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Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products, or if you have any other inquiries. (Note 1) "Renesas Electronics" as used in this document means Renesas Electronics Corporation and also includes its majorityowned subsidiaries. (Note 2) "Renesas Electronics product(s)" means any product developed or manufactured by or for Renesas Electronics. DATA SHEET MOS INTEGRATED CIRCUIT PD70F3003A, 70F3025A, 70F3003A(A) V853 32-BIT SINGLE-CHIP MICROCONTROLLERS DESCRIPTION The PD70F3003A, PD70F3025A, and PD70F3003A(A) have a flash memory instead of the internal mask ROM of the PD703003A/703004A, PD703025A, and PD703003A(A), respectively. This model is useful for small-scale production of a variety of application sets or early start of production since the program can be written and erased by the user even with the PD70F3003 mounted on the board. Detailed function descriptions are provided in the following user's manuals. Be sure to read them before designing. V853 Hardware User's Manual: U10913E V850 Series Architecture User's Manual: U10243E FEATURES * Compatible with PD703003A, 703004A, 703025A, and 703003A(A) * Can be replaced with mask ROM model for mass production of application set PD70F3003A PD703003A, 703004A PD70F3025A PD703025A PD70F3003A(A) PD703003A(A) * Internal memory Flash memory: 128KB (PD70F3003A, 70F3003A(A)) 256KB (PD70F3025A) Remark For differences among the products, refer to 1. DIFFERENCES BETWEEN PRODUCT. ORDERING INFORMATION Part Number Package Quality Grade PD70F3003AGC-33-8EU 100-pin plastic LQFP (fine pitch) (14 x 14) Standard PD70F3003AGC-33-8EU-A 100-pin plastic LQFP (fine pitch) (14 x 14) Standard PD70F3025AGC-33-8EU 100-pin plastic LQFP (fine pitch) (14 x 14) Standard PD70F3025AGC-33-8EU-A 100-pin plastic LQFP (fine pitch) (14 x 14) Standard PD70F3003AGC(A)-33-8EU 100-pin plastic LQFP (fine pitch) (14 x 14) Special Remarks 1. The PD70F3003A and PD70F3003A(A) differ in the quality grade only. 2. Products with -A at the end of the part number are lead-free products. Please refer to "Quality Grades on NEC Semiconductor Devices" (Document No. C11531E) published by NEC Electronics Corporation to know the specification of the quality grade on the devices and its recommended applications. The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version. Not all products and/or types are available in every country. Please check with an NEC Electronics sales representative for availability and additional information. Document No. U13189EJ5V1DS00 (5th edition) Date Published August 2005 N CP(K) Printed in Japan The mark shows major revised points. 1998 PD70F3003A, 70F3025A, 70F3003A(A) APPLICATIONS PD70F3003A, 70F3025A: Camcorders, VCRs, PPCs, LBPs, printers, motor controllers, NC machine tools, mobile telephones, etc. PD70F3003A(A): Medical equipment, automotive appliances, etc. PIN CONFIGURATION (Top View) * 100-Pin Plastic LQFP (fine pitch) (14 x 14) PD70F3003AGC-33-8EU PD70F3025AGC-33-8EU PD70F3003AGC-33-8EU-A PD70F3025AGC-33-8EU-A 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 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 P75/ANI5 P74/ANI4 P73/ANI3 P72/ANI2 P71/ANI1 P70/ANI0 ANO0 ANO1 AVREF2 AVREF3 P07/INTP113/ADTRG P06/INTP112 P05/INTP111 P04/INTP110 P03/TI11 P02/TCLR11 P01/TO111 P00/TO110 P117/INTP143 P116/INTP142 P115/INTP141 P114/INTP140 P113/TI14 P112/TCLR14 P111/TO141 P43/AD3 P42/AD2 VSS VDD P41/AD1 P40/AD0 P90/LBEN P91/UBEN P92/R/W P93/DSTB P94/ASTB P95/HLDAK P96/HLDRO WAIT VPP MODE RESET CVDD/CKSEL X2 X1 CVSS CLKOUT VSS VDD P110/TO140 P31/TO131 P32/TCLR13 P33/TI13 P34/INTP130 P35/INTP131/SO3 P36/INTP132/SI3 P37/INTP133/SCK3 P63/A19 P62/A18 P61/A17 P60/A16 VSS VDD P57/AD15 P56/AD14 P55/AD13 P54/AD12 P53/AD11 P52/AD10 P51/AD9 P50/AD8 P47/AD7 P46/AD6 P45/AD5 P44/AD4 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 P30/TO130 P27/SCK1 P26/RXD1/SI1 P25/TXD1/SO1 P24/SCK0 P23/RXD0/SI0 P22/TXD0/SO0 P21/PWM1 P20/PWM0 NMI VDD VSS P17/INTP123/SCK2 P16/INTP122/SI2 P15/INTP121/SO2 P14/INTP120 P13/TI12 P12/TCLR12 P11/TO121 P10/TO120 AVDD AVSS AVREF1 P77/ANI7 P76/ANI6 PD70F3003AGC(A)-33-8EU Caution Connect VPP pin to VSS pin except the case that PD70F3003A, 70F3003A(A) or 70F3025A is used in flash memory programming mode. 2 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) PIN NAMES A16 to A19: Address bus P40 to P47: Port 4 AD0 to AD15: Address/data bus P50 to P57: Port 5 ADTRG: A/D Trigger input P60 to P63: Port 6 ANI0 to ANI7: Analog input P70 to P77: Port 7 ANO0, ANO1: Analog output P90 to P96: Port 9 ASTB: Address strobe P110 to P117: Port 11 AV DD : Analog V DD PWM0, PWM1: Pulse width modulation AV REF1 to AV REF3: Analog reference voltage RESET: Reset AV SS : Analog V SS R/W: Read/write status CV DD : Power supply for clock generator RXD0, PXD1: Receive data CV SS : Ground for clock generator SCK0 to SCK3: Serial clock CKSEL: Clock select SI0 to SI3: Serial input CLKOUT : Clock output SO0 to SO3: Serial output DSTB: Data strobe TO110, TO111, HLDAK: Hold acknowledge TO120, TO121, HLDRQ: Hold request TO130, TO131, INTP110 to INTP113, TO140, TO141: Timer output INTP120 to INTP123, TCLR11 to TCLR14: Timer clear INTP130 to INTP133, TI11 to TI14: Timer input INTP140 to INTP143: Interrupt request from peripherals TXD0, TXD1: Transmit data LBEN: Lower byte enable UBEN: Upper byte enable MODE: Mode WAIT: Wait NMI: Non-maskable interrupt request X1, X2: Crystal P00 to P07: Port 0 V DD : Power supply P10 to P17: Port 1 V PP: Programming power supply P20 to P27: Port 2 V SS: Ground P30 to P37: Port 3 Data Sheet U13189EJ5V1DS 3 PD70F3003A, 70F3025A, 70F3003A(A) INTERNAL BLOCK DIAGRAM Flash memory CPU NMI INTP110 to INTP113 INTP120 to INTP123 INTP130 to INTP133 INTP140 to INTP143 Note 1 TO110, TO111 TO120, TO121 TO130, TO131 TO140, TO141 Instruction queue PC INTC 32-bit barrel shifter Multiplier 16 x 16 32 System register RPU RAM TCLR11 to TCLR14 TI11 to TI14 Note 2 BCU ASTB DSTB R/W UBEN LBEN WAIT A16 to A19 AD0 to AD15 HLDRQ HLDAK Generalpurpose register 32 bits x 32 ALU SIO SO0/TXD0 SI0/RXD0 SCK0 UART0/CSI0 BRG0 CSI2 Ports P110 to P117 P90 to P96 P70 to P77 P60 to P63 P50 to P57 P40 to P47 P30 to P37 P20 to P27 P10 to P17 P00 to P07 SO2 SI2 SCK2 D/A converter AVREF2, AVREF3 BRG1 A/D converter ANO0, ANO1 UART1/CSI1 ANI0 to ANI7 AVREF1 AVSS AVDD ADTRG SO1/TXD1 SI1/RXD1 SCK1 CG CKSEL CLKOUT X1 X2 MODE RESET VDD VSS BRG2 CVDD SO3 SI3 SCK3 CSI3 PWM0, PWM1 PWM CVSS VPP Notes 1. PD70F3003A, 70F3003A(A): 128 KB PD70F3025A: 256 KB 2. PD70F3003A, 70F3003A(A): 4 KB PD70F3025A: 4 8 KB Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) CONTENTS 1. DIFFERENCES BETWEEN PRODUCTS ****************************************************************************************** 6 2. PIN FUNCTIONS ******************************************************************************************************************************** 7 2.1 Port Pins ***************************************************************************************************************************************************** 7 2.2 Non-Port Pins ********************************************************************************************************************************************* 9 2.3 Pin I/O Circuits and Recommended Connection of Unused Pins ********************************************************* 11 3. ELECTRICAL SPECIFICATIONS ******************************************************************************************************* 14 3.1 Normal Operation Mode **************************************************************************************************************************** 14 3.2 Flash Memory Programming Mode ********************************************************************************************************** 37 4. PACKAGE DRAWING *********************************************************************************************************************** 40 5. RECOMMENDED SOLDERING CONDITIONS ********************************************************************************* 41 APPENDIX NOTES ON TARGET SYSTEM DESIGN ***************************************************************************** 43 Data Sheet U13189EJ5V1DS 5 PD70F3003A, 70F3025A, 70F3003A(A) 1. DIFFERENCES BETWEEN PRODUCTS Item Internal ROM PD703003A PD703004A PD703025A PD703003A(A) PD703025A(A) PD70F3003A PD70F3025A PD70F3003A(A) Mask ROM 128 KB Flash memory 96 KB 256 KB 128 KB 256 KB 8 KB 4 KB 8 KB 128 KB Internal RAM 4 KB Flash memory programming mode None Provided V PP pin None Provided Quality grade Standard Special 4 KB 256 KB 128 KB 8 KB Standard 4 KB Special Electrical specifications Current consumption, etc. differs. (Refer to each product data sheets). Others Noise immunity and noise radiation differ because circuit scale and mask layout differ. Caution There are differences in noise immunity and noise radiation between the flash memory version and mask ROM version. When pre-producing an application set with the flash memory version and then mass-producing it with the mask ROM version, be sure to conduct sufficient evaluation for commercial samples (not engineering samples) of the mask ROM version. 6 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) 2. PIN FUNCTIONS 2.1 Port Pins (1/2) Pin Name P00 I/O I/O Function Alternate Function Port 0 TO110 P01 8-bit I/O port. TO111 P02 Input/output can be specified in 1-bit units. TCLR11 P03 TI11 P04 INTP110 P05 INTP111 P06 INTP112 P07 INTP113/ADTRG P10 I/O Port 1 TO120 P11 8-bit I/O port. TO121 P12 Input/output can be specified in 1-bit units. TCLR12 P13 TI12 P14 INTP120 P15 INTP121/SO2 P16 INTP122/SI2 P17 INTP123/SCK2 P20 I/O Port 2 PWM0 P21 8-bit I/O port. PWM1 P22 Input/output can be specified in 1-bit units. TXD0/SO0 P23 RXD0/SI0 P24 SCK0 P25 TXD1/SO1 P26 RXD1/SI1 P27 SCK1 P30 I/O Port 3 TO130 P31 8-bit I/O port. TO131 P32 Input/output can be specified in 1-bit units. TCLR13 P33 TI13 P34 INTP130 P35 INTP131/SO3 P36 INTP132/SI3 P37 INTP133/SCK3 P40 to P47 I/O Port 4 AD0 to AD7 8-bit I/O port. Input/output can be specified in 1-bit units. P50 to P57 I/O Port 5 AD8 to AD15 8-bit I/O port. Input/output can be specified in 1-bit units. Data Sheet U13189EJ5V1DS 7 PD70F3003A, 70F3025A, 70F3003A(A) (2/2) Pin Name P60 to P63 I/O I/O Function Port 6 Alternate Function A16 to A19 4-bit I/O port. Input/output can be specified in 1-bit units. P70 to P77 Input Port 7 ANI0 to ANI7 8-bit input port. P90 Port 9 LBEN P91 7-bit I/O port. UBEN P92 Input/output can be specified in 1-bit units. R/W P93 DSTB P94 ASTB P95 HLDAK P96 HLDRQ P110 8 I/O I/O Port 11 TO140 P111 8-bit I/O port. TO141 P112 Input/output can be specified in 1-bit units. TCLR14 P113 TI14 P114 INTP140 P115 INTP141 P116 INTP142 P117 INTP143 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) 2.2 Non-Port Pins (1/2) Pin Name TO110 I/O Output Function Pulse signal output from timers 11 to 14 Alternate Function P00 TO111 P01 TO120 P10 TO121 P11 TO130 P30 TO131 P31 TO140 P110 TO141 P111 TCLR11 Input External clear signal input for timers 11 to 14 P02 TCLR12 P12 TCLR13 P32 TCLR14 P112 TI11 Input External count clock input for timers 11 to 14 P03 TI12 P13 TI13 P33 TI14 P113 INTP110 Input INTP111 External maskable interrupt request input and external capture P04 trigger input for timer 11 P05 INTP112 P06 INTP113 P07/ADTRG INTP120 Input INTP121 External maskable interrupt request input and external capture P14 trigger input for timer 12 P15/SO2 INTP122 P16/S12 INTP123 P17/SCK2 INTP130 Input INTP131 External maskable interrupt request input and external capture P34 trigger input for timer 13 P35/SO3 INTP132 P36/SI3 INTP133 P37/SCK3 INTP140 Input INTP141 External maskable interrupt request input and external capture P114 trigger input for timer 14 P115 INTP142 P116 INTP143 P117 SO0 Output Serial transmit data output for CSI0 to CSI3 (3-wire) P22/TXD0 SO1 P25/TXD1 SO2 P15/INTP121 SO3 P35/INTP131 SI0 Input Serial receive data output for CSI0 to CSI3 (3-wire) P23/RXD0 SI1 P26/RXD1 SI2 P16/INTP122 SI3 P36/INTP132 Data Sheet U13189EJ5V1DS 9 PD70F3003A, 70F3025A, 70F3003A(A) (2/2) Pin Name SCK0 I/O I/O Function Serial clock I/O for CSI0 to CSI3 (3-wire) Alternate Function P24 SCK1 P27 SCK2 P17/INTP123 SCK3 P37/INTP133 TXD0 Output Serial transmit data output of UART0 to UART1 TXD1 RXD0 P25/SO1 Input Serial receive data input of UART0 to UART1 RXD1 PWM0 P23/SI0 P26/SI1 Output Pulse signal output of PWM PWM1 AD0 to AD7 P22/SO0 P20 P21 I/O 16-bit multiplexed address/data bus when external memory is connected AD8 to AD15 P40 to P47 P50 to P57 A16 to A19 Output Higher address bus when external memory is connected P60 to P63 LBEN Output Lower byte enable signal output of external data bus P90 Higher byte enable signal output of external data bus P91 External read/write status output P92 DSTB External data strobe signal output P93 ASTB External address strobe signal output P94 Bus hold acknowledge output P95 UBEN R/W Output HLDAK Output HLDRQ Input Bus hold request input P96 ANI0 to ANI7 Input Analog input to A/D converter P70 to P77 ANO0, ANO1 Output NMI CLKOUT Input Output Analog output of D/A converter -- Non-maskable interrupt request input -- System clock output -- CKSEL Input Input specifying operation mode of clock generator CVDD WAIT Input Control signal input inserting wait state in bus cycle -- MODE Input Operation mode specification -- RESET Input System reset input -- X1 Input System clock resonator connection. Input external clock to X1 to -- X2 -- supply external clock. -- ADTRG Input A/D converter external trigger input P07/INTP113 AVREF1 Input Reference voltage input for A/D converter -- AVREF2 Input Reference voltage input for D/A converter -- -- AVREF3 AVDD -- Positive power supply for A/D converter -- AVSS -- Ground potential for A/D converter -- CVDD -- Positive power supply for internal clock generator CVSS -- Ground potential for internal clock generator -- VDD -- Positive power supply -- VSS -- Ground potential -- VPP -- High voltage application pin when program is written/verified -- 10 Data Sheet U13189EJ5V1DS CKSEL PD70F3003A, 70F3025A, 70F3003A(A) 2.3 Pin I/O Circuits and Recommended Connection of Unused Pins Table 2-1 shows the I/O circuit type of each pin, and the recommended connections of the unused pins. Figure 2-1 shows a partially simplified diagram of each circuit. It is recommended that 1 to 10 k resistors be used when connecting to V DD or V SS via a resistor. Table 2-1. Types of Pin I/O Circuits and Recommended Connections of Unused Pins (1/2) Pin Name I/O Circuit Type Recommended Connection of Unused Pins P00/TO110, P01/TO111 5 Input: Independently connect to VDD or VSS via a resistor. P02/TCLR11, P03/TI11, 8 Output: Leave open. P04/INTP110 to P07/INTP113/ADTRG P10 to TO120, P11/TO121 5 P12/TCLR12, P13/TI12 8 P14/INTP120 P15/INTP121/SO2 P16/INTP122/SI2 P17/INTP123/SCK2 P20/PWM0, P21/PWM1 5 P22/TXD0/SO0 P23/RXD0/SI0, P24/SCK0 8 P25/TXD1/SO1 5 P26/RXD1/SI1, P27/SCK1 8 P30/TO130, P31/TO131 5 P32/TCLR13, P33/TI13 8 P34/INTP130 P35/INTP131/SO3 10-A P36/INTP132/SI3 P37/INTP133/SCK3 P40/AD0 to P47/AD7 5 P50/AD8 to P57/AD15 P60/A16 to P63/A19 P70/ANI0 to P77/ANI7 9 Directly connect to VSS. P90/LBEN 5 Input: Independently connect to VDD or VSS via a resistor. Output: Leave open. P91/UBEN P92/R/W P93/DSTB P94/ASTB P95/HLDAK P96/HLDRQ P110/TO140, P111/TO141 P112/TCLR14, P113/TI14 8 P114/INTP140 to P117/INTP143 Data Sheet U13189EJ5V1DS 11 PD70F3003A, 70F3025A, 70F3003A(A) Table 2-1. Types of Pin I/O Circuits and Recommended Connection of Unused Pins (2/2) Pin Name I/O Circuit Type Recommended Connection of Unused Pins ANO0, ANO1 12 Leave open. NMI 2 Directly connect to VSS. CLKOUT 3 Leave open. WAIT 1 Directly connect to VDD. MODE 2 -- RESET CVDD/CKSEL -- AVREF1 to AVREF3, AVSS -- Directly connect to VSS. AVDD -- Directly connect to VDD. VPP -- Connect to VSS. 12 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) Figure 2-1. Pins I/O Circuits Type 1 Type 8 VDD Data VDD P-ch IN/OUT P-ch Output disable IN N-ch N-ch Type 2 Type 9 P-ch N-ch IN Comparator + - IN VREF (Threshold voltage) Input enable Schmitt trigger input with hysteresis characteristics Type 3 Type 10-A VDD Pull-up enable VDD P-ch VDD Data P-ch P-ch OUT IN/OUT Open drain Output disable N-ch N-ch Type 12 Type 5 VDD Data P-ch P-ch IN/OUT Analog output voltage Output disable OUT N-ch N-ch Input enable Data Sheet U13189EJ5V1DS 13 PD70F3003A, 70F3025A, 70F3003A(A) 3. ELECTRICAL SPECIFICATIONS 3.1 Normal Operation Mode Absolute Maximum Ratings (TA = 25C) Parameter Supply voltage Symbol VDD Input voltage Conditions VDD pin Ratings Unit -0.5 to +7.0 CVDD CVDD pin -0.5 to VDD + 0.3 CVSS CVSS pin -0.5 to +0.5 V Note 1 V AVDD AVDD pin -0.5 to VDD + 0.3 AVSS AVSS pin -0.5 to +0.5 VI1 Note 2, VDD = 5.0 V 10% VI2 VPP pin in flash memory programming mode, -0.5 to VDD + 0.3 V Note 1 V V Note 1 V -0.5 to +11.0 V -0.5 to VDD + 1.0Note 1 V VDD = 5.0 V 10% Clock input voltage VK X1 pin, VDD = 5.0 V 10% Output current, low ICL 1 pin 4.0 mA Total of all pins 100 mA 1 pin -4.0 mA Total of all pins -100 Output current, high Output voltage ICH VO Analog input voltage VIAN VDD = 5.0 V 10% P70/ANI0 to P77/ANI7 -0.5 to VDD + 0.3 AVDD > VDD VDD AVDD Analog reference input voltage AVREF AVREF1 to AVREF3 AVDD > VDD VDD AVDD mA Note 1 V Note 1 V -0.5 to VDD + 0.3 -0.5 to AVDD + 0.3 -0.5 to VDD + 0.3 Note 1 Note 1 -0.5 to AVDD + 0.3 Note 1 V V V Operating ambient temperature TA -40 to +85 C Storage temperature Tstg -65 to +125 C Notes 1. Be sure not to exceed the absolute maximum ratings (MAX. value) of each supply voltage. 2. X1, P70 to P77, AVREF1 to AVREF3, and their alternate-function pins are excluded. Cautions 1. Avoid direct connections among the IC device output (or I/O) pins and between VDD or VCC and GND. However, direct connections among open-drain and open-collector pins are possible, as are direct connections to external circuits that have timing designed to prevent output conflict with pins that become high-impedance. 2. 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. The normal operating ranges of ratings and conditions in which the quality of the product is guaranteed are specified in the following DC Characteristics and AC Characteristics. 14 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) Capacitance (TA = 25C, VDD = VSS = 0 V) Parameter Symbol Conditions MIN. TYP. MAX. Unit Input capacitance CI fc = 1 MHz 15 pF I/O capacitance CIO Pins other than tested pin: 0 V 15 pF Output capacitance CO 15 pF Operating Conditions Operation Mode Internal System Clock Frequency () Direct mode, PLL mode Operating Temperature (TA) Supply Voltage (VDD) 2 to 33 MHz Note 1 -40 to +85C 5.0 V 10% 5 to 33 MHz Note 2 -40 to +85C 5.0 V 10% Notes 1. When A/D converter not used. 2. When A/D converter used. Recommended Oscillator Caution For the resonator selection and oscillator constant of the PD70F3003A(A), customers are requested to apply to the resonator manufacturer for evaluation. (1) Ceramic resonator connection (TA = -40 to +85C) (a) PD70F3003A X1 X2 Rd C1 Manufacturer Kyocera Corporation TDK Murata Mfg. Co., Ltd Part Number PBRC4.00HR PBRC5.00HR PBRC6.00HR PBRC6.60HR FCR4.0MC5 FCR5.0MC5 FCR6.0MC5 CSTS0400MG06 CSTCR4M00G05 CSTS0600MG06 CSTCR6M00G55-R0 C2 Oscillation Recommended Frequency fXX (MHz) Circuit Constant C1 (pF) C2 (pF) Rd (W) On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- On-chip On-chip -- 4.0 5.0 6.0 6.6 4.0 5.0 6.0 4.0 4.0 6.0 6.0 Oscillation Oscillation Voltage Range Stabilization Time MIN. (V) MAX. (V) (MAX.) TOST (ms) 4.5 5.5 0.10 4.5 5.5 0.08 4.5 5.5 0.08 4.5 5.5 0.08 4.5 5.5 0.14 4.5 5.5 0.14 4.5 5.5 0.11 4.5 5.5 0.12 4.5 5.5 0.14 4.5 5.5 0.14 4.5 5.5 0.18 Cautions 1. Connect the oscillator as closely to the X1 and X2 pins as possible. 2. Do not wire any other signal lines in the area indicated by the broken lines. 3. Thoroughly evaluate the matching between the PD70F3003A and the resonator. Data Sheet U13189EJ5V1DS 15 PD70F3003A, 70F3025A, 70F3003A(A) (b) PD70F3025A X1 X2 Rd C1 Manufacturer Part Number C2 Oscillation Recommended Frequency fXX (MHz) Circuit Constant Oscillation C1 (pF) C2 (pF) Rd (W) Oscillation Voltage Range Stabilization Time MIN. (V) MAX. (V) (MAX.) TOST (ms) Kyocera PBRC4.00HR 4.0 On-chip On-chip -- 4.5 5.5 0.12 Corporation PBRC5.00HR 5.0 On-chip On-chip -- 4.5 5.5 0.04 PBRC6.00HR 6.0 On-chip On-chip -- 4.5 5.5 0.04 PBRC6.60HR 6.6 On-chip On-chip -- 4.5 5.5 0.04 FCR4.0MC5 4.0 On-chip On-chip -- 4.5 5.5 0.14 FCR5.0MC5 5.0 On-chip On-chip -- 4.5 5.5 0.13 TDK Murata Mfg. Co., Ltd FCR6.0MC5 6.0 On-chip On-chip -- 4.5 5.5 0.13 CSTS0400MG06 4.0 On-chip On-chip -- 4.5 5.5 0.12 CSTCR4M00G55-R0 4.0 On-chip On-chip -- 4.5 5.5 0.14 CSTS0600MG06 6.0 On-chip On-chip -- 4.5 5.5 0.16 CSTCR6M00G55-R0 6.0 On-chip On-chip -- 4.5 5.5 0.19 Cautions 1. Connect the oscillator as closely to the X1 and X2 pins as possible. 2. Do not wire any other signal lines in the area indicated by the broken lines. 3. Thoroughly evaluate the matching between the PD70F3025A and the resonator. (2) External clock input X1 X2 Open High-speed CMOS inverter External clock Cautions 1. Put the high-speed CMOS inverter as close to the X1 pins as possible. 2. Sufficiently evaluate the matching between the PD70F3003A, 70F3025A, or 70F3003A(A), and the high-speed CMOS inverter. 16 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) DC Characteristics (TA = -40 to +85C, VDD = 5.0 V 10%, VSS = 0 V) (1/2) Parameter Input voltage, high Symbol VIH Conditions MIN. Except X1 and Note MAX. Unit 2.2 VDD + 0.3 V 0.8VDD VDD + 0.3 V Except X1 and Note -0.5 +0.8 V Note -0.5 0.2VDD V Note Input voltage, low VIL TYP. Clock input voltage, high VXH X1 0.8VDD VDD + 0.5 V Clock input voltage, low VXL X1 -0.5 0.6 V Schmitt trigger input threshold voltage VT VT + - + Schmitt trigger input hysteresis width VT - VT Output voltage, high VOH - Note, rising 3.0 V Note, falling 2.0 V Note 0.5 V IOH = -2.5 mA 0.7VDD V IOH = -100 A VDD - 0.4 V Output voltage, low VOL IOC = 2.5 mA 0.45 V Input leakage current, high ILIH VI = VDD 10 A Input leakage current, low ILIL VI = 0 V -10 A Output leakage current, high ILOH VO = VDD 10 A Output leakage current, low ILOL VO = 0 V -10 A Software pull-up resistor R P35/INTP131/SO3, P36/INTP132/SI3, P37/INTP133/SCK3 90 k 15 40 Note P02 to P07, P12 to P17, P23, P24, P26, P27, P32 to P37, P112 to P117, RESET, NMI, MODE, and their alternate-function pins. Remark TYP. values are reference values for when TA = 25C and VDD = 5.0 V. Data Sheet U13189EJ5V1DS 17 PD70F3003A, 70F3025A, 70F3003A(A) (2/2) Parameter Symbol Supply PD70F3003A, Operating IDD1 current 70F3003A(A) In HALT mode In IDLE mode IDD2 IDD3 In STOP mode IDD4 Conditions MIN. TYP. MAX. Unit Direct mode 2.2 x + 7.5 2.5 x + 22 mA PLL mode 2.3 x + 9.5 2.6 x + 25 mA Direct mode 1.2 x + 7.5 1.3 x + 15 mA PLL mode 1.3 x + 9.5 1.4 x + 17 mA Direct mode 8 x + 300 10 x + 500 A PLL mode 0.1 x + 2 0.2 x + 3 mA CESEL = 0, Note 1 2 50 A CESEL = 0, Note 2 2 200 A CESEL = 1, Note 1 30 200 A 30 500 A Direct mode 2.5 x + 8 2.8 x + 22.5 mA PLL mode 2.6 x + 10 2.9 x + 25.5 mA Direct mode 1.3 x + 7.5 1.4 x + 15 mA PLL mode 1.3 x + 12.5 1.4 x + 20 mA CESEL = 1, Note 2 PD70F3025A Operating In HALT mode In IDLE mode IDD1 IDD2 IDD3 In STOP mode IDD4 Direct mode 8 x + 300 10 x + 500 A PLL mode 0.1 x + 2 0.2 x + 3 mA CESEL = 0, Note 1 2 50 A CESEL = 0, Note 2 2 200 A CESEL = 1, Note 1 60 300 A CESEL = 1, Note 2 60 500 A Notes 1. -40C TA +50C 2. 50C < TA 85C Remarks 1. TYP. values are reference values for when TA = 25C (except for the conditions in Note 2) and VDD = 5.0 V. The power supply current does not include AVREF1 to AVREF3 or the current that flows through software pull-up resistors. 2. : Internal system clock frequency 18 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) Data Retention Characteristics (TA = -40 to +85C, VDD = VDDDR) Parameter Symbol Conditions MIN. TYP. 1.5 MAX. Unit 5.5 V Data hold voltage VDDDR STOP mode Data hold current IDDDR PD70F3003A, CESEL = 0, Note 1 0.4VDDDR 50 A 70F3003A(A) CESEL = 0, Note 2 0.4VDDDR 200 A CESEL = 1, Note 1 6VDDDR 200 A CESEL = 1, Note 2 6VDDDR 500 A PD70F3025A CESEL = 0, Note 1 0.4VDDDR 50 A CESEL = 0, Note 2 0.4VDDDR 200 A CESEL = 1, Note 1 12VDDDR 300 A CESEL = 1, Note 2 12VDDDR 500 A Supply voltage rise time tRVD 200 s Supply voltage fall time tFVD 200 s Supply voltage hold time (vs. STOP mode setting) tHVD 0 ms STOP mode release signal input time tDREL 0 ns Data hold input voltage, high VIHDR Note 3 0.9VDDDR VDDDR V Data hold input voltage, low VILDR Note 3 0 0.1VDDDR V Notes 1. -40C TA +50C 2. 50C <TA 85C 3. P02 to P07, P12 to P17, P23, P24, P26, P27, P32 to P37, P112 to P117, RESET, NMI, MODE, X1, and their alternate-function pins. Remark TYP. values are reference values for when TA = 25C (except for the conditions in Note 2) and VDD = 5.0 V. Data Sheet U13189EJ5V1DS 19 PD70F3003A, 70F3025A, 70F3003A(A) STOP mode is set (at fifth clock after PSC register has been set). VDD VDD VDD VDDDR tHVD RESET (input) NMI (input) (Release by falling edge) tFVD tRVD VIHDR VIHDR NMI (input) (Release by rising edge) VILDR 20 Data Sheet U13189EJ5V1DS tDREL PD70F3003A, 70F3025A, 70F3003A(A) AC Characteristics (TA = -40 to +85C, VDD = 5.0 V 10%, VSS = 0 V) AC test input test points (a) P02 to P07, P12 to P17, P23, P24, P26, P27, P32 to P37, P112 to P117, RESET, NMI, MODE, X1, and their alternate-function pins VDD 0.8VDD 0.8VDD Test points 0V 0.2VDD 0.2VDD (b) Other than (a) 2.4 V 2.2 V 2.2 V Test points 0.4 V 0.8 V 0.8 V AC test output test points 2.2 V 2.2 V Test points 0.8 V 0.8 V Load condition DUT (tested device) CL = 50 pF Caution If the load capacitance exceeds 50 pF due to the circuit configuration, decrease the load capacitance of this device to less then 50 pF by using a buffer. Data Sheet U13189EJ5V1DS 21 PD70F3003A, 70F3025A, 70F3003A(A) (1) Clock timing Parameter X1 input cycle Symbol <1> Conditions tCYX Direct mode PLL mode (PLL lock status) X1 input width, high X1 input width, low X1 input rise time <2> <3> <4> tWXH tWXL tXR MIN. MAX. Unit 15 Note 1 ns Note 3 ns 151 Note 2 Direct mode 6 ns PLL mode 60 ns Direct mode 6 ns PLL mode 60 ns Direct mode PLL mode X1 input fall time <5> tXF Direct mode -- ns 10 ns 7 ns 10 ns Note 4 33 MHz 30 Note 5 ns PLL mode CPU operating frequency 7 CLKOUT output cycle <6> tCYK CLKOUT width, high <7> tWKH 0.5 T - 5 ns CLKOUT width, low <8> tWKL 0.5 T - 5 ns CLKOUT rise time <9> tXR 5 ns CLKOUT fall time <10> tXF 5 ns X1 CLKOUT delay time <11> tDXK 17 ns Direct mode 3 Notes 1. When A/D converter used: 100 ns When A/D converter not used: 250 ns 2. When using A/D converter: The value when = 5 x fXX and = fXX are set. Setting = 1/2 x fXX is prohibited. When not using A/D converter: The value when = 5 x fXX, = fXX, and = 1/2 x fXX are set. 3. When using A/D converter: 250 ns (when = 5 x fXX is set) and 200 ns (when = fXX is set). Setting = 1/2 x fXX is prohibited. When not using A/D converter: 250 ns (when = 5 x fXX, = fXX, and = 1/2 x fXX are set). 4. When A/D converter used: 5 MHz When A/D converter not used: 2 MHz 5. When A/D converter used: 200 ns When A/D converter not used: 500 ns Remark T = tCYK <1> <2> <3> X1 (input) <4> <11> <5> <6> <11> <7> <8> CLKOUT (output) <9> 22 Data Sheet U13189EJ5V1DS <10> PD70F3003A, 70F3025A, 70F3003A(A) (2) Input wave (a) P02 to P07, P12 to P17, P23, P24, P26, P27, P32 to P37, P112 to P117, RESET, NMI, MODE, and their alternate-function pins Parameter Symbol Conditions MIN. MAX. Unit Input rise time <12> tIR2 20 ns Input fall time <13> tIF2 20 ns VDD 0.8VDD 0.8VDD Input signal 0.2VDD 0V 0.2VDD < 13 > < 12 > (b) Other than (a) Parameter Symbol Conditions MIN. MAX. Unit Input rise time <14> tIR1 10 ns Input fall time <15> tIF1 10 ns 2.4 V 2.2 V 2.2 V Input signal 0.4 V 0.8 V < 15 > Data Sheet U13189EJ5V1DS 0.8 V < 14 > 23 PD70F3003A, 70F3025A, 70F3003A(A) (3) Output wave (other than CLKOUT) Parameter Symbol Conditions MIN. MAX. Unit Output rise time <16> tOR 10 ns Output fall time <17> tOF 10 ns 2.2 V 2.2 V Output signal 0.8 V 0.8 V < 16 > < 17 > (4) Reset timing Parameter Symbol Conditions RESET width, high <18> tWRSH RESET width, low <19> tWRSL On power application, or on releasing STOP mode Except on power application, or except on releasing STOP mode MIN. RESET (input) 24 Data Sheet U13189EJ5V1DS Unit 500 ns 500 + TOST ns 500 ns Remark TOST: Oscillation stabilization time < 18 > MAX. < 19 > PD70F3003A, 70F3025A, 70F3003A(A) (5) Read timing (1/2) Parameter Symbol Conditions MIN. MAX. Unit Delay time from CLKOUT to address <20> tDKA 3 20 ns Delay time from CLKOUT to R/W, UBEN, LBEN <78> tDKA2 -2 +13 ns Delay time from CLKOUT to address float <21> tFKA 3 15 ns Delay time from CLKOUT to ASTB <22> tDKST 3 15 ns Delay time from CLKOUT to DSTB 15 ns <23> tDKD 3 Data input setup time (to CLKOUT) <24> tSIDK 5 ns Data input hold time (from CLKOUT) <25> tHKID 5 ns WAIT setup time (to CLKOUT) <26> tSWTK 5 ns WAIT hold time (from CLKOUT) <27> tHKWT 5 ns Address hold time (from CLKOUT) <28> tHKA Address setup time (to ASTB) <29> tSAST Address hold time (from ASTB) <30> tHSTA Delay time from DSTB to address float <31> tFDA Data input setup time (to address) <32> tSAID 0 ns -40C TA +70C 0.5 T - 10 ns 70C < TA 85C 0.5 T - 12 ns 0.5 T - 10 Data input setup time (to DSTB) <33> tSDID Delay time from ASTB to DSTB <34> tDSTD Data input hold time (from DSTB) <35> tHDID Delay time from DSTB to address output <36> tDDA Delay time from DSTB to ASTB <37> tDDSTH Delay time from DSTB to ASTB <38> tDDSTL DSTB low-level width <39> tWDL ns -40C TA +70C (2 + n) T - 22 ns 70C < TA 85C (2 + n) T - 25 ns -40C TA +70C (1 + n) T - 20 ns 70C < TA 85C ASTB high-level width <40> tWSTH <41> tSAWT1 WAIT hold time (from address) WAIT setup time (to ASTB) (1 + n) T - 24 0.5 T - 10 WAIT setup time (to address) <42> ns 0 0 ns (1 + i) T ns 0.5 T - 10 ns (1.5 + i) T - 10 ns -40C TA +70C (1 + n) T - 10 ns 70C < TA 85C (1 + n) T - 13 ns T - 10 tSAWT2 ns n 1, -40C TA +70C 1.5 T - 20 ns n 1, 70C < TA 85C 1.5 T - 24 ns n 1, -40C TA +70C (1.5 + n) T - 20 ns n 1, 70C < TA 85C (1.5 + n) T - 24 ns <43> tHAWT1 n1 (0.5 + n) T ns <44> tHAWT2 n1 (1.5 + n) T ns <45> tSSTWT1 n 1, -40C TA +70C <46> tSSTWT2 n1 <47> tHSTWT1 n1 nT ns <48> tHSTWT2 n1 (1 + n) T ns T - 18 ns T - 20 ns (1 + n) T - 15 ns n 1, 70C < TA 85C WAIT hold time (from ASTB) ns ns Remarks 1. T = tCYK 2. n indicates the number of wait clocks inserted in the bus cycle. The sampling timing differs when the programmable wait state is inserted. 3. i indicates the number of idle states (0 or 1) t be inserted in the read cycle. 4. Be sure to observe at least one of data input hold times tHKID (<25>) and tHDID (<35>). Data Sheet U13189EJ5V1DS 25 PD70F3003A, 70F3025A, 70F3003A(A) (5) Read Timing (2/2): 1 wait T1 T2 TW T3 CLKOUT (output) < 20 > < 28 > A16 to A19 (output) < 78 > R/W (output) UBEN (output) LBEN (output) < 32 > < 21 > AD0-AD15 (I/O) < 24 > A0 to A15 (output) D0 to D15 (input) < 22 > < 29 > < 25 > < 35 > < 30 > < 22 > ASTB (output) < 40> < 37 > < 23 >< 31 > < 34 > < 23 > < 33 > < 36 > DSTB (output) < 38 > < 39 > < 45 > < 26 > < 27 > < 26 > < 47 > < 46 > < 48 > WAIT (input) < 41 > < 43 > < 42 > < 44 > Remark Broken line indicates high-impedance. 26 Data Sheet U13189EJ5V1DS < 27 > PD70F3003A, 70F3025A, 70F3003A(A) (6) Write timing (1/2) Parameter Symbol Conditions MIN. MAX. Unit ns Delay time from CLKOUT to address <20> tDKA 3 20 Delay time from CLKOUT to R/W, UBEN, LBEN <78> tDKA2 -2 +13 ns Delay time from CLKOUT to ASTB <22> tDKST 3 15 ns Delay time from CLKOUT to DSTB <23> tDKD 3 15 ns WAIT setup time (to CLKOUT) <26> tSWTK 5 ns WAIT hold time (from CLKOUT) <27> tHKWT 5 ns Address hold time (from CLKOUT) <28> tHKA Address setup time (to ASTB) <29> tSAST 0 ns -40C TA +70C 0.5 T - 10 ns 70C < TA 85C 0.5 T - 12 ns Address hold time (from ASTB) <30> tHSTA 0.5 T - 10 ns Delay time from ASTB to DSTB <34> tDSTD 0.5 T - 10 ns Delay time from DSTB to ASTB <37> tDDSTH 0.5 T - 10 ns DSTB low-level width <39> tWDL ASTB high-level width <40> tWSTH WAIT setup time (to address) <41> tSAWT1 <42> WAIT hold time (from address) WAIT setup time (to ASTB) -40C TA +70C (1 + n) T - 10 ns 70C < TA 85C (1 + n) T - 13 ns T - 10 tSAWT2 1.5 T - 20 ns n 1, 70C < TA 85C 1.5 T - 24 ns n 1, -40C TA +70C (1.5 + n) T - 20 ns n 1, 70C < TA 85C (1.5 + n) T - 24 ns <43> tHAWT1 n1 (0.5 + n) T <44> tHAWT2 n1 (1.5 + n) T <45> tSSTWT1 n 1, -40C TA +70C <46> tSSTWT2 n1 <47> tHSTWT1 n1 nT <48> tHSTWT2 n1 (1 + n) T <49> tDKOD -40C TA +70C 20 ns 70C < TA 85C 23 ns 10 ns n 1, 70C < TA 85C WAIT hold time (from ASTB) Address hold time (from CLKOUT) ns n 1, -40C TA +70C ns ns T - 18 ns T - 20 ns (1 + n) T - 15 ns ns ns Delay time from DSTB to data output <50> tDDOD Data output hold time (from CLKOUT) <51> tHKOD 0 Data output setup time (to DSTB) <52> tSODD (1 + n) T - 15 ns Data output hold time (from DSTB) tHDOD T - 10 ns <53> ns Remarks 1. T = tCYK 2. n indicates the number of wait clocks inserted in the bus cycle. The sampling timing differs when the programmable wait state is inserted. Data Sheet U13189EJ5V1DS 27 PD70F3003A, 70F3025A, 70F3003A(A) (6) Write timing (2/2): 1 wait T1 T2 TW T3 CLKOUT (output) < 20 > < 28 > A16 to A19 (output) < 78 > R/W (output) UBEN (output) LBEN (output) < 49 > AD0-AD15 (I/O) < 51 > A0 to A15 (output) D0 to D15 (output) < 22 > < 29 > < 30 > < 22 > ASTB (output) < 23 > < 23 > < 40 > < 34 > < 53 > < 52 > < 50 > DSTB (output) < 39 > < 45 > < 26 > < 27 > < 26 > < 47 > < 46 > < 48 > WAIT (input) < 41 > < 43 > < 42 > < 44 > Remark Broken line indicates high-impedance. 28 Data Sheet U13189EJ5V1DS < 37 > < 27 > PD70F3003A, 70F3025A, 70F3003A(A) (7) Bus hold timing (1/2) Parameter HLDRQ setup time (to CLKOUT) Symbol Conditions MIN. MAX. Unit <54> tSHOK 5 ns HLDRQ hold time (from CLKOUT) <55> tHKHQ 5 ns Delay time from HLDAK to CLKOUT <56> tDKHA HLDRQ high-level width <57> tWHQH HLDAK low-level width <58> tWHAL 20 Delay time from CLKOUT to bus float <59> tDKF Delay time from HLDAK to bus output <60> tDHAC Delay time from HLDRQ to HLDAK <61> tDHQHA1 Delay time from HLDRQ to HLDAK <62> tDHQHA2 ns T + 10 ns -40C TA +70C T - 10 ns 70C < TA 85C T - 12 ns 20 -3 0.5 T ns ns (2 n + 7.5) T + 20 ns 1.5 T + 20 ns Remarks 1. T = tCYK 2. n indicates the number of wait clocks inserted in the bus cycle. The sampling timing differs when the programmable wait state is inserted. Data Sheet U13189EJ5V1DS 29 PD70F3003A, 70F3025A, 70F3003A(A) (7) Bus hold timing (2/2) TH TH TH TH TI CLKOUT (output) < 54 > < 54 > < 55 > < 57 > HLDRQ (input) < 56 > < 56 > < 61 > < 62 > HLDAK (output) < 58 > < 60 > < 59 > A16 to A19 (output) Note AD0 to AD15 (I/O) D0 to D15 (input or output) ASTB (output) DSTB (output) R/W (output) Note UBEN (output), LBEN (output) Remark Broken line indicates high-impedance. 30 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) (8) Interrupt timing Parameter Symbol Conditions MIN. MAX. Unit NMI width, high <63> tWNIH 500 ns NMI width, low <64> tWNIL 500 ns INTPn width, high <65> tWITH n = 110 to 113, 120 to 123, 130 to 133, 140 to 143 3 T + 10 ns INTPn width, low <66> tWITL n = 110 to 113, 120 to 123, 130 to 133, 140 to 143 3 T + 10 ns Remark T = tCYK < 63 > < 64 > < 65 > < 66> NMI (input) INTPn (input) Remark n = 110 to 113, 120 to 123, 130 to 133, 140 to 143 Data Sheet U13189EJ5V1DS 31 PD70F3003A, 70F3025A, 70F3003A(A) (9) CSI timing (1/2) (a) Master mode (i) CSI0 to CSI2 timing Parameter Symbol Conditions MIN. MAX. Unit SCKn cycle <67> tCYSK1 Output 120 ns SCKn high-level width <68> tWSKH1 Output 0.5 tCYSK1 - 20 ns SCKn low-level width <69> tWSKL1 Output 0.5 tCYSK1 - 20 ns SIn setup time (to SCKn) <70> tSSISK1 30 ns SIn hold time (from SCKn) <71> tHSKSI1 0 ns SOn output delay time (from SCKn) <72> tDSKSO1 SOn output hold time (from SCKn) <73> tHSKSO1 18 0.5 tCYSK1 - 5 ns ns Remark n = 0 to 2 (ii) CSI3 timing Parameter SCK3 cycle Symbol <67> SCK3 high-level width <68> SCK3 low-level width SI3 setup time (to SCK3) Conditions tCYSK3 Output RL = 1.5 k CL = 50 pF MIN. MAX. Unit 500 ns 0.5 tCYSK3 - 70 ns tWSKH3 Output <69> tWSKL3 Output 0.5 tCYSK3 - 70 ns <70> tSSISK3 100 ns SI3 hold time (from SCK3) <71> tHSKSI3 50 ns SO3 output delay time (from SCK3) <72> tDSKSO3 SO3 output hold time (from SCK3) <73> tHSKSO3 RL = 1.5 K CL = 50 pF 150 0.5 tCYSK3 - 5 ns ns Remark R L and C L are the load resistance and load capacitance respectively of the SCK3 and SO3 output lines. (b) Slave mode (i) CSI0 to CSI2 timing Parameter Symbol Conditions MIN. MAX. Unit SCKn cycle <67> tCYSK2 Input 120 ns SCKn high-level width <68> tWSKH2 Input 30 ns SCKn low-level width <69> tWSKL2 Input 30 ns SIn setup time (to SCKn) <70> tSSISK2 10 ns SIn hold time (from SCKn) <71> tHSKSI2 10 ns SOn output delay time (from SCKn) <72> tDSKSO2 SOn output hold time (from SCKn) <73> tHSKSO2 Remark n = 0 to 2 32 Data Sheet U13189EJ5V1DS 30 tWSKH2 ns ns PD70F3003A, 70F3025A, 70F3003A(A) (9) CSI timing (2/2) (ii) CSI3 timing Parameter Symbol Conditions MIN. MAX. Unit SCK3 cycle <67> tCYSK4 Input 500 ns SCK3 high-level width <68> tWSKH4 Input 180 ns SCK3 low-level width <69> tWSKL4 Input 180 ns SI3 setup time (to SCK3) <70> tSSISK4 100 ns SI3 hold time (from SCK3) <71> tHSKSI4 50 ns SO3 output delay time (from SCK3) <72> tDSKSO4 RL = 1.5 k <73> tHSKSO4 CL = 50 pF SO3 output hold time (from SCK3) 150 tWSKH4 ns ns Remark R L and C L are the load resistance and load capacitance respectively of the SCK3 and SO3 output lines. < 67 > < 69 > < 68 > SCKn (I/O) < 70 > SIn (input) < 71 > Input data < 72 > < 73 > SOn (output) Output data Remark 1. The broken line indicates the high-impedance state. 2. n = 0 to 3 Data Sheet U13189EJ5V1DS 33 PD70F3003A, 70F3025A, 70F3003A(A) (10) RPU timing Parameter Symbol Conditions MIN. MAX. Unit TI1n high-level width <74> tWTIH 3 T + 10 ns TI1n low-level width <75> tWTIL 3 T + 10 ns TCLR1n high-level width <76> tWTCH 3 T + 10 ns TCLR1n low-level width <77> tWTCL 3 T + 10 ns Remark T = tCYK <74> <75> <76> <77> TI1n (input) TCLR1n (input) Remark n = 1 to 4 34 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) A/D Converter Characteristics (TA = -40 to +85C, VDD = AVDD = 5 V 10%, VSS = AVSS = 0 V) Parameter Symbol Resolution Overall error Conditions MIN. TYP. MAX. Unit 10 10 10 bit -- Note 1 Quantization error 4.5 V AVREF1 AVDD 0.4 %FSR -- 3.5 V AVREF1 AVDD 0.7 %FSR 1/2 LSB -- Conversion time tCONV Sampling time tSAMP Zero-scale error Full-scale error -- Note 1 Note 1 Non-linearity error Note 1 4.5 V AVREF1 AVDD 60 tCYK 3.5 V AVREF1 AVDD 60 tCYK 4.5 V AVREF1 AVDD 10 tCYK 3.5 V AVREF1 AVDD 10 tCYK -- 4.5 V AVREF1 AVDD 1.5 3.5 LSB -- 3.5 V AVREF1 AVDD 1.5 4.5 LSB -- 4.5 V AVREF1 AVDD 1.5 2.5 LSB -- 3.5 V AVREF1 AVDD 1.5 4.5 LSB -- 4.5 V AVREF1 AVDD 1.5 2.5 LSB -- 3.5 V AVREF1 AVDD 1.5 4.5 LSB Analog input voltageNote 2 VIAN -0.3 AVDD + 0.3 V Reference voltage AVREF1 3.5 AVDD V AVREF1 current AIREF1 1.2 3.0 mA AVDD supply current AIDD 2.3 6.0 mA Notes 1. Except quantization error. 2. The conversion result is 000H when VIAN = 0. Converted with 10-bit resolution when 0 < VIAN < AVREF1. The conversion result is 3FFH when AVREF1 VIAN AVDD. Data Sheet U13189EJ5V1DS 35 PD70F3003A, 70F3025A, 70F3003A(A) D/A Converter Characteristics (TA = -40 to +85C, VDD = AVDD = 5 V 10%, VSS = AVSS = 0 V) Parameter Symbol Conditions MIN. TYP. MAX. Unit 8 8 8 bit Resolution -- Overall error -- Load conditions: 2 M, 30 pF AVREF2 = VDD AVREF3 = 0 0.8 % -- Load conditions: 2 M, 30 pF AVREF2 = 0.75 VDD AVREF3 = 0.25 VDD 1.0 % -- Load conditions: 4 M, 30 pF AVREF2 = VDD AVREF3 = 0 0.6 % -- Load conditions: 4 M, 30 pF AVREF2 = 0.75 VDD AVREF3 = 0.25 VDD 0.8 % -- Load conditions: 2 M, 30 pF 10 s Settling time Output resistance RO AVREF2 input voltage AVREF2 0.75VDD VDD V AVREF3 input voltage AVREF3 0 0.25VDD V Resistance between AVREF2 and AVREF3 RAIREF 36 8 DACS0, DACS1 = 55H Data Sheet U13189EJ5V1DS 2 4 k k PD70F3003A, 70F3025A, 70F3003A(A) 3.2 Flash Memory Programming Mode Basic Characteristics (TA = 10 to 40C (when rewriting), TA = -40 to +85C (when not rewriting), VDD = AVDD = 5 V 10%, VSS = AVSS = 0 V)) (1) PD70F3003A (all ranks), 70F3025A (except K, E, P, X rank) Parameter Symbol Conditions MIN. TYP. MAX. Unit 33 MHz 10.6 V Operating frequency VPP supply voltage VPP1 During flash memory programming 9.7 VPPL VPP low-level detection -0.5 0.2VDD V VPPM VPP, VDD level detection 0.8VDD 1.2VDD V VPPH VPP high-voltage level detection 10.6 V VDD supply current IDO VPP = VPP1 3.0 x + 25 mA VPP supply current IPP VPP = 10.3 V 200 mA Step erase time tER Note 1 Overall erase time per area tERA When the step erase time = 0.2 s, Note 2 Write-back time tWB Note 3 Number of write-backs per CWB write-back command 10 9.7 10.3 10.3 0.2 s 40 5 When the write-back time ms 50 = 5 ms, Note 4 Number of erase/write-backs CERWB Step writing time tWT Overall writing time per word tWTW When the step writing time = 50 s (1 word = 4 bytes), Note 6 Number of rewrites per area CERWR 1 erase + 1 write after erase = 1 rewrite, Note 7 s/area Count/writeback command 16 Note 5 Count s 50 50 500 20 s/word Count/area Notes 1. The recommended setting value of the step erase time is 0.2 s. 2. The prewrite time prior to erasure and the erase verify time (write-back time) are not included. 3. The recommended setting value of the step erase time is 5 ms. 4. Write-back is executed once by the issuance of the write-back command. Therefore, the retry count must be the maximum value minus the number of commands issued. 5. The recommended setting value of the step writing time is 50 s. 6. 100 s is added to the actual writing time per word. The internal verify time during and after the writing is not included. 7. When writing initially to shipped products, it is counted as one rewrite for both "erase to write" and "write only". Example (P: Write, E: Erase) Shipped product P E P E P: 3 rewrites Shipped product E P E P E P: 3 rewrites Data Sheet U13189EJ5V1DS 37 PD70F3003A, 70F3025A, 70F3003A(A) Cautions 1. V PP pull-down resistance value (RV PP ) is recommended to be in the range 5 k to 15 k. 2. Set the transfer rate between programmer and device as follows. CSI0: 0.2 to 1 MHz UART0: 4,800 to 76,800 bps Remarks 1. When the PG-FP3 is used, a time parameter required for writing/erasing by downloading parameter files is automatically set. Do not change the settings unless otherwise specified. 2. Area 0 = 00000H to 1FFFFH, area 1 = 20000H to 3FFFFH (area 1 is provided in the PD70F3025A only) 3. The rank is indicated by the 5th character from the left in the lot number. 4. The I rank applies to engineering samples (ES) only. The operation of an ES is not guaranteed. 5. : Internal system clock frequency 38 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) (2) PD70F3025A (X rank) Parameter Symbol Conditions MIN. TYP. MAX. Unit 33 MHz 10.6 V Operating frequency Note 1 10 VPP supply voltage VPP1 During flash memory programming 9.7 VPPL VPP low-level detection -0.5 0.2VDD V VPPM VPP, VDD level detection 0.8VDD 1.2VDD V VPPH VPP high-voltage level detection 10.6 V VDD supply current IDD VPP= VPP1 3.0 x + 25 mA VPP supply current IPP 200 mA Step erase time tER Note 1 Overall erase time per area tERA When the step erase time = 2 s, Note 2 Step writing time tWT Note 3 Overall writing time per word tWTW When the step writing time = 200 s (1 word = 4 bytes), Note 4 Number of rewrites per area CERWR 1 erase + 1 write after erase 9.7 10.3 10.3 VPP= 10.3 V 2 s 40 s 200 200 s/area 2000 20 s/word Count/area = 1 rewrite, Note 5 Notes 1. The recommended setting value of the step erase time is 2 s. 2. The prewrite time prior to erasure and the erase verify time (write-back time) are not included. 3. The recommended setting value of the step writing time is 200 s. 4. 100 s is added to the actual writing time per word. The internal verify time during and after the writing is not included. 5. When writing initially to shipped products, it is counted as one rewrite for both "erase to write" and "write only". Example (P: Write, E: Erase) P E P E P: 3 rewrites Shipped product Shipped product E P E P E P: 3 rewrites Cautions 1. V PP pull-down resistance value (RV PP) is recommended to be in the range 5 k to 15 k. 2. Set the transfer rate between programmer and device as follows. CSI0: 0.2 to 1 MHz UART0: 4,800 to 76,800 bps Remarks 1. When the PG-FP3 is used, a time parameter required for writing/erasing by downloading parameter files is automatically set. Do not change the settings unless otherwise specified. 2. Area 0 = 00000H to 1FFFFH, area 1 = 20000H to 3FFFFH 3. The rank is indicated by the 5th character from the left in the lot number. 4. The K, E, P, and X rank products do not support handshake mode. The I rank applies to engineering samples (ES) only. The operation of an ES is not guaranteed. 5. : Internal system clock frequency Data Sheet U13189EJ5V1DS 39 PD70F3003A, 70F3025A, 70F3003A(A) 4. PACKAGE DRAWING 100-PIN PLASTIC LQFP (FINE PITCH) (14x14) A B 75 76 51 50 detail of lead end S C D Q R 26 25 100 1 F G H I J M K P S N S L M NOTE Each lead centerline is located within 0.08 mm of its true position (T.P.) at maximum material condition. ITEM MILLIMETERS A 16.000.20 B 14.000.20 C 14.000.20 D 16.000.20 F 1.00 G 1.00 H 0.22 +0.05 -0.04 I J 0.08 0.50 (T.P.) K 1.000.20 L 0.500.20 M 0.17 +0.03 -0.07 N 0.08 P 1.400.05 Q 0.100.05 R +7 3 -3 S 1.60 MAX. S100GC-50-8EU, 8EA-2 40 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) 5. RECOMMENDED SOLDERING CONDITIONS The PD70F3003A, 70F3025A, and 70F3003A(A) should be soldered and mounted under the following recommended conditions. For technical information, see the following website. Semiconductor Device Mount Manual (http://www.necel.com/pkg/en/mount/index.html) Table 5-1. Surface Mounting Type Soldering Conditions (1) PD70F3003AGC-33-8EU: 100-pin plastic LQFP (fine pitch) (14 x 14) PD70F3025AGC-33-8EU: 100-pin plastic LQFP (fine pitch) (14 x 14) Soldering Method Infrared reflow Soldering Conditions Package peak temperature: 235C, Time: 30 seconds max. Recommended Condition Symbol IR35-103-3 (at 210C or higher), Count: Three times or less, Exposure limit: 3 daysNote (after that, prebake at 125C for 10 to 72 hours) VPS Package peak temperature: 215C, Time: 25 to 40 seconds (at 200C or higher), Count: Three times or less, Exposure limit: 3 daysNote (after that, prebake at 125C for 10 to 72 hours) Partial heating Pin temperature: 300C max., Time 3 seconds max. (per pin row) Note VP15-103-3 -- After opening the dry pack, store it at 25C or less and 65% RH or less for the allowable storage period. Caution Do not use different soldering methods together (except for partial heating). Remark For soldering methods and conditions other than those recommended above, consult an NEC Electronics sales representative. (2) PD70F3003AGC-33-8EU-A: 100-pin plastic LQFP (fine pitch) (14 x 14) PD70F3025AGC-33-8EU-A: 100-pin plastic LQFP (fine pitch) (14 x 14) Soldering Method Soldering Conditions Recommended Condition Symbol Infrared reflow Package peak temperature: 260C, Time: 60 seconds max. (at 220C or higher), Count: Three times or less, Exposure limit: 7 daysNote (after that, prebake at 125C for 20 to 72 hours) Wave soldering For details,consult an NEC Electronics sales representative. -- Partial heating Pin temperature: 350C max., Time: 3 seconds max. (per pin row) -- Note IR60-207-3 After opening the dry pack, store it at 25C or less and 65% RH or less for the allowable storage period. Caution Do not use different soldering methods together (except for partial heating). Remarks 1. Products with -A at the end of the part number are lead-free products. 2. For soldering methods and conditions other than those recommended above, consult an NEC Electronics sales representative. Data Sheet U13189EJ5V1DS 41 PD70F3003A, 70F3025A, 70F3003A(A) (3) PD70F3003AGC(A)-33-8EU: 100-pin plastic LQFP (fine pitch) (14 x 14) Soldering Method Infrared reflow Soldering Conditions Package peak temperature: 235C, Time: 30 seconds max. (at 210C or higher), Count: Two times or less, Exposure limit: 3 daysNote (after that, prebake at 125C for 10 to 72 Recommended Condition Symbol IR35-103-2 hours) VPS Package peak temperature: 215C, Time: 25 to 40 seconds (at 200C or higher), Count: Two times or less, Exposure limit: 3 daysNote (after that, prebake at 125C for 10 to 72 hours) Partial heating Pin temperature: 300C max., Time 3 seconds max. (per pin row) Note VP15-103-2 -- After opening the dry pack, store it at 25C or less and 65% RH or less for the allowable storage period. Caution Do not use different soldering methods together (except for partial heating). Remark For soldering methods and conditions other than those recommended above, consult an NEC Electronics sales representative. 42 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) APPENDIX NOTES ON TARGET SYSTEM DESIGN The following shows a diagram of the connection conditions between the in-circuit emulator option board and conversion connector. Design your system making allowances for conditions such as the form of parts mounted on the target system as shown below. Side view In-circuit emulator IE-703002-MC In-circuit emulator option board IE-703003-MC-EM1 132.24 mm Note Conversion connector YQGUIDE YQPACK100SD NQPACK100SD Target system Note YQSOCKET100SDN (included with IE-703002-MC) can be inserted here to adjust the height (height: 3.2 mm). Top view IE-703002-MC Target system Pin 1 position IE-703003-MC-EM1 YQPACK100SD, NQPACK100SD, YQGUIDE Connection condition diagram IE-703003-MC-EM1 Connect to IE-703002-MC. Pin 1 position 75 mm YQGUIDE YQPACK100SD NQPACK100SD 13.3 mm 31.84 mm 15.24 mm 24 mm 21.58 mm Data Sheet U13189EJ5V1DS Target system 43 PD70F3003A, 70F3025A, 70F3003A(A) NOTES FOR CMOS DEVICES 1 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, etc., the device may malfunction. Take care to prevent chattering noise from entering the device when the input level is fixed, and also in the transition period when the input level passes through the area between VIL (MAX) and VIH (MIN). 2 HANDLING OF UNUSED INPUT PINS Unconnected CMOS device inputs can be cause of malfunction. If an input pin is unconnected, it is possible that an internal input level may be generated due to noise, etc., causing malfunction. CMOS devices behave differently than Bipolar or NMOS devices. Input levels of CMOS devices must be fixed high or low by using pull-up or pull-down circuitry. Each unused pin should be connected to VDD or GND via a resistor if there is a possibility that it will be an output pin. All handling related to unused pins must be judged separately for each device and according to related specifications governing the device. 3 PRECAUTION AGAINST ESD A strong electric field, when exposed to a MOS device, can cause destruction of the gate oxide and ultimately degrade the device operation. Steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it when it has occurred. Environmental control must be adequate. When it is dry, a humidifier should be used. It is recommended to avoid using insulators that 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 should be grounded. The operator should be grounded using a wrist strap. Semiconductor devices must not be touched with bare hands. Similar precautions need to be taken for PW boards with mounted semiconductor devices. 4 STATUS BEFORE INITIALIZATION Power-on does not necessarily define the initial status of a MOS device. Immediately after the power source is turned ON, devices with reset functions have not yet been initialized. Hence, power-on does not guarantee output pin levels, I/O settings or contents of registers. A device is not initialized until the reset signal is received. A reset operation must be executed immediately after power-on for devices with reset functions. 5 POWER ON/OFF SEQUENCE In the case of a device that uses different power supplies for the internal operation and external interface, as a rule, switch on the external power supply after switching on the internal power supply. When switching the power supply off, as a rule, switch off the external power supply and then the internal power supply. Use of the reverse power on/off sequences may result in the application of an overvoltage to the internal elements of the device, causing malfunction and degradation of internal elements due to the passage of an abnormal current. The correct power on/off sequence must be judged separately for each device and according to related specifications governing the device. 6 INPUT OF SIGNAL DURING POWER OFF STATE Do not input signals or an I/O pull-up power supply while the device is not powered. 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 elements. Input of signals during the power off state must be judged separately for each device and according to related specifications governing the device. 44 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) Related document: PD703003A, 703004A, 703025A, 703003A(A), 703025A(A) Data Sheet (U13188E) Reference Materials Electrical Characteristics for Microcomputer (U15170JNote) Note This document number is that of Japanese version. The related documents indicated in this publication may include preliminary versions. However, preliminary versions are not marked as such. Data Sheet U13189EJ5V1DS 45 PD70F3003A, 70F3025A, 70F3003A(A) Regional Information Some information contained in this document may vary from country to country. Before using any NEC Electronics product in your application, pIease contact the NEC Electronics office in your country to obtain a list of authorized representatives and distributors. They will verify: * Device availability * Ordering information * Product release schedule * Availability of related technical literature * Development environment specifications (for example, specifications for third-party tools and components, host computers, power plugs, AC supply voltages, and so forth) * Network requirements In addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary from country to country. [GLOBAL SUPPORT] http://www.necel.com/en/support/support.html NEC Electronics America, Inc. (U.S.) NEC Electronics (Europe) GmbH NEC Electronics Hong Kong Ltd. Santa Clara, California Tel: 408-588-6000 800-366-9782 Duesseldorf, Germany Tel: 0211-65030 Hong Kong Tel: 2886-9318 * Sucursal en Espana Madrid, Spain Tel: 091-504 27 87 * Succursale Francaise Velizy-Villacoublay, France Tel: 01-30-67 58 00 * Filiale Italiana Milano, Italy Tel: 02-66 75 41 * Branch The Netherlands Eindhoven, The Netherlands Tel: 040-265 40 10 * Tyskland Filial NEC Electronics Hong Kong Ltd. Seoul Branch Seoul, Korea Tel: 02-558-3737 NEC Electronics Shanghai Ltd. Shanghai, P.R. China Tel: 021-5888-5400 NEC Electronics Taiwan Ltd. Taipei, Taiwan Tel: 02-2719-2377 NEC Electronics Singapore Pte. Ltd. Novena Square, Singapore Tel: 6253-8311 Taeby, Sweden Tel: 08-63 87 200 * United Kingdom Branch Milton Keynes, UK Tel: 01908-691-133 J05.6 46 Data Sheet U13189EJ5V1DS PD70F3003A, 70F3025A, 70F3003A(A) * The information in this document is current as of July, 2005. The information is subject to change without notice. For actual design-in, refer to the latest publications of NEC Electronics data sheets or data books, etc., for the most up-to-date specifications of NEC Electronics products. Not all products and/or types are available in every country. Please check with an NEC Electronics sales representative for availability and additional information. * No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Electronics. NEC Electronics assumes no responsibility for any errors that may appear in this document. * NEC Electronics does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of NEC Electronics products listed in this document or any other liability arising from the use of such products. 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(2) "NEC Electronics products" means any product developed or manufactured by or for NEC Electronics (as defined above). M8E 02. 11-1