P76) 3 INTP6/P140 DIRECT MEMORY ACCESS CONTROL 4 INTP8/P74 to INTP11/P77 BCD ADJUSTMENT Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 56 of 214 RL78/G13 1. OUTLINE 1.5.11 64-pin products TIMER ARRAY UNIT (8ch) PORT 0 7 P00 to P06 TI00/P00 TO00/P01 ch0 PORT 1 8 P10 to P17 TI01/TO01/P16 ch1 PORT 2 8 P20 to P27 TI02/TO02/P17 (TI02/TO02/P15) ch2 PORT 3 2 P30, P31 TI03/TO03/P31 (TI03/TO03/P14) ch3 TI04/TO04/P42 (TI04/TO04/P13) PORT 4 4 P40 to P43 ch4 TI05/TO05/P05 (TI05/TO05/P12) ch5 PORT 5 6 P50 to P55 ch6 PORT 6 4 P60 to P63 ch7 PORT 7 8 P70 to P77 4 P121 to P124 TI06/TO06/P06 (TI06/TO06/P11) TI07/TO07/P41 (TI07/TO07/P10) RxD2/P14 (RxD2/P76) WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR RTC1HZ/P30 PORT 12 PORT 14 UART0 RxD1/P03 TxD1/P02 UART1 A/D CONVERTER DATA FLASH MEMORY ANI0/P20 to ANI7/P27 4 ANI16/P03, ANI17/P02, ANI18/P147, ANI19/P120 AVREFP/P20 AVREFM/P21 KEY RETURN POWER ON RESET/ VOLTAGE DETECTOR KR0/P70 to KR7/P77 8 SCK11/P30 SI11/P50 SO11/P51 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL01/P75 SDA01/P74 IIC01 SCL10/P04 SDA10/P03 IIC10 SCL11/P30 SDA11/P50 IIC11 RESET CONTROL ON-CHIP DEBUG VDD, VSS, TOOLRxD/P11, EVDD0 EVSS0 TOOLTxD/P12 SCLA0/P60(SCLA0/P14) SERIAL INTERFACE IICA0 TOOL0/P40 SYSTEM CONTROL RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 SDAA0/P61(SDAA0/P13) VOLTAGE REGULATOR 2 SERIAL ARRAY UNIT1 (2ch) POR/LVD CONTROL RAM BUZZER OUTPUT CLOCK OUTPUT CONTROL REGC PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P141 (PCLBUZ1/P55) RxD2/P14 (RxD2/P76) INTP0/P137 2 UART2 LINSEL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR CSI20 CRC 2 INTERRUPT CONTROL 2 CSI21 IIC20 SCL21/P70 SDA21/P71 IIC21 BCD ADJUSTMENT INTP1/P50, INTP2/P51 INTP3/P30, INTP4/P31 INTP5/P16(INTP5/P12) 2 DIRECT MEMORY ACCESS CONTROL SCL20/P15 SDA20/P14 Remark 8 CODE FLASH MEMORY RL78 CPU CORE CSI01 CSI10 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 P140, P141, P146, P147 CSI00 SCK10/P04 SI10/P03 SO10/P02 TxD2/P13(TxD2/P77) 4 REAL-TIME CLOCK RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) RxD2/P14(RxD2/P76) P130 P137 PORT 13 12- BIT INTERVAL TIMER SERIAL ARRAY UNIT0 (4ch) SCK00/P10(SCK00/P55) SI00/P11(SI00/P16) SO00/P12(SO00/P17) SCK01/P75 SI01/P74 SO01/P73 P120 2 INTP6/P140, INTP7/P141 INTP8/P74, INTP9/P75 INTP10/P76(INTP10/P52), INTP11/P77(INTP11/P53) Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 57 of 214 RL78/G13 1. OUTLINE 1.5.12 80-pin products TIMER ARRAY UNIT0 (8ch) TIMER ARRAY UNIT1 (4ch) TI00/P00 TO00/P01 ch0 ch0 TI10/TO10/P64 TI01/TO01/P16 ch1 ch1 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 TI04/TO04/P42 (TI04/TO04/P13) ch4 TI05/TO05/P05 (TI05/TO05/P12) ch5 TI06/TO06/P06 (TI06/TO06/P11) TI07/TO07/P41 (TI07/TO07/P10) RxD2/P14 (RxD2/P76) PORT 0 7 P00 to P06 TI11/TO11/P65 PORT 1 8 P10 to P17 ch2 TI12/TO12/P66 PORT 2 8 P20 to P27 ch3 TI13/TO13/P67 PORT 3 2 P30, P31 PORT 4 6 P40 to P45 PORT 5 6 P50 to P55 PORT 6 8 P60 to P67 PORT 7 8 P70 to P77 ch6 ch7 SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P03 TxD1/P02 UART1 SCK00/P10(SCK00/P55) SI00/P11(SI00/P16) SO00/P12(SO00/P17) SCK01/P43 SI01/P44 SO01/P45 SCK10/P04 SI10/P03 SO10/P02 A/D CONVERTER PORT 11 PORT 12 CSI10 P110, P111 2 IIC01 SCL10/P04 SDA10/P03 IIC10 SCL11/P30 SDA11/P50 IIC11 SERIAL ARRAY UNIT1 (4ch) PORT 13 BUZZER OUTPUT CSI21 CLOCK OUTPUT CONTROL 2 SCL20/P15 SDA20/P14 IIC20 4 P150 to P153 KEY RETURN 8 KR0/P70 to KR7/P77 POR/LVD CONTROL RESET CONTROL CSI20 CSI31 PORT 15 SCLA0/P60(SCLA0/P14) SDAA1/P63 SCLA1/P62 SCK31/P54 SI31/P53 SO31/P52 P140 to P144, P146, P147 VSS, TOOLRxD/P11, VDD, EVDD0 EVSS0 TOOLTxD/P12 UART3 CSI30 7 POWER ON RESET/ VOLTAGE DETECTOR SDAA0/P61(SDAA0/P13) SCK30/P142 PORT 14 RAM SERIAL INTERFACE IICA1 LINSEL P121 to P124 P130 P137 DATA FLASH MEMORY SERIAL INTERFACE IICA0 UART2 P120 4 CODE FLASH MEMORY RL78 CPU CORE SCL01/P43 SDA01/P44 MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P141 (PCLBUZ1/P55) CRC ON-CHIP DEBUG TOOL0/P40 SYSTEM CONTROL RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC RxD2/P14 (RxD2/P76) INTP0/P137 DIRECT MEMORY ACCESS CONTROL 2 SCL21/P70 SDA21/P71 IIC21 SCL30/P142 SDA30/P143 IIC30 SCL31/P54 SDA31/P53 IIC31 BCD ADJUSTMENT 2 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR RTC1HZ/P30 Remark P100 PORT 10 CSI01 IIC00 SI30/P143 SO30/P144 ANI8/P150 to ANI11/P153 ANI16/P03, ANI17/P02, ANI18/P147, ANI19/P120, ANI20/P100 AVREFP/P20 AVREFM/P21 SCL00/P10 SDA00/P11 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 4 CSI00 CSI11 RxD3/P143 TxD3/P144 ANI0/P20 to ANI7/P27 5 SCK11/P30 SI11/P50 SO11/P51 RxD2/P14(RxD2/P76) TxD2/P13(TxD2/P77) 8 12- BIT INTERVAL TIMER REAL-TIME CLOCK INTP1/P50, INTP2/P51 INTP3/P30, INTP4/P31 INTP5/P16(INTP5/P12) INTERRUPT CONTROL 2 INTP6/P140, INTP7/P141 2 INTP8/P74, INTP9/P75 2 INTP10/P76(INTP10/P110), INTP11/P77(INTP11/P111) Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 58 of 214 RL78/G13 1. OUTLINE 1.5.13 100-pin products TIMER ARRAY UNIT0 (8ch) TIMER ARRAY UNIT1 (4ch) TI00/P00 TO00/P01 ch0 ch0 TI10/TO10/P64 TI01/TO01/P16 ch1 ch1 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) ch3 TI04/TO04/P42 (TI04/TO04/P13) ch4 TI05/TO05/P46 (TI05/TO05/P12) ch5 TI06/TO06/P102 (TI06/TO06/P11) TI07/TO07/P145 (TI07/TO07/P10) RxD2/P14 (RxD2/P76) PORT 0 7 P00 to P06 TI11/TO11/P65 PORT 1 8 P10 to P17 ch2 TI12/TO12/P66 PORT 2 8 P20 to P27 ch3 TI13/TO13/P67 PORT 3 2 P30, P31 PORT 4 8 P40 to P47 PORT 5 8 P50 to P57 PORT 6 8 P60 to P67 PORT 7 8 P70 to P77 PORT 8 8 P80 to P87 PORT 10 3 P100 to P102 PORT 11 2 P110, P111 ch6 ch7 SERIAL ARRAY UNIT0 (4ch) 8 RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 7 RxD1/P03(RxD1/P81) TxD1/P02(TxD1/P82) UART1 SCK00/P10(SCK00/P55) SI00/P11(SI00/P16) SO00/P12(SO00/P17) SCK01/P43 SI01/P44 SO01/P45 5 A/D CONVERTER CSI00 AVREFP/P20 AVREFM/P21 CSI01 PORT 12 SCK10/P04(SCK10/P80) SI10/P03(SI10/P81) SO10/P02(SO10/P82) CSI10 SCK11/P30 SI11/P50 SO11/P51 CSI11 SCL00/P10 SDA00/P11 IIC00 SCL01/P43 SDA01/P44 IIC01 SCL10/P04(SCL10/P80) SDA10/P03(SDA10/P81) IIC10 SCL11/P30 ANI0/P20 to ANI7/P27 ANI8/P150 to ANI14/P156 ANI16/P03, ANI17/P02, ANI18/P147, ANI19/P120, ANI20/P100 DATA FLASH MEMORY UART3 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 VSS, VDD, EVDD0, EVSS0, EVDD1 EVSS1 SCLA0/P60(SCLA0/P14) SDAA0/P61(SDAA0/P13) SERIAL INTERFACE IICA1 SDAA1/P63 SCLA1/P62 BUZZER OUTPUT 2 CSI21 CLOCK OUTPUT CONTROL CSI30 MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR SCK31/P54 SI31/P53 SO31/P52 CSI31 DIRECT MEMORY ACCESS CONTROL SCL20/P15 SDA20/P14 IIC20 SCL21/P70 SDA21/P71 IIC21 SCL30/P142 SDA30/P143 IIC30 SCL31/P54 SDA31/P53 IIC31 SI30/P143 SO30/P144 PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P141 (PCLBUZ1/P55) CRC P140 to P147 PORT 15 7 P150 to P156 KEY RETURN 8 KR0/P70 to KR7/P77 RESET CONTROL TOOL0/P40 ON-CHIP DEBUG SYSTEM CONTROL RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC 2 2 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR POR/LVD CONTROL RxD2/P14 (RxD2/P76) INTP0/P137 BCD ADJUSTMENT RTC1HZ/P30 Remark TOOLRxD/P11, TOOLTxD/P12 SERIAL INTERFACE IICA0 CSI20 SCK30/P142 8 POWER ON RESET/ VOLTAGE DETECTOR UART2 RxD3/P143 TxD3/P144 PORT 14 RAM IIC11 LINSEL P130 P137 PORT 13 SDA11/P50 RxD2/P14(RxD2/P76) TxD2/P13(TxD2/P77) P121 to P124 CODE FLASH MEMORY RL78 CPU CORE SERIAL ARRAY UNIT1 (4ch) P120 4 12- BIT INTERVAL TIMER INTERRUPT CONTROL INTP1/P46(INTP1/P56), INTP2/P47 INTP3/P30(INTP3/P57), INTP4/P31(INTP4/P146) INTP5/P16(INTP5/P12) 2 INTP6/P140(INTP6/P84), INTP7/P141(INTP7/P85) 2 INTP8/P74(INTP8/P86), INTP9/P75(INTP9/P87) 2 INTP10/P76(INTP10/P110), INTP11/P77(INTP11/P111) REAL-TIME CLOCK Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 59 of 214 RL78/G13 1. OUTLINE 1.5.14 128-pin products TIMER ARRAY UNIT0 (8ch) TIMER ARRAY UNIT1 (8ch) TI00/P00 TO00/P01 ch0 ch0 TI10/TO10/P64 TI01/TO01/P16 ch1 ch1 TI02/TO02/P17 (TI02/TO02/P15) ch2 TI03/TO03/P31 (TI03/TO03/P14) PORT 0 8 P00 to P07 TI11/TO11/P65 PORT 1 8 P10 to P17 ch2 TI12/TO12/P66 PORT 2 8 P20 to P27 ch3 ch3 TI13/TO13/P67 PORT 3 8 P30 to P37 TI04/TO04/P42 (TI04/TO04/P13) ch4 ch4 TI14/TO14/P103 PORT 4 8 P40 to P47 TI05/TO05/P46 (TI05/TO05/P12) ch5 ch5 TI15/TO15/P104 PORT 5 8 P50 to P57 ch6 ch6 TI16/TO16/P105 ch7 ch7 TI17/TO17/P106 PORT 6 8 P60 to P67 PORT 7 8 P70 to P77 PORT 8 8 P80 to P87 PORT 9 8 P90 to P97 PORT 10 7 P100 to P106 PORT 11 8 P110 to P117 4 P120, P125 to P127 TI06/TO06/P102 (TI06/TO06/P11) TI07/TO07/P145 (TI07/TO07/P10) RxD2/P14 (RxD2/P76) SERIAL ARRAY UNIT0 (4ch) RxD0/P11(RxD0/P16) TxD0/P12(TxD0/P17) UART0 RxD1/P03(RxD1/P81) TxD1/P02(TxD1/P82) UART1 SCK00/P10(SCK00/P55) SI00/P11(SI00/P16) SO00/P12(SO00/P17) SCK01/P43 SI01/P44 SO01/P45 SCK10/P04(SCK10/P80) SI10/P03(SI10/P81) SO10/P02(SO10/P82) 7 CSI00 11 A/D CONVERTER CSI01 SCL00/P10 SDA00/P11 IIC00 SCL01/P43 SDA01/P44 IIC01 SCL10/P04(SCL10/P80) SDA10/P03(SDA10/P81) IIC10 VSS, VDD, TOOLRxD/P11, EVDD0, EVSS0, TOOLTxD/P12 EVDD1 EVSS1 LINSEL RxD3/P143 TxD3/P144 UART3 SERIAL INTERFACE IICA1 SCK30/P142 SI30/P143 SO30/P144 CSI30 SCK31/P54 SI31/P53 SO31/P52 CSI31 SCL20/P15 SDA20/P14 IIC20 SCL21/P70 SDA21/P71 SCL30/P142 SDA30/P143 SCL31/P54 SDA31/P53 BUZZER OUTPUT 2 CSI21 CLOCK OUTPUT CONTROL MULTIPLIER& DIVIDER, MULTIPLYACCUMULATOR P140 to P147 PORT 15 7 P150 to P156 KEY RETURN 8 KR0/P70 to KR7/P77 SCLA0/P60(SCLA0/P14) SDAA0/P61(SDAA0/P13) SDAA1/P63 SCLA1/P62 PCLBUZ0/P140 (PCLBUZ0/P31), PCLBUZ1/P141 (PCLBUZ1/P55) CRC POR/LVD CONTROL RESET CONTROL TOOL0/P40 ON-CHIP DEBUG SYSTEM CONTROL RESET X1/P121 X2/EXCLK/P122 HIGH-SPEED ON-CHIP OSCILLATOR XT1/P123 XT2/EXCLKS/P124 VOLTAGE REGULATOR REGC RxD2/P14 (RxD2/P76) INTP0/P137 DIRECT MEMORY ACCESS CONTROL 2 BCD ADJUSTMENT IIC21 IIC30 2 WINDOW WATCHDOG TIMER LOW-SPEED ON-CHIP OSCILLATOR 12- BIT INTERVAL TIMER IIC31 RTC1HZ/P30 Remark 8 POWER ON RESET/ VOLTAGE DETECTOR RxD2/P14(RxD2/P76) TxD2/P13(TxD2/P77) CSI20 PORT 14 RAM SERIAL INTERFACE IICA0 SCK20/P15 SI20/P14 SO20/P13 SCK21/P70 SI21/P71 SO21/P72 P121 to P124 P130 P137 PORT 13 IIC11 UART2 4 DATA FLASH MEMORY SDA11/P96 SERIAL ARRAY UNIT1 (4ch) PORT 12 CODE FLASH MEMORY RL78 CPU CORE CSI11 ANI0/P20 to ANI7/P27 ANI8/P150 to ANI14/P156 ANI16/P03, ANI17/P02, ANI18/P147, ANI19/P120, ANI20/P100, ANI21/P37, ANI22/P36, ANI23/P35, ANI24/P117, ANI25/P116, ANI26/P115 AVREFP/P20 AVREFM/P21 CSI10 SCK11/P95 SI11/P96 SO11/P97 SCL11/P95 8 REAL-TIME CLOCK INTERRUPT CONTROL INTP1/P46 (INTP1/P56), INTP2/P47 INTP3/P30 (INTP3/P57), INTP4/P31 (INTP4/P146) INTP5/P16 (INTP5/P12) 2 INTP6/P140 (INTP6/P84), INTP7/P141 (INTP7/P85) 2 INTP8/P74 (INTP8/P86), INTP9/P75 (INTP9/P87) 2 INTP10/P76 (INTP10/P110), INTP11/P77 (INTP11/P111) Functions in parentheses in the above figure can be assigned via settings in the peripheral I/O redirection register (PIOR). Refer to Figure 4-8 Format of Peripheral I/O Redirection Register (PIOR) in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 60 of 214 RL78/G13 1. OUTLINE 1.6 Outline of Functions [20-pin, 24-pin, 25-pin, 30-pin, 32-pin, 36-pin products] Caution This outline describes the functions at the time when Peripheral I/O redirection register (PIOR) is set to 00H. (1/2) Item 20-pin 4 to 8 - 2 to 12Note1 4 to 8 - 2 to 12Note1 R5F101Cx - 16 to 128 R5F100Cx 4 2 to 4Note1 36-pin R5F101Bx - 16 to 128 R5F100Bx Main system clock 4 2 to 4Note1 16 to 64 32-pin R5F101Ax Address space - R5F100Ax 2 to 4Note1 30-pin R5F1018x 4 RAM (KB) 16 to 64 R5F1008x Data flash memory (KB) 25-pin R5F1017x 16 to 64 R5F1007x R5F1016x R5F1006x Code flash memory (KB) 24-pin 16 to 128 4 to 8 - 2 to 12Note1 1 MB High-speed system clock X1 (crystal/ceramic) oscillation, external main system clock input (EXCLK) HS (High-speed main) mode: 1 to 20 MHz (VDD = 2.7 to 5.5 V), HS (High-speed main) mode: 1 to 16 MHz (VDD = 2.4 to 5.5 V), LS (Low-speed main) mode: 1 to 8 MHz (VDD = 1.8 to 5.5 V), LV (Low-voltage main) mode: 1 to 4 MHz (VDD = 1.6 to 5.5 V) High-speed on-chip oscillator HS (High-speed main) mode: 1 to 32 MHz (VDD = 2.7 to 5.5 V), HS (High-speed main) mode: 1 to 16 MHz (VDD = 2.4 to 5.5 V), LS (Low-speed main) mode: 1 to 8 MHz (VDD = 1.8 to 5.5 V), LV (Low-voltage main) mode: 1 to 4 MHz (VDD = 1.6 to 5.5 V) Subsystem clock - Low-speed on-chip oscillator 15 kHz (TYP.) General-purpose registers (8-bit register x 8) x 4 banks Minimum instruction execution time 0.03125 s (High-speed on-chip oscillator: fIH = 32 MHz operation) 0.05 s (High-speed system clock: fMX = 20 MHz operation) Instruction set I/O port Total CMOS I/O Timer 16 13 (N-ch O.D. I/O [VDD withstand voltage]: 5) 20 21 26 28 32 15 15 21 22 26 (N-ch O.D. I/O (N-ch O.D. I/O (N-ch O.D. I/O (N-ch O.D. I/O (N-ch O.D. I/O [VDD withstand [VDD withstand [VDD withstand [VDD withstand [VDD withstand voltage]: 6) voltage]: 6) voltage]: 9) voltage]: 9) voltage]: 10) CMOS input 3 3 3 3 3 3 CMOS output - - 1 - - - N-ch O.D. I/O (withstand voltage: 6 V) - 2 2 2 3 3 16-bit timer 8 channels Watchdog timer 1 channel Real-time clock (RTC) 1 channel Note 2 12-bit interval timer (IT) 1 channel Timer output RTC output Notes 1. Data transfer (8/16 bits) Adder and subtractor/logical operation (8/16 bits) Multiplication (8 bits x 8 bits) Rotate, barrel shift, and bit manipulation (Set, reset, test, and Boolean operation), etc. 3 channels (PWM outputs: 2 Note 3) 4 channels (PWM outputs: 3 Note 3), 4 channels (PWM outputs: 3 Note 3) 8 channels (PWM outputs: 7 Note 3) Note 4 - The flash library uses RAM in self-programming and rewriting of the data flash memory. The target products and start address of the RAM areas used by the flash library are shown below. R5F100xD, R5F101xD (x = 6 to 8, A to C): Start address FF300H R5F100xE, R5F101xE (x = 6 to 8, A to C): Start address FEF00H For the RAM areas used by the flash library, see Self RAM list of Flash Self-Programming Library for RL78 Family (R20UT2944). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 61 of 214 RL78/G13 Notes 2. 3. 4. 1. OUTLINE Only the constant-period interrupt function when the low-speed on-chip oscillator clock (fIL) is selected The number of PWM outputs varies depending on the setting of channels in use (the number of masters and slaves) (see 6.9.3 Operation as multiple PWM output function in the RL78/G13 User's Manual). When setting to PIOR = 1 (2/2) Item 20-pin 25-pin R5F101Cx 2 36-pin R5F100Cx R5F101Bx 1 32-pin R5F100Bx R5F101Ax R5F100Ax 1 30-pin R5F1018x R5F1008x - R5F1017x R5F1007x R5F1016x R5F1006x Clock output/buzzer output 24-pin 2 2 2.44 kHz, 4.88 kHz, 9.76 kHz, 1.25 MHz, 2.5 MHz, 5 MHz, 10 MHz (Main system clock: fMAIN = 20 MHz operation) 8/10-bit resolution A/D converter 6 channels 6 channels Serial interface [20-pin, 24-pin, 25-pin products] 6 channels 8 channels 8 channels 8 channels CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel [30-pin, 32-pin products] CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART (UART supporting LIN-bus): 1 channel [36-pin products] CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART (UART supporting LIN-bus): 1 channel I2C bus - 1 channel 1 channel 1 channel Multiplier and divider/multiplyaccumulator 16 bits x 16 bits = 32 bits (Unsigned or signed) 32 bits / 32 bits = 32 bits (Unsigned) 16 bits x 16 bits + 32 bits = 32 bits (Unsigned or signed) DMA controller 2 channels Vectored interrupt Internal sources External 23 24 24 3 5 5 Key interrupt 1 channel 1 channel 27 27 27 6 6 6 - Reset Power-on-reset circuit Power-on-reset: 1.51 V (TYP.) Power-down-reset: 1.50 V (TYP.) Voltage detector Rising edge : Falling edge : On-chip debug function Provided Power supply voltage VDD = 1.6 to 5.5 V (TA = -40 to +85C) Operating ambient temperature TA = 40 to +85C (A: Consumer applications, D: Industrial applications ) Reset by RESET pin Internal reset by watchdog timer Internal reset by power-on-reset Internal reset by voltage detector Internal reset by illegal instruction execution Note Internal reset by RAM parity error Internal reset by illegal-memory access 1.67 V to 4.06 V (14 stages) 1.63 V to 3.98 V (14 stages) VDD = 2.4 to 5.5 V (TA = -40 to +105C) TA = 40 to +105C (G: Industrial applications) Note The illegal instruction is generated when instruction code FFH is executed. Reset by the illegal instruction execution not issued by emulation with the in-circuit emulator or on-chip debug emulator. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 62 of 214 RL78/G13 1. OUTLINE [40-pin, 44-pin, 48-pin, 52-pin, 64-pin products] Caution This outline describes the functions at the time when Peripheral I/O redirection register (PIOR) is set to 00H. (1/2) Item 40-pin - 4 to 8 2 to 32Note1 - 2 to 32Note1 Address space 1 MB Main system High-speed system clock clock X1 (crystal/ceramic) oscillation, external main system clock input (EXCLK) HS (High-speed main) mode: 1 to 20 MHz (VDD = 2.7 to 5.5 V), HS (High-speed main) mode: 1 to 16 MHz (VDD = 2.4 to 5.5 V), LS (Low-speed main) mode: 1 to 8 MHz (VDD = 1.8 to 5.5 V), LV (Low-voltage main) mode: 1 to 4 MHz (VDD = 1.6 to 5.5 V) High-speed on-chip oscillator HS (High-speed main) mode: HS (High-speed main) mode: LS (Low-speed main) mode: LV (Low-voltage main) mode: R5F101Lx 4 to 8 32 to 512 R5F100Lx - 2 to 32Note1 16 to 512 64-pin R5F101Jx 4 to 8 R5F100Jx - 2 to 16Note1 52-pin R5F101Gx 4 to 8 RAM (KB) 16 to 512 R5F100Gx Data flash memory (KB) 48-pin R5F101Fx 16 to 192 R5F100Fx R5F101Ex R5F100Ex Code flash memory (KB) 44-pin 32 to 512 4 to 8 - 2 to 32Note1 1 to 32 MHz (VDD = 2.7 to 5.5 V), 1 to 16 MHz (VDD = 2.4 to 5.5 V), 1 to 8 MHz (VDD = 1.8 to 5.5 V), 1 to 4 MHz (VDD = 1.6 to 5.5 V) Subsystem clock XT1 (crystal) oscillation, external subsystem clock input (EXCLKS) 32.768 kHz Low-speed on-chip oscillator 15 kHz (TYP.) General-purpose registers (8-bit register x 8) x 4 banks Minimum instruction execution time 0.03125 s (High-speed on-chip oscillator: fIH = 32 MHz operation) 0.05 s (High-speed system clock: fMX = 20 MHz operation) 30.5 s (Subsystem clock: fSUB = 32.768 kHz operation) Instruction set I/O port Total CMOS I/O CMOS input Timer Notes 1. Data transfer (8/16 bits) Adder and subtractor/logical operation (8/16 bits) Multiplication (8 bits x 8 bits) Rotate, barrel shift, and bit manipulation (Set, reset, test, and Boolean operation), etc. 36 40 44 48 58 28 (N-ch O.D. I/O [VDD withstand voltage]: 10) 31 (N-ch O.D. I/O [VDD withstand voltage]: 10) 34 (N-ch O.D. I/O [VDD withstand voltage]: 11) 38 (N-ch O.D. I/O [VDD withstand voltage]: 13) 48 (N-ch O.D. I/O [VDD withstand voltage]: 15) 5 5 5 5 5 CMOS output - - 1 1 1 N-ch O.D. I/O (withstand voltage: 6 V) 3 4 4 4 4 16-bit timer 8 channels Watchdog timer 1 channel Real-time clock (RTC) 1 channel 12-bit interval timer (IT) 1 channel 5 channels (PWM outputs: 4 Note 2), 8 channels (PWM outputs: 7 Note 2) Note 3 Timer output 4 channels (PWM outputs: 3 Note 2), 8 channels (PWM outputs: 7 Note 2)Note 3 RTC output 1 channel 1 Hz (subsystem clock: fSUB = 32.768 kHz) 8 channels (PWM outputs: 7 Note 2) The flash library uses RAM in self-programming and rewriting of the data flash memory. The target products and start address of the RAM areas used by the flash library are shown below. R5F100xD, R5F101xD (x = E to G, J, L): Start address FF300H R5F100xE, R5F101xE (x = E to G, J, L): Start address FEF00H R5F100xJ, R5F101xJ (x = F, G, J, L): Start address FAF00H R5F100xL, R5F101xL (x = F, G, J, L): Start address F7F00H For the RAM areas used by the flash library, see Self RAM list of Flash Self-Programming Library for RL78 Family (R20UT2944). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 63 of 214 RL78/G13 Notes 2. 3. 1. OUTLINE The number of PWM outputs varies depending on the setting of channels in use (the number of masters and slaves) (see 6.9.3 Operation as multiple PWM output function in the RL78/G13 User's Manual). When setting to PIOR = 1 (2/2) Item 40-pin 44-pin 52-pin 64-pin R5F101Lx R5F100Lx R5F101Jx 2 R5F100Jx R5F101Gx 2 R5F100Gx R5F101Fx R5F100Fx R5F101Ex R5F100Ex 2 Clock output/buzzer output 48-pin 2 2 2.44 kHz, 4.88 kHz, 9.76 kHz, 1.25 MHz, 2.5 MHz, 5 MHz, 10 MHz (Main system clock: fMAIN = 20 MHz operation) 256 Hz, 512 Hz, 1.024 kHz, 2.048 kHz, 4.096 kHz, 8.192 kHz, 16.384 kHz, 32.768 kHz (Subsystem clock: fSUB = 32.768 kHz operation) 8/10-bit resolution A/D converter 9 channels 10 channels Serial interface [40-pin, 44-pin products] 10 channels 12 channels 12 channels CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART (UART supporting LIN-bus): 1 channel [48-pin, 52-pin products] CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel CSI: 1 channel/simplified I2C: 1 channel/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART (UART supporting LIN-bus): 1 channel [64-pin products] CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART (UART supporting LIN-bus): 1 channel I2C bus 1 channel 1 channel 1 channel Multiplier and divider/multiplyaccumulator 16 bits x 16 bits = 32 bits (Unsigned or signed) 32 bits / 32 bits = 32 bits (Unsigned) 16 bits x 16 bits + 32 bits = 32 bits (Unsigned or signed) DMA controller 2 channels Vectored interrupt sources 1 channel 1 channel Internal 27 27 27 27 27 External 7 4 7 4 10 6 12 8 13 8 Key interrupt Reset Power-on-reset circuit Power-on-reset: 1.51 V (TYP.) Power-down-reset: 1.50 V (TYP.) Voltage detector Rising edge : Falling edge : On-chip debug function Provided Power supply voltage VDD = 1.6 to 5.5 V (TA = -40 to +85C) Reset by RESET pin Internal reset by watchdog timer Internal reset by power-on-reset Internal reset by voltage detector Internal reset by illegal instruction execution Note Internal reset by RAM parity error Internal reset by illegal-memory access 1.67 V to 4.06 V (14 stages) 1.63 V to 3.98 V (14 stages) VDD = 2.4 to 5.5 V (TA = -40 to +105C) Operating ambient temperature Note TA = 40 to +85C (A: Consumer applications, D: Industrial applications) TA = 40 to +105C (G: Industrial applications) The illegal instruction is generated when instruction code FFH is executed. Reset by the illegal instruction execution not issued by emulation with the in-circuit emulator or on-chip debug emulator. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 64 of 214 RL78/G13 1. OUTLINE [80-pin, 100-pin, 128-pin products] Caution This outline describes the functions at the time when Peripheral I/O redirection register (PIOR) is set to 00H. (1/2) Item 80-pin R5F100Mx Code flash memory (KB) 100-pin R5F101Mx R5F100Px 96 to 512 Data flash memory (KB) 8 8 to 32 R5F101Px R5F100Sx 96 to 512 - RAM (KB) 128-pin 8 Note 1 192 to 512 - 8 to 32 8 Note 1 1 MB Main system High-speed system clock clock X1 (crystal/ceramic) oscillation, external main system clock input (EXCLK) HS (High-speed main) mode: 1 to 20 MHz (VDD = 2.7 to 5.5 V), HS (High-speed main) mode: 1 to 16 MHz (VDD = 2.4 to 5.5 V), LS (Low-speed main) mode: 1 to 8 MHz (VDD = 1.8 to 5.5 V), LV (Low-voltage main) mode: 1 to 4 MHz (VDD = 1.6 to 5.5 V) HS (High-speed main) mode: HS (High-speed main) mode: LS (Low-speed main) mode: LV (Low-voltage main) mode: - 16 to 32 Address space High-speed on-chip oscillator R5F101Sx Note 1 1 to 32 MHz (VDD = 2.7 to 5.5 V), 1 to 16 MHz (VDD = 2.4 to 5.5 V), 1 to 8 MHz (VDD = 1.8 to 5.5 V), 1 to 4 MHz (VDD = 1.6 to 5.5 V) Subsystem clock XT1 (crystal) oscillation, external subsystem clock input (EXCLKS) 32.768 kHz Low-speed on-chip oscillator 15 kHz (TYP.) General-purpose register (8-bit register x 8) x 4 banks Minimum instruction execution time 0.03125 s (High-speed on-chip oscillator: fIH = 32 MHz operation) 0.05 s (High-speed system clock: fMX = 20 MHz operation) 30.5 s (Subsystem clock: fSUB = 32.768 kHz operation) Instruction set I/O port Data transfer (8/16 bits) Adder and subtractor/logical operation (8/16 bits) Multiplication (8 bits x 8 bits) Rotate, barrel shift, and bit manipulation (Set, reset, test, and Boolean operation), etc. Total CMOS I/O 74 92 120 64 (N-ch O.D. I/O [EVDD withstand voltage]: 21) 82 (N-ch O.D. I/O [EVDD withstand voltage]: 24) 110 (N-ch O.D. I/O [EVDD withstand voltage]: 25) 5 5 5 CMOS input Timer CMOS output 1 1 1 N-ch O.D. I/O (withstand voltage: 6 V) 4 4 4 12 channels 12 channels 16 channels Watchdog timer 16-bit timer 1 channel 1 channel 1 channel Real-time clock (RTC) 1 channel 1 channel 1 channel 12-bit interval timer (IT) Notes 1. 1 channel 1 channel Timer output 12 channels (PWM outputs: 10 Note 2) RTC output 1 channel 1 Hz (subsystem clock: fSUB = 32.768 kHz) 12 channels (PWM outputs: 10 Note 2) 1 channel 16 channels (PWM outputs: 14 Note 2) The flash library uses RAM in self-programming and rewriting of the data flash memory. The target products and start address of the RAM areas used by the flash library are shown below. R5F100xJ, R5F101xJ (x = M, P): Start address FAF00H R5F100xL, R5F101xL (x = M, P, S): Start address F7F00H For the RAM areas used by the flash library, see Self RAM list of Flash Self-Programming Library for RL78 Family (R20UT2944). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 65 of 214 RL78/G13 Notes 2. 1. OUTLINE The number of PWM outputs varies depending on the setting of channels in use (the number of masters and slaves) (see 6.9.3 Operation as multiple PWM output function in the RL78/G13 User's Manual). (2/2) Item 80-pin R5F100Mx Clock output/buzzer output 100-pin R5F101Mx R5F100Px R5F101Px 2 128-pin R5F100Sx 2 R5F101Sx 2 2.44 kHz, 4.88 kHz, 9.76 kHz, 1.25 MHz, 2.5 MHz, 5 MHz, 10 MHz (Main system clock: fMAIN = 20 MHz operation) 256 Hz, 512 Hz, 1.024 kHz, 2.048 kHz, 4.096 kHz, 8.192 kHz, 16.384 kHz, 32.768 kHz (Subsystem clock: fSUB = 32.768 kHz operation) 8/10-bit resolution A/D converter 17 channels Serial interface [80-pin, 100-pin, 128-pin products] I2C bus Multiplier and divider/multiplyaccumulator 20 channels 26 channels CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART (UART supporting LIN-bus): 1 channel CSI: 2 channels/simplified I2C: 2 channels/UART: 1 channel 2 channels 2 channels 2 channels 16 bits x 16 bits = 32 bits (Unsigned or signed) 32 bits / 32 bits = 32 bits (Unsigned) 16 bits x 16 bits + 32 bits = 32 bits (Unsigned or signed) DMA controller Vectored interrupt sources 4 channels Internal 37 37 41 External 13 13 13 8 8 8 Key interrupt Reset Power-on-reset circuit Power-on-reset: 1.51 V (TYP.) Power-down-reset: 1.50 V (TYP.) Voltage detector Rising edge : Falling edge : On-chip debug function Provided Power supply voltage VDD = 1.6 to 5.5 V (TA = -40 to +85C) Reset by RESET pin Internal reset by watchdog timer Internal reset by power-on-reset Internal reset by voltage detector Internal reset by illegal instruction execution Note Internal reset by RAM parity error Internal reset by illegal-memory access 1.67 V to 4.06 V (14 stages) 1.63 V to 3.98 V (14 stages) VDD = 2.4 to 5.5 V (TA = -40 to +105C) Operating ambient temperature TA = 40 to +85C (A: Consumer applications, D: Industrial applications ) TA = 40 to +105C (G: Industrial applications) Note The illegal instruction is generated when instruction code FFH is executed. Reset by the illegal instruction execution not issued by emulation with the in-circuit emulator or on-chip debug emulator. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 66 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) This chapter describes the following electrical specifications. Target products A: Consumer applications TA = -40 to +85C R5F100xxAxx, R5F101xxAxx D: Industrial applications TA = -40 to +85C R5F100xxDxx, R5F101xxDxx G: Industrial applications when TA = -40 to +105C products is used in the range of TA = -40 to +85C R5F100xxGxx Cautions 1. The RL78 microcontrollers have an on-chip debug function, which is provided for development and evaluation. Do not use the on-chip debug function in products designated for mass production, because the guaranteed number of rewritable times of the flash memory may be exceeded when this function is used, and product reliability therefore cannot be guaranteed. Renesas Electronics is not liable for problems occurring when the on-chip debug function is used. 2. With products not provided with an EVDD0, EVDD1, EVSS0, or EVSS1 pin, replace EVDD0 and EVDD1 with VDD, or replace EVSS0 and EVSS1 with VSS. 3. The pins mounted depend on the product. Refer to 2.1 Port Function to 2.2.1 Functions for each product in the RL78/G13 User's Manual. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 67 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.1 Absolute Maximum Ratings Absolute Maximum Ratings (TA = 25C) (1/2) Parameter Supply voltage Symbols Conditions VDD REGC pin input voltage Ratings Unit -0.5 to +6.5 V EVDD0, EVDD1 EVDD0 = EVDD1 -0.5 to +6.5 V EVSS0, EVSS1 EVSS0 = EVSS1 -0.5 to +0.3 V VIREGC REGC -0.3 to +2.8 V and -0.3 to VDD +0.3Note 1 Input voltage VI1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, -0.3 to EVDD0 +0.3 and -0.3 to VDD +0.3 V Note 2 P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VI2 P60 to P63 (N-ch open-drain) VI3 P20 to P27, P121 to P124, P137, P150 to P156, -0.3 to +6.5 V -0.3 to VDD +0.3 V Note 2 EXCLK, EXCLKS, RESET Output voltage VO1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, -0.3 to EVDD0 +0.3 P50 to P57, P60 to P67, P70 to P77, P80 to P87, and -0.3 to VDD +0.3 Note 2 V P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Analog input voltage VO2 P20 to P27, P150 to P156 VAI1 ANI16 to ANI26 -0.3 to VDD +0.3 Note 2 V -0.3 to EVDD0 +0.3 V and -0.3 to AVREF(+) +0.3Notes 2, 3 VAI2 ANI0 to ANI14 -0.3 to VDD +0.3 V and -0.3 to AVREF(+) +0.3Notes 2, 3 Notes 1. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). This value regulates the absolute maximum rating of the REGC pin. Do not use this pin with voltage applied to it. 2. Must be 6.5 V or lower. 3. Do not exceed AVREF (+) + 0.3 V in case of A/D conversion target pin. Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. Remarks 1. Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. 2. AVREF (+) : + side reference voltage of the A/D converter. 3. VSS : Reference voltage R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 68 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Absolute Maximum Ratings (TA = 25C) (2/2) Parameter Output current, high Symbols IOH1 Conditions Per pin P00 to P07, P10 to P17, Ratings Unit -40 mA -70 mA -100 mA -0.5 mA -2 mA 40 mA 70 mA 100 mA 1 mA 5 mA -40 to +85 C -65 to +150 C P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of all pins P00 to P04, P07, P32 to P37, -170 mA P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 P05, P06, P10 to P17, P30, P31, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 IOH2 Per pin P20 to P27, P150 to P156 Total of all pins Output current, low IOL1 Per pin P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of all pins P00 to P04, P07, P32 to P37, 170 mA P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 P05, P06, P10 to P17, P30, P31, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 IOL2 Per pin P20 to P27, P150 to P156 Total of all pins Operating ambient TA temperature Storage temperature In normal operation mode In flash memory programming mode Tstg Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 69 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.2 Oscillator Characteristics 2.2.1 X1, XT1 oscillator characteristics (TA = -40 to +85C, 1.6 V VDD 5.5 V, VSS = 0 V) Parameter Resonator Conditions MIN. TYP. MAX. Unit MHz X1 clock oscillation Ceramic resonator/ 2.7 V VDD 5.5 V 1.0 20.0 frequency (fX)Note crystal resonator 2.4 V VDD < 2.7 V 1.0 16.0 MHz 1.8 V VDD < 2.4 V 1.0 8.0 MHz 1.6 V VDD < 1.8 V 1.0 4.0 MHz 35 kHz XT1 clock oscillation Crystal resonator 32 32.768 frequency (fX)Note Note Indicates only permissible oscillator frequency ranges. Refer to AC Characteristics for instruction execution time. Request evaluation by the manufacturer of the oscillator circuit mounted on a board to check the oscillator characteristics. Caution Since the CPU is started by the high-speed on-chip oscillator clock after a reset release, check the X1 clock oscillation stabilization time using the oscillation stabilization time counter status register (OSTC) by the user. Determine the oscillation stabilization time of the OSTC register and the oscillation stabilization time select register (OSTS) after sufficiently evaluating the oscillation stabilization time with the resonator to be used. Remark When using the X1 oscillator and XT1 oscillator, refer to 5.4 System Clock Oscillator in the RL78/G13 User's Manual. 2.2.2 On-chip oscillator characteristics (TA = -40 to +85C, 1.6 V VDD 5.5 V, VSS = 0 V) Oscillators High-speed on-chip oscillator Parameters Conditions MAX. Unit 1 32 MHz 1.8 V VDD 5.5 V -1.0 +1.0 % 1.6 V VDD < 1.8 V -5.0 +5.0 % 1.8 V VDD 5.5 V -1.5 +1.5 % 1.6 V VDD < 1.8 V -5.5 fIH MIN. TYP. clock frequency Notes 1, 2 High-speed on-chip oscillator -20 to +85C clock frequency accuracy -40 to -20C Low-speed on-chip oscillator fIL +5.5 15 % kHz clock frequency Low-speed on-chip oscillator -15 +15 % clock frequency accuracy Notes 1. High-speed on-chip oscillator frequency is selected by bits 0 to 3 of option byte (000C2H/010C2H) and bits 0 to 2 of HOCODIV register. 2. This indicates the oscillator characteristics only. Refer to AC Characteristics for instruction execution time. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 70 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.3 DC Characteristics 2.3.1 Pin characteristics (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/5) Items Symbol Output current, highNote 1 IOH1 Conditions MAX. Unit Per pin for P00 to P07, P10 to P17, 1.6 V EVDD0 5.5 V P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 -10.0 mA Total of P00 to P04, P07, P32 to P37, P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 (When duty 70% Note 3) 4.0 V EVDD0 5.5 V -55.0 mA 2.7 V EVDD0 < 4.0 V -10.0 mA 1.8 V EVDD0 < 2.7 V -5.0 mA 1.6 V EVDD0 < 1.8 V -2.5 mA 4.0 V EVDD0 5.5 V -80.0 mA 2.7 V EVDD0 < 4.0 V -19.0 mA 1.8 V EVDD0 < 2.7 V -10.0 mA Total of P05, P06, P10 to P17, P30, P31, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 (When duty 70% Note 3) IOH2 Notes 1. MIN. TYP. Note 2 1.6 V EVDD0 < 1.8 V -5.0 mA Total of all pins (When duty 70% Note 3) 1.6 V EVDD0 5.5 V -135.0 mA Per pin for P20 to P27, P150 to P156 1.6 V VDD 5.5 V -0.1Note 2 mA Total of all pins (When duty 70% Note 3) 1.6 V VDD 5.5 V -1.5 mA Note 4 Value of current at which the device operation is guaranteed even if the current flows from the EVDD0, EVDD1, VDD pins to an output pin. 2. 3. However, do not exceed the total current value. Specification under conditions where the duty factor 70%. The output current value that has changed to the duty factor > 70% the duty ratio can be calculated with the following expression (when changing the duty factor from 70% to n%). Total output current of pins = (IOH x 0.7)/(n x 0.01) Where n = 80% and IOH = -10.0 mA Total output current of pins = (-10.0 x 0.7)/(80 x 0.01) -8.7 mA However, the current that is allowed to flow into one pin does not vary depending on the duty factor. A current higher than the absolute maximum rating must not flow into one pin. 4. The applied current for the products for industrial application (R5F100xxDxx, R5F101xxDxx, R5F100xxGxx) is -100 mA. Caution P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 do not output high level in N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 71 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/5) Items Symbol Output current, lowNote 1 IOL1 MAX. Unit Per pin for P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Conditions MIN. 20.0 Note 2 mA Per pin for P60 to P63 15.0 Note 2 mA Total of P00 to P04, P07, P32 to P37, 4.0 V EVDD0 5.5 V P40 to P47, P102 to P106, P120, P125 2.7 V EVDD0 < 4.0 V to P127, P130, P140 to P145 1.8 V EVDD0 < 2.7 V (When duty 70% Note 3) 1.6 V EVDD0 < 1.8 V 70.0 mA 15.0 mA 9.0 mA 4.5 mA Total of P05, P06, P10 to P17, P30, P31, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 (When duty 70% Note 3) 4.0 V EVDD0 5.5 V 80.0 mA 2.7 V EVDD0 < 4.0 V 35.0 mA 1.8 V EVDD0 < 2.7 V 20.0 mA 1.6 V EVDD0 < 1.8 V 10.0 mA 150.0 mA 0.4 Note 2 mA 5.0 mA Total of all pins (When duty 70% Note 3) IOL2 Per pin for P20 to P27, P150 to P156 Total of all pins (When duty 70%Note 3) Notes 1. TYP. 1.6 V VDD 5.5 V Value of current at which the device operation is guaranteed even if the current flows from an output pin to the EVSS0, EVSS1 and VSS pin. 2. 3. However, do not exceed the total current value. Specification under conditions where the duty factor 70%. The output current value that has changed to the duty factor > 70% the duty ratio can be calculated with the following expression (when changing the duty factor from 70% to n%). Total output current of pins = (IOL x 0.7)/(n x 0.01) Where n = 80% and IOL = 10.0 mA Total output current of pins = (10.0 x 0.7)/(80 x 0.01) 8.7 mA However, the current that is allowed to flow into one pin does not vary depending on the duty factor. A current higher than the absolute maximum rating must not flow into one pin. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 72 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (3/5) Items Input voltage, Symbol VIH1 high Conditions MAX. Unit 0.8EVDD0 EVDD0 V 2.2 EVDD0 V 2.0 EVDD0 V 1.5 EVDD0 V 0.7VDD VDD V 0.7EVDD0 6.0 V 0.8VDD VDD V Normal input buffer 0 0.2EVDD0 V P01, P03, P04, P10, P11, TTL input buffer 0 0.8 V P13 to P17, P43, P44, P53 to P55, 4.0 V EVDD0 5.5 V P80, P81, P142, P143 TTL input buffer 0 0.5 V 0 0.32 V P00 to P07, P10 to P17, P30 to P37, MIN. Normal input buffer TYP. P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VIH2 P01, P03, P04, P10, P11, TTL input buffer P13 to P17, P43, P44, P53 to P55, 4.0 V EVDD0 5.5 V P80, P81, P142, P143 TTL input buffer 3.3 V EVDD0 < 4.0 V TTL input buffer 1.6 V EVDD0 < 3.3 V VIH3 P20 to P27, P150 to P156 VIH4 P60 to P63 VIH5 P121 to P124, P137, EXCLK, EXCLKS, RESET Input voltage, low VIL1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VIL2 3.3 V EVDD0 < 4.0 V TTL input buffer 1.6 V EVDD0 < 3.3 V VIL3 P20 to P27, P150 to P156 0 0.3VDD V VIL4 P60 to P63 0 0.3EVDD0 V VIL5 P121 to P124, P137, EXCLK, EXCLKS, RESET 0 0.2VDD V Caution The maximum value of VIH of pins P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 is EVDD0, even in the N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 73 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (4/5) Items Symbol Output voltage, VOH1 high Conditions MIN. P00 to P07, P10 to P17, P30 to P37, 4.0 V EVDD0 5.5 V, P40 to P47, P50 to P57, P64 to P67, IOH1 = -10.0 mA P70 to P77, P80 to P87, P90 to P97, 4.0 V EVDD0 5.5 V, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 IOH1 = -3.0 mA 2.7 V EVDD0 5.5 V, IOH1 = -2.0 mA 1.8 V EVDD0 5.5 V, IOH1 = -1.5 mA 1.6 V EVDD0 < 5.5 V, IOH1 = -1.0 mA VOH2 P20 to P27, P150 to P156 1.6 V VDD 5.5 V, TYP. MAX. EVDD0 - Unit V 1.5 EVDD0 - V 0.7 EVDD0 - V 0.6 EVDD0 - V 0.5 EVDD0 - V 0.5 VDD - 0.5 V IOH2 = -100 A Output voltage, VOL1 low P00 to P07, P10 to P17, P30 to P37, 4.0 V EVDD0 5.5 V, P40 to P47, P50 to P57, P64 to P67, IOL1 = 20 mA P70 to P77, P80 to P87, P90 to P97, 4.0 V EVDD0 5.5 V, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 1.3 V 0.7 V 0.6 V 0.4 V 0.4 V 0.4 V 0.4 V 2.0 V 0.4 V 0.4 V 0.4 V 0.4 V IOL1 = 8.5 mA 2.7 V EVDD0 5.5 V, IOL1 = 3.0 mA 2.7 V EVDD0 5.5 V, IOL1 = 1.5 mA 1.8 V EVDD0 5.5 V, IOL1 = 0.6 mA 1.6 V EVDD0 < 5.5 V, IOL1 = 0.3 mA VOL2 P20 to P27, P150 to P156 1.6 V VDD 5.5 V, IOL2 = 400 A VOL3 P60 to P63 4.0 V EVDD0 5.5 V, IOL3 = 15.0 mA 4.0 V EVDD0 5.5 V, IOL3 = 5.0 mA 2.7 V EVDD0 5.5 V, IOL3 = 3.0 mA 1.8 V EVDD0 5.5 V, IOL3 = 2.0 mA 1.6 V EVDD0 < 5.5 V, IOL3 = 1.0 mA Caution P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 do not output high level in N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 74 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (5/5) Items Input leakage Symbol ILIH1 current, high Conditions P00 to P07, P10 to P17, MIN. TYP. MAX. Unit VI = EVDD0 1 A VI = VDD 1 A 1 A 10 A VI = EVSS0 -1 A VI = VSS -1 A -1 A -10 A 100 k P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 ILIH2 P20 to P27, P137, P150 to P156, RESET ILIH3 P121 to P124 VI = VDD In input port or (X1, X2, XT1, XT2, EXCLK, external clock EXCLKS) input In resonator connection Input leakage ILIL1 current, low P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 ILIL2 P20 to P27, P137, P150 to P156, RESET ILIL3 P121 to P124 VI = VSS In input port or (X1, X2, XT1, XT2, EXCLK, external clock EXCLKS) input In resonator connection On-chip pll-up RU resistance P00 to P07, P10 to P17, VI = EVSS0, In input port 10 20 P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 75 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.3.2 Supply current characteristics (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (TA = -40 to +85C, 1.6 V EVDD0 VDD 5.5 V, VSS = EVSS0 = 0 V) (1/2) Parameter Symbol Supply IDD1 current Note 1 Conditions Operating mode HS (highspeed main) mode Note 5 MIN. TYP. MAX. Unit Basic operation VDD = 5.0 V VDD = 3.0 V 2.1 Normal operation VDD = 5.0 V 4.6 7.0 VDD = 3.0 V 4.6 7.0 mA fIH = 24 MHz Note 3 Normal operation VDD = 5.0 V 3.7 5.5 mA VDD = 3.0 V 3.7 5.5 mA fIH = 16 MHz Note 3 Normal operation VDD = 5.0 V 2.7 4.0 mA VDD = 3.0 V 2.7 4.0 mA fIH = 8 MHz Note 3 Normal operation VDD = 3.0 V 1.2 1.8 mA VDD = 2.0 V 1.2 1.8 mA LV (lowfIH = 4 MHz Note 3 voltage main) mode Note 5 Normal operation VDD = 3.0 V 1.2 1.7 mA VDD = 2.0 V 1.2 1.7 mA HS (highspeed main) mode Note 5 Normal operation Square wave input 3.0 4.6 mA Resonator connection 3.2 4.8 mA Normal operation Square wave input 3.0 4.6 mA Resonator connection 3.2 4.8 mA Normal operation Square wave input 1.9 2.7 mA Resonator connection 1.9 2.7 mA Normal operation Square wave input 1.9 2.7 mA Resonator connection 1.9 2.7 mA Normal operation Square wave input 1.1 1.7 mA Resonator connection 1.1 1.7 mA Normal operation Square wave input 1.1 1.7 mA Resonator connection 1.1 1.7 mA Normal operation Square wave input 4.1 4.9 A Resonator connection 4.2 5.0 A Normal operation Square wave input 4.1 4.9 A Resonator connection 4.2 5.0 A Normal operation Square wave input 4.2 5.5 A Resonator connection 4.3 5.6 A Normal operation Square wave input 4.3 6.3 A Resonator connection 4.4 6.4 A Normal operation Square wave input 4.6 7.7 A Resonator connection 4.7 7.8 A LS (lowspeed main) mode Note 5 fIH = 32 MHz Note 3 fMX = 20 MHzNote 2, VDD = 5.0 V fMX = 20 MHz , Note 2 VDD = 3.0 V fMX = 10 MHz , Note 2 VDD = 5.0 V fMX = 10 MHzNote 2, VDD = 3.0 V LS (lowspeed main) mode Note 5 fMX = 8 MHzNote 2, VDD = 3.0 V fMX = 8 MHz Note 2 , VDD = 2.0 V Subsystem clock operation fSUB = 32.768 kHz Note 4 2.1 mA mA mA TA = -40C f = 32.768 kHz SUB Note 4 TA = +25C fSUB = 32.768 kHz Note 4 TA = +50C fSUB = 32.768 kHz Note 4 TA = +70C fSUB = 32.768 kHz Note 4 TA = +85C (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 76 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD and EVDD0, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0 or VSS, EVSS0. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. When high-speed on-chip oscillator and subsystem clock are stopped. 3. When high-speed system clock and subsystem clock are stopped. 4. When high-speed on-chip oscillator and high-speed system clock are stopped. When AMPHS1 = 1 (Ultra-low power consumption oscillation). However, not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 5. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V@1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 77 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (TA = -40 to +85C, 1.6 V EVDD0 VDD 5.5 V, VSS = EVSS0 = 0 V) (2/2) Parameter Symbol Conditions Supply IDD2 HALT current Note 2 mode Note 1 HS (highspeed main) mode Note 7 LS (lowspeed main) mode Note 7 TYP. MAX. Unit VDD = 5.0 V 0.54 1.63 mA VDD = 3.0 V 0.54 1.63 mA VDD = 5.0 V 0.44 1.28 mA VDD = 3.0 V 0.44 1.28 mA VDD = 5.0 V 0.40 1.00 mA VDD = 3.0 V 0.40 1.00 mA VDD = 3.0 V 260 530 A VDD = 2.0 V 260 530 A VDD = 3.0 V 420 640 A VDD = 2.0 V 420 640 A fMX = 20 MHzNote 3, Square wave input 0.28 1.00 mA VDD = 5.0 V Resonator connection 0.45 1.17 mA fMX = 20 MHzNote 3, Square wave input 0.28 1.00 mA VDD = 3.0 V Resonator connection 0.45 1.17 mA Square wave input 0.19 0.60 mA Resonator connection 0.26 0.67 mA Square wave input 0.19 0.60 mA Resonator connection 0.26 0.67 mA 330 A fIH = 32 MHz fIH = 24 MHz Note 4 fIH = 16 MHz Note 4 fIH = 8 MHz LV (lowfIH = 4 MHz voltage main) mode Note 7 HS (highspeed main) mode Note 7 MIN. Note 4 Note 4 Note 4 fMX = 10 MHz , Note 3 VDD = 5.0 V fMX = 10 MHz , Note 3 VDD = 3.0 V LS (low-speed fMX = 8 MHz main) mode Square wave input 95 VDD = 3.0 V Resonator connection 145 380 A fMX = 8 MHzNote 3, Square wave input 95 330 A Resonator connection 145 380 A Square wave input 0.25 0.57 A Resonator connection 0.44 0.76 A Square wave input 0.30 0.57 A Resonator connection 0.49 0.76 A Square wave input 0.37 1.17 A Note 3 , Note 7 VDD = 2.0 V Subsystem fSUB = 32.768 kHz clock TA = -40C operation fSUB = 32.768 kHz Note 5 Note 5 TA = +25C fSUB = 32.768 kHz TA = +50C Resonator connection 0.56 1.36 A fSUB = 32.768 kHzNote 5 Square wave input 0.53 1.97 A TA = +70C Resonator connection 0.72 2.16 A Square wave input 0.82 3.37 A Resonator connection 1.01 3.56 A fSUB = 32.768 kHz TA = +85C I Note 6 DD3 Note 5 Note 5 STOP TA = -40C 0.18 0.50 A modeNote 8 TA = +25C 0.23 0.50 A TA = +50C 0.30 1.10 A TA = +70C 0.46 1.90 A TA = +85C 0.75 3.30 A (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 78 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD and EVDD0, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0 or VSS, EVSS0. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. During HALT instruction execution by flash memory. 3. When high-speed on-chip oscillator and subsystem clock are stopped. 4. When high-speed system clock and subsystem clock are stopped. 5. When high-speed on-chip oscillator and high-speed system clock are stopped. When RTCLPC = 1 and setting ultra-low current consumption (AMPHS1 = 1). The current flowing into the RTC is included. However, not including the current flowing into the 12-bit interval timer and watchdog timer. 6. Not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 7. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V@1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz 8. Regarding the value for current to operate the subsystem clock in STOP mode, refer to that in HALT mode. Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation and STOP mode, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 79 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/2) Parameter Symbol Supply current IDD1 Conditions Operating mode Note 1 HS (highspeed main) mode Note 5 MIN. fIH = 32 MHz Note 3 TYP. Basic VDD = 5.0 V operation VDD = 3.0 V 2.3 Normal VDD = 5.0 V operation VDD = 3.0 V 5.2 MAX. Unit mA 2.3 mA 8.5 mA 5.2 8.5 mA 4.1 6.6 mA fIH = 24 MHz Note 3 Normal VDD = 5.0 V operation VDD = 3.0 V fIH = 16 MHz Note 3 Normal VDD = 5.0 V operation VDD = 3.0 V LS (lowspeed main) mode Note 5 fIH = 8 MHz Note 3 Normal VDD = 3.0 V operation VDD = 2.0 V LV (lowvoltage main) mode fIH = 4 MHz Note 3 Normal VDD = 3.0 V operation VDD = 2.0 V 1.3 1.8 mA 1.3 1.8 mA Normal Square wave input operation Resonator connection 3.4 5.5 mA 3.6 5.7 mA Normal Square wave input operation Resonator connection 3.4 5.5 mA 3.6 5.7 mA Normal Square wave input operation Resonator connection 2.1 3.2 mA 2.1 3.2 mA Normal Square wave input operation Resonator connection 2.1 3.2 mA 2.1 3.2 mA Normal Square wave input operation Resonator connection 1.2 2.0 mA 1.2 2.0 mA Normal Square wave input operation Resonator connection 1.2 2.0 mA 1.2 2.0 mA Normal Square wave input operation Resonator connection 4.8 5.9 A 4.9 6.0 A Normal Square wave input operation Resonator connection 4.9 5.9 A 5.0 6.0 A Normal Square wave input operation Resonator connection 5.0 7.6 A 5.1 7.7 A Normal Square wave input operation Resonator connection 5.2 9.3 A 5.3 9.4 A Normal Square wave input operation Resonator connection 5.7 13.3 A 5.8 13.4 A 4.1 6.6 mA 3.0 4.7 mA 3.0 4.7 mA 1.3 2.1 mA 1.3 2.1 mA Note 5 HS (highspeed main) mode Note 5 fMX = 20 MHzNote 2, VDD = 5.0 V fMX = 20 MHzNote 2, VDD = 3.0 V fMX = 10 MHzNote 2, VDD = 5.0 V fMX = 10 MHz , Note 2 VDD = 3.0 V LS (lowspeed main) mode Note 5 fMX = 8 MHz Subsystem clock operation fSUB = 32.768 kHz Note 2 , VDD = 3.0 V fMX = 8 MHzNote 2, VDD = 2.0 V Note 4 TA = -40C fSUB = 32.768 kHz Note 4 TA = +25C fSUB = 32.768 kHz Note 4 TA = +50C fSUB = 32.768 kHz Note 4 TA = +70C fSUB = 32.768 kHz Note 4 TA = +85C (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 80 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. When high-speed on-chip oscillator and subsystem clock are stopped. 3. When high-speed system clock and subsystem clock are stopped. 4. When high-speed on-chip oscillator and high-speed system clock are stopped. When AMPHS1 = 1 (Ultra-low power consumption oscillation). However, not including the current flowing into the 12-bit interval timer and watchdog timer. 5. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V@1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 81 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/2) Parameter Symbol Supply current IDD2 Note 2 Conditions HALT mode Note 1 HS (highspeed main) mode Note 7 fIH = 32 MHz Note 4 fIH = 24 MHz Note 4 fIH = 16 MHz Note 4 LS (low-speed fIH = 8 MHz Note 4 main) mode Note 7 LV (lowfIH = 4 MHz Note 4 voltage main) mode Note 7 HS (highspeed main) mode Note 7 MAX. Unit 0.62 1.86 mA VDD = 3.0 V 0.62 1.86 mA VDD = 5.0 V 0.50 1.45 mA VDD = 3.0 V 0.50 1.45 mA VDD = 5.0 V 0.44 1.11 mA VDD = 3.0 V 0.44 1.11 mA VDD = 3.0 V 290 620 A VDD = 2.0 V 290 620 A VDD = 3.0 V 440 680 A VDD = 2.0 V 440 680 A Square wave input 0.31 1.08 mA VDD = 5.0 V Resonator connection 0.48 1.28 mA fMX = 20 MHzNote 3, Square wave input 0.31 1.08 mA VDD = 3.0 V Resonator connection 0.48 1.28 mA fMX = 10 MHzNote 3, Square wave input 0.21 0.63 mA VDD = 5.0 V Resonator connection 0.28 0.71 mA fMX = 10 MHzNote 3, Square wave input 0.21 0.63 mA VDD = 3.0 V Resonator connection 0.28 0.71 mA Square wave input 110 360 A Resonator connection 160 420 A fMX = 8 MHzNote 3, Square wave input 110 360 A VDD = 2.0 V Resonator connection 160 420 A fSUB = 32.768 kHzNote 5 Square wave input 0.28 0.61 A TA = -40C Resonator connection 0.47 0.80 A fSUB = 32.768 kHzNote 5 Square wave input 0.34 0.61 A TA = +25C Resonator connection 0.53 0.80 A fSUB = 32.768 kHzNote 5 Square wave input 0.41 2.30 A TA = +50C Resonator connection 0.60 2.49 A fSUB = 32.768 kHzNote 5 Square wave input 0.64 4.03 A TA = +70C Resonator connection 0.83 4.22 A fSUB = 32.768 kHzNote 5 Square wave input 1.09 8.04 A TA = +85C Resonator connection 1.28 8.23 A TA = -40C 0.19 0.52 A TA = +25C 0.25 0.52 A TA = +50C 0.32 2.21 A TA = +70C 0.55 3.94 A TA = +85C 1.00 7.95 A Subsystem clock operation STOP modeNote 8 TYP. fMX = 20 MHzNote 3, LS (low-speed fMX = 8 MHzNote 3, main) mode VDD = 3.0 V Note 7 IDD3Note 6 MIN. VDD = 5.0 V (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 82 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current . However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. During HALT instruction execution by flash memory. 3. When high-speed on-chip oscillator and subsystem clock are stopped. 4. When high-speed system clock and subsystem clock are stopped. 5. When high-speed on-chip oscillator and high-speed system clock are stopped. When RTCLPC = 1 and setting ultra-low current consumption (AMPHS1 = 1). The current flowing into the RTC is included. However, not including the current flowing into the 12-bit interval timer and watchdog timer. 6. Not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 7. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V@1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz 8. Regarding the value for current to operate the subsystem clock in STOP mode, refer to that in HALT mode. Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation and STOP mode, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 83 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (3) 128-pin products, and flash ROM: 384 to 512 KB of 44- to 100-pin products (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/2) Parameter Symbol Supply IDD1 current Note 1 Conditions Operating mode HS (highspeed main) mode Note 5 MIN. TYP. MAX. Unit Basic operation VDD = 5.0 V VDD = 3.0 V 2.6 Normal operation VDD = 5.0 V 6.1 9.5 VDD = 3.0 V 6.1 9.5 mA fIH = 24 MHz Note 3 Normal operation VDD = 5.0 V 4.8 7.4 mA VDD = 3.0 V 4.8 7.4 mA fIH = 16 MHz Note 3 Normal operation VDD = 5.0 V 3.5 5.3 mA VDD = 3.0 V 3.5 5.3 mA fIH = 8 MHz Note 3 Normal operation VDD = 3.0 V 1.5 2.3 mA VDD = 2.0 V 1.5 2.3 mA LV (lowfIH = 4 MHz Note 3 voltage main) mode Note 5 Normal operation VDD = 3.0 V 1.5 2.0 mA VDD = 2.0 V 1.5 2.0 mA HS (highspeed main) mode Note 5 Normal operation Square wave input 3.9 6.1 mA Resonator connection 4.1 6.3 mA Normal operation Square wave input 3.9 6.1 mA Resonator connection 4.1 6.3 mA Normal operation Square wave input 2.5 3.7 mA Resonator connection 2.5 3.7 mA Normal operation Square wave input 2.5 3.7 mA Resonator connection 2.5 3.7 mA Normal operation Square wave input 1.4 2.2 mA Resonator connection 1.4 2.2 mA Normal operation Square wave input 1.4 2.2 mA Resonator connection 1.4 2.2 mA Normal operation Square wave input 5.4 6.5 A Resonator connection 5.5 6.6 A Normal operation Square wave input 5.5 6.5 A Resonator connection 5.6 6.6 A Normal operation Square wave input 5.6 9.4 A Resonator connection 5.7 9.5 A Normal operation Square wave input 5.9 12.0 A Resonator connection 6.0 12.1 A Normal operation Square wave input 6.6 16.3 A Resonator connection 6.7 16.4 A LS (lowspeed main) mode Note 5 fIH = 32 MHz Note 3 fMX = 20 MHzNote 2, VDD = 5.0 V fMX = 20 MHzNote 2, VDD = 3.0 V fMX = 10 MHz , Note 2 VDD = 5.0 V fMX = 10 MHzNote 2, VDD = 3.0 V LS (lowspeed main) mode Note 5 fMX = 8 MHzNote 2, VDD = 3.0 V fMX = 8 MHzNote 2, VDD = 2.0 V Subsystem clock operation fSUB = 32.768 kHz Note 4 2.6 mA mA mA TA = -40C fSUB = 32.768 kHz Note 4 TA = +25C fSUB = 32.768 kHz Note 4 TA = +50C fSUB = 32.768 kHz Note 4 TA = +70C fSUB = 32.768 kHz Note 4 TA = +85C (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 84 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. When high-speed on-chip oscillator and subsystem clock are stopped. 3. When high-speed system clock and subsystem clock are stopped. 4. When high-speed on-chip oscillator and high-speed system clock are stopped. When AMPHS1 = 1 (Ultra-low power consumption oscillation). However, not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 5. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V @1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 85 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (3) 128-pin products, and flash ROM: 384 to 512 KB of 44- to 100-pin products (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/2) Parameter Symbol Supply current IDD2 Note 2 Conditions HALT mode Note 1 HS (highspeed main) mode Note 7 MIN. fIH = 32 MHz Note 4 VDD = 5.0 V fIH = 24 MHz Note 4 fIH = 16 MHz Note 4 LS (low-speed fIH = 8 MHz Note 4 main) mode Note 7 LV (lowfIH = 4 MHz Note 4 voltage main) mode Note 7 HS (highspeed main) mode Note 7 mA VDD = 3.0 V 0.62 1.89 mA VDD = 5.0 V 0.50 1.48 mA VDD = 3.0 V 0.50 1.48 mA VDD = 5.0 V 0.44 1.12 mA VDD = 3.0 V 0.44 1.12 mA VDD = 3.0 V 290 620 A VDD = 2.0 V 290 620 A VDD = 3.0 V 460 700 A VDD = 2.0 V 460 700 A Square wave input 0.31 1.14 mA Resonator connection 0.48 1.34 mA Square wave input 0.31 1.14 mA Resonator connection 0.48 1.34 mA mA fMX = 20 MHz , Note 3 Square wave input 0.21 0.68 VDD = 5.0 V , Resonator connection 0.28 0.76 mA fMX = 10 MHzNote 3, Square wave input 0.21 0.68 mA VDD = 3.0 V Resonator connection 0.28 0.76 mA Square wave input 110 390 A Resonator connection 160 450 A Note 3 LS (low-speed fMX = 8 MHzNote 3, main) mode VDD = 3.0 V Note 7 STOP modeNote 8 Unit 1.89 VDD = 5.0 V fMX = 10 MHz IDD3Note 6 MAX. 0.62 fMX = 20 MHzNote 3, VDD = 3.0 V Subsystem clock operation TYP. fMX = 8 MHzNote 3, Square wave input 110 390 A VDD = 2.0 V Resonator connection 160 450 A fSUB = 32.768 kHzNote 5 Square wave input 0.31 0.66 A TA = -40C Resonator connection 0.50 0.85 A fSUB = 32.768 kHzNote 5 Square wave input 0.38 0.66 A TA = +25C Resonator connection 0.57 0.85 A fSUB = 32.768 kHzNote 5 Square wave input 0.47 3.49 A TA = +50C Resonator connection 0.66 3.68 A fSUB = 32.768 kHzNote 5 Square wave input 0.80 6.10 A TA = +70C Resonator connection 0.99 6.29 A fSUB = 32.768 kHzNote 5 Square wave input 1.52 10.46 A TA = +85C Resonator connection 1.71 10.65 A TA = -40C 0.19 0.54 A TA = +25C 0.26 0.54 A TA = +50C 0.35 3.37 A TA = +70C 0.68 5.98 A TA = +85C 1.40 10.34 A (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 86 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current . However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. During HALT instruction execution by flash memory. 3. When high-speed on-chip oscillator and subsystem clock are stopped. 4. When high-speed system clock and subsystem clock are stopped. 5. When high-speed on-chip oscillator and high-speed system clock are stopped. When RTCLPC = 1 and setting ultra-low current consumption (AMPHS1 = 1). The current flowing into the RTC is included. However, not including the current flowing into the 12-bit interval timer and watchdog timer. 6. Not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 7. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V @1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz 8. Regarding the value for current to operate the subsystem clock in STOP mode, refer to that in HALT mode. Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation and STOP mode, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 87 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (4) Peripheral Functions (Common to all products) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Low-speed on- Symbol Conditions MIN. TYP. MAX. Unit I 0.20 A RTC operating IRTC 0.02 A current Notes 1, 2, 3 12-bit interval IIT Notes 1, 2, 4 0.02 A 0.22 A Note 1 FIL chip oscillator operating current timer operating current Watchdog timer IWDT operating current Notes 1, 2, 5 A/D converter operating current IADC Notes 1, 6 A/D converter reference voltage current IADREF Note 1 75.0 A Temperature sensor operating current ITMPS Note 1 75.0 A LVD operating ILVI Notes 1, 7 0.08 A IFSP Notes 1, 9 2.50 12.20 mA IBGO Notes 1, 8 2.50 12.20 mA The mode is performed Note 10 0.50 0.60 mA The A/D conversion operations are 1.20 1.44 mA 0.70 0.84 mA fIL = 15 kHz When conversion at maximum speed Normal mode, AVREFP = VDD = 5.0 V 1.3 1.7 mA Low voltage mode, AVREFP = VDD = 3.0 V 0.5 0.7 mA current Selfprogramming operating current BGO operating current SNOOZE ISNOZ Note 1 ADC operation operating current performed, Low voltage mode, AVREFP = VDD = 3.0 V CSI/UART operation Notes 1. Current flowing to VDD. 2. When high speed on-chip oscillator and high-speed system clock are stopped. 3. Current flowing only to the real-time clock (RTC) (excluding the operating current of the low-speed on-chip oscillator and the XT1 oscillator). The supply current of the RL78 microcontrollers is the sum of the values of either IDD1 or IDD2, and IRTC, when the real-time clock operates in operation mode or HALT mode. When the low-speed on-chip oscillator is selected, IFIL should be added. IDD2 subsystem clock operation includes the operational current of the real-time clock. 4. Current flowing only to the 12-bit interval timer (excluding the operating current of the low-speed on-chip oscillator and the XT1 oscillator). The supply current of the RL78 microcontrollers is the sum of the values of either IDD1 or IDD2, and IIT, when the 12-bit interval timer operates in operation mode or HALT mode. When the low-speed on-chip oscillator is selected, IFIL should be added. 5. Current flowing only to the watchdog timer (including the operating current of the low-speed on-chip oscillator). The supply current of the RL78 microcontrollers is the sum of IDD1, IDD2 or IDD3 and IWDT when the watchdog timer is in operation. 6. Current flowing only to the A/D converter. The supply current of the RL78 microcontrollers is the sum of IDD1 or IDD2 and IADC when the A/D converter operates in an operation mode or the HALT mode. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 88 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 7. Current flowing only to the LVD circuit. The supply current of the RL78 microcontrollers is the sum of IDD1, IDD2 or IDD3 and ILVD when the LVD circuit is in operation. 8. Current flowing only during data flash rewrite. 9. Current flowing only during self programming. 10. For shift time to the SNOOZE mode, see 18.3.3 SNOOZE mode in the RL78/G13 User's Manual. Remarks 1. fIL: Low-speed on-chip oscillator clock frequency 2. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 3. fCLK: CPU/peripheral hardware clock frequency 4. Temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 89 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.4 AC Characteristics (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Items Instruction cycle (minimum instruction execution time) Symbol TCY Conditions MIN. Main system HS (high-speed 2.7 V VDD 5.5 V clock (fMAIN) main) mode 2.4 V VDD < 2.7 V operation LS (low-speed 1.8 V VDD 5.5 V TYP. MAX. Unit 0.03125 1 s 0.0625 1 s 0.125 1 s 0.25 1 s 31.3 s 0.03125 1 s 0.0625 1 s 0.125 1 s 0.25 1 s MHz main) mode LV (low-voltage 1.6 V VDD 5.5 V main) mode Subsystem clock (fSUB) 1.8 V VDD 5.5 V 28.5 30.5 operation In the self HS (high-speed 2.7 V VDD 5.5 V programming main) mode 2.4 V VDD < 2.7 V mode LS (low-speed 1.8 V VDD 5.5 V main) mode LV (low-voltage 1.8 V VDD 5.5 V main) mode External system clock frequency fEX 2.7 V VDD 5.5 V 1.0 20.0 2.4 V VDD < 2.7 V 1.0 16.0 MHz 1.8 V VDD < 2.4 V 1.0 8.0 MHz 1.6 V VDD < 1.8 V 1.0 4.0 MHz 32 35 kHz fEXS External system clock input highlevel width, low-level width tEXH, tEXL 2.7 V VDD 5.5 V 24 ns 2.4 V VDD < 2.7 V 30 ns 1.8 V VDD < 2.4 V 60 ns 1.6 V VDD < 1.8 V 120 ns tEXHS, tEXLS TI00 to TI07, TI10 to TI17 input high-level width, low-level width tTIH, tTIL TO00 to TO07, TO10 to TO17 output frequency fTO PCLBUZ0, PCLBUZ1 output frequency Interrupt input high-level width, low-level width fPCL tINTH, tINTL Key interrupt input low-level width tKR RESET low-level width 13.7 s 1/fMCK+10 nsNote 4.0 V EVDD0 5.5 V 16 MHz 2.7 V EVDD0 < 4.0 V 8 MHz 1.8 V EVDD0 < 2.7 V 4 MHz 1.6 V EVDD0 < 1.8 V 2 MHz LS (low-speed main) mode 1.8 V EVDD0 5.5 V 4 MHz 1.6 V EVDD0 < 1.8 V 2 MHz LV (low-voltage main) mode 1.6 V EVDD0 5.5 V 2 MHz HS (high-speed main) mode 4.0 V EVDD0 5.5 V 16 MHz 2.7 V EVDD0 < 4.0 V 8 MHz 1.8 V EVDD0 < 2.7 V 4 MHz 1.6 V EVDD0 < 1.8 V 2 MHz LS (low-speed main) mode 1.8 V EVDD0 5.5 V 4 MHz 1.6 V EVDD0 < 1.8 V 2 MHz LV (low-voltage main) mode 1.8 V EVDD0 5.5 V 4 MHz 1.6 V EVDD0 < 1.8 V 2 MHz INTP0 1.6 V VDD 5.5 V 1 s INTP1 to INTP11 1.6 V EVDD0 5.5 V 1 s 1.8 V EVDD0 5.5 V 250 ns 1.6 V EVDD0 < 1.8 V 1 s 10 s HS (high-speed main) mode KR0 to KR7 tRSL (Note and Remark are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 90 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Note The following conditions are required for low voltage interface when EVDD0 < VDD 1.8 V EVDD0 < 2.7 V : MIN. 125 ns 1.6 V EVDD0 < 1.8 V : MIN. 250 ns Remark fMCK: Timer array unit operation clock frequency (Operation clock to be set by the CKSmn0, CKSmn1 bits of timer mode register mn (TMRmn). m: Unit number (m = 0, 1), n: Channel number (n = 0 to 7)) Minimum Instruction Execution Time during Main System Clock Operation TCY vs VDD (HS (high-speed main) mode) 10 Cycle time TCY [s] 1.0 When the high-speed on-chip oscillator clock is selected During self programming When high-speed system clock is selected 0.1 0.0625 0.05 0.03125 0.01 0 1.0 2.0 3.0 2.4 2.7 4.0 5.0 5.5 6.0 Supply voltage VDD [V] R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 91 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) TCY vs VDD (LS (low-speed main) mode) 10 Cycle time TCY [s] 1.0 When the high-speed on-chip oscillator clock is selected During self programming When high-speed system clock is selected 0.125 0.1 0.01 0 1.0 2.0 1.8 3.0 5.0 5.5 6.0 4.0 Supply voltage VDD [V] TCY vs VDD (LV (low-voltage main) mode) 10 Cycle time TCY [s] 1.0 When the high-speed on-chip oscillator clock is selected During self programming When high-speed system clock is selected 0.25 0.1 0.01 0 1.0 2.0 1.6 1.8 3.0 4.0 5.0 5.5 6.0 Supply voltage VDD [V] R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 92 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) AC Timing Test Points VIH/VOH VIL/VOL VIH/VOH VIL/VOL Test points External System Clock Timing 1/fEX/ 1/fEXS tEXL/ tEXLS tEXH/ tEXHS EXCLK/EXCLKS TI/TO Timing tTIL tTIH TI00 to TI07, TI10 to TI17 1/fTO TO00 to TO07, TO10 to TO17 Interrupt Request Input Timing tINTL tINTH INTP0 to INTP11 Key Interrupt Input Timing tKR KR0 to KR7 RESET Input Timing tRSL RESET R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 93 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.5 Peripheral Functions Characteristics AC Timing Test Points VIH/VOH VIL/VOL VIH/VOH VIL/VOL Test points 2.5.1 Serial array unit (1) During communication at same potential (UART mode) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. Transfer rate Note 1 MAX. 2.4 V EVDD0 5.5 V MIN. MAX. MIN. Unit MAX. fMCK/6 fMCK/6 bps 5.3 1.3 0.6 Mbps fMCK/6 fMCK/6 fMCK/6 bps 5.3 1.3 0.6 Mbps fMCK/6 fMCK/6 fMCK/6 bps Note 2 Note 2 5.3 1.3 0.6 Mbps fMCK/6 fMCK/6 bps 0.6 Mbps fMCK/6 Note 2 Theoretical value of the maximum transfer rate fMCK = fCLK Note 3 1.8 V EVDD0 5.5 V Note 2 Theoretical value of the maximum transfer rate fMCK = fCLK Note 3 1.7 V EVDD0 5.5 V Theoretical value of the maximum transfer rate fMCK = fCLK Note 3 1.6 V EVDD0 5.5 V - Note 2 Theoretical value of the - 1.3 maximum transfer rate fMCK = fCLK Note 3 Notes 1. Transfer rate in the SNOOZE mode is 4800 bps only. 2. The following conditions are required for low voltage interface when EVDD0 < VDD. 2.4 V EVDD0 < 2.7 V : MAX. 2.6 Mbps 1.8 V EVDD0 < 2.4 V : MAX. 1.3 Mbps 1.6 V EVDD0 < 1.8 V : MAX. 0.6 Mbps 3. The maximum operating frequencies of the CPU/peripheral hardware clock (fCLK) are: HS (high-speed main) mode: 32 MHz (2.7 V VDD 5.5 V) 16 MHz (2.4 V VDD 5.5 V) LS (low-speed main) mode: 8 MHz (1.8 V VDD 5.5 V) LV (low-voltage main) mode: 4 MHz (1.6 V VDD 5.5 V) Caution Select the normal input buffer for the RxDq pin and the normal output mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 94 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) UART mode connection diagram (during communication at same potential) TxDq Rx User device RL78 microcontroller RxDq Tx UART mode bit width (during communication at same potential) (reference) 1/Transfer rate High-/Low-bit width Baud rate error tolerance TxDq RxDq Remarks 1. 2. q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 95 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (2) During communication at same potential (CSI mode) (master mode, SCKp... internal clock output, corresponding CSI00 only) (TA = -40 to +85C, 2.7 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCKp cycle time tKCY1 SCKp high-/low-level tKH1, width tKL1 tSIK1 Note 1 SIp hold time (from SCKp) tKSI1 MIN. MAX. MIN. MAX. tKCY1 2/fCLK 4.0 V EVDD0 5.5 V 62.5 250 500 ns 2.7 V EVDD0 5.5 V 83.3 250 500 ns tKCY1/2 - tKCY1/2 - tKCY1/2 - ns 7 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 10 50 50 4.0 V EVDD0 5.5 V 23 110 110 ns 2.7 V EVDD0 5.5 V 33 110 110 ns 2.7 V EVDD0 5.5 V 10 10 10 ns 4.0 V EVDD0 5.5 V 2.7 V EVDD0 5.5 V SIp setup time (to SCKp) MAX. Unit ns Note 2 Delay time from SCKp to SOp output tKSO1 C = 20 pF Note 4 10 10 10 ns Note 3 Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. C is the load capacitance of the SCKp and SOp output lines. Caution Select the normal input buffer for the SIp pin and the normal output mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). Remarks 1. 2. This value is valid only when CSI00's peripheral I/O redirect function is not used. p: CSI number (p = 00), m: Unit number (m = 0), n: Channel number (n = 0), g: PIM and POM numbers (g = 1) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 96 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (3) During communication at same potential (CSI mode) (master mode, SCKp... internal clock output) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCKp cycle time tKCY1 SCKp high-/low-level tKH1, width tKL1 MIN. MAX. 500 1000 ns 2.4 V EVDD0 5.5 V 250 500 1000 ns 1.8 V EVDD0 5.5 V 500 500 1000 ns 1.7 V EVDD0 5.5 V 1000 1000 1000 ns 1.6 V EVDD0 5.5 V - 1000 1000 ns tKCY1/2 - tKCY1/2 - tKCY1/2 - ns 12 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 18 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 38 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 50 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 100 100 100 - tKCY1/2 - tKCY1/2 - 100 100 4.0 V EVDD0 5.5 V 1.8 V EVDD0 5.5 V 1.7 V EVDD0 5.5 V 1.6 V EVDD0 5.5 V tSIK1 MAX. 125 2.4 V EVDD0 5.5 V (to SCKp) MIN. tKCY1 4/fCLK 2.7 V EVDD0 5.5 V 2.7 V EVDD0 5.5 V SIp setup time MAX. Unit ns ns ns ns ns 4.0 V EVDD0 5.5 V 44 110 110 ns 2.7 V EVDD0 5.5 V 44 110 110 ns 2.4 V EVDD0 5.5 V 75 110 110 ns 1.8 V EVDD0 5.5 V 110 110 110 ns 1.7 V EVDD0 5.5 V 220 220 220 ns 1.6 V EVDD0 5.5 V - 220 220 ns 1.7 V EVDD0 5.5 V 19 19 19 ns 1.6 V EVDD0 5.5 V - 19 19 ns Note 1 SIp hold time tKSI1 (from SCKp) Note 2 Delay time from tKSO1 1.7 V EVDD0 5.5 V SCKp to SOp C = 30 pFNote 4 output Note 3 1.6 V EVDD0 5.5 V 25 25 25 ns - 25 25 ns C = 30 pFNote 4 Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. C is the load capacitance of the SCKp and SOp output lines. Caution Select the normal input buffer for the SIp pin and the normal output mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 97 of 214 RL78/G13 Remarks 1. 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31), m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), g: PIM and POM numbers (g = 0, 1, 4, 5, 8, 14) 2. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) (4) During communication at same potential (CSI mode) (slave mode, SCKp... external clock input) (1/2) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) LS (low-speed Mode main) Mode MIN. SCKp cycle time tKCY2 4.0 V EVDD0 5.5 V Note 5 2.7 V EVDD0 5.5 V MAX. - ns fMCK 20 MHz 6/fMCK 6/fMCK 6/fMCK ns 16 MHz < fMCK 8/fMCK - - ns fMCK 16 MHz 6/fMCK 6/fMCK 6/fMCK ns 6/fMCK 6/fMCK 6/fMCK ns and 500 and and 500 500 6/fMCK 6/fMCK 6/fMCK and 750 and and 750 750 6/fMCK 6/fMCK 6/fMCK and 1500 and and 1500 1500 6/fMCK 6/fMCK and and 1500 1500 tKCY2/2 tKCY2/2 -7 -7 tKCY2/2 tKCY2/2 -8 -8 tKCY2/2 - tKCY2/2 tKCY2/2 18 - 18 - 18 tKCY2/2 - tKCY2/2 tKCY2/2 66 - 66 - 66 - tKCY2/2 tKCY2/2 - 66 - 66 1.6 V EVDD0 5.5 V tKL2 MIN. - 1.7 V EVDD0 5.5 V tKH2, MAX. 8/fMCK 1.8 V EVDD0 5.5 V level width MIN. 20 MHz < fMCK 2.4 V EVDD0 5.5 V SCKp high-/low- MAX. LV (low-voltage Unit main) Mode 4.0 V EVDD0 5.5 V 2.7 V EVDD0 5.5 V 1.8 V EVDD0 5.5 V 1.7 V EVDD0 5.5 V 1.6 V EVDD0 5.5 V - tKCY2/2 - 7 tKCY2/2 - 8 ns ns ns ns ns ns ns ns (Notes, Caution, and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 98 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (4) During communication at same potential (CSI mode) (slave mode, SCKp... external clock input) (2/2) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) LS (low-speed main) Mode Mode MIN. tSIK2 SIp setup time (to SCKp) Note 1 tKSI2 (from SCKp) tKSO2 MIN. MAX. 1/fMCK+30 1/fMCK+30 ns 1.8 V EVDD0 5.5 V 1/fMCK+30 1/fMCK+30 1/fMCK+30 ns 1.7 V EVDD0 5.5 V 1/fMCK+40 1/fMCK+40 1/fMCK+40 ns - 1/fMCK+40 1/fMCK+40 ns 1.8 V EVDD0 5.5 V 1/fMCK+31 1/fMCK+31 1/fMCK+31 ns 1.7 V EVDD0 5.5 V 1/fMCK+ 1/fMCK+ 1/fMCK+ ns 250 250 250 - 1/fMCK+ 1/fMCK+ 250 250 1.6 V EVDD0 5.5 V SCKp to SOp MAX. 1/fMCK+20 Note 2 Delay time from MIN. 2.7 V EVDD0 5.5 V 1.6 V EVDD0 5.5 V SIp hold time MAX. LV (low-voltage main) Unit Mode C = 30 2.7 V EVDD0 5.5 V pF Note 4 output Note 3 2.4 V EVDD0 5.5 V 1.8 V EVDD0 5.5 V 1.7 V EVDD0 5.5 V 1.6 V EVDD0 5.5 V ns 2/fMCK+ 2/fMCK+ 2/fMCK+ 44 110 110 2/fMCK+ 2/fMCK+ 2/fMCK+ 75 110 110 2/fMCK+ 2/fMCK+ 2/fMCK+ 110 110 110 2/fMCK+ 2/fMCK+ 2/fMCK+ 220 220 220 - 2/fMCK+ 2/fMCK+ 220 220 ns ns ns ns ns Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. C is the load capacitance of the SOp output lines. 5. Transfer rate in the SNOOZE mode: MAX. 1 Mbps Caution Select the normal input buffer for the SIp pin and SCKp pin and the normal output mode for the SOp pin by using port input mode register g (PIMg) and port output mode register g (POMg). Remarks 1. p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31), m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), g: PIM number (g = 0, 1, 4, 5, 8, 14) 2. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 99 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) CSI mode connection diagram (during communication at same potential) SCKp SCK RL78 microcontroller SIp SO User device SOp SI CSI mode serial transfer timing (during communication at same potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY1, 2 tKL1, 2 tKH1, 2 SCKp tSIK1, 2 SIp tKSI1, 2 Input data tKSO1, 2 Output data SOp CSI mode serial transfer timing (during communication at same potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY1, 2 tKH1, 2 tKL1, 2 SCKp tSIK1, 2 SIp tKSI1, 2 Input data tKSO1, 2 SOp Remarks 1. 2. Output data p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31) m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 100 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (5) During communication at same potential (simplified I2C mode) (1/2) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCLr clock frequency fSCL MAX. MIN. MAX. 2.7 V EVDD0 5.5 V, 1000 400 400 Note 1 Note 1 Note 1 1.8 V EVDD0 5.5 V, 400 400 400 Cb = 100 pF, Rb = 3 k Note 1 Note 1 Note 1 1.8 V EVDD0 < 2.7 V, 300 300 300 Cb = 100 pF, Rb = 5 k Note 1 Note 1 Note 1 1.7 V EVDD0 < 1.8 V, 250 250 250 Cb = 100 pF, Rb = 5 k Note 1 Note 1 Note 1 - Cb = 100 pF, Rb = 5 k tLOW MIN. Cb = 50 pF, Rb = 2.7 k 1.6 V EVDD0 < 1.8 V, Hold time when SCLr = "L" MAX. 2.7 V EVDD0 5.5 V, Unit 250 250 Note 1 Note 1 kHz kHz kHz kHz kHz 475 1150 1150 ns 1150 1150 1150 ns 1550 1550 1550 ns 1850 1850 1850 ns - 1850 1850 ns 475 1150 1150 ns 1150 1150 1150 ns 1550 1550 1550 ns 1850 1850 1850 ns - 1850 1850 ns Cb = 50 pF, Rb = 2.7 k 1.8 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k 1.8 V EVDD0 < 2.7 V, Cb = 100 pF, Rb = 5 k 1.7 V EVDD0 < 1.8 V, Cb = 100 pF, Rb = 5 k 1.6 V EVDD0 < 1.8 V, Cb = 100 pF, Rb = 5 k Hold time when SCLr = "H" tHIGH 2.7 V EVDD0 5.5 V, Cb = 50 pF, Rb = 2.7 k 1.8 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k 1.8 V EVDD0 < 2.7 V, Cb = 100 pF, Rb = 5 k 1.7 V EVDD0 < 1.8 V, Cb = 100 pF, Rb = 5 k 1.6 V EVDD0 < 1.8 V, Cb = 100 pF, Rb = 5 k (Notes and Caution are listed on the next page, and Remarks are listed on the page after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 101 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (5) During communication at same potential (simplified I2C mode) (2/2) (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. Data setup time (reception) tSU:DAT MAX. MAX. MIN. 1/fMCK + 145 1/fMCK + 145 Note2 Note2 1/fMCK + 145 1/fMCK + 145 1/fMCK + 145 Note2 Note2 Note2 1/fMCK + 230 1/fMCK + 230 1/fMCK + 230 Note2 Note2 Note2 Cb = 100 pF, Rb = 5 k 1/fMCK + 290 1/fMCK + 290 1/fMCK + 290 Note2 Note2 Note2 1.6 V EVDD0 < 1.8 V, - 1/fMCK + 290 1/fMCK + 290 Note2 Note2 2.7 V EVDD0 5.5 V, Cb = 50 pF, Rb = 2.7 k 1.8 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k 1.8 V EVDD0 < 2.7 V, Cb = 100 pF, Rb = 5 k 1.7 V EVDD0 < 1.8 V, 1/fMCK + 85 Note2 Cb = 100 pF, Rb = 5 k Data hold time (transmission) tHD:DAT MIN. 2.7 V EVDD0 5.5 V, Unit MAX. ns ns ns ns ns 0 305 0 305 0 305 ns 0 355 0 355 0 355 ns 0 405 0 405 0 405 ns 0 405 0 405 0 405 ns 0 405 0 405 ns Cb = 50 pF, Rb = 2.7 k 1.8 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k 1.8 V EVDD0 < 2.7 V, Cb = 100 pF, Rb = 5 k 1.7 V EVDD0 < 1.8 V, Cb = 100 pF, Rb = 5 k 1.6 V EVDD0 < 1.8 V, - Cb = 100 pF, Rb = 5 k Notes 1. The value must also be equal to or less than fMCK/4. 2. Set the fMCK value to keep the hold time of SCLr = "L" and SCLr = "H". Caution Select the normal input buffer and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the SDAr pin and the normal output mode for the SCLr pin by using port input mode register g (PIMg) and port output mode register h (POMh). (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 102 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Simplified I2C mode mode connection diagram (during communication at same potential) VDD Rb SDAr SDA User device RL78 microcontroller SCLr SCL Simplified I2C mode serial transfer timing (during communication at same potential) 1/fSCL tLOW tHIGH SCLr SDAr tHD:DAT tSU:DAT Remarks 1. Rb[]:Communication line (SDAr) pull-up resistance, Cb[F]: Communication line (SDAr, SCLr) load capacitance 2. r: IIC number (r = 00, 01, 10, 11, 20, 21, 30, 31), g: PIM number (g = 0, 1, 4, 5, 8, 14), h: POM number (g = 0, 1, 4, 5, 7 to 9, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), mn = 00 to 03, 10 to 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 103 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (1/2) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol HS (high-speed LS (low-speed LV (low-voltage Unit main) Mode main) Mode main) Mode Conditions MIN. Transfer rate Reception 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V Theoretical value MAX. MIN. MAX. MIN. MAX. fMCK/6 fMCK/6 fMCK/6 Note 1 Note 1 Note 1 5.3 1.3 0.6 Mbps fMCK/6 fMCK/6 fMCK/6 bps Note 1 Note 1 Note 1 5.3 1.3 0.6 Mbps bps bps of the maximum transfer rate fMCK = fCLK Note 4 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V Theoretical value of the maximum transfer rate fMCK = fCLK Note 4 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Theoretical value fMCK/6 fMCK/6 fMCK/6 Notes 1 to 3 Notes 1, 2 Notes 1, 2 5.3 1.3 0.6 Mbps of the maximum transfer rate fMCK = fCLK Note 4 Notes 1. Transfer rate in the SNOOZE mode is 4800 bps only. 2. Use it with EVDD0 Vb. 3. The following conditions are required for low voltage interface when EVDD0 < VDD. 2.4 V EVDD0 < 2.7 V : MAX. 2.6 Mbps 1.8 V EVDD0 < 2.4 V : MAX. 1.3 Mbps 4. The maximum operating frequencies of the CPU/peripheral hardware clock (fCLK) are: HS (high-speed main) mode: 32 MHz (2.7 V VDD 5.5 V) 16 MHz (2.4 V VDD 5.5 V) Caution LS (low-speed main) mode: 8 MHz (1.8 V VDD 5.5 V) LV (low-voltage main) mode: 4 MHz (1.6 V VDD 5.5 V) Select the TTL input buffer for the RxDq pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. Remarks 1. Vb[V]: Communication line voltage 2. q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13) 4. UART2 cannot communicate at different potential when bit 1 (PIOR1) of peripheral I/O redirection register (PIOR) is 1. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 104 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (2/2) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol HS (high- Conditions speed main) LS (low-speed LV (low- Unit main) Mode voltage main) Mode Mode MIN. MAX. MIN. MAX. MIN. MAX. Transfer rate Transmission 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V Note 1 Note 1 Note 1 bps Mbps Theoretical 2.8 2.8 2.8 value of the Note 2 Note 2 Note 2 Note 3 Note 3 Note 3 bps Mbps maximum transfer rate Cb = 50 pF, Rb = 1.4 k, Vb = 2.7 V 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V Theoretical 1.2 1.2 1.2 value of the Note 4 Note 4 Note 4 Notes Notes Notes 5, 6 5, 6 5, 6 Theoretical 0.43 0.43 0.43 value of the Note 7 Note 7 Note 7 maximum transfer rate Cb = 50 pF, Rb = 2.7 k, Vb = 2.3 V 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V bps Mbps maximum transfer rate Cb = 50 pF, Rb = 5.5 k, Vb = 1.6 V Notes 1. The smaller maximum transfer rate derived by using fMCK/6 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 4.0 V EVDD0 5.5 V and 2.7 V Vb 4.0 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 2.2 Vb )} x 3 [bps] 2.2 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 2. This value as an example is calculated when the conditions described in the "Conditions" column are met. Refer to Note 1 above to calculate the maximum transfer rate under conditions of the customer. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 105 of 214 RL78/G13 Notes 3. 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) The smaller maximum transfer rate derived by using fMCK/6 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 2.7 V EVDD0 < 4.0 V and 2.3 V Vb 2.7 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 2.0 Vb )} x 3 [bps] 2.0 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 4. This value as an example is calculated when the conditions described in the "Conditions" column are met. 5. Use it with EVDD0 Vb. Refer to Note 3 above to calculate the maximum transfer rate under conditions of the customer. 6. The smaller maximum transfer rate derived by using fMCK/6 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 1.8 V EVDD0 < 3.3 V and 1.6 V Vb 2.0 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 1.5 Vb )} x 3 [bps] 1.5 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 7. This value as an example is calculated when the conditions described in the "Conditions" column are met. Refer to Note 6 above to calculate the maximum transfer rate under conditions of the customer. Caution Select the TTL input buffer for the RxDq pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. UART mode connection diagram (during communication at different potential) Vb Rb TxDq Rx User device RL78 microcontroller RxDq R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 Tx 106 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) UART mode bit width (during communication at different potential) (reference) 1/Transfer rate Low-bit width High-bit width Baud rate error tolerance TxDq 1/Transfer rate High-/Low-bit width Baud rate error tolerance RxDq Remarks 1. Rb[]:Communication line (TxDq) pull-up resistance, Cb[F]: Communication line (TxDq) load capacitance, Vb[V]: Communication line voltage 2. q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) 4. UART2 cannot communicate at different potential when bit 1 (PIOR1) of peripheral I/O redirection register (PIOR) is 1. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 107 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (7) Communication at different potential (2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output, corresponding CSI00 only) (1/2) (TA = -40 to +85C, 2.7 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCKp cycle time tKCY1 tKCY1 2/fCLK 4.0 V EVDD0 5.5 V, MAX. MIN. MAX. MIN. Unit MAX. 200 1150 1150 ns 300 1150 1150 ns tKCY1/2 - tKCY1/2 - tKCY1/2 - ns 50 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 120 120 120 tKCY1/2 - tKCY1/2 - tKCY1/2 - 7 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 10 50 50 58 479 479 ns 121 479 479 ns 10 10 10 ns 10 10 10 ns 2.7 V Vb 4.0 V, Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k SCKp high-level tKH1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, width Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, ns Cb = 20 pF, Rb = 2.7 k SCKp low-level tKL1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, width ns Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, ns Cb = 20 pF, Rb = 2.7 k SIp setup time tSIK1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, (to SCKp) Note 1 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k SIp hold time tKSI1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, (from SCKp) Note 1 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k Delay time from tKSO1 4.0 V EVDD0 5.5 V, SCKp to SOp 2.7 V Vb 4.0 V, output Note 1 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 60 60 60 ns 130 130 130 ns 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k (Notes, Caution, and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 108 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (7) Communication at different potential (2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output, corresponding CSI00 only) (2/2) (TA = -40 to +85C, 2.7 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. tSIK1 SIp setup time 4.0 V EVDD0 5.5 V, MAX. MIN. MAX. MIN. Unit MAX. 23 110 110 ns 33 110 110 ns 10 10 10 ns 10 10 10 ns 2.7 V Vb 4.0 V, (to SCKp) Note 2 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k tKSI1 SIp hold time 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, (from SCKp) Note 2 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k Delay time from SCKp tKSO1 4.0 V EVDD0 5.5 V, to 2.7 V Vb 4.0 V, SOp output Note 2 Cb = 20 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 10 10 10 ns 10 10 10 ns 2.3 V Vb 2.7 V, Cb = 20 pF, Rb = 2.7 k Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. 2. When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. Remarks 1. Rb[]:Communication line (SCKp, SOp) pull-up resistance, Cb[F]: Communication line (SCKp, SOp) load capacitance, Vb[V]: Communication line voltage 2. p: CSI number (p = 00), m: Unit number (m = 0), n: Channel number (n = 0), g: PIM and POM number (g = 1) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00)) 4. This value is valid only when CSI00's peripheral I/O redirect function is not used. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 109 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (1/3) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCKp cycle time tKCY1 MAX. MIN. MAX. MIN. Unit MAX. 300 1150 1150 ns 500 1150 1150 ns 1150 1150 1150 ns tKCY1/2 - tKCY1/2 - tKCY1/2 - ns 75 75 75 tKCY1/2 - tKCY1/2 - tKCY1/2 - 170 170 170 1.8 V EVDD0 < 3.3 V, tKCY1/2 - tKCY1/2 - tKCY1/2 - 1.6 V Vb 2.0 V Note, 458 458 458 tKCY1/2 - tKCY1/2 - tKCY1/2 - 12 50 50 tKCY1/2 - tKCY1/2 - tKCY1/2 - 18 50 50 1.8 V EVDD0 < 3.3 V, tKCY1/2 - tKCY1/2 - tKCY1/2 - 1.6 V Vb 2.0 V Note, 50 50 50 tKCY1 4/fCLK 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note, Cb = 30 pF, Rb = 5.5 k SCKp high-level tKH1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, width Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, ns Cb = 30 pF, Rb = 2.7 k ns Cb = 30 pF, Rb = 5.5 k SCKp low-level width tKL1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, ns Cb = 30 pF, Rb = 2.7 k ns Cb = 30 pF, Rb = 5.5 k Note Use it with EVDD0 Vb. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed two pages after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 110 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (2/3) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed main) LV (low-voltage main) Mode Mode main) Mode MIN. SIp setup time (to SCKp) Note 1 tSIK1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, MAX. MIN. MAX. MIN. Unit MAX. 81 479 479 ns 177 479 479 ns 479 479 479 ns 19 19 19 ns 19 19 19 ns 19 19 19 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k SIp hold time (from SCKp) Note 1 tKSI1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k Delay time from SCKp to SOp output Note 1 tKSO1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 100 100 100 ns 195 195 195 ns 483 483 483 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. 2. Use it with EVDD0 Vb. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the page after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 111 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (3/3) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed main) LV (low-voltage main) Mode Mode main) Mode MIN. SIp setup time (to SCKp) Note 1 tSIK1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, MAX. MIN. MAX. MIN. Unit MAX. 44 110 110 ns 44 110 110 ns 110 110 110 ns 19 19 19 ns 19 19 19 ns 19 19 19 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k SIp hold time (from SCKp) Note 1 tKSI1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k Delay time from SCKp to SOp output Note 1 tKSO1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 25 25 25 ns 25 25 25 ns 25 25 25 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 30 pF, Rb = 5.5 k Notes 1. When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. Use it with EVDD0 Vb. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (When 20- to 52-pin products)/EVDD tolerance (When 64- to 128-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 112 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) CSI mode connection diagram (during communication at different potential) Vb Vb Rb Rb SCKp SIp RL78 microcontroller SOp SCK SO User device SI Remarks 1. Rb[]:Communication line (SCKp, SOp) pull-up resistance, Cb[F]: Communication line (SCKp, SOp) load capacitance, Vb[V]: Communication line voltage 2. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number , n: Channel number (mn = 00, 01, 02, 10, 12, 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00)) 4. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 113 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) CSI mode serial transfer timing (master mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY1 tKL1 tKH1 SCKp tSIK1 SIp tKSI1 Input data tKSO1 Output data SOp CSI mode serial transfer timing (master mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY1 tKL1 tKH1 SCKp tSIK1 SIp tKSI1 Input data tKSO1 SOp Output data Remarks 1. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 2. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 114 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (9) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (slave mode, SCKp... external clock input) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/2) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage Unit main) Mode main) Mode main) Mode MIN. SCKp cycle time Note 1 tKCY2 4.0 V EVDD0 5.5 V, 24 MHz < fMCK 14/ 2.7 V Vb 4.0 V fMCK 20 MHz < fMCK 24 MHz 12/ MAX. MIN. MAX. MIN. MAX. - - ns - - ns - - ns 16/ - ns ns fMCK 8 MHz < fMCK 20 MHz 10/ fMCK 4 MHz < fMCK 8 MHz 8/fMCK fMCK fMCK 4 MHz 6/fMCK 2.7 V EVDD0 < 4.0 V, 24 MHz < fMCK 20/ 2.3 V Vb 2.7 V fMCK 20 MHz < fMCK 24 MHz 16/ 10/ 10/ fMCK fMCK - - ns - - ns - - ns - - ns 16/ - ns ns fMCK 16 MHz < fMCK 20 MHz 14/ fMCK 8 MHz < fMCK 16 MHz 12/ fMCK 4 MHz < fMCK 8 MHz 8/fMCK fMCK fMCK 4 MHz 10/ 10/ fMCK fMCK - - ns - - ns - - ns - - ns 16/ 16/ - ns fMCK fMCK ns 6/fMCK 1.8 V EVDD0 < 3.3 V, 24 MHz < fMCK 48/ 1.6 V Vb 2.0 V fMCK Note 2 20 MHz < fMCK 24 MHz 36/ fMCK 16 MHz < fMCK 20 MHz 32/ fMCK 8 MHz < fMCK 16 MHz 26/ fMCK 4 MHz < fMCK 8 MHz fMCK 4 MHz 10/ 10/ 10/ fMCK fMCK fMCK (Notes and Caution are listed on the next page, and Remarks are listed on the page after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 115 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (9) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (slave mode, SCKp... external clock input) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/2) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage Unit main) Mode main) Mode main) Mode MIN. SCKp high-/low-level tKH2, 4.0 V EVDD0 5.5 V, width tKL2 2.7 V Vb 4.0 V tSIK2 SIp hold time tKCY2/2 - 50 - 50 tKCY2/2 - tKCY2/2 tKCY2/2 18 - 50 - 50 1.8 V EVDD0 < 3.3 V, tKCY2/2 - tKCY2/2 tKCY2/2 1.6 V Vb 2.0 V Note 2 50 - 50 - 50 4.0 V EVDD0 5.5 V, 1/fMCK 1/fMCK 1/fMCK 2.7 V Vb 4.0 V + 20 + 30 + 30 2.7 V EVDD0 < 4.0 V, 1/fMCK 1/fMCK 1/fMCK 2.3 V Vb 2.7 V + 20 + 30 + 30 1.8 V EVDD0 < 3.3 V, 1/fMCK 1/fMCK 1/fMCK 1.6 V Vb 2.0 V Note 2 + 30 + 30 + 30 1/fMCK + 1/fMCK 1/fMCK 31 + 31 + 31 tKSI2 tKSO2 SCKp to SOp output Note 5 MIN. tKCY2/2 (from SCKp) Note 4 Delay time from MAX. 12 2.3 V Vb 2.7 V (to SCKp) Note 3 MIN. tKCY2/2 - 2.7 V EVDD0 < 4.0 V, SIp setup time MAX. MAX. ns ns ns ns ns ns ns 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 2/fMCK 2/fMCK 2/fMCK Cb = 30 pF, Rb = 1.4 k + 120 + 573 + 573 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, 2/fMCK 2/fMCK + 2/fMCK + Cb = 30 pF, Rb = 2.7 k + 214 573 573 1.8 V EVDD0 < 3.3 V, 2/fMCK 2/fMCK + 2/fMCK + 1.6 V Vb 2.0 V Note 2, + 573 573 573 ns ns ns Cb = 30 pF, Rb = 5.5 k Notes 1. Transfer rate in the SNOOZE mode : MAX. 1 Mbps 2. Use it with EVDD0 Vb. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 5. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 128-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 116 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) CSI mode connection diagram (during communication at different potential) Vb Rb SCKp RL78 microcontroller SIp SOp SCK SO User device SI Remarks 1. Rb[]:Communication line (SOp) pull-up resistance, Cb[F]: Communication line (SOp) load capacitance, Vb[V]: Communication line voltage 2. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13)) 4. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 117 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) CSI mode serial transfer timing (slave mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY2 tKL2 tKH2 SCKp tSIK2 SIp tKSI2 Input data tKSO2 Output data SOp CSI mode serial transfer timing (slave mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY2 tKL2 tKH2 SCKp tSIK2 SIp tKSI2 Input data tKSO2 SOp Output data Remarks 1. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12. 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 2. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 118 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (10) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (1/2) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. SCLr clock frequency fSCL 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, MAX. MIN. MAX. MIN. Unit MAX. 1000 300 300 Note 1 Note 1 Note 1 kHz Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, 1000 300 300 Note 1 Note 1 Note 1 kHz Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 400 300 300 Note 1 Note 1 Note 1 400 300 300 Note 1 Note 1 ote 1 kHz Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, kHz Cb = 100 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2 , 300 300 300 Note 1 Note 1 Note 1 kHz Cb = 100 pF, Rb = 5.5 k Hold time when SCLr = tLOW "L" 4.0 V EVDD0 5.5 V, 475 1550 1550 ns 475 1550 1550 ns 1150 1550 1550 ns 1150 1550 1550 ns 1550 1550 1550 ns 245 610 610 ns 200 610 610 ns 675 610 610 ns 600 610 610 ns 610 610 610 ns 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 100 pF, Rb = 5.5 k Hold time when SCLr = tHIGH "H" 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 100 pF, Rb = 5.5 k R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 119 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (10) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (2/2) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. Data setup time (reception) Data hold time (transmission) tSU:DAT tHD:DAT MAX. MIN. MAX. MIN. 1/fMCK + 190 1/fMCK + 190 Note 3 Note 3 1/fMCK + 190 1/fMCK + 190 Note 3 Note 3 1/fMCK + 190 1/fMCK + 190 Note 3 Note 3 1/fMCK + 190 1/fMCK + 190 Note 3 Note 3 1/fMCK + 190 1/fMCK + 190 Note 3 Note 3 Unit MAX. kHz 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 1/fMCK + 135 Note 3 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 1/fMCK + 135 Note 3 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 1/fMCK + 190 Note 3 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 1/fMCK + 190 Note 3 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 100 pF, Rb = 5.5 k 1/fMCK + 190 Note 3 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 0 305 0 305 0 305 ns 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 0 305 0 305 0 305 ns 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 0 355 0 355 0 355 ns 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 0 355 0 355 0 355 ns 1.8 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2, Cb = 100 pF, Rb = 5.5 k 0 405 0 405 0 405 ns kHz kHz kHz kHz Notes 1. The value must also be equal to or less than fMCK/4. 2. Use it with EVDD0 Vb. 3. Set the fMCK value to keep the hold time of SCLr = "L" and SCLr = "H". Caution Select the TTL input buffer and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 128-pin products)) mode for the SDAr pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 128-pin products)) mode for the SCLr pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 120 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Simplified I2C mode connection diagram (during communication at different potential) Vb Vb Rb Rb SDAr SDA RL78 microcontroller User device SCLr SCL Simplified I2C mode serial transfer timing (during communication at different potential) 1/fSCL tLOW tHIGH SCLr SDAr tHD:DAT tSU:DAT Remarks 1. Rb[]:Communication line (SDAr, SCLr) pull-up resistance, Cb[F]: Communication line (SDAr, SCLr) load capacitance, Vb[V]: Communication line voltage 2. r: IIC number (r = 00, 01, 10, 20, 30, 31), g: PIM, POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 121 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.5.2 Serial interface IICA (1) I2C standard mode (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter SCLA0 clock frequency Symbol fSCL Conditions HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. MAX. MIN. MAX. MIN. MAX. Standard mode: 2.7 V EVDD0 5.5 V fCLK 1 MHz 1.8 V EVDD0 5.5 V 0 100 0 100 0 100 kHz 0 100 0 100 0 100 kHz 1.7 V EVDD0 5.5 V 0 100 0 100 0 100 kHz 0 100 0 100 kHz 1.6 V EVDD0 5.5 V Setup time of restart tSU:STA condition - 2.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.8 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.6 V EVDD0 5.5 V Hold timeNote 1 tHD:STA 4.7 4.7 s 2.7 V EVDD0 5.5 V 4.0 - 4.0 4.0 s 1.8 V EVDD0 5.5 V 4.0 4.0 4.0 s 1.7 V EVDD0 5.5 V 4.0 4.0 4.0 s 4.0 4.0 s 1.6 V EVDD0 5.5 V Hold time when SCLA0 = tLOW "L" - 2.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.8 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.6 V EVDD0 5.5 V Hold time when SCLA0 = tHIGH "H" 4.7 4.7 s 2.7 V EVDD0 5.5 V 4.0 - 4.0 4.0 s 1.8 V EVDD0 5.5 V 4.0 4.0 4.0 s 1.7 V EVDD0 5.5 V 4.0 4.0 4.0 s 4.0 4.0 s 1.6 V EVDD0 5.5 V Data setup time tSU:DAT (reception) - 2.7 V EVDD0 5.5 V 250 250 250 ns 1.8 V EVDD0 5.5 V 250 250 250 ns 1.7 V EVDD0 5.5 V 250 250 250 ns 1.6 V EVDD0 5.5 V Data hold time tHD:DAT (transmission)Note 2 - tSU:STO condition tBUF 250 ns 0 3.45 0 3.45 0 3.45 s 1.8 V EVDD0 5.5 V 0 3.45 0 3.45 0 3.45 s 1.7 V EVDD0 5.5 V 0 3.45 0 3.45 0 3.45 s 0 3.45 0 3.45 s - 2.7 V EVDD0 5.5 V 4.0 4.0 4.0 s 1.8 V EVDD0 5.5 V 4.0 4.0 4.0 s 1.7 V EVDD0 5.5 V 4.0 4.0 4.0 s 1.6 V EVDD0 5.5 V Bus-free time 250 2.7 V EVDD0 5.5 V 1.6 V EVDD0 5.5 V Setup time of stop Unit 4.0 4.0 s 2.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.8 V EVDD0 5.5 V 4.7 4.7 4.7 s 1.7 V EVDD0 5.5 V 4.7 4.7 4.7 s 4.7 4.7 s 1.6 V EVDD0 5.5 V - - (Notes, Caution and Remark are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 122 of 214 RL78/G13 Notes 1. 2. 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) The first clock pulse is generated after this period when the start/restart condition is detected. The maximum value (MAX.) of tHD:DAT is during normal transfer and a wait state is inserted in the ACK (acknowledge) timing. Caution The values in the above table are applied even when bit 2 (PIOR2) in the peripheral I/O redirection register (PIOR) is 1. At this time, the pin characteristics (IOH1, IOL1, VOH1, VOL1) must satisfy the values in the redirect destination. Remark The maximum value of Cb (communication line capacitance) and the value of Rb (communication line pull-up resistor) at that time in each mode are as follows. Standard mode: Cb = 400 pF, Rb = 2.7 k R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 123 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (2) I2C fast mode (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter SCLA0 clock frequency Symbol fSCL Conditions Fast mode: fCLK 3.5 MHz Setup time of restart tSU:STA condition Hold time Note 1 Hold time when SCLA0 = tHD:STA tLOW "L" Hold time when SCLA0 = tHIGH "H" Data setup time tSU:DAT (reception) Data hold time tHD:DAT (transmission)Note 2 Setup time of stop tSU:STO condition Bus-free time Notes 1. 2. tBUF HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode Unit MIN. MAX. MIN. MAX. MIN. MAX. 2.7 V EVDD0 5.5 V 0 400 0 400 0 400 kHz 1.8 V EVDD0 5.5 V 0 400 0 400 0 400 kHz 2.7 V EVDD0 5.5 V 0.6 0.6 0.6 s 1.8 V EVDD0 5.5 V 0.6 0.6 0.6 s 2.7 V EVDD0 5.5 V 0.6 0.6 0.6 s 1.8 V EVDD0 5.5 V 0.6 0.6 0.6 s 2.7 V EVDD0 5.5 V 1.3 1.3 1.3 s 1.8 V EVDD0 5.5 V 1.3 1.3 1.3 s 2.7 V EVDD0 5.5 V 0.6 0.6 0.6 s 1.8 V EVDD0 5.5 V 0.6 0.6 0.6 s 2.7 V EVDD0 5.5 V 100 100 100 s 1.8 V EVDD0 5.5 V 100 100 100 s 2.7 V EVDD0 5.5 V 0 0.9 0 0.9 0 0.9 s 1.8 V EVDD0 5.5 V 0 0.9 0 0.9 0 0.9 s 2.7 V EVDD0 5.5 V 0.6 0.6 0.6 s 1.8 V EVDD0 5.5 V 0.6 0.6 0.6 s 2.7 V EVDD0 5.5 V 1.3 1.3 1.3 s 1.8 V EVDD0 5.5 V 1.3 1.3 1.3 s The first clock pulse is generated after this period when the start/restart condition is detected. The maximum value (MAX.) of tHD:DAT is during normal transfer and a wait state is inserted in the ACK (acknowledge) timing. Caution The values in the above table are applied even when bit 2 (PIOR2) in the peripheral I/O redirection register (PIOR) is 1. At this time, the pin characteristics (IOH1, IOL1, VOH1, VOL1) must satisfy the values in the redirect destination. Remark The maximum value of Cb (communication line capacitance) and the value of Rb (communication line pull-up resistor) at that time in each mode are as follows. Fast mode: Cb = 320 pF, Rb = 1.1 k R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 124 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (3) I2C fast mode plus (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions Fast mode plus: 2.7 V EVDD0 5.5 V fCLK 10 MHz SCLA0 clock frequency fSCL Setup time of restart tSU:STA 2.7 V EVDD0 5.5 V Hold timeNote 1 tHD:STA Hold time when SCLA0 = HS (high-speed LS (low-speed LV (low-voltage main) Mode main) Mode main) Mode MIN. MAX. 0 1000 MIN. MAX. MIN. Unit MAX. - - kHz 0.26 - - s 2.7 V EVDD0 5.5 V 0.26 - - s tLOW 2.7 V EVDD0 5.5 V 0.5 - - s tHIGH 2.7 V EVDD0 5.5 V 0.26 - - s tSU:DAT 2.7 V EVDD0 5.5 V 50 - - s tHD:DAT 2.7 V EVDD0 5.5 V 0 - - s tSU:STO 2.7 V EVDD0 5.5 V 0.26 - - s tBUF 2.7 V EVDD0 5.5 V 0.5 - - s condition "L" Hold time when SCLA0 = "H" Data setup time (reception) Data hold time 0.45 (transmission)Note 2 Setup time of stop condition Bus-free time Notes 1. 2. The first clock pulse is generated after this period when the start/restart condition is detected. The maximum value (MAX.) of tHD:DAT is during normal transfer and a wait state is inserted in the ACK (acknowledge) timing. Caution The values in the above table are applied even when bit 2 (PIOR2) in the peripheral I/O redirection register (PIOR) is 1. At this time, the pin characteristics (IOH1, IOL1, VOH1, VOL1) must satisfy the values in the redirect destination. Remark The maximum value of Cb (communication line capacitance) and the value of Rb (communication line pull-up resistor) at that time in each mode are as follows. Fast mode plus: Cb = 120 pF, Rb = 1.1 k IICA serial transfer timing tLOW tR SCLAn tHD:DAT tHD:STA tHIGH tF tSU:STA tHD:STA tSU:STO tSU:DAT SDAAn tBUF Stop condition Start condition Restart condition Stop condition Remark n = 0, 1 R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 125 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.6 Analog Characteristics 2.6.1 A/D converter characteristics Classification of A/D converter characteristics Reference Voltage Reference voltage (+) = AVREFP Reference voltage (+) = VDD Reference voltage (+) = VBGR Input channel Reference voltage (-) = AVREFM Reference voltage (-) = VSS Reference voltage (-) = AVREFM ANI0 to ANI14 Refer to 2.6.1 (1). Refer to 2.6.1 (3). Refer to 2.6.1 (4). ANI16 to ANI26 Refer to 2.6.1 (2). Internal reference voltage Refer to 2.6.1 (1). - Temperature sensor output voltage (1) When reference voltage (+)= AVREFP/ANI0 (ADREFP1 = 0, ADREFP0 = 1), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI2 to ANI14, internal reference voltage, and temperature sensor output voltage (TA = -40 to +85C, 1.6 V AVREFP VDD 5.5 V, VSS = 0 V, Reference voltage (+) = AVREFP, Reference voltage (-) = AVREFM = 0 V) Parameter Symbol Resolution RES Overall errorNote 1 AINL Conversion time tCONV Conditions MIN. Full-scale errorNotes 1, 2 Integral linearity error Note 1 EZS EFS ILE Differential linearity error Note 1 DLE Analog input voltage VAIN MAX. 8 Unit 10 bit 10-bit resolution AVREFP = VDD Note 3 1.8 V AVREFP 5.5 V 1.2 3.5 LSB 1.6 V AVREFP 5.5 V Note 4 1.2 7.0 LSB 10-bit resolution Target pin: ANI2 to ANI14 3.6 V VDD 5.5 V 2.125 39 s 2.7 V VDD 5.5 V 3.1875 39 s 1.8 V VDD 5.5 V 17 39 s 1.6 V VDD 5.5 V 57 95 s 2.375 39 s 10-bit resolution 3.6 V VDD 5.5 V Target pin: Internal 2.7 V VDD 5.5 V reference voltage, and 2.4 V VDD 5.5 V temperature sensor output voltage (HS (high-speed main) mode) Zero-scale errorNotes 1, 2 TYP. 10-bit resolution AVREFP = VDD Note 3 1.8 V AVREFP 5.5 V 10-bit resolution AVREFP = VDD Note 3 1.8 V AVREFP 5.5 V 10-bit resolution AVREFP = VDD Note 3 1.8 V AVREFP 5.5 V 10-bit resolution AVREFP = VDD Note 3 1.8 V AVREFP 5.5 V 1.6 V AVREFP 5.5 V 1.6 V AVREFP 5.5 V ANI2 to ANI14 Internal reference voltage (2.4 V VDD 5.5 V, HS (high-speed main) mode) Temperature sensor output voltage (2.4 V VDD 5.5 V, HS (high-speed main) mode) 39 s 17 39 s 0.25 %FSR Note 4 1.6 V AVREFP 5.5 V 1.6 V AVREFP 5.5 V 3.5625 Note 4 Note 4 Note 4 0 VBGR Note 5 VTMPS25 Note 5 0.50 %FSR 0.25 %FSR 0.50 %FSR 2.5 LSB 5.0 LSB 1.5 LSB 2.0 LSB AVREFP V V V (Notes are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 126 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. When AVREFP < VDD, the MAX. values are as follows. Overall error: Add 1.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.05%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 0.5 LSB to the MAX. value when AVREFP = VDD. 4. Values when the conversion time is set to 57 s (min.) and 95 s (max.). 5. Refer to 2.6.2 Temperature sensor/internal reference voltage characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 127 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (2) When reference voltage (+) = AVREFP/ANI0 (ADREFP1 = 0, ADREFP0 = 1), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI16 to ANI26 (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, 1.6 V AVREFP VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = AVREFP, Reference voltage (-) = AVREFM = 0 V) Parameter Symbol Resolution RES Overall errorNote 1 AINL Conversion time tCONV Conditions Zero-scale error Full-scale errorNotes 1, 2 Integral linearity error Differential linearity Note 1 EZS EFS ILE DLE error Note 1 Analog input voltage VAIN TYP. MAX. Unit 10 bit 1.2 5.0 LSB 1.2 8.5 LSB 8 10-bit resolution 1.8 V AVREFP 5.5 V EVDD0 = AVREFP = VDD Notes 3, 4 1.6 V AVREFP 5.5 V 10-bit resolution 3.6 V VDD 5.5 V 2.125 39 s Target ANI pin : ANI16 to 2.7 V VDD 5.5 V 3.1875 39 s 1.8 V VDD 5.5 V 17 39 s 1.6 V VDD 5.5 V 57 95 s ANI26 Notes 1, 2 MIN. 10-bit resolution EVDD0 = AVREFP = VDD Notes 3, 4 10-bit resolution EVDD0 = AVREFP = VDD Notes 3, 4 Note 5 1.8 V AVREFP 5.5 V 0.35 %FSR 1.6 V AVREFP 5.5 V Note 5 0.60 %FSR 1.8 V AVREFP 5.5 V 0.35 %FSR 0.60 %FSR 3.5 LSB 6.0 LSB 2.0 LSB 2.5 LSB AVREFP V 1.6 V AVREFP 5.5 V 10-bit resolution 1.8 V AVREFP 5.5 V EVDD0 = AVREFP = VDD Notes 3, 4 1.6 V AVREFP 5.5 V 10-bit resolution 1.8 V AVREFP 5.5 V EVDD0 = AVREFP = VDD Notes 3, 4 1.6 V AVREFP 5.5 V ANI16 to ANI26 Note 5 Note 5 Note 5 0 and EVDD0 Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. When AVREFP < VDD, the MAX. values are as follows. Overall error: Add 1.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.05%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 0.5 LSB to the MAX. value when AVREFP = VDD. 4. When AVREFP < EVDD0 VDD, the MAX. values are as follows. Overall error: Add 4.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.20%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 2.0 LSB to the MAX. value when AVREFP = VDD. 5. When the conversion time is set to 57 s (min.) and 95 s (max.). R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 128 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (3) When reference voltage (+) = VDD (ADREFP1 = 0, ADREFP0 = 0), reference voltage (-) = VSS (ADREFM = 0), target pin : ANI0 to ANI14, ANI16 to ANI26, internal reference voltage, and temperature sensor output voltage (TA = -40 to +85C, 1.6 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = VDD, Reference voltage (-) = VSS) Parameter Symbol Resolution RES Overall errorNote 1 AINL Conditions MIN. TYP. 8 10-bit resolution MAX. Unit 10 bit 1.8 V VDD 5.5 V 1.2 7.0 LSB 1.6 V VDD 5.5 V 1.2 10.5 LSB Note 3 Conversion time tCONV 10-bit resolution 3.6 V VDD 5.5 V 2.125 39 s Target pin: ANI0 to ANI14, 2.7 V VDD 5.5 V 3.1875 39 s 1.8 V VDD 5.5 V 17 39 s 1.6 V VDD 5.5 V 57 95 s ANI16 to ANI26 Conversion time tCONV 10-bit resolution 3.6 V VDD 5.5 V 2.375 39 s Target pin: Internal 2.7 V VDD 5.5 V 3.5625 39 s 2.4 V VDD 5.5 V 17 39 s 1.8 V VDD 5.5 V 0.60 %FSR 1.6 V VDD 5.5 V 0.85 %FSR 1.8 V VDD 5.5 V 0.60 %FSR 1.6 V VDD 5.5 V 0.85 %FSR 1.8 V VDD 5.5 V 4.0 LSB 1.6 V VDD 5.5 V 6.5 LSB 1.8 V VDD 5.5 V 2.0 LSB 1.6 V VDD 5.5 V 2.5 LSB VDD V EVDD0 V reference voltage, and temperature sensor output voltage (HS (high-speed main) mode) Zero-scale errorNotes 1, 2 EZS 10-bit resolution Note 3 Full-scale errorNotes 1, 2 EFS 10-bit resolution Note 3 Integral linearity errorNote 1 ILE 10-bit resolution Note 3 Differential linearity error Note 1 DLE 10-bit resolution Note 3 Analog input voltage VAIN ANI0 to ANI14 0 ANI16 to ANI26 0 Internal reference voltage VBGR Note 4 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) Temperature sensor output voltage VTMPS25 Note 4 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. When the conversion time is set to 57 s (min.) and 95 s (max.). 4. Refer to 2.6.2 Temperature sensor/internal reference voltage characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 129 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) (4) When reference voltage (+) = Internal reference voltage (ADREFP1 = 1, ADREFP0 = 0), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI0, ANI2 to ANI14, ANI16 to ANI26 (TA = -40 to +85C, 2.4 V VDD 5.5 V, 1.6 V EVDD0 = EVDD1 VDD, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = VBGR Note 3, Reference voltage (-) = AVREFM = 0 V Note 4, HS (high-speed main) mode) Parameter Symbol Resolution Conditions MIN. RES Conversion time Zero-scale error Notes 1, 2 Integral linearity error Note 1 Differential linearity error Note 1 Analog input voltage TYP. MAX. Unit 8 tCONV 8-bit resolution 2.4 V VDD 5.5 V EZS 8-bit resolution ILE DLE bit 39 s 2.4 V VDD 5.5 V 0.60 %FSR 8-bit resolution 2.4 V VDD 5.5 V 2.0 LSB 8-bit resolution 2.4 V VDD 5.5 V 1.0 LSB VAIN 17 0 VBGR Note 3 V Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. Refer to 2.6.2 Temperature sensor/internal reference voltage characteristics. 4. When reference voltage (-) = VSS, the MAX. values are as follows. Zero-scale error: Add 0.35%FSR to the MAX. value when reference voltage (-) = AVREFM. Integral linearity error: Add 0.5 LSB to the MAX. value when reference voltage (-) = AVREFM. Differential linearity error: Add 0.2 LSB to the MAX. value when reference voltage (-) = AVREFM. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 130 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.6.2 Temperature sensor/internal reference voltage characteristics (TA = -40 to +85C, 2.4 V VDD 5.5 V, VSS = 0 V, HS (high-speed main) mode) Parameter Symbol Conditions Temperature sensor output voltage VTMPS25 Setting ADS register = 80H, TA = +25C Internal reference voltage VBGR Setting ADS register = 81H Temperature coefficient FVTMPS Temperature sensor that depends on the MIN. TYP. MAX. 1.05 1.38 1.45 Unit V 1.5 -3.6 V mV/C temperature Operation stabilization wait time tAMP 5 s 2.6.3 POR circuit characteristics (TA = -40 to +85C, VSS = 0 V) Parameter Detection voltage Minimum pulse width Note Symbol Conditions MIN. TYP. MAX. Unit VPOR Power supply rise time 1.47 1.51 1.55 V VPDR Power supply fall time 1.46 1.50 1.54 V TPW 300 s Note Minimum time required for a POR reset when VDD exceeds below VPDR. This is also the minimum time required for a POR reset from when VDD exceeds below 0.7 V to when VDD exceeds VPOR while STOP mode is entered or the main system clock is stopped through setting bit 0 (HIOSTOP) and bit 7 (MSTOP) in the clock operation status control register (CSC). TPW Supply voltage (VDD) VPOR VPDR or 0.7 V R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 131 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.6.4 LVD circuit characteristics LVD Detection Voltage of Reset Mode and Interrupt Mode (TA = -40 to +85C, VPDR VDD 5.5 V, VSS = 0 V) Parameter Detection Supply voltage level Symbol VLVD0 voltage VLVD1 VLVD2 VLVD3 VLVD4 VLVD5 VLVD6 VLVD7 VLVD8 VLVD9 VLVD10 VLVD11 VLVD12 VLVD13 Minimum pulse width Detection delay time R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 tLW Conditions MIN. TYP. MAX. Unit Power supply rise time 3.98 4.06 4.14 V Power supply fall time 3.90 3.98 4.06 V Power supply rise time 3.68 3.75 3.82 V Power supply fall time 3.60 3.67 3.74 V Power supply rise time 3.07 3.13 3.19 V Power supply fall time 3.00 3.06 3.12 V Power supply rise time 2.96 3.02 3.08 V Power supply fall time 2.90 2.96 3.02 V Power supply rise time 2.86 2.92 2.97 V Power supply fall time 2.80 2.86 2.91 V Power supply rise time 2.76 2.81 2.87 V Power supply fall time 2.70 2.75 2.81 V Power supply rise time 2.66 2.71 2.76 V Power supply fall time 2.60 2.65 2.70 V Power supply rise time 2.56 2.61 2.66 V Power supply fall time 2.50 2.55 2.60 V Power supply rise time 2.45 2.50 2.55 V Power supply fall time 2.40 2.45 2.50 V Power supply rise time 2.05 2.09 2.13 V Power supply fall time 2.00 2.04 2.08 V Power supply rise time 1.94 1.98 2.02 V Power supply fall time 1.90 1.94 1.98 V Power supply rise time 1.84 1.88 1.91 V Power supply fall time 1.80 1.84 1.87 V Power supply rise time 1.74 1.77 1.81 V Power supply fall time 1.70 1.73 1.77 V Power supply rise time 1.64 1.67 1.70 V Power supply fall time 1.60 1.63 1.66 V 300 s 300 s 132 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) LVD Detection Voltage of Interrupt & Reset Mode (TA = -40 to +85C, VPDR VDD 5.5 V, VSS = 0 V) Parameter Symbol Interrupt and reset VLVDA0 mode VLVDA1 VLVDA2 VLVDA3 VLVDB0 VLVDB1 VLVDB2 VLVDB3 VLVDC0 VLVDC1 VLVDC2 VLVDC3 VLVDD0 VLVDD1 VLVDD2 VLVDD3 Conditions MIN. TYP. MAX. Unit 1.60 1.63 1.66 V Rising release reset voltage 1.74 1.77 1.81 V Falling interrupt voltage 1.70 1.73 1.77 V Rising release reset voltage 1.84 1.88 1.91 V Falling interrupt voltage 1.80 1.84 1.87 V Rising release reset voltage 2.86 2.92 2.97 V Falling interrupt voltage 2.80 2.86 2.91 V 1.80 1.84 1.87 V VPOC2, VPOC1, VPOC0 = 0, 0, 0, falling reset voltage LVIS1, LVIS0 = 1, 0 LVIS1, LVIS0 = 0, 1 LVIS1, LVIS0 = 0, 0 VPOC2, VPOC1, VPOC0 = 0, 0, 1, falling reset voltage LVIS1, LVIS0 = 1, 0 LVIS1, LVIS0 = 0, 1 LVIS1, LVIS0 = 0, 0 Rising release reset voltage 1.94 1.98 2.02 V Falling interrupt voltage 1.90 1.94 1.98 V Rising release reset voltage 2.05 2.09 2.13 V Falling interrupt voltage 2.00 2.04 2.08 V Rising release reset voltage 3.07 3.13 3.19 V Falling interrupt voltage 3.00 3.06 3.12 V 2.40 2.45 2.50 V 2.56 2.61 2.66 V VPOC2, VPOC1, VPOC0 = 0, 1, 0, falling reset voltage LVIS1, LVIS0 = 1, 0 LVIS1, LVIS0 = 0, 1 LVIS1, LVIS0 = 0, 0 Rising release reset voltage Falling interrupt voltage 2.50 2.55 2.60 V Rising release reset voltage 2.66 2.71 2.76 V Falling interrupt voltage 2.60 2.65 2.70 V Rising release reset voltage 3.68 3.75 3.82 V Falling interrupt voltage 3.60 3.67 3.74 V 2.70 2.75 2.81 V Rising release reset voltage 2.86 2.92 2.97 V Falling interrupt voltage 2.80 2.86 2.91 V Rising release reset voltage 2.96 3.02 3.08 V Falling interrupt voltage 2.90 2.96 3.02 V Rising release reset voltage 3.98 4.06 4.14 V Falling interrupt voltage 3.90 3.98 4.06 V MIN. TYP. MAX. Unit 54 V/ms VPOC2, VPOC1, VPOC0 = 0, 1, 1, falling reset voltage LVIS1, LVIS0 = 1, 0 LVIS1, LVIS0 = 0, 1 LVIS1, LVIS0 = 0, 0 2.6.5 Power supply voltage rising slope characteristics (TA = -40 to +85C, VSS = 0 V) Parameter Power supply voltage rising slope Caution Symbol Conditions SVDD Make sure to keep the internal reset state by the LVD circuit or an external reset until VDD reaches the operating voltage range shown in 2.4 AC Characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 133 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.7 RAM Data Retention Characteristics (TA = -40 to +85C, VSS = 0 V) Parameter Symbol Data retention supply voltage Conditions VDDDR MIN. 1.46 TYP. Note MAX. Unit 5.5 V Note This depends on the POR detection voltage. For a falling voltage, data in RAM are retained until the voltage reaches the level that triggers a POR reset but not once it reaches the level at which a POR reset is generated. Operation mode STOP mode RAM data retention VDD VDDDR STOP instruction execution Standby release signal (interrupt request) 2.8 Flash Memory Programming Characteristics (TA = -40 to +85C, 1.8 V VDD 5.5 V, VSS = 0 V) Parameter CPU/peripheral hardware clock Symbol fCLK Conditions 1.8 V VDD 5.5 V MIN. TYP. 1 MAX. Unit 32 MHz frequency Number of code flash rewrites Cerwr Retained for 20 years Notes 1, 2, 3 TA = 85C Number of data flash rewrites Retained for 1 years Notes 1, 2, 3 TA = 25C Retained for 5 years 1,000 Times 1,000,000 100,000 TA = 85C Retained for 20 years 10,000 TA = 85C Notes 1. 1 erase + 1 write after the erase is regarded as 1 rewrite. The retaining years are until next rewrite after the rewrite. 2. When using flash memory programmer and Renesas Electronics self programming library 3. These are the characteristics of the flash memory and the results obtained from reliability testing by Renesas Electronics Corporation. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 134 of 214 RL78/G13 2. ELECTRICAL SPECIFICATIONS (TA = -40 to +85C) 2.9 Dedicated Flash Memory Programmer Communication (UART) (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Transfer rate Conditions MIN. During serial programming TYP. 115,200 MAX. Unit 1,000,000 bps 2.10 Timing of Entry to Flash Memory Programming Modes (TA = -40 to +85C, 1.8 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Time to complete the communication tSUINIT for the initial setting after the Conditions MIN. POR and LVD reset must be released before TYP. MAX. Unit 100 ms the external reset is released. external reset is released Time to release the external reset tSU after the TOOL0 pin is set to the low POR and LVD reset must be released before 10 s 1 ms the external reset is released. level Time to hold the TOOL0 pin at the tHD low level after the external reset is POR and LVD reset must be released before the external reset is released. released (excluding the processing time of the firmware to control the flash memory) <1> <2> <3> <4> RESET 723 s + tHD processing time 1-byte data for setting mode TOOL0 tSU tSUINIT <1> The low level is input to the TOOL0 pin. <2> The external reset is released (POR and LVD reset must be released before the external reset is released.). <3> The TOOL0 pin is set to the high level. <4> Setting of the flash memory programming mode by UART reception and complete the baud rate setting. Remark tSUINIT: Communication for the initial setting must be completed within 100 ms after the external reset is released during this period. tSU: Time to release the external reset after the TOOL0 pin is set to the low level tHD: Time to hold the TOOL0 pin at the low level after the external reset is released (excluding the processing time of the firmware to control the flash memory) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 135 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) This chapter describes the following electrical specifications. Target products G: Industrial applications TA = -40 to +105C R5F100xxGxx Cautions 1. The RL78 microcontrollers have an on-chip debug function, which is provided for development and evaluation. Do not use the on-chip debug function in products designated for mass production, because the guaranteed number of rewritable times of the flash memory may be exceeded when this function is used, and product reliability therefore cannot be guaranteed. Renesas Electronics is not liable for problems occurring when the on-chip debug function is used. 2. With products not provided with an EVDD0, EVDD1, EVSS0, or EVSS1 pin, replace EVDD0 and EVDD1 with VDD, or replace EVSS0 and EVSS1 with VSS. 3. The pins mounted depend on the product. Refer to 2.1 Port Function to 2.2.1 Functions for each product in the RL78/G13 User's Manual. 4. Please contact Renesas Electronics sales office for derating of operation under TA = +85C to +105C. Derating is the systematic reduction of load for the sake of improved reliability. Remark When RL78/G13 is used in the range of TA = -40 to +85C, see 2. ELECTRICAL SPECIFICATIONS (TA = - 40 to +85C). There are following differences between the products "G: Industrial applications (TA = -40 to +105C)" and the products "A: Consumer applications, and D: Industrial applications". Parameter Application A: Consumer applications, D: Industrial applications Operating ambient temperature Operating mode Operating voltage range TA = -40 to +85C HS (high-speed main) mode: G: Industrial applications TA = -40 to +105C HS (high-speed main) mode only: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz LS (low-speed main) mode: 1.8 V VDD 5.5 V@1 MHz to 8 MHz LV (low-voltage main) mode: 1.6 V VDD 5.5 V@1 MHz to 4 MHz High-speed on-chip oscillator clock 1.8 V VDD 5.5 V 2.4 V VDD 5.5 V accuracy 1.0%@ TA = -20 to +85C 1.5%@ TA = -40 to -20C 2.0%@ TA = +85 to +105C 1.0%@ TA = -20 to +85C 1.5%@ TA = -40 to -20C 1.6 V VDD < 1.8 V 5.0%@ TA = -20 to +85C 5.5%@ TA = -40 to -20C Serial array unit IICA UART UART CSI: fCLK/2 (supporting 16 Mbps), fCLK/4 CSI: fCLK/4 Simplified I2C communication Simplified I2C communication Normal mode Normal mode Fast mode Fast mode Fast mode plus Voltage detector Rise detection voltage: 1.67 V to 4.06 V Rise detection voltage: 2.61 V to 4.06 V (14 levels) (8 levels) Fall detection voltage: 1.63 V to 3.98 V Fall detection voltage: 2.55 V to 3.98 V (14 levels) (8 levels) (Remark is listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 136 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Remark The electrical characteristics of the products G: Industrial applications (TA = -40 to +105C) are different from those of the products "A: Consumer applications, and D: Industrial applications". For details, refer to 3.1 to 3.10. 3.1 Absolute Maximum Ratings Absolute Maximum Ratings (TA = 25C) (1/2) Parameter Supply voltage Symbols Conditions VDD REGC pin input voltage Ratings Unit -0.5 to +6.5 V EVDD0, EVDD1 EVDD0 = EVDD1 -0.5 to +6.5 V EVSS0, EVSS1 EVSS0 = EVSS1 -0.5 to +0.3 V VIREGC REGC -0.3 to +2.8 V and -0.3 to VDD +0.3Note 1 Input voltage VI1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, V -0.3 to EVDD0 +0.3 and -0.3 to VDD +0.3 Note 2 P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VI2 P60 to P63 (N-ch open-drain) VI3 P20 to P27, P121 to P124, P137, P150 to P156, -0.3 to +6.5 V -0.3 to VDD +0.3 V Note 2 EXCLK, EXCLKS, RESET Output voltage VO1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, V -0.3 to EVDD0 +0.3 and -0.3 to VDD +0.3 Note 2 P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Analog input voltage VO2 P20 to P27, P150 to P156 VAI1 ANI16 to ANI26 -0.3 to VDD +0.3 Note 2 V -0.3 to EVDD0 +0.3 V and -0.3 to AVREF(+) +0.3Notes 2, 3 VAI2 ANI0 to ANI14 V -0.3 to VDD +0.3 and -0.3 to AVREF(+) +0.3Notes 2, 3 Notes 1. Connect the REGC pin to Vss via a capacitor (0.47 to 1 F). This value regulates the absolute maximum rating of the REGC pin. Do not use this pin with voltage applied to it. 2. Must be 6.5 V or lower. 3. Do not exceed AVREF (+) + 0.3 V in case of A/D conversion target pin. Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. Remarks 1. Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. 2. AVREF (+) : + side reference voltage of the A/D converter. 3. VSS : Reference voltage R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 137 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Absolute Maximum Ratings (TA = 25C) (2/2) Parameter Output current, high Symbols IOH1 Conditions Per pin P00 to P07, P10 to P17, Ratings Unit -40 mA -70 mA -100 mA -0.5 mA -2 mA 40 mA 70 mA 100 mA 1 mA 5 mA -40 to +105 C -65 to +150 C P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of all pins P00 to P04, P07, P32 to P37, -170 mA P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 P05, P06, P10 to P17, P30, P31, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 IOH2 Per pin P20 to P27, P150 to P156 Total of all pins Output current, low IOL1 Per pin P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of all pins P00 to P04, P07, P32 to P37, 170 mA P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 P05, P06, P10 to P17, P30, P31, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 IOL2 Per pin P20 to P27, P150 to P156 Total of all pins Operating ambient TA temperature Storage temperature In normal operation mode In flash memory programming mode Tstg Caution Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 138 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.2 Oscillator Characteristics 3.2.1 X1, XT1 oscillator characteristics (TA = -40 to +105C, 2.4 V VDD 5.5 V, VSS = 0 V) Parameter Resonator Conditions MIN. X1 clock oscillation Ceramic resonator/ 2.7 V VDD 5.5 V 1.0 frequency (fX)Note crystal resonator 2.4 V VDD < 2.7 V 1.0 XT1 clock oscillation Crystal resonator 32 TYP. MAX. Unit 20.0 MHz 16.0 MHz 35 kHz 32.768 frequency (fX)Note Note Indicates only permissible oscillator frequency ranges. Refer to AC Characteristics for instruction execution time. Request evaluation by the manufacturer of the oscillator circuit mounted on a board to check the oscillator characteristics. Caution Since the CPU is started by the high-speed on-chip oscillator clock after a reset release, check the X1 clock oscillation stabilization time using the oscillation stabilization time counter status register (OSTC) by the user. Determine the oscillation stabilization time of the OSTC register and the oscillation stabilization time select register (OSTS) after sufficiently evaluating the oscillation stabilization time with the resonator to be used. Remark When using the X1 oscillator and XT1 oscillator, refer to 5.4 System Clock Oscillator in the RL78/G13 User's Manual. 3.2.2 On-chip oscillator characteristics (TA = -40 to +105C, 2.4 V VDD 5.5 V, VSS = 0 V) Oscillators High-speed on-chip oscillator Parameters Conditions fIH MIN. TYP. MAX. Unit 1 32 MHz clock frequency Notes 1, 2 High-speed on-chip oscillator -20 to +85C 2.4 V VDD 5.5 V -1.0 +1.0 % clock frequency accuracy -40 to -20C 2.4 V VDD 5.5 V -1.5 +1.5 % +85 to +105C 2.4 V VDD 5.5 V -2.0 +2.0 % Low-speed on-chip oscillator 15 fIL kHz clock frequency Low-speed on-chip oscillator -15 +15 % clock frequency accuracy Notes 1. High-speed on-chip oscillator frequency is selected by bits 0 to 3 of option byte (000C2H/010C2H) and bits 0 to 2 of HOCODIV register. 2. This indicates the oscillator characteristics only. Refer to AC Characteristics for instruction execution time. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 139 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.3 DC Characteristics 3.3.1 Pin characteristics (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/5) Items Symbol Output current, highNote 1 IOH1 Conditions Per pin for P00 to P07, P10 to P17, 2.4 V EVDD0 5.5 V P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of P00 to P04, P07, P32 to P37, P40 to P47, P102 to P106, P120, P125 to P127, P130, P140 to P145 (When duty 70% Note 3) IOH2 Notes 1. MIN. TYP. MAX. -3.0 Note 2 Unit mA 4.0 V EVDD0 5.5 V -30.0 mA 2.7 V EVDD0 < 4.0 V -10.0 mA 2.4 V EVDD0 < 2.7 V -5.0 mA Total of P05, P06, P10 to P17, P30, P31, 4.0 V EVDD0 5.5 V P50 to P57, P64 to P67, P70 to P77, P80 to 2.7 V EVDD0 < 4.0 V P87, P90 to P97, P100, P101, P110 to 2.4 V EVDD0 < 2.7 V P117, P146, P147 Note 3 ) (When duty 70% -30.0 mA -19.0 mA -10.0 mA Total of all pins (When duty 70%Note 3) 2.4 V EVDD0 5.5 V -60.0 mA Per pin for P20 to P27, P150 to P156 2,4 V VDD 5.5 V -0.1Note 2 mA Total of all pins (When duty 70%Note 3) 2.4 V VDD 5.5 V -1.5 mA Value of current at which the device operation is guaranteed even if the current flows from the EVDD0, EVDD1, VDD pins to an output pin. 2. Do not exceed the total current value. 3. Specification under conditions where the duty factor 70%. The output current value that has changed to the duty factor > 70% the duty ratio can be calculated with the following expression (when changing the duty factor from 70% to n%). Total output current of pins = (IOH x 0.7)/(n x 0.01) Where n = 80% and IOH = -10.0 mA Total output current of pins = (-10.0 x 0.7)/(80 x 0.01) -8.7 mA However, the current that is allowed to flow into one pin does not vary depending on the duty factor. A current higher than the absolute maximum rating must not flow into one pin. Caution P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 do not output high level in N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 140 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/5) Items Symbol Output current, lowNote 1 IOL1 Conditions MIN. Unit 8.5 Per pin for P60 to P63 15.0 Note 2 mA Total of P00 to P04, P07, P32 to P37, 4.0 V EVDD0 5.5 V P40 to P47, P102 to P106, P120, P125 2.7 V EVDD0 < 4.0 V to P127, P130, P140 to P145 2.4 V EVDD0 < 2.7 V (When duty 70% Note 3) 40.0 mA 15.0 mA 9.0 mA Total of P05, P06, P10 to P17, P30, P31, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100, P101, P110 to P117, P146, P147 (When duty 70% Note 3) 4.0 V EVDD0 5.5 V 40.0 mA 2.7 V EVDD0 < 4.0 V 35.0 mA 2,4 V EVDD0 < 2.7 V 20.0 mA 80.0 mA 0.4 Note 2 mA 5.0 mA Per pin for P20 to P27, P150 to P156 Total of all pins (When duty 70%Note 3) Notes 1. MAX. Per pin for P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 Total of all pins (When duty 70% Note 3) IOL2 TYP. 2,4 V VDD 5.5 V mA Note 2 Value of current at which the device operation is guaranteed even if the current flows from an output pin to the EVSS0, EVSS1 and VSS pin. 2. 3. Do not exceed the total current value. Specification under conditions where the duty factor 70%. The output current value that has changed to the duty factor > 70% the duty ratio can be calculated with the following expression (when changing the duty factor from 70% to n%). Total output current of pins = (IOL x 0.7)/(n x 0.01) Where n = 80% and IOL = 10.0 mA Total output current of pins = (10.0 x 0.7)/(80 x 0.01) 8.7 mA However, the current that is allowed to flow into one pin does not vary depending on the duty factor. A current higher than the absolute maximum rating must not flow into one pin. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 141 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (3/5) Items Input voltage, Symbol VIH1 high Conditions MAX. Unit 0.8EVDD0 EVDD0 V 2.2 EVDD0 V 2.0 EVDD0 V 1.5 EVDD0 V 0.7VDD VDD V 0.7EVDD0 6.0 V 0.8VDD VDD V Normal input buffer 0 0.2EVDD0 V P01, P03, P04, P10, P11, TTL input buffer 0 0.8 V P13 to P17, P43, P44, P53 to P55, 4.0 V EVDD0 5.5 V P80, P81, P142, P143 TTL input buffer 0 0.5 V 0 0.32 V P00 to P07, P10 to P17, P30 to P37, MIN. Normal input buffer TYP. P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VIH2 P01, P03, P04, P10, P11, TTL input buffer P13 to P17, P43, P44, P53 to P55, 4.0 V EVDD0 5.5 V P80, P81, P142, P143 TTL input buffer 3.3 V EVDD0 < 4.0 V TTL input buffer 2.4 V EVDD0 < 3.3 V VIH3 P20 to P27, P150 to P156 VIH4 P60 to P63 VIH5 P121 to P124, P137, EXCLK, EXCLKS, RESET Input voltage, low VIL1 P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 VIL2 3.3 V EVDD0 < 4.0 V TTL input buffer 2.4 V EVDD0 < 3.3 V VIL3 P20 to P27, P150 to P156 0 0.3VDD V VIL4 P60 to P63 0 0.3EVDD0 V VIL5 P121 to P124, P137, EXCLK, EXCLKS, RESET 0 0.2VDD V Caution The maximum value of VIH of pins P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 is EVDD0, even in the N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 142 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (4/5) Items Symbol Output voltage, VOH1 high Conditions MIN. P00 to P07, P10 to P17, P30 to P37, 4.0 V EVDD0 5.5 V, P40 to P47, P50 to P57, P64 to P67, IOH1 = -3.0 mA P70 to P77, P80 to P87, P90 to P97, 2.7 V EVDD0 5.5 V, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 IOH1 = -2.0 mA 2.4 V EVDD0 5.5 V, IOH1 = -1.5 mA VOH2 P20 to P27, P150 to P156 2.4 V VDD 5.5 V, TYP. MAX. EVDD0 - Unit V 0.7 EVDD0 - V 0.6 EVDD0 - V 0.5 VDD - 0.5 V IOH2 = -100 A Output voltage, VOL1 low P00 to P07, P10 to P17, P30 to P37, 4.0 V EVDD0 5.5 V, P40 to P47, P50 to P57, P64 to P67, IOL1 = 8.5 mA P70 to P77, P80 to P87, P90 to P97, 4.0 V EVDD0 5.5 V, P100 to P106, P110 to P117, P120, P125 to P127, P130, P140 to P147 0.7 V 0.6 V 0.4 V 0.4 V 0.4 V 2.0 V 0.4 V 0.4 V 0.4 V IOL1 = 3.0 mA 2.7 V EVDD0 5.5 V, IOL1 = 1.5 mA 2.4 V EVDD0 5.5 V, IOL1 = 0.6 mA VOL2 P20 to P27, P150 to P156 2.4 V VDD 5.5 V, IOL2 = 400 A VOL3 P60 to P63 4.0 V EVDD0 5.5 V, IOL3 = 15.0 mA 4.0 V EVDD0 5.5 V, IOL3 = 5.0 mA 2.7 V EVDD0 5.5 V, IOL3 = 3.0 mA 2.4 V EVDD0 5.5 V, IOL3 = 2.0 mA Caution P00, P02 to P04, P10 to P15, P17, P43 to P45, P50, P52 to P55, P71, P74, P80 to P82, P96, and P142 to P144 do not output high level in N-ch open-drain mode. Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 143 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (5/5) Items Input leakage Symbol ILIH1 current, high Conditions P00 to P07, P10 to P17, MIN. TYP. MAX. Unit VI = EVDD0 1 A VI = VDD 1 A 1 A 10 A VI = EVSS0 -1 A VI = VSS -1 A -1 A -10 A 100 k P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 ILIH2 P20 to P27, P137, P150 to P156, RESET ILIH3 P121 to P124 VI = VDD In input port or (X1, X2, XT1, XT2, EXCLK, external clock EXCLKS) input In resonator connection Input leakage ILIL1 current, low P00 to P07, P10 to P17, P30 to P37, P40 to P47, P50 to P57, P60 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 ILIL2 P20 to P27, P137, P150 to P156, RESET ILIL3 P121 to P124 VI = VSS In input port or (X1, X2, XT1, XT2, EXCLK, external clock EXCLKS) input In resonator connection On-chip pll-up RU resistance P00 to P07, P10 to P17, VI = EVSS0, In input port 10 20 P30 to P37, P40 to P47, P50 to P57, P64 to P67, P70 to P77, P80 to P87, P90 to P97, P100 to P106, P110 to P117, P120, P125 to P127, P140 to P147 Remark Unless specified otherwise, the characteristics of alternate-function pins are the same as those of the port pins. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 144 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.3.2 Supply current characteristics (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (TA = -40 to +105C, 2.4 V EVDD0 VDD 5.5 V, VSS = EVSS0 = 0 V) (1/2) Parameter Symbol Supply current IDD1 Conditions Operating mode Note 1 HS (highspeed main) mode Note 5 Normal operation MAX. Unit 2.1 mA VDD = 3.0 V 2.1 mA VDD = 5.0 V 4.6 7.5 mA 4.6 7.5 mA Normal operation VDD = 5.0 V 3.7 5.8 mA VDD = 3.0 V 3.7 5.8 mA fIH = 16 MHz Note 3 Normal operation VDD = 5.0 V 2.7 4.2 mA fMX = 20 MHzNote 2, Normal operation Note 3 VDD = 5.0 V fMX = 20 MHz , Note 2 VDD = 3.0 V fMX = 10 MHzNote 2, VDD = 5.0 V fMX = 10 MHzNote 2, VDD = 3.0 V Subsystem clock operation TYP. VDD = 5.0 V VDD = 3.0 V fIH = 24 MHz HS (highspeed main) mode Note 5 MIN. Basic operation fIH = 32 MHz Note 3 fSUB = 32.768 kHz Note 4 Normal operation Normal operation VDD = 3.0 V 2.7 4.2 mA Square wave input 3.0 4.9 mA Resonator connection 3.2 5.0 mA Square wave input 3.0 4.9 mA Resonator connection 3.2 5.0 mA Square wave input 1.9 2.9 mA Resonator connection 1.9 2.9 mA Normal operation Square wave input 1.9 2.9 mA Resonator connection 1.9 2.9 mA Normal operation Square wave input 4.1 4.9 A Resonator connection 4.2 5.0 A TA = -40C fSUB = 32.768 kHz Note 4 Normal operation Square wave input 4.1 4.9 A Resonator connection 4.2 5.0 A Normal operation Square wave input 4.2 5.5 A Resonator connection 4.3 5.6 A Normal operation Square wave input 4.3 6.3 A Resonator connection 4.4 6.4 A Normal operation Square wave input 4.6 7.7 A Resonator connection 4.7 7.8 A Normal operation Square wave input 6.9 19.7 A Resonator connection 7.0 19.8 A TA = +25C fSUB = 32.768 kHz Note 4 TA = +50C fSUB = 32.768 kHz Note 4 TA = +70C fSUB = 32.768 kHz Note 4 TA = +85C fSUB = 32.768 kHz Note 4 TA = +105C (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 145 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Total current flowing into VDD and EVDD0, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0 or VSS, EVSS0. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. When high-speed on-chip oscillator and subsystem clock are stopped. 3. When high-speed system clock and subsystem clock are stopped. 4. When high-speed on-chip oscillator and high-speed system clock are stopped. When AMPHS1 = 1 (Ultra-low power consumption oscillation). However, not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 5. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 146 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (TA = -40 to +105C, 2.4 V EVDD0 VDD 5.5 V, VSS = EVSS0 = 0 V) (2/2) Parameter Symbol Conditions Supply IDD2 HALT current Note 2 mode Note 1 HS (highspeed main) mode Note 7 fIH = 32 MHz Note 4 fIH = 24 MHz Note 4 fIH = 16 MHz HS (highspeed main) mode Note 7 Note 4 fMX = 20 MHz , Note 3 VDD = 5.0 V MAX. Unit VDD = 5.0 V 0.54 2.90 VDD = 3.0 V 0.54 2.90 mA VDD = 5.0 V 0.44 2.30 mA VDD = 3.0 V 0.44 2.30 mA VDD = 5.0 V 0.40 1.70 mA VDD = 3.0 V 0.40 1.70 mA Square wave input 0.28 1.90 mA Resonator connection 0.45 2.00 mA mA Square wave input 0.28 1.90 mA Resonator connection 0.45 2.00 mA fMX = 10 MHzNote 3, Square wave input 0.19 1.02 mA VDD = 5.0 V Resonator connection 0.26 1.10 mA Square wave input 0.19 1.02 mA Resonator connection 0.26 1.10 mA Square wave input 0.25 0.57 A Resonator connection 0.44 0.76 A fMX = 10 MHz , Note 3 , Note 3 VDD = 3.0 V Subsystem fSUB = 32.768 kHz clock TA = -40C Note 5 Square wave input 0.30 0.57 A TA = +25C Resonator connection 0.49 0.76 A fSUB = 32.768 kHzNote 5 Square wave input 0.37 1.17 A TA = +50C Resonator connection 0.56 1.36 A Square wave input 0.53 1.97 A Resonator connection 0.72 2.16 A Square wave input 0.82 3.37 A Resonator connection 1.01 3.56 A Square wave input 3.01 15.37 A Resonator connection fSUB = 32.768 kHz fSUB = 32.768 kHz Note 5 Note 5 TA = +70C fSUB = 32.768 kHz Note 5 TA = +85C fSUB = 32.768 kHz TA = +105C IDD3Note 6 TYP. VDD = 3.0 V fMX = 20 MHz operation MIN. Note 5 3.20 15.56 A STOP TA = -40C 0.18 0.50 A modeNote 8 TA = +25C 0.23 0.50 A TA = +50C 0.30 1.10 A TA = +70C 0.46 1.90 A TA = +85C 0.75 3.30 A TA = +105C 2.94 15.30 A (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 147 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Total current flowing into VDD and EVDD0, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0 or VSS, EVSS0. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. During HALT instruction execution by flash memory. 3. When high-speed on-chip oscillator and subsystem clock are stopped. 4. When high-speed system clock and subsystem clock are stopped. 5. When high-speed on-chip oscillator and high-speed system clock are stopped. When RTCLPC = 1 and setting ultra-low current consumption (AMPHS1 = 1). The current flowing into the RTC is included. However, not including the current flowing into the 12-bit interval timer and watchdog timer. 6. Not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 7. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz 8. Regarding the value for current operate the subsystem clock in STOP mode, refer to that in HALT mode. Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation and STOP mode, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 148 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (1/2) Parameter Symbol Supply current IDD1 Conditions Operating mode Note 1 HS (highspeed main) mode Note 5 Normal operation MAX. Unit 2.3 mA VDD = 3.0 V 2.3 mA VDD = 5.0 V 5.2 9.2 mA 5.2 9.2 mA Normal operation VDD = 5.0 V 4.1 7.0 mA VDD = 3.0 V 4.1 7.0 mA fIH = 16 MHz Note 3 Normal operation VDD = 5.0 V 3.0 5.0 mA fMX = 20 MHzNote 2, Normal operation Note 3 VDD = 5.0 V fMX = 20 MHz , Note 2 VDD = 3.0 V fMX = 10 MHzNote 2, VDD = 5.0 V fMX = 10 MHzNote 2, VDD = 3.0 V Subsystem clock operation TYP. VDD = 5.0 V VDD = 3.0 V fIH = 24 MHz HS (highspeed main) mode Note 5 MIN. Basic operation fIH = 32 MHz Note 3 fSUB = 32.768 kHz Note 4 Normal operation Normal operation VDD = 3.0 V 3.0 5.0 mA Square wave input 3.4 5.9 mA Resonator connection 3.6 6.0 mA Square wave input 3.4 5.9 mA Resonator connection 3.6 6.0 mA Square wave input 2.1 3.5 mA Resonator connection 2.1 3.5 mA Normal operation Square wave input 2.1 3.5 mA Resonator connection 2.1 3.5 mA Normal operation Square wave input 4.8 5.9 A Resonator connection 4.9 6.0 A Normal operation Square wave input 4.9 5.9 A Resonator connection 5.0 6.0 A Normal operation Square wave input 5.0 7.6 A Resonator connection 5.1 7.7 A Normal operation Square wave input 5.2 9.3 A Resonator connection 5.3 9.4 A Normal operation Square wave input 5.7 13.3 A Resonator connection 5.8 13.4 A Normal operation Square wave input 10.0 46.0 A Resonator connection 10.0 46.0 A TA = -40C fSUB = 32.768 kHz Note 4 TA = +25C fSUB = 32.768 kHz Note 4 TA = +50C fSUB = 32.768 kHz Note 4 TA = +70C fSUB = 32.768 kHz Note 4 TA = +85C fSUB = 32.768 kHz Note 4 TA = +105C (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 149 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. When high-speed on-chip oscillator and subsystem clock are stopped. 3. When high-speed system clock and subsystem clock are stopped. 4. When high-speed on-chip oscillator and high-speed system clock are stopped. When AMPHS1 = 1 (Ultra-low power consumption oscillation). However, not including the current flowing into the 12-bit interval timer and watchdog timer. 5. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 150 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) (2/2) Parameter Symbol Supply current IDD2 Note 2 Conditions HALT mode Note 1 HS (highspeed main) mode Note 7 fIH = 32 MHz Note 4 fIH = 24 MHz Note 4 fIH = 16 MHz HS (highspeed main) mode Note 7 Subsystem clock operation IDD3Note 6 STOP modeNote 8 MIN. VDD = 5.0 V TYP. MAX. Unit 0.62 3.40 mA VDD = 3.0 V 0.62 3.40 mA VDD = 5.0 V 0.50 2.70 mA VDD = 3.0 V 0.50 2.70 mA VDD = 5.0 V 0.44 1.90 mA VDD = 3.0 V 0.44 1.90 mA fMX = 20 MHzNote 3, Square wave input 0.31 2.10 mA Note 4 VDD = 5.0 V Resonator connection 0.48 2.20 mA fMX = 20 MHzNote 3, Square wave input 0.31 2.10 mA VDD = 3.0 V Resonator connection 0.48 2.20 mA fMX = 10 MHzNote 3, Square wave input 0.21 1.10 mA VDD = 5.0 V Resonator connection 0.28 1.20 mA fMX = 10 MHzNote 3, Square wave input 0.21 1.10 mA VDD = 3.0 V Resonator connection 0.28 1.20 mA fSUB = 32.768 kHzNote 5 Square wave input 0.28 0.61 A TA = -40C Resonator connection 0.47 0.80 A fSUB = 32.768 kHzNote 5 Square wave input 0.34 0.61 A TA = +25C Resonator connection 0.53 0.80 A fSUB = 32.768 kHzNote 5 Square wave input 0.41 2.30 A TA = +50C Resonator connection 0.60 2.49 A fSUB = 32.768 kHzNote 5 Square wave input 0.64 4.03 A TA = +70C Resonator connection 0.83 4.22 A fSUB = 32.768 kHzNote 5 Square wave input 1.09 8.04 A TA = +85C Resonator connection 1.28 8.23 A fSUB = 32.768 kHzNote 5 Square wave input 5.50 41.00 A TA = +105C Resonator connection 5.50 41.00 A TA = -40C 0.19 0.52 A TA = +25C 0.25 0.52 A TA = +50C 0.32 2.21 A TA = +70C 0.55 3.94 A TA = +85C 1.00 7.95 A TA = +105C 5.00 40.00 A (Notes and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 151 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Total current flowing into VDD, EVDD0, and EVDD1, including the input leakage current flowing when the level of the input pin is fixed to VDD, EVDD0, and EVDD1, or VSS, EVSS0, and EVSS1. The values below the MAX. column include the peripheral operation current. However, not including the current flowing into the A/D converter, LVD circuit, I/O port, and on-chip pull-up/pull-down resistors and the current flowing during data flash rewrite. 2. During HALT instruction execution by flash memory. 3. When high-speed on-chip oscillator and subsystem clock are stopped. 4. When high-speed system clock and subsystem clock are stopped. 5. When high-speed on-chip oscillator and high-speed system clock are stopped. When RTCLPC = 1 and setting ultra-low current consumption (AMPHS1 = 1). The current flowing into the RTC is included. However, not including the current flowing into the 12-bit interval timer and watchdog timer. 6. Not including the current flowing into the RTC, 12-bit interval timer, and watchdog timer. 7. Relationship between operation voltage width, operation frequency of CPU and operation mode is as below. HS (high-speed main) mode: 2.7 V VDD 5.5 V@1 MHz to 32 MHz 2.4 V VDD 5.5 V@1 MHz to 16 MHz 8. Regarding the value for current operate the subsystem clock in STOP mode, refer to that in HALT mode. Remarks 1. fMX: High-speed system clock frequency (X1 clock oscillation frequency or external main system clock frequency) 2. fIH: High-speed on-chip oscillator clock frequency 3. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 4. Except subsystem clock operation and STOP mode, temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 152 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (3) Peripheral Functions (Common to all products) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Low-speed on- IFIL chip oscillator Note 1 Conditions MIN. TYP. MAX. Unit 0.20 A 0.02 A 0.02 A fIL = 15 kHz 0.22 A When conversion Normal mode, AVREFP = VDD = 5.0 V at maximum speed Low voltage mode, AVREFP = VDD = 3.0 V 1.3 1.7 mA 0.5 0.7 mA operating current RTC operating IRTC current Notes 1, 2, 3 12-bit interval IIT timer operating Notes 1, 2, 4 current Watchdog timer IWDT operating current Notes 1, 2, 5 A/D converter operating current A/D converter reference voltage current Temperature sensor operating current IADC Notes 1, 6 IADREF 75.0 A 75.0 A 0.08 A Note 1 ITMPS Note 1 LVD operating ILVD current Notes 1, 7 Self IFSP programming Notes 1, 9 2.50 12.20 mA 2.50 12.20 mA The mode is performed Note 10 0.50 1.10 mA The A/D conversion operations are 1.20 2.04 mA 0.70 1.54 mA operating current BGO operating IBGO current Notes 1, 8 SNOOZE ISNOZ operating Note 1 ADC operation current performed, Loe voltage mode, AVREFP = VDD = 3.0 V CSI/UART operation Notes 1. Current flowing to the VDD. 2. When high speed on-chip oscillator and high-speed system clock are stopped. 3. Current flowing only to the real-time clock (RTC) (excluding the operating current of the low-speed on-chip oscillator and the XT1 oscillator). The supply current of the RL78 microcontrollers is the sum of the values of either IDD1 or IDD2, and IRTC, when the real-time clock operates in operation mode or HALT mode. When the low-speed on-chip oscillator is selected, IFIL should be added. IDD2 subsystem clock operation includes the operational current of the real-time clock. 4. Current flowing only to the 12-bit interval timer (excluding the operating current of the low-speed on-chip oscillator and the XT1 oscillator). The supply current of the RL78 microcontrollers is the sum of the values of either IDD1 or IDD2, and IIT, when the 12-bit interval timer operates in operation mode or HALT mode. When the low-speed on-chip oscillator is selected, IFIL should be added. 5. Current flowing only to the watchdog timer (including the operating current of the low-speed on-chip oscillator). The supply current of the RL78 is the sum of IDD1, IDD2 or IDD3 and IWDT when the watchdog timer operates. 6. Current flowing only to the A/D converter. The supply current of the RL78 microcontrollers is the sum of IDD1 or IDD2 and IADC when the A/D converter is in operation. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 153 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 7. Current flowing only to the LVD circuit. The supply current of the RL78 microcontrollers is the sum of IDD1, IDD2 or IDD3 and ILVD when the LVD circuit is in operation. 8. Current flowing only during data flash rewrite. 9. Current flowing only during self programming. 10. For shift time to the SNOOZE mode, see 18.3.3 SNOOZE mode in the RL78/G13 User's Manual. Remarks 1. fIL: Low-speed on-chip oscillator clock frequency 2. fSUB: Subsystem clock frequency (XT1 clock oscillation frequency) 3. fCLK: CPU/peripheral hardware clock frequency 4. Temperature condition of the TYP. value is TA = 25C R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 154 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.4 AC Characteristics (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Items Instruction cycle (minimum instruction execution time) Symbol TCY Conditions Main system clock (fMAIN) operation MIN. TYP. HS (high-speed 2.7 V VDD 5.5 V 0.03125 main) mode 2.4 V VDD < 2.7 V 0.0625 Subsystem clock (fSUB) 2.4 V VDD 5.5 V 28.5 30.5 MAX. Unit 1 s 1 s 31.3 s 1 s 1 s operation In the self HS (high-speed 2.7 V VDD 5.5 V 0.03125 programming main) mode 2.4 V VDD < 2.7 V 0.0625 mode External system clock frequency fEX 2.7 V VDD 5.5 V 1.0 20.0 MHz 2.4 V VDD < 2.7 V 1.0 16.0 MHz 32 35 kHz fEXS External system clock input highlevel width, low-level width tEXH, tEXL 2.7 V VDD 5.5 V 24 ns 2.4 V VDD < 2.7 V 30 ns 13.7 s 1/fMCK+10 nsNote tEXHS, tEXLS TI00 to TI07, TI10 to TI17 input high-level width, low-level width tTIH, tTIL TO00 to TO07, TO10 to TO17 output frequency fTO HS (high-speed main) mode HS (high-speed main) mode PCLBUZ0, PCLBUZ1 output frequency fPCL Interrupt input high-level width, low-level width tINTH, tINTL INTP1 to INTP11 Key interrupt input low-level width tKR KR0 to KR7 RESET low-level width tRSL 4.0 V EVDD0 5.5 V 16 MHz 2.7 V EVDD0 < 4.0 V 8 MHz 2.4 V EVDD0 < 2.7 V 4 MHz 4.0 V EVDD0 5.5 V 16 MHz 2.7 V EVDD0 < 4.0 V 8 MHz 4 MHz 2.4 V EVDD0 < 2.7 V INTP0 2.4 V VDD 5.5 V 1 s 2.4 V EVDD0 5.5 V 1 s 2.4 V EVDD0 5.5 V 250 ns 10 s Note The following conditions are required for low voltage interface when EVDD0 < VDD 2.4V EVDD0 < 2.7 V : MIN. 125 ns Remark fMCK: Timer array unit operation clock frequency (Operation clock to be set by the CKSmn0, CKSmn1 bits of timer mode register mn (TMRmn). m: Unit number (m = 0, 1), n: Channel number (n = 0 to 7)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 155 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Minimum Instruction Execution Time during Main System Clock Operation TCY vs VDD (HS (high-speed main) mode) 10 Cycle time TCY [s] 1.0 When the high-speed on-chip oscillator clock is selected During self programming When high-speed system clock is selected 0.1 0.0625 0.05 0.03125 0.01 0 1.0 2.0 3.0 4.0 2.4 2.7 Supply voltage V DD [V] 5.0 5.5 6.0 AC Timing Test Points VIH/VOH VIL/VOL Test points VIH/VOH VIL/VOL External System Clock Timing 1/fEX/ 1/fEXS tEXL/ tEXLS tEXH/ tEXHS EXCLK/EXCLKS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 156 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) TI/TO Timing tTIL tTIH TI00 to TI07, TI10 to TI17 1/fTO TO00 to TO07, TO10 to TO17 Interrupt Request Input Timing tINTL tINTH INTP0 to INTP11 Key Interrupt Input Timing tKR KR0 to KR7 RESET Input Timing tRSL RESET R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 157 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.5 Peripheral Functions Characteristics AC Timing Test Points VIH/VOH VIH/VOH Test points VIL/VOL VIL/VOL 3.5.1 Serial array unit (1) During communication at same potential (UART mode) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. Transfer rate Note 1 Unit MAX. fMCK/12 Note 2 bps 2.6 Mbps Theoretical value of the maximum transfer rate fCLK = 32 MHz, fMCK = fCLK Notes 1. Transfer rate in the SNOOZE mode is 4800 bps only. 2. The following conditions are required for low voltage interface when EVDD0 < VDD. 2.4 V EVDD0 < 2.7 V : MAX. 1.3 Mbps Caution Select the normal input buffer for the RxDq pin and the normal output mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). UART mode connection diagram (during communication at same potential) TxDq Rx User device RL78 microcontroller RxDq Tx UART mode bit width (during communication at same potential) (reference) 1/Transfer rate High-/Low-bit width Baud rate error tolerance TxDq RxDq Remarks 1. 2. q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 158 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (2) During communication at same potential (CSI mode) (master mode, SCKp... internal clock output) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SCKp cycle time tKCY1 SCKp high-/low-level width SIp setup time (to SCKp) Note 1 tKCY1 4/fCLK Unit MAX. 2.7 V EVDD0 5.5 V 250 ns 2.4 V EVDD0 5.5 V 500 ns tKH1, 4.0 V EVDD0 5.5 V tKCY1/2 - 24 ns tKL1 2.7 V EVDD0 5.5 V tKCY1/2 - 36 ns 2.4 V EVDD0 5.5 V tKCY1/2 - 76 ns 4.0 V EVDD0 5.5 V 66 ns 2.7 V EVDD0 5.5 V 66 ns 2.4 V EVDD0 5.5 V 113 ns 38 ns tSIK1 SIp hold time (from SCKp) Note 2 tKSI1 Delay time from SCKp to tKSO1 C = 30 pF Note 4 50 ns SOp output Note 3 Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. C is the load capacitance of the SCKp and SOp output lines. Caution Select the normal input buffer for the SIp pin and the normal output mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). Remarks 1. p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31), m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), g: PIM and POM numbers (g = 0, 1, 4, 5, 8, 14) 2. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 159 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (3) During communication at same potential (CSI mode) (slave mode, SCKp... external clock input) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SCKp cycle time Note 5 tKCY2 4.0 V EVDD0 5.5 V 2.7 V EVDD0 5.5 V Unit MAX. 20 MHz < fMCK 16/fMCK ns fMCK 20 MHz 12/fMCK ns 16 MHz < fMCK 16/fMCK ns fMCK 16 MHz 12/fMCK ns 16/fMCK ns 12/fMCK and 1000 ns 2.4 V EVDD0 5.5 V SCKp high-/low-level tKH2, 4.0 V EVDD0 5.5 V tKCY2/2 - 14 ns width tKL2 2.7 V EVDD0 5.5 V tKCY2/2 - 16 ns 2.4 V EVDD0 5.5 V tKCY2/2 - 36 ns SIp setup time 2.7 V EVDD0 5.5 V 1/fMCK+40 ns 2.4 V EVDD0 5.5 V 1/fMCK+60 ns tKSI2 2.4 V EVDD0 5.5 V 1/fMCK+62 ns tKSO2 C = 30 pF Note 4 tSIK2 (to SCKp) Note 1 SIp hold time (from SCKp) Note 2 Delay time from SCKp to SOp output Note 3 2.7 V EVDD0 5.5 V 2/fMCK+66 ns 2.4 V EVDD0 5.5 V 2/fMCK+113 ns Notes 1. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. C is the load capacitance of the SOp output lines. 5. Transfer rate in the SNOOZE mode : MAX. 1 Mbps Caution Select the normal input buffer for the SIp pin and SCKp pin and the normal output mode for the SOp pin by using port input mode register g (PIMg) and port output mode register g (POMg). Remarks 1. p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31), m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), g: PIM number (g = 0, 1, 4, 5, 8, 14) 2. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) CSI mode connection diagram (during communication at same potential) SCKp RL78 microcontroller SIp SOp R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 SCK SO User device SI 160 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) CSI mode serial transfer timing (during communication at same potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY1, 2 tKL1, 2 tKH1, 2 SCKp tSIK1, 2 SIp tKSI1, 2 Input data tKSO1, 2 Output data SOp CSI mode serial transfer timing (during communication at same potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY1, 2 tKH1, 2 tKL1, 2 SCKp tSIK1, 2 SIp tKSI1, 2 Input data tKSO1, 2 SOp Remarks 1. 2. Output data p: CSI number (p = 00, 01, 10, 11, 20, 21, 30, 31) m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 161 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (4) During communication at same potential (simplified I2C mode) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Unit Mode MIN. SCLr clock frequency fSCL 2.7 V EVDD0 5.5 V, MAX. 400 Note1 kHz 100 Note1 kHz Cb = 50 pF, Rb = 2.7 k 2.4 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k Hold time when SCLr = "L" tLOW 2.7 V EVDD0 5.5 V, 1200 ns 4600 ns 1200 ns 4600 ns 1/fMCK + 220 ns Cb = 50 pF, Rb = 2.7 k 2.4 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k Hold time when SCLr = "H" tHIGH 2.7 V EVDD0 5.5 V, Cb = 50 pF, Rb = 2.7 k 2.4 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k Data setup time (reception) tSU:DAT 2.7 V EVDD0 5.5 V, Cb = 50 pF, Rb = 2.7 k 2.4 V EVDD 5.5 V, Cb = 100 pF, Rb = 3 k Data hold time (transmission) tHD:DAT 2.7 V EVDD0 5.5 V, Note2 1/fMCK + 580 ns Note2 0 770 ns 0 1420 ns Cb = 50 pF, Rb = 2.7 k 2.4 V EVDD0 5.5 V, Cb = 100 pF, Rb = 3 k Notes 1. The value must also be equal to or less than fMCK/4. 2. Set the fMCK value to keep the hold time of SCLr = "L" and SCLr = "H". Caution Select the normal input buffer and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SDAr pin and the normal output mode for the SCLr pin by using port input mode register g (PIMg) and port output mode register h (POMh). (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 162 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Simplified I2C mode mode connection diagram (during communication at same potential) VDD Rb SDAr SDA User device RL78 microcontroller SCLr SCL Simplified I2C mode serial transfer timing (during communication at same potential) 1/fSCL tLOW tHIGH SCLr SDAr tHD:DAT tSU:DAT Remarks 1. Rb[]:Communication line (SDAr) pull-up resistance, Cb[F]: Communication line (SDAr, SCLr) load capacitance 2. r: IIC number (r = 00, 01, 10, 11, 20, 21, 30, 31), g: PIM number (g = 0, 1, 4, 5, 8, 14), h: POM number (g = 0, 1, 4, 5, 7 to 9, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number (m = 0, 1), n: Channel number (n = 0 to 3), mn = 00 to 03, 10 to 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 163 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (5) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (1/2) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. Transfer rate Reception Unit MAX. fMCK/12 Note 1 bps 2.6 Mbps fMCK/12 Note 1 bps 2.6 Mbps 2.4 V EVDD0 < 3.3 V, fMCK/12 bps 1.6 V Vb 2.0 V Notes 1,2 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V Theoretical value of the maximum transfer rate fCLK = 32 MHz, fMCK = fCLK 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V Theoretical value of the maximum transfer rate fCLK = 32 MHz, fMCK = fCLK Theoretical value of the 2.6 Mbps maximum transfer rate fCLK = 32 MHz, fMCK = fCLK Notes 1. Transfer rate in the SNOOZE mode is 4800 bps only. 2. The following conditions are required for low voltage interface when EVDD0 < VDD. 2.4 V EVDD0 < 2.7 V : MAX. 1.3 Mbps Caution Select the TTL input buffer for the RxDq pin and the N-ch open drain output (VDD tolerance (for the 20to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. Remarks 1. 2. 3. Vb[V]: Communication line voltage q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13) 4. UART2 cannot communicate at different potential when bit 1 (PIOR1) of peripheral I/O redirection register (PIOR) is 1. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 164 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (5) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (2/2) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. Transfer rate MAX. Note 1 bps 2.6 Note 2 Mbps Note 3 bps 1.2 Note 4 Mbps Note 5 bps Theoretical value of the 0.43 Mbps maximum transfer rate Note 6 Transmission 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V Unit Theoretical value of the maximum transfer rate Cb = 50 pF, Rb = 1.4 k, Vb = 2.7 V 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V Theoretical value of the maximum transfer rate Cb = 50 pF, Rb = 2.7 k, Vb = 2.3 V 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Cb = 50 pF, Rb = 5.5 k, Vb = 1.6 V Notes 1. The smaller maximum transfer rate derived by using fMCK/12 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 4.0 V EVDD0 5.5 V and 2.7 V Vb 4.0 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 2.2 Vb )} x 3 [bps] 2.2 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 2. This value as an example is calculated when the conditions described in the "Conditions" column are met. Refer to Note 1 above to calculate the maximum transfer rate under conditions of the customer. 3. The smaller maximum transfer rate derived by using fMCK/12 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 2.7 V EVDD0 < 4.0 V and 2.4 V Vb 2.7 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 2.0 Vb )} x 3 [bps] 2.0 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 4. This value as an example is calculated when the conditions described in the "Conditions" column are met. Refer to Note 3 above to calculate the maximum transfer rate under conditions of the customer. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 165 of 214 RL78/G13 Notes 5. 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) The smaller maximum transfer rate derived by using fMCK/12 or the following expression is the valid maximum transfer rate. Expression for calculating the transfer rate when 2.4 V EVDD0 < 3.3 V and 1.6 V Vb 2.0 V 1 Maximum transfer rate = {-Cb x Rb x ln (1 - Baud rate error (theoretical value) = 1.5 Vb )} x 3 [bps] 1.5 1 Transfer rate x 2 - {-Cb x Rb x ln (1 - Vb )} 1 ( Transfer rate ) x Number of transferred bits x 100 [%] * This value is the theoretical value of the relative difference between the transmission and reception sides. 6. This value as an example is calculated when the conditions described in the "Conditions" column are met. Refer to Note 5 above to calculate the maximum transfer rate under conditions of the customer. Caution Select the TTL input buffer for the RxDq pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the TxDq pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. UART mode connection diagram (during communication at different potential) Vb Rb TxDq Rx User device RL78 microcontroller RxDq R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 Tx 166 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) UART mode bit width (during communication at different potential) (reference) 1/Transfer rate Low-bit width High-bit width Baud rate error tolerance TxDq 1/Transfer rate High-/Low-bit width Baud rate error tolerance RxDq Remarks 1. Rb[]:Communication line (TxDq) pull-up resistance, Cb[F]: Communication line (TxDq) load capacitance, Vb[V]: Communication line voltage 2. q: UART number (q = 0 to 3), g: PIM and POM number (g = 0, 1, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00 to 03, 10 to 13)) 4. UART2 cannot communicate at different potential when bit 1 (PIOR1) of peripheral I/O redirection register (PIOR) is 1. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 167 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (1/3) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SCKp cycle time tKCY1 tKCY1 4/fCLK 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Unit MAX. 600 ns 1000 ns 2300 ns tKCY1/2 - 150 ns tKCY1/2 - 340 ns tKCY1/2 - 916 ns tKCY1/2 - 24 ns tKCY1/2 - 36 ns tKCY1/2 - 100 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k SCKp high-level width tKH1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k SCKp low-level width tKL1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed two pages after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 168 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (2/3) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SIp setup time (to SCKp) Note tSIK1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Unit MAX. 162 ns 354 ns 958 ns 38 ns 38 ns 38 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k SIp hold time (from SCKp) Note tKSI1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 2.7 k Delay time from SCKp to SOp output Note tKSO1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 200 ns 390 ns 966 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k Note When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the page after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 169 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (master mode, SCKp... internal clock output) (3/3) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SIp setup time (to SCKp) Note tSIK1 4.0 V EVDD 5.5 V, 2.7 V Vb 4.0 V, Unit MAX. 88 ns 88 ns 220 ns 38 ns 38 ns 38 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k SIp hold time (from SCKp) Note tKSI1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k Delay time from SCKp to SOp output Note tKSO1 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 50 ns 50 ns 50 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 30 pF, Rb = 5.5 k Note When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. Caution Select the TTL input buffer for the SIp pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SOp pin and SCKp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 170 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) CSI mode connection diagram (during communication at different potential) Vb Vb Rb SCKp RL78 SIp microcontroller SOp Rb SCK SO User device SI Remarks 1. Rb[]:Communication line (SCKp, SOp) pull-up resistance, Cb[F]: Communication line (SCKp, SOp) load capacitance, Vb[V]: Communication line voltage 2. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number , n: Channel number (mn = 00, 01, 02, 10, 12, 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00)) 4. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 171 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) CSI mode serial transfer timing (master mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY1 tKL1 tKH1 SCKp tSIK1 SIp tKSI1 Input data tKSO1 Output data SOp CSI mode serial transfer timing (master mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY1 tKH1 tKL1 SCKp tSIK1 SIp tKSI1 Input data tKSO1 SOp Output data Remarks 1. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number (m = 00, 01, 02, 10, 12, 13), n: Channel number (n = 0, 2), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 2. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 172 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (7) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (slave mode, SCKp... external clock input) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. SCKp cycle time Note 1 SCKp high-/low-level width tKCY2 Unit MAX. 4.0 V EVDD0 5.5 V, 24 MHz < fMCK 28/fMCK ns 2.7 V Vb 4.0 V 20 MHz < fMCK 24 MHz 24/fMCK ns 8 MHz < fMCK 20 MHz 20/fMCK ns 4 MHz < fMCK 8 MHz 16/fMCK ns fMCK 4 MHz 12/fMCK ns 2.7 V EVDD0 < 4.0 V, 24 MHz < fMCK 40/fMCK ns 2.3 V Vb 2.7 V 32/fMCK ns 16 MHz < fMCK 20 MHz 28/fMCK ns 8 MHz < fMCK 16 MHz 24/fMCK ns 4 MHz < fMCK 8 MHz 16/fMCK ns fMCK 4 MHz 12/fMCK ns 2.4 V EVDD0 < 3.3 V, 24 MHz < fMCK 96/fMCK ns 1.6 V Vb 2.0 V 20 MHz < fMCK 24 MHz 72/fMCK ns 16 MHz < fMCK 20 MHz 64/fMCK ns 8 MHz < fMCK 16 MHz 52/fMCK ns 4 MHz < fMCK 8 MHz 32/fMCK ns fMCK 4 MHz 20/fMCK ns tKCY2/2 - 24 ns tKCY2/2 - 36 ns tKCY2/2 - 100 ns 1/fMCK + 40 ns 1/fMCK + 40 ns 1/fMCK + 60 ns 1/fMCK + 62 ns 20 MHz < fMCK 24 MHz tKH2, 4.0 V EVDD0 5.5 V, tKL2 2.7 V Vb 4.0 V 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Note 2 SIp setup time tSIK2 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V (to SCKp) Note2 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V SIp hold time tKSI2 (from SCKp) Note 3 Delay time from SCKp to tKSO2 SOp output Note 4 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, 2/fMCK + 240 ns 2/fMCK + 428 ns 2/fMCK + 1146 ns Cb = 30 pF, Rb = 1.4 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 30 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V Cb = 30 pF, Rb = 5.5 k (Notes, Caution and Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 173 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Transfer rate in the SNOOZE mode : MAX. 1 Mbps 2. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp setup time becomes "to SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 3. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The SIp hold time becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. 4. When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1. The delay time to SOp output becomes "from SCKp" when DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0. Caution Select the TTL input buffer for the SIp pin and SCKp pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 128-pin products)) mode for the SOp pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. CSI mode connection diagram (during communication at different potential) Vb Rb SCKp RL78 microcontroller SIp SOp SCK SO User device SI Remarks 1. Rb[]:Communication line (SOp) pull-up resistance, Cb[F]: Communication line (SOp) load capacitance, Vb[V]: Communication line voltage 2. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number (m = 0, 1), n: Channel number (n = 00, 01, 02, 10, 12, 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13)) 4. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 174 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) CSI mode serial transfer timing (slave mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 0, or DAPmn = 1 and CKPmn = 1.) tKCY2 tKL2 tKH2 SCKp tSIK2 SIp tKSI2 Input data tKSO2 Output data SOp CSI mode serial transfer timing (slave mode) (during communication at different potential) (When DAPmn = 0 and CKPmn = 1, or DAPmn = 1 and CKPmn = 0.) tKCY2 tKH2 tKL2 SCKp tSIK2 SIp tKSI2 Input data tKSO2 SOp Output data Remarks 1. p: CSI number (p = 00, 01, 10, 20, 30, 31), m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12. 13), g: PIM and POM number (g = 0, 1, 4, 5, 8, 14) 2. CSI01 of 48-, 52-, 64-pin products, and CSI11 and CSI21 cannot communicate at different potential. Use other CSI for communication at different potential. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 175 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (1/2) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Unit Mode MIN. SCLr clock frequency fSCL 4.0 V EVDD0 5.5 V, MAX. 400 Note 1 kHz 400 Note 1 kHz 100 Note 1 kHz 100 Note 1 kHz 100 Note 1 kHz 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 100 pF, Rb = 5.5 k Hold time when SCLr = "L" tLOW 4.0 V EVDD0 5.5 V, 1200 ns 1200 ns 4600 ns 4600 ns 4650 ns 620 ns 500 ns 2700 ns 2400 ns 1830 ns 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 100 pF, Rb = 5.5 k Hold time when SCLr = "H" tHIGH 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 100 pF, Rb = 5.5 k (Notes and Caution are listed on the next page, and Remarks are listed on the page after the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 176 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (2/2) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode MIN. Data setup time (reception) Data hold time (transmission) tSU:DAT tHD:DAT Unit MAX. 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 1/fMCK + 340 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 1/fMCK + 340 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 1/fMCK + 760 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 1/fMCK + 760 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 100 pF, Rb = 5.5 k 1/fMCK + 570 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 50 pF, Rb = 2.7 k 0 770 ns 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 50 pF, Rb = 2.7 k 0 770 ns 4.0 V EVDD0 5.5 V, 2.7 V Vb 4.0 V, Cb = 100 pF, Rb = 2.8 k 0 1420 ns 2.7 V EVDD0 < 4.0 V, 2.3 V Vb 2.7 V, Cb = 100 pF, Rb = 2.7 k 0 1420 ns 2.4 V EVDD0 < 3.3 V, 1.6 V Vb 2.0 V, Cb = 100 pF, Rb = 5.5 k 0 1215 ns ns Note 2 ns Note 2 ns Note 2 ns Note 2 ns Note 2 Notes 1. The value must also be equal to or less than fMCK/4. 2. Set the fMCK value to keep the hold time of SCLr = "L" and SCLr = "H". Caution Select the TTL input buffer and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SDAr pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SCLr pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. (Remarks are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 177 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Simplified I2C mode connection diagram (during communication at different potential) Vb Vb Rb Rb SDAr SDA RL78 microcontroller User device SCLr SCL Simplified I2C mode serial transfer timing (during communication at different potential) 1/fSCL tLOW tHIGH SCLr SDAr tHD:DAT tSU:DAT Caution Select the TTL input buffer and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SDAr pin and the N-ch open drain output (VDD tolerance (for the 20- to 52-pin products)/EVDD tolerance (for the 64- to 100-pin products)) mode for the SCLr pin by using port input mode register g (PIMg) and port output mode register g (POMg). For VIH and VIL, see the DC characteristics with TTL input buffer selected. Remarks 1. Rb[]:Communication line (SDAr, SCLr) pull-up resistance, Cb[F]: Communication line (SDAr, SCLr) load capacitance, Vb[V]: Communication line voltage 2. r: IIC number (r = 00, 01, 10, 20, 30, 31), g: PIM, POM number (g = 0, 1, 4, 5, 8, 14) 3. fMCK: Serial array unit operation clock frequency (Operation clock to be set by the CKSmn bit of serial mode register mn (SMRmn). m: Unit number, n: Channel number (mn = 00, 01, 02, 10, 12, 13) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 178 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.5.2 Serial interface IICA (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions HS (high-speed main) Mode Standard Mode SCLA0 clock frequency fSCL Setup time of restart condition Hold time Unit Fast Mode MIN. MAX. MIN. MAX. Fast mode: fCLK 3.5 MHz - - 0 400 kHz Standard mode: fCLK 1 MHz 0 100 - - kHz tSU:STA 4.7 0.6 s tHD:STA 4.0 0.6 s Hold time when SCLA0 = "L" tLOW 4.7 1.3 s Hold time when SCLA0 = "H" tHIGH 4.0 0.6 s tSU:DAT 250 100 ns tHD:DAT 0 Setup time of stop condition tSU:STO 4.0 0.6 s Bus-free time tBUF 4.7 1.3 s Note 1 Data setup time (reception) Data hold time (transmission) Notes 1. 2. Note 2 3.45 0 0.9 s The first clock pulse is generated after this period when the start/restart condition is detected. The maximum value (MAX.) of tHD:DAT is during normal transfer and a wait state is inserted in the ACK (acknowledge) timing. Caution The values in the above table are applied even when bit 2 (PIOR2) in the peripheral I/O redirection register (PIOR) is 1. At this time, the pin characteristics (IOH1, IOL1, VOH1, VOL1) must satisfy the values in the redirect destination. Remark The maximum value of Cb (communication line capacitance) and the value of Rb (communication line pull-up resistor) at that time in each mode are as follows. Standard mode: Cb = 400 pF, Rb = 2.7 k Fast mode: Cb = 320 pF, Rb = 1.1 k IICA serial transfer timing tLOW tR SCLAn tHD:DAT tHD:STA tHIGH tF tSU:STA tHD:STA tSU:STO tSU:DAT SDAAn tBUF Stop condition Start condition Restart condition Stop condition Remark n = 0, 1 R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 179 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.6 Analog Characteristics 3.6.1 A/D converter characteristics Classification of A/D converter characteristics Reference Voltage Reference voltage (+) = AVREFP Reference voltage (+) = VDD Reference voltage (+) = VBGR Input channel Reference voltage (-) = AVREFM Reference voltage (-) = VSS Reference voltage (-) = AVREFM ANI0 to ANI14 Refer to 3.6.1 (1). Refer to 3.6.1 (3). Refer to 3.6.1 (4). ANI16 to ANI26 Refer to 3.6.1 (2). Internal reference voltage Refer to 3.6.1 (1). - Temperature sensor output voltage (1) When reference voltage (+) = AVREFP/ANI0 (ADREFP1 = 0, ADREFP0 = 1), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI2 to ANI14, internal reference voltage, and temperature sensor output voltage (TA = -40 to +105C, 2.4 V AVREFP VDD 5.5 V, VSS = 0 V, Reference voltage (+) = AVREFP, Reference voltage (-) = AVREFM = 0 V) Parameter Resolution Symbol Conditions RES Overall error Note 1 AINL MIN. TYP. 8 10-bit resolution 2.4 V AVREFP 5.5 V 1.2 MAX. Unit 10 bit 3.5 LSB AVREFP = VDD Note 3 Conversion time tCONV 10-bit resolution 3.6 V VDD 5.5 V 2.125 39 s Target pin: ANI2 to ANI14 2.7 V VDD 5.5 V 3.1875 39 s 2.4 V VDD 5.5 V 17 39 s 10-bit resolution 3.6 V VDD 5.5 V 2.375 39 s Target pin: Internal reference 2.7 V VDD 5.5 V 3.5625 39 s 2.4 V VDD 5.5 V 17 39 s voltage, and temperature sensor output voltage (HS (high-speed main) mode) Zero-scale errorNotes 1, 2 EZS 10-bit resolution AVREFP = VDD Note 3 2.4 V AVREFP 5.5 V 0.25 %FSR Full-scale errorNotes 1, 2 EFS 10-bit resolution AVREFP = VDD Note 3 2.4 V AVREFP 5.5 V 0.25 %FSR Integral linearity error ILE 10-bit resolution 2.4 V AVREFP 5.5 V 2.5 LSB 2.4 V AVREFP 5.5 V 1.5 LSB AVREFP V AVREFP = VDD Note 3 Note 1 Differential linearity error DLE Analog input voltage 10-bit resolution AVREFP = VDD Note 3 Note 1 VAIN ANI2 to ANI14 Internal reference voltage output 0 VBGR Note 4 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) Temperature sensor output voltage VTMPS25 Note 4 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) (Notes are listed on the next page.) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 180 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. When AVREFP < VDD, the MAX. values are as follows. Overall error: Add 1.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.05%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 0.5 LSB to the MAX. value when AVREFP = VDD. 4. Refer to 3.6.2 Temperature sensor/internal reference voltage characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 181 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (2) When reference voltage (+) = AVREFP/ANI0 (ADREFP1 = 0, ADREFP0 = 1), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI16 to ANI26 (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, 2.4 V AVREFP VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = AVREFP, Reference voltage (-) = AVREFM = 0 V) Parameter Symbol Resolution RES Overall errorNote 1 AINL Conditions MIN. TYP. 8 10-bit resolution 2.4 V AVREFP 5.5 V 1.2 MAX. Unit 10 bit 5.0 LSB EVDD0 AVREFP = VDD Notes 3, 4 Conversion time tCONV 10-bit resolution 3.6 V VDD 5.5 V 2.125 39 s Target pin : ANI16 to ANI26 2.7 V VDD 5.5 V 3.1875 39 s 2.4 V VDD 5.5 V 17 39 s Zero-scale error EZS 10-bit resolution EVDD0 AVREFP = VDD Notes 3, 4 Full-scale errorNotes 1, 2 EFS 10-bit resolution EVDD0 AVREFP = VDD Notes 3, 4 2.4 V AVREFP 5.5 V 0.35 %FSR Integral linearity errorNote 1 ILE 10-bit resolution 2.4 V AVREFP 5.5 V 3.5 LSB 2.4 V AVREFP 5.5 V 2.0 LSB AVREFP V Notes 1, 2 2.4 V AVREFP 5.5 V 0.35 %FSR EVDD0 AVREFP = VDD Notes 3, 4 Differential linearity error DLE 10-bit resolution EVDD0 AVREFP = VDD Notes 3, 4 Note 1 Analog input voltage VAIN ANI16 to ANI26 0 and EVDD0 Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. When AVREFP < VDD, the MAX. values are as follows. Overall error: Add 1.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.05%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 0.5 LSB to the MAX. value when AVREFP = VDD. 4. When AVREFP < EVDD0 VDD, the MAX. values are as follows. Overall error: Add 4.0 LSB to the MAX. value when AVREFP = VDD. Zero-scale error/Full-scale error: Add 0.20%FSR to the MAX. value when AVREFP = VDD. Integral linearity error/ Differential linearity error: Add 2.0 LSB to the MAX. value when AVREFP = VDD. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 182 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (3) When reference voltage (+) = VDD (ADREFP1 = 0, ADREFP0 = 0), reference voltage (-) = VSS (ADREFM = 0), target pin : ANI0 to ANI14, ANI16 to ANI26, internal reference voltage, and temperature sensor output voltage (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = VDD, Reference voltage (-) = VSS) Parameter Symbol Resolution RES Overall errorNote 1 AINL Conversion time tCONV Conditions MIN. TYP. 8 Unit 10 bit 7.0 LSB 10-bit resolution 2.4 V VDD 5.5 V 10-bit resolution 3.6 V VDD 5.5 V 2.125 39 s Target pin: ANI0 to ANI14, 2.7 V VDD 5.5 V 3.1875 39 s 2.4 V VDD 5.5 V 17 39 s 10-bit resolution 3.6 V VDD 5.5 V 2.375 39 s Target pin: Internal reference 2.7 V VDD 5.5 V 3.5625 39 s 2.4 V VDD 5.5 V 17 39 s ANI16 to ANI26 voltage, and temperature sensor output voltage (HS 1.2 MAX. (high-speed main) mode) EZS 10-bit resolution 2.4 V VDD 5.5 V 0.60 %FSR Full-scale error EFS 10-bit resolution 2.4 V VDD 5.5 V 0.60 %FSR Integral linearity errorNote 1 ILE 10-bit resolution 2.4 V VDD 5.5 V 4.0 LSB Differential linearity error DLE 10-bit resolution 2.4 V VDD 5.5 V 2.0 LSB VAIN ANI0 to ANI14 0 VDD V ANI16 to ANI26 0 EVDD0 V Zero-scale error Notes 1, 2 Notes 1, 2 Note 1 Analog input voltage Internal reference voltage output VBGR Note 3 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) Temperature sensor output voltage VTMPS25 Note 3 V (2.4 V VDD 5.5 V, HS (high-speed main) mode) Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. Refer to 3.6.2 Temperature sensor/internal reference voltage characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 183 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) (4) When reference voltage (+) = Internal reference voltage (ADREFP1 = 1, ADREFP0 = 0), reference voltage (-) = AVREFM/ANI1 (ADREFM = 1), target pin : ANI0, ANI2 to ANI14, ANI16 to ANI26 (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V, Reference voltage (+) = VBGR Note 3, Reference voltage (-) = AVREFM Note 4 = 0 V, HS (high-speed main) mode) Parameter Symbol Resolution Conditions MIN. RES Conversion time Zero-scale error Notes 1, 2 Integral linearity error Note 1 Differential linearity error Note 1 Analog input voltage TYP. MAX. Unit 8 tCONV 8-bit resolution 2.4 V VDD 5.5 V EZS 8-bit resolution ILE DLE bit 39 s 2.4 V VDD 5.5 V 0.60 %FSR 8-bit resolution 2.4 V VDD 5.5 V 2.0 LSB 8-bit resolution 2.4 V VDD 5.5 V 1.0 LSB VAIN 17 0 VBGR Note 3 V Notes 1. Excludes quantization error (1/2 LSB). 2. This value is indicated as a ratio (%FSR) to the full-scale value. 3. Refer to 3.6.2 Temperature sensor/internal reference voltage characteristics. 4. When reference voltage (-) = VSS, the MAX. values are as follows. Zero-scale error: Add 0.35%FSR to the MAX. value when reference voltage (-) = AVREFM. Integral linearity error: Add 0.5 LSB to the MAX. value when reference voltage (-) = AVREFM. Differential linearity error: Add 0.2 LSB to the MAX. value when reference voltage (-) = AVREFM. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 184 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.6.2 Temperature sensor/internal reference voltage characteristics (TA = -40 to +105C, 2.4 V VDD 5.5 V, VSS = 0 V, HS (high-speed main) mode) Parameter Symbol Conditions MIN. Temperature sensor output voltage VTMPS25 Setting ADS register = 80H, TA = +25C Internal reference voltage VBGR Setting ADS register = 81H Temperature coefficient FVTMPS Temperature sensor that depends on the TYP. MAX. 1.05 1.38 1.45 Unit V 1.5 -3.6 V mV/C temperature Operation stabilization wait time tAMP 5 s 3.6.3 POR circuit characteristics (TA = -40 to +105C, VSS = 0 V) Parameter Detection voltage Minimum pulse width Note Symbol Conditions MIN. TYP. MAX. Unit VPOR Power supply rise time 1.45 1.51 1.57 V VPDR Power supply fall time 1.44 1.50 1.56 V TPW 300 s Note Minimum time required for a POR reset when VDD exceeds below VPDR. This is also the minimum time required for a POR reset from when VDD exceeds below 0.7 V to when VDD exceeds VPOR while STOP mode is entered or the main system clock is stopped through setting bit 0 (HIOSTOP) and bit 7 (MSTOP) in the clock operation status control register (CSC). TPW Supply voltage (VDD) VPOR VPDR or 0.7 V R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 185 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.6.4 LVD circuit characteristics LVD Detection Voltage of Reset Mode and Interrupt Mode (TA = -40 to +105C, VPDR VDD 5.5 V, VSS = 0 V) Parameter Detection Symbol Supply voltage level VLVD0 voltage VLVD1 VLVD2 VLVD3 VLVD4 VLVD5 VLVD6 VLVD7 Minimum pulse width Conditions MIN. TYP. MAX. Unit Power supply rise time 3.90 4.06 4.22 V Power supply fall time 3.83 3.98 4.13 V Power supply rise time 3.60 3.75 3.90 V Power supply fall time 3.53 3.67 3.81 V Power supply rise time 3.01 3.13 3.25 V Power supply fall time 2.94 3.06 3.18 V Power supply rise time 2.90 3.02 3.14 V Power supply fall time 2.85 2.96 3.07 V Power supply rise time 2.81 2.92 3.03 V Power supply fall time 2.75 2.86 2.97 V Power supply rise time 2.70 2.81 2.92 V Power supply fall time 2.64 2.75 2.86 V Power supply rise time 2.61 2.71 2.81 V Power supply fall time 2.55 2.65 2.75 V Power supply rise time 2.51 2.61 2.71 V Power supply fall time 2.45 2.55 2.65 V 300 s tLW 300 s Detection delay time LVD Detection Voltage of Interrupt & Reset Mode (TA = -40 to +105C, VPDR VDD 5.5 V, VSS = 0 V) Parameter Symbol Interrupt and reset VLVDD0 mode VLVDD1 Conditions MIN. TYP. MAX. Unit 2.64 2.75 2.86 V Rising release reset voltage 2.81 2.92 3.03 V Falling interrupt voltage 2.75 2.86 2.97 V Rising release reset voltage 2.90 3.02 3.14 V VPOC2, VPOC1, VPOC0 = 0, 1, 1, falling reset voltage VLVDD2 VLVDD3 LVIS1, LVIS0 = 1, 0 LVIS1, LVIS0 = 0, 1 LVIS1, LVIS0 = 0, 0 Falling interrupt voltage 2.85 2.96 3.07 V Rising release reset voltage 3.90 4.06 4.22 V Falling interrupt voltage 3.83 3.98 4.13 V MIN. TYP. MAX. Unit 54 V/ms 3.6.5 Power supply voltage rising slope characteristics (TA = -40 to +105C, VSS = 0 V) Parameter Power supply voltage rising slope Caution Symbol Conditions SVDD Make sure to keep the internal reset state by the LVD circuit or an external reset until VDD reaches the operating voltage range shown in 3.4 AC Characteristics. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 186 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.7 RAM Data Retention Characteristics (TA = -40 to +105C, VSS = 0 V) Parameter Data retention supply voltage Symbol Conditions VDDDR MIN. 1.44 TYP. Note MAX. Unit 5.5 V Note This depends on the POR detection voltage. For a falling voltage, data in RAM are retained until the voltage reaches the level that triggers a POR reset but not once it reaches the level at which a POR reset is generated. Operation mode STOP mode RAM data retention VDD VDDDR STOP instruction execution Standby release signal (interrupt request) 3.8 Flash Memory Programming Characteristics (TA = -40 to +105C, 2.4 V VDD 5.5 V, VSS = 0 V) Parameter CPU/peripheral hardware clock Symbol Conditions fCLK 2.4 V VDD 5.5 V Cerwr Retained for 20 years MIN. TYP. 1 MAX. Unit 32 MHz frequency Number of code flash rewrites Notes 1, 2, 3 TA = 85C Note 4 Number of data flash rewrites Retained for 1 years Notes 1, 2, 3 TA = 25C Retained for 5 years 1,000 Times 1,000,000 100,000 TA = 85C Note 4 Retained for 20 years 10,000 TA = 85C Note 4 Notes 1. 2. 3. 4. 1 erase + 1 write after the erase is regarded as 1 rewrite.The retaining years are until next rewrite after the rewrite. When using flash memory programmer and Renesas Electronics self programming library. These are the characteristics of the flash memory and the results obtained from reliability testing by Renesas Electronics Corporation. This temperature is the average value at which data are retained. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 187 of 214 RL78/G13 3. ELECTRICAL SPECIFICATIONS (G: INDUSTRIAL APPLICATIONS TA = -40 to +105C) 3.9 Dedicated Flash Memory Programmer Communication (UART) (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Transfer rate Conditions MIN. During serial programming TYP. 115,200 MAX. Unit 1,000,000 bps 3.10 Timing of Entry to Flash Memory Programming Modes (TA = -40 to +105C, 2.4 V EVDD0 = EVDD1 VDD 5.5 V, VSS = EVSS0 = EVSS1 = 0 V) Parameter Symbol Conditions MIN. Time to complete the communication tSUINIT POR and LVD reset must be released before for the initial setting after the the external reset is released. TYP. MAX. Unit 100 ms external reset is released Time to release the external reset tSU after the TOOL0 pin is set to the low POR and LVD reset must be released before 10 s 1 ms the external reset is released. level Time to hold the TOOL0 pin at the tHD low level after the external reset is POR and LVD reset must be released before the external reset is released. released (excluding the processing time of the firmware to control the flash memory) <1> <2> <3> <4> RESET 723 s + tHD processing time 1-byte data for setting mode TOOL0 tSU tSUINIT <1> The low level is input to the TOOL0 pin. <2> The external reset is released (POR and LVD reset must be released before the external reset is released.). <3> The TOOL0 pin is set to the high level. <4> Setting of the flash memory programming mode by UART reception and complete the baud rate setting. Remark tSUINIT: Communication for the initial setting must be completed within 100 ms after the external reset is released during this period. tSU: Time to release the external reset after the TOOL0 pin is set to the low level tHD: Time to hold the TOOL0 pin at the low level after the external reset is released (excluding the processing time of the firmware to control the flash memory) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 188 of 214 RL78/G13 4. PACKAGE DRAWINGS 4. PACKAGE DRAWINGS 4.1 20-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LSSOP20-0300-0.65 PLSP0020JC-A S20MC-65-5A4-3 0.12 20 11 detail of lead end F G T P L U E 1 10 A H J I S N S K C D M M B NOTE Each lead centerline is located within 0.13 mm of its true position (T.P.) at maximum material condition. ITEM A MILLIMETERS 6.650.15 B 0.475 MAX. C 0.65 (T.P.) D 0.24 +0.08 -0.07 E 0.10.05 F 1.30.1 G 1.2 H 8.10.2 I 6.10.2 J 1.00.2 K 0.170.03 L 0.5 M 0.13 N 0.10 P 3 +5 -3 T 0.25 U 0.60.15 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 189 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.2 24-pin Package JEITA Package code P-HWQFN24-4x4-0.50 RENESAS code Previous code MASS(TYP.)[g] PWQN0024KE-A P24K8-50-CAB-3 0.04 D 18 13 DETAIL OF A PART 12 19 E 24 A 7 A1 c2 6 1 INDEX AREA A S y S Referance Symbol D2 A Lp EXPOSED DIE PAD 1 6 7 24 Dimension in Millimeters Min Nom Max D 3.95 4.00 4.05 E 3.95 4.00 4.05 A 0.80 A1 0.00 b 0.18 e Lp B E2 0.25 0.30 0.40 x 0.05 ZD 19 12 13 18 e ZD b R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 x M 0.75 ZE c2 0.50 0.05 y ZE 0.30 0.50 0.75 0.15 0.20 D2 2.50 E2 2.50 0.25 S AB 190 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package code RENESAS code MASS(TYP.)[g] P-HWQFN024-4x4-0.50 PWQN0024KF-A 0.04 2X aaa C 18 13 19 12 D INDEX AREA (D/2 X E/2) 24 2X 7 aaa C 6 1 A E B ccc C C SEATING PLANE A (A3) A1 b(24X) e 24X bbb ddd eee C C A B C Reference Symbol Dimension in Millimeters Min. Nom. Max. 0.00 0.02 0.05 A E2 fff 1 fff C A B 0.80 A3 6 C A B 24 A1 7 EXPOSED DIE PAD b 0.203 REF. 0.18 D 4.00 BSC E 4.00 BSC e D2 19 12 18 13 L(24X) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 K(24X) 0.25 0.30 0.50 BSC L 0.35 K 0.20 D2 2.55 2.60 2.65 E2 2.55 2.60 2.65 aaa 0.40 0.45 0.15 bbb 0.10 ccc 0.10 ddd 0.05 eee 0.08 fff 0.10 191 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.3 25-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-WFLGA25-3x3-0.50 PWLG0025KA-A P25FC-50-2N2-2 0.01 21x b w S A S AB M A ZD D x e ZE 5 4 B 3 2.27 E 2 C 1 ED w S B INDEX MARK y1 S CB INDEX MARK A D 2.27 A S (UNIT:mm) y S DETAIL OF C PART DETAIL OF D PART R0.170.05 0.430.05 R0.120.05 0.330.05 0.500.05 0.3650.05 b (LAND PAD) 0.340.05 (APERTURE OF SOLDER RESIST) 0.3650.05 ITEM D DIMENSIONS 3.00 0.10 E 3.00 0.10 w 0.20 e 0.50 A 0.69 0.07 b 0.24 0.05 x 0.05 y 0.08 y1 0.20 ZD 0.50 ZE 0.50 R0.1650.05 0.500.05 0.330.05 R0.2150.05 0.430.05 2012 Renesas Electronics Corporation. All rights reserved . R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 192 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.4 30-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LSSOP30-0300-0.65 PLSP0030JB-B S30MC-65-5A4-3 0.18 30 16 detail of lead end F G T P 1 L 15 U E A H I J S C D N M S B M K ITEM A MILLIMETERS 9.850.15 B 0.45 MAX. C 0.65 (T.P.) NOTE D 0.24 +0.08 -0.07 Each lead centerline is located within 0.13 mm of its true position (T.P.) at maximum material condition. E 0.10.05 F 1.30.1 G 1.2 H 8.10.2 I 6.10.2 J 1.00.2 K 0.170.03 L 0.5 M 0.13 N 0.10 P 3 +5 -3 T 0.25 U 0.60.15 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 193 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.5 32-pin Package JEITA Package code RENESAS code Previous code P-HWQFN32-5x5-0.50 PWQN0032KB-A P32K8-50-3B4-5 MASS (TYP.)[g] 0.06 D 17 24 DETAIL OF A PART 16 25 E A 9 32 A1 C2 8 1 INDEX AREA A S y S Referance Symbol D2 A Lp EXPOSED DIE PAD 1 8 9 32 Dimension in Millimeters Min Nom Max D 4.95 5.00 5.05 E 4.95 5.00 5.05 A 0.80 A1 0.00 b 0.18 e Lp B E2 0.25 0.30 0.40 x 0.05 ZD 16 25 17 24 ZD e b x M 0.75 ZE c2 0.50 0.05 y ZE 0.30 0.50 0.75 0.15 0.20 D2 3.50 E2 3.50 0.25 S AB 2013 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 194 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package code RENESAS code MASS(TYP.)[g] P-HWQFN032-5x5-0.50 PWQN0032KE-A 0.06 2X aaa C 24 17 25 16 D INDEX AREA (D/2 X E/2) 32 2X aaa C 9 1 8 B A E ccc C C SEATING PLANE A (A3) A1 b(32X) e 32X bbb ddd eee C E2 1 fff C A B fff C A B 8 32 C A B C Reference Symbol Min. 0.00 16 24 17 L(32X) R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 K(32X) 0.02 0.05 0.203 REF. A3 b 25 Max. 0.80 0.18 D D2 Nom. A A1 9 Dimension in Millimeters 0.25 0.30 5.00 BSC E 5.00 BSC e 0.50 BSC L 0.35 K 0.20 0.40 0.45 D2 3.15 3.20 3.25 E2 3.15 3.20 3.25 aaa 0.15 bbb 0.10 ccc 0.10 ddd 0.05 eee 0.08 fff 0.10 195 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.6 36-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-WFLGA36-4x4-0.50 PWLG0036KA-A P36FC-50-AA4-2 0.023 32x b S AB e ZE w S A M A ZD D x 6 5 B 4 E 3 2.90 2 C INDEX MARK y1 D w S B S 1 F E D C B A E 2.90 A S y S DETAIL C DETAIL E DETAIL D R0.17 0.05 0.70 0.05 0.55 0.05 R0.12 0.05 0.75 0.55 (UNIT:mm) R0.17 0.05 0.70 0.05 R0.12 0.05 0.55 0.05 0.75 0.55 b (LAND PAD) 0.340.05 (APERTURE OF SOLDER RESIST) 0.55 0.75 0.550.05 0.70 0.05 0.55 0.75 0.550.05 R0.2750.05 R0.350.05 ITEM D DIMENSIONS E 4.000.10 w 0.20 4.000.10 e 0.50 A 0.690.07 b 0.240.05 x 0.05 y 0.08 y1 0.20 ZD 0.75 ZE 0.75 0.700.05 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 196 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.7 40-pin Package JEITA Package code P-HWQFN40-6x6-0.50 RENESAS code Previous code MASS (TYP.) [g] PWQN0040KC-A P40K8-50-4B4-5 0.09 D 21 30 DETAIL OF A PART 20 31 E 40 A A1 11 C2 10 1 INDEX AREA A S y S Referance Symbol D2 A Lp EXPOSED DIE PAD 1 10 11 40 Dimension in Millimeters Min Nom Max D 5.95 6.00 6.05 E 5.95 6.00 6.05 A 0.80 A1 0.00 b 0.18 e Lp B E2 0.25 0.30 0.40 x 0.05 ZD 0.75 ZE 20 31 30 21 ZD e b x M c2 0.50 0.05 y ZE 0.30 0.50 0.75 0.15 0.20 D2 4.50 E2 4.50 0.25 S AB 2013 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 197 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.8 44-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LQFP44-10x10-0.80 PLQP0044GC-A P44GB-80-UES-2 0.36 HD D detail of lead end A3 23 22 33 34 c E L Lp HE L1 (UNIT:mm) 12 11 44 1 ZE e ZD b x M S A S S NOTE Each lead centerline is located within 0.20 mm of its true position at maximum material condition. A1 DIMENSIONS 10.000.20 E 10.000.20 HD 12.000.20 HE 12.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 A3 A2 y ITEM D 0.25 b 0.37 +0.08 -0.07 c 0.145 +0.055 -0.045 L 0.50 Lp 0.600.15 L1 1.000.20 3 +5 -3 e 0.80 x 0.20 y 0.10 ZD 1.00 ZE 1.00 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 198 of 214 RL78/G13 4. PACKAGE DRAWINGS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 199 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.9 48-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LFQFP48-7x7-0.50 PLQP0048KF-A P48GA-50-8EU-1 0.16 HD D detail of lead end 36 25 37 A3 24 c E L Lp HE L1 (UNIT:mm) 13 48 12 1 ZE e ZD b x M S A ITEM D DIMENSIONS 7.000.20 E 7.000.20 HD 9.000.20 HE 9.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 A3 b A2 c L S y S NOTE Each lead centerline is located within 0.08 mm of its true position at maximum material condition. A1 0.25 0.220.05 0.145 +0.055 -0.045 0.50 Lp 0.600.15 L1 1.000.20 3 +5 -3 e 0.50 x 0.08 y 0.08 ZD 0.75 ZE 0.75 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 200 of 214 RL78/G13 4. PACKAGE DRAWINGS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 201 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package code P-HWQFN48-7x7-0.50 RENESAS code Previous code MASS(TYP.)[g] PWQN0048KB-A 48PJN-A P48K8-50-5B4-6 0.13 D 25 36 DETAIL OF A PART 24 37 E A A1 13 48 c2 12 1 INDEX AREA A S y S Referance Symbol D2 A Lp EXPOSED DIE PAD 12 1 13 48 Dimension in Millimeters Min Nom Max D 6.95 7.00 7.05 E 6.95 7.00 7.05 A 0.80 A1 0.00 b 0.18 e Lp B E2 0.25 0.30 0.40 x y 0.05 0.75 ZE 37 24 36 25 ZD e b x M c2 0.50 0.05 ZD ZE 0.30 0.50 0.75 0.15 0.20 D2 5.50 E2 5.50 0.25 S AB 2013 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 202 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.10 52-pin Package JEITA Package Code RENESAS Code P-LQFP52-10x10-0.65 PLQP0052JA-A Previous Code MASS (TYP.) [g] P52GB-65-GBS-1 0.3 HD D 2 27 39 40 detail of lead end 26 c 1 E HE L 52 14 1 13 e (UNIT:mm) 3 b x M A A2 y NOTE ITEM D E 10.000.10 10.000.10 HD 12.000.20 HE 12.000.20 A 1.70 MAX. A1 0.100.05 A2 A1 1.40 b 0.320.05 c 0.1450.055 L 0.500.15 1.Dimensions " 1" and " 2" do not include mold flash. 2.Dimension " 3" does not include trim offset. DIMENSIONS 0 to 8 e 0.65 x 0.13 y 0.10 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 203 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.11 64-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LQFP64-12x12-0.65 PLQP0064JA-A P64GK-65-UET-2 0.51 HD D detail of lead end 48 33 49 32 A3 c E L Lp HE L1 (UNIT:mm) 17 64 1 16 ZE e ZD b x M A2 S S NOTE Each lead centerline is located within 0.13 mm of its true position at maximum material condition. DIMENSIONS 12.000.20 E 12.000.20 HD 14.000.20 HE 14.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 A3 S A y ITEM D A1 0.25 b 0.32 +0.08 -0.07 c 0.145 +0.055 -0.045 L 0.50 Lp 0.600.15 L1 1.000.20 3 +5 -3 e 0.65 x 0.13 y 0.10 ZD 1.125 ZE 1.125 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 204 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LFQFP64-10x10-0.50 PLQP0064KF-A P64GB-50-UEU-2 0.35 HD D detail of lead end 48 33 49 A3 32 c E L Lp HE L1 (UNIT:mm) 17 64 1 16 ZE e ZD b x M S ITEM D DIMENSIONS 10.000.20 E 10.000.20 HD 12.000.20 HE 12.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 A3 b A A2 c L S y S NOTE Each lead centerline is located within 0.08 mm of its true position at maximum material condition. A1 0.25 0.220.05 0.145 +0.055 -0.045 0.50 Lp 0.600.15 L1 1.000.20 3 +5 -3 e 0.50 x 0.08 y 0.08 ZD 1.25 ZE 1.25 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 205 of 214 RL78/G13 4. PACKAGE DRAWINGS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 206 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-VFBGA64-4x4-0.40 PVBG0064LA-A P64F1-40-AA2-2 0.03 w D S A ZE ZD A 8 7 6 B 5 4 E 3 2 1 H G F E D C B A INDEX MARK w S B (UNIT:mm) A y1 A2 S S y e S b x M A1 S A B INDEX MARK ITEM D DIMENSIONS E 4.000.10 w 0.15 4.000.10 A 0.890.10 A1 0.20 0.05 A2 0.69 e 0.40 b 0.25 0.05 x 0.05 y 0.08 y1 0.20 ZD 0.60 ZE 0.60 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 207 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.12 80-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LQFP80-14x14-0.65 PLQP0080JB-E P80GC-65-UBT-2 0.69 HD detail of lead end D L1 A A3 c 60 61 41 40 L Lp B E HE Referance Symbol D 80 1 21 20 Dimension in Millimeters Min Nom Max 13.80 14.00 14.20 E 13.80 14.00 14.20 HD 17.00 17.20 17.40 HE 17.00 17.20 17.40 A1 0.05 0.125 0.20 A2 1.35 1.40 1.45 bp 0.26 0.32 0.38 c 0.10 0.145 0.20 Lp 0.736 0.886 1.036 L1 1.40 1.60 1.80 0 3 A ZE e ZD 1.70 A3 bp x M S AB L A A2 S e y S A1 0.25 0.80 8 0.65 x 0.13 y 0.10 ZD 0.825 ZE 0.825 2012 Renesas ElectronicsCorporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 208 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LFQFP80-12x12-0.50 PLQP0080KE-A P80GK-50-8EU-2 0.53 HD D detail of lead end 41 60 61 A3 40 c E L Lp HE L1 (UNIT:mm) 21 80 1 20 ZE e ZD b x M S E 12.000.20 HD 14.000.20 HE 14.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 c L A2 S S DIMENSIONS 12.000.20 A3 b A y ITEM D A1 0.25 0.220.05 0.145 +0.055 -0.045 0.50 Lp 0.600.15 L1 1.000.20 3 +5 -3 e 0.50 x 0.08 y 0.08 ZD 1.25 ZE 1.25 NOTE Each lead centerline is located within 0.08 mm of its true position at maximum material condition. 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 209 of 214 RL78/G13 4. PACKAGE DRAWINGS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 210 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.13 100-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LFQFP100-14x14-0.50 PLQP0100KE-A P100GC-50-GBR-1 0.69 HD D detail of lead end A L1 75 76 51 50 A3 c B L E HE Lp (UNIT:mm) 26 25 100 1 ITEM D DIMENSIONS 14.000.20 E 14.000.20 HD 16.000.20 HE 16.000.20 A 1.60 MAX. A1 0.100.05 A2 1.40 0.05 A3 ZE e b ZD x M S AB A A2 0.22 0.05 c 0.145 + 0.055 0.045 L 0.50 Lp 0.600.15 L1 e 1.000.20 3 + 5 3 0.50 x 0.08 y 0.08 ZD 1.00 ZE 1.00 S y S A1 0.25 b 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 211 of 214 RL78/G13 4. PACKAGE DRAWINGS R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 212 of 214 RL78/G13 4. PACKAGE DRAWINGS JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LQFP100-14x20-0.65 PLQP0100JC-A P100GF-65-GBN-1 0.92 HD D detail of lead end A A3 51 50 80 81 c B E HE L Lp 100 1 L1 31 30 (UNIT:mm) ZE e ZD b x M S AB A A2 S ITEM D DIMENSIONS 20.00 0.20 E 14.00 0.20 HD 22.00 0.20 HE 16.00 0.20 A 1.60 MAX. A1 0.10 0.05 A2 1.40 0.05 A3 0.25 + 0.08 0.32 0.07 0.145 + 0.055 0.045 0.50 b c y S A1 L Lp 0.60 0.15 L1 e 1.00 0.20 3 +5 3 0.65 x 0.13 y 0.10 ZD 0.575 ZE 0.825 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 213 of 214 RL78/G13 4. PACKAGE DRAWINGS 4.14 128-pin Package JEITA Package Code RENESAS Code Previous Code MASS (TYP.) [g] P-LFQFP128-14x20-0.50 PLQP0128KD-A P128GF-50-GBP-1 0.92 HD detail of lead end D A A3 102 103 65 64 c B E L HE Lp L1 128 1 39 38 (UNIT:mm) ZE e ZD b x M S AB A A2 ITEM D DIMENSIONS 20.000.20 E 14.000.20 HD 22.000.20 HE 16.000.20 A 1.60 MAX. A1 0.100.05 A2 1.400.05 A3 S y S A1 0.25 b 0.22 0.05 c 0.145 +0.055 -0.045 L 0.50 Lp 0.600.15 L1 e 1.000.20 3 +5 -3 0.50 x 0.08 y 0.08 ZD 0.75 ZE 0.75 2012 Renesas Electronics Corporation. All rights reserved. R01DS0131EJ0341 Rev.3.41 Jan 31, 2020 214 of 214 Revision History RL78/G13 Datasheet Rev. Date Page 1.00 2.00 Feb 29, 2012 Oct 12, 2012 7 Description Summary First Edition issued Figure 1-1. Part Number, Memory Size, and Package of RL78/G13: Pin count corrected. 25 1.4 Pin Identification: Description of pins INTP0 to INTP11 corrected. 40, 42, 44 1.6 Outline of Functions: Descriptions of Subsystem clock, Low-speed on-chip oscillator, and General-purpose register corrected. 41, 43, 45 59, 63, 67 68 69 96 to 98 100 104 3.00 Aug 02, 2013 116 120 1 3 1.6 Outline of Functions: Lists of Descriptions changed. Descriptions of Note 8 in a table corrected. (4) Common to RL78/G13 all products: Descriptions of Notes corrected. 2.4 AC Characteristics: Symbol of external system clock frequency corrected. 2.6.1 A/D converter characteristics: Notes of overall error corrected. 2.6.2 Temperature sensor characteristics: Parameter name corrected. 2.8 Flash Memory Programming Characteristics: Incorrect descriptions corrected. 3.10 52-pin products: Package drawings of 52-pin products corrected. 3.12 80-pin products: Package drawings of 80-pin products corrected. Modification of 1.1 Features Modification of 1.2 List of Part Numbers 4 to 15 Modification of Table 1-1. List of Ordering Part Numbers, note, and caution 16 to 32 Modification of package type in 1.3.1 to 1.3.14 33 Modification of description in 1.4 Pin Identification 48, 50, 52 Modification of caution, table, and note in 1.6 Outline of Functions 55 Modification of description in table of Absolute Maximum Ratings (TA = 25C) 57 Modification of table, note, caution, and remark in 2.2.1 X1, XT1 oscillator characteristics 57 Modification of table in 2.2.2 On-chip oscillator characteristics 58 Modification of note 3 of table (1/5) in 2.3.1 Pin characteristics 59 Modification of note 3 of table (2/5) in 2.3.1 Pin characteristics 63 Modification of table in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products 64 Modification of notes 1 and 4 in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products 65 Modification of table in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products 66 Modification of notes 1, 5, and 6 in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products 68 Modification of notes 1 and 4 in (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products 70 Modification of notes 1, 5, and 6 in (2) Flash ROM: 96 to 256 KB of 30- to 100pin products 72 Modification of notes 1 and 4 in (3) Flash ROM: 384 to 512 KB of 44- to 100pin products 74 Modification of notes 1, 5, and 6 in (3) Flash ROM: 384 to 512 KB of 44- to 100-pin products 75 Modification of (4) Peripheral Functions (Common to all products) 77 Modification of table in 2.4 AC Characteristics 78, 79 Addition of Minimum Instruction Execution Time during Main System Clock Operation 80 Modification of figures of AC Timing Test Points and External System Clock Timing C-1 Description Summary Rev. Date Page 3.00 Aug 02, 2013 81 Modification of figure of AC Timing Test Points 81 Modification of description and note 3 in (1) During communication at same potential (UART mode) 83 Modification of description in (2) During communication at same potential (CSI mode) 84 Modification of description in (3) During communication at same potential (CSI mode) 85 Modification of description in (4) During communication at same potential (CSI mode) (1/2) 86 Modification of description in (4) During communication at same potential (CSI mode) (2/2) 88 Modification of table in (5) During communication at same potential (simplified I2C mode) (1/2) 89 Modification of table and caution in (5) During communication at same potential (simplified I2C mode) (2/2) 91 Modification of table and notes 1 and 4 in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (1/2) 92, 93 Modification of table and notes 2 to 7 in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (2/2) 94 Modification of remarks 1 to 4 in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (2/2) 95 Modification of table in (7) Communication at different potential (2.5 V, 3 V) (CSI mode) (1/2) 96 Modification of table and caution in (7) Communication at different potential (2.5 V, 3 V) (CSI mode) (2/2) 97 Modification of table in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (1/3) 98 Modification of table, note 1, and caution in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (2/3) 99 Modification of table, note 1, and caution in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (3/3) 100 Modification of remarks 3 and 4 in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (3/3) 102 Modification of table in (9) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (1/2) 103 Modification of table and caution in (9) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (2/2) 106 Modification of table in (10) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (1/2) 107 Modification of table, note 1, and caution in (10) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (2/2) 109 Addition of (1) I2C standard mode 111 Addition of (2) I2C fast mode 112 Addition of (3) I2C fast mode plus 112 Modification of IICA serial transfer timing 113 Addition of table in 2.6.1 A/D converter characteristics 113 Modification of description in 2.6.1 (1) 114 Modification of notes 3 to 5 in 2.6.1 (1) 115 Modification of description and notes 2, 4, and 5 in 2.6.1 (2) 116 Modification of description and notes 3 and 4 in 2.6.1 (3) 117 Modification of description and notes 3 and 4 in 2.6.1 (4) C-2 Description Summary Rev. Date Page 3.00 Aug 02, 2013 118 Modification of table in 2.6.2 Temperature sensor/internal reference voltage characteristics 118 Modification of table and note in 2.6.3 POR circuit characteristics 119 Modification of table in 2.6.4 LVD circuit characteristics 120 Modification of table of LVD Detection Voltage of Interrupt & Reset Mode 120 Renamed to 2.6.5 Power supply voltage rising slope characteristics 122 Modification of table, figure, and remark in 2.10 Timing Specs for Switching Flash Memory Programming Modes 123 Modification of caution 1 and description 124 Modification of table and remark 3 in Absolute Maximum Ratings (TA = 25C) 126 Modification of table, note, caution, and remark in 3.2.1 X1, XT1 oscillator characteristics 126 Modification of table in 3.2.2 On-chip oscillator characteristics 127 Modification of note 3 in 3.3.1 Pin characteristics (1/5) 128 Modification of note 3 in 3.3.1 Pin characteristics (2/5) 133 Modification of notes 1 and 4 in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (1/2) 135 Modification of notes 1, 5, and 6 in (1) Flash ROM: 16 to 64 KB of 20- to 64-pin products (2/2) 137 Modification of notes 1 and 4 in (2) Flash ROM: 96 to 256 KB of 30- to 100-pin products (1/2) 139 Modification of notes 1, 5, and 6 in (2) Flash ROM: 96 to 256 KB of 30- to 100pin products (2/2) 140 Modification of (3) Peripheral Functions (Common to all products) 142 Modification of table in 3.4 AC Characteristics 143 Addition of Minimum Instruction Execution Time during Main System Clock Operation 143 Modification of figure of AC Timing Test Points 143 Modification of figure of External System Clock Timing 145 Modification of figure of AC Timing Test Points 145 Modification of description, note 1, and caution in (1) During communication at same potential (UART mode) 146 Modification of description in (2) During communication at same potential (CSI mode) 147 Modification of description in (3) During communication at same potential (CSI mode) 149 Modification of table, note 1, and caution in (4) During communication at same potential (simplified I2C mode) 151 Modification of table, note 1, and caution in (5) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (1/2) 152 to 154 Modification of table, notes 2 to 6, caution, and remarks 1 to 4 in (5) Communication at different potential (1.8 V, 2.5 V, 3 V) (UART mode) (2/2) 155 Modification of table in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (1/3) 156 Modification of table and caution in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (2/3) 157, 158 Modification of table, caution, and remarks 3 and 4 in (6) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) (3/3) 160, 161 Modification of table and caution in (7) Communication at different potential (1.8 V, 2.5 V, 3 V) (CSI mode) C-3 Rev. Date Page 3.00 Aug 02, 2013 163 164, 165 3.30 Nov 15, 2013 Mar 31, 2016 Modification of table in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (1/2) Modification of table, note 1, and caution in (8) Communication at different potential (1.8 V, 2.5 V, 3 V) (simplified I2C mode) (2/2) 166 Modification of table in 3.5.2 Serial interface IICA 166 Modification of IICA serial transfer timing 167 Addition of table in 3.6.1 A/D converter characteristics 167, 168 3.10 Description Summary Modification of table and notes 3 and 4 in 3.6.1 (1) 169 Modification of description in 3.6.1 (2) 170 Modification of description and note 3 in 3.6.1 (3) 171 Modification of description and notes 3 and 4 in 3.6.1 (4) 172 Modification of table and note in 3.6.3 POR circuit characteristics 173 Modification of table of LVD Detection Voltage of Interrupt & Reset Mode 173 Modification from Supply Voltage Rise Time to 3.6.5 Power supply voltage rising slope characteristics 174 Modification of 3.9 Dedicated Flash Memory Programmer Communication (UART) 175 Modification of table, figure, and remark in 3.10 Timing Specs for Switching Flash Memory Programming Modes 123 Caution 4 added. 125 Note for operating ambient temperature in 3.1 Absolute Maximum Ratings deleted. 18 Modification of the position of the index mark in 25-pin plastic WFLGA (3 x 3 mm, 0.50 mm pitch) of 1.3.3 25-pin products 49 Modification of power supply voltage in 1.6 Outline of Functions [20-pin, 24pin, 25-pin, 30-pin, 32-pin, 36-pin products] 51 Modification of power supply voltage in 1.6 Outline of Functions [40-pin, 44pin, 48-pin, 52-pin, 64-pin products] 53 Modification of power supply voltage in 1.6 Outline of Functions [80-pin, 100pin, 128-pin products] 110 to 112, ACK corrected to ACK 167 3.40 May 31, 2018 172 3.41 Jan 31, 2020 3 Addition of note in 3.6.3 POR circuit characteristics Addition of packaging specifications in Figure 1-1 Part Number, Memory Size, and Package of RL78/G13 4 to 28 Addition of ordering part numbers and RENESAS codes in Table 1-1 List of Ordering Part Numbers 189, 190, Modification of the titles of the subchapters and deletion of product names in 192 to 194, Chapter 4 196 to 198, 200, 202 to 205, 207 to 209, 211, 213, 214 191 Addition of figure in 4.2 24-pin Package 195 Addition of figure in 4.3 32-pin Package 199 Addition of figure in 4.8 44-pin Package C-4 Description Summary Rev. Date Page 3.41 Jan 31, 2020 201 Addition of figure in 4.9 48-pin Package 206 Addition of figure in 4.11 64-pin Package 210 Addition of figure in 4.12 80-pin Package 212 Addition of figure in 4.13 100-pin Package All trademarks and registered trademarks are the property of their respective owners. SuperFlash is a registered trademark of Silicon Storage Technology, Inc. in several countries including the United States and Japan. Caution: This product uses SuperFlash(R) technology licensed from Silicon Storage Technology, Inc. C-5 General Precautions in the Handling of Microprocessing Unit and Microcontroller Unit Products The following usage notes are applicable to all Microprocessing unit and Microcontroller unit products from Renesas. For detailed usage notes on the products covered by this document, refer to the relevant sections of the document as well as any technical updates that have been issued for the products. 1. Precaution against Electrostatic Discharge (ESD) A strong electrical field, when exposed to a CMOS device, can cause destruction of the gate oxide and ultimately degrade the device operation. Steps must be taken to stop the generation of static electricity as much as possible, and quickly dissipate it when it occurs. Environmental control must be adequate. When it is dry, a humidifier should be used. This is recommended to avoid using insulators that can easily build up static electricity. Semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. All test and measurement tools including work benches and floors must be grounded. The operator must also be grounded using a wrist strap. Semiconductor 2. devices must not be touched with bare hands. Similar precautions must be taken for printed circuit boards with mounted semiconductor devices. Processing at power-on The state of the product is undefined at the time when power is supplied. The states of internal circuits in the LSI are indeterminate and the states of register settings and pins are undefined at the time when power is supplied. In a finished product where the reset signal is applied to the external reset pin, the states of pins are not guaranteed from the time when power is supplied until the reset process is completed. In a similar way, the states of pins in a product that is reset by an on-chip power-on reset function are not guaranteed from the time when power is supplied until the power reaches the 3. level at which resetting is specified. Input of signal during power-off state Do not input signals or an I/O pull-up power supply while the device is powered off. The current injection that results from input of such a signal or I/O pull-up power supply may cause malfunction and the abnormal current that passes in the device at this time may cause degradation of internal 4. elements. Follow the guideline for input signal during power-off state as described in your product documentation. Handling of unused pins Handle unused pins in accordance with the directions given under handling of unused pins in the manual. The input pins of CMOS products are generally in the high-impedance state. In operation with an unused pin in the open-circuit state, extra electromagnetic noise is induced in the vicinity of the LSI, an associated shoot-through current flows internally, and malfunctions occur due to the false recognition of the pin state as an input signal 5. become possible. Clock signals After applying a reset, only release the reset line after the operating clock signal becomes stable. When switching the clock signal during program execution, wait until the target clock signal is stabilized. When the clock signal is generated with an external resonator or from an external oscillator during a reset, ensure that the reset line is only released after full stabilization of the clock signal. Additionally, when switching to a clock signal 6. produced with an external resonator or by an external oscillator while program execution is in progress, wait until the target clock signal is stable. Voltage application waveform at input pin Waveform distortion due to input noise or a reflected wave may cause malfunction. If the input of the CMOS device stays in the area between VIL (Max.) and VIH (Min.) due to noise, for example, the device may malfunction. Take care to prevent chattering noise from entering the device when the 7. input level is fixed, and also in the transition period when the input level passes through the area between VIL (Max.) and VIH (Min.). Prohibition of access to reserved addresses Access to reserved addresses is prohibited. The reserved addresses are provided for possible future expansion of functions. Do not access these 8. addresses as the correct operation of the LSI is not guaranteed. Differences between products Before changing from one product to another, for example to a product with a different part number, confirm that the change will not lead to problems. The characteristics of a microprocessing unit or microcontroller unit products in the same group but having a different part number might differ in terms of internal memory capacity, layout pattern, and other factors, which can affect the ranges of electrical characteristics, such as characteristic values, operating margins, immunity to noise, and amount of radiated noise. When changing to a product with a different part number, implement a systemevaluation test for the given product. Notice 1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation or any other use of the circuits, software, and information in the design of your product or system. Renesas Electronics disclaims any and all liability for any losses and damages incurred by you or third parties arising from the use of these circuits, software, or information. 2. Renesas Electronics hereby expressly disclaims any warranties against and liability for infringement or any other claims involving patents, copyrights, or other intellectual property rights of third parties, by or arising from the use of Renesas Electronics products or technical information described in this document, including but not limited to, the product data, drawings, charts, programs, algorithms, and application examples. 3. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others. 4. You shall not alter, modify, copy, or reverse engineer any Renesas Electronics product, whether in whole or in part. Renesas Electronics disclaims any and all liability for any losses or damages incurred by 5. Renesas Electronics products are classified according to the following two quality grades: "Standard" and "High Quality". The intended applications for each Renesas Electronics product depends on the you or third parties arising from such alteration, modification, copying or reverse engineering. product's quality grade, as indicated below. "Standard": Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic appliances; machine tools; personal electronic equipment; industrial robots; etc. "High Quality": Transportation equipment (automobiles, trains, ships, etc.); traffic control (traffic lights); large-scale communication equipment; key financial terminal systems; safety control equipment; etc. Unless expressly designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not intended or authorized for use in products or systems that may pose a direct threat to human life or bodily injury (artificial life support devices or systems; surgical implantations; etc.), or may cause serious property damage (space system; undersea repeaters; nuclear power control systems; aircraft control systems; key plant systems; military equipment; etc.). Renesas Electronics disclaims any and all liability for any damages or losses incurred by you or any third parties arising from the use of any Renesas Electronics product that is inconsistent with any Renesas Electronics data sheet, user's manual or other Renesas Electronics document. 6. When using Renesas Electronics products, refer to the latest product information (data sheets, user's manuals, application notes, "General Notes for Handling and Using Semiconductor Devices" in the reliability handbook, etc.), and ensure that usage conditions are within the ranges specified by Renesas Electronics with respect to maximum ratings, operating power supply voltage range, heat dissipation characteristics, installation, etc. Renesas Electronics disclaims any and all liability for any malfunctions, failure or accident arising out of the use of Renesas Electronics products outside of such specified ranges. 7. Although Renesas Electronics endeavors to improve the quality and reliability of Renesas Electronics products, semiconductor products have specific characteristics, such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Unless designated as a high reliability product or a product for harsh environments in a Renesas Electronics data sheet or other Renesas Electronics document, Renesas Electronics products are not subject to radiation resistance design. You are responsible for implementing safety measures to guard against the possibility of bodily injury, injury or damage caused by fire, and/or danger to the public in the event of a failure or malfunction of Renesas Electronics products, such as safety design for hardware and software, including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult and impractical, you are responsible for evaluating the safety of the final products or systems manufactured by you. 8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. You are responsible for carefully and sufficiently investigating applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive, and using Renesas Electronics products in compliance with all these applicable laws and regulations. Renesas Electronics disclaims any and all liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations. 9. Renesas Electronics products and technologies shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. You shall comply with any applicable export control laws and regulations promulgated and administered by the governments of any countries asserting jurisdiction over the parties or transactions. 10. It is the responsibility of the buyer or distributor of Renesas Electronics products, or any other party who distributes, disposes of, or otherwise sells or transfers the product to a third party, to notify such third party in advance of the contents and conditions set forth in this document. 11. This document shall not be reprinted, reproduced or duplicated in any form, in whole or in part, without prior written consent of Renesas Electronics. 12. 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