NJU3610 1bit Delta-Sigma Stereo ADC General Description Package The NJU3610 is the stereo Analog to Digital Convector (ADC) that covers from 8 to 192 kHz sampling frequency. The NJU3610 provides 1bit Delta-Sigma technology with high accuracy and low power consumption. The analog inputs are differential signal and stereo 4-1 selectors are provided. The NJU3610 provides two power-supply 1.8V / 3.3V(typical) or single power-supply 3.3V(typical) application. Features NJU3610FR3 1bit Delta-Sigma stereo ADC 64fs over sampling (MCK=256fs, 384fs) 32fs over sampling (MCK=128fs) Digital Filter High-pass filter Stereo 4-1 selectors Sampling Rate : 8 to 192kHz Dynamic Range : 100dB(typ@3.3V, 96kHz) S/N : 100dB(typ@3.3V, 96kHz) S/(N+D) : 90dB(typ@3.3V, 48kHz, -1.0dBFS) Master Clock : 128fs(8 to 192kHz), 256fs / 384fs(8 to 96kHz) Power Supply : Single power supply 3.0 to 3.6V(3.3Vtyp) Built-in regulator using together : Two power supply 3.0 to 3.6V(Analog, I/O:3.3Vtyp) 1.65 to 2.0V(Digital:1.8Vtyp) Digital Audio Format : 24/16bit Left-justified, I2S Master/Slave Operating Temperature : -40 to +85C Package : LQFP48-R3 (Pb-Free) Ver.2009.12.4 -1- NJU3610 Function Block Diagram AINLP1 AINLN1 AINLP2 AINLN2 AINLP3 AINLN3 AINLP4 AINLN4 5th Order Delta-Sigma Modulator Lch 4-1 Selector 1bit PDM Feedback 1bit DAC Lch Serial Audio Interface with Feedback 1bit DAC Rch High-Pass Filter 4-1 Selector 5th Order Delta-Sigma Modulator Rch Rch Reference Reference each Analog Blocks SDO FMT0 FMT1 24bit PCM 1bit PDM Clock(64 or 32Fs) / Control Signal Clock and Timing Control Power Power Control Power Voltage Regulator MCK MODE0 MODE1 HPF RESETb PDNb AVDD AVSS VDD18 VDD33 VSS VCOM REFLP REFLN REFRP REFRN VREGI VREGO BCK LRCK Decimation Digital Filter Lch SEL0 SEL1 AINRP1 AINRN1 AINRP2 AINRN2 AINRP3 AINRN3 AINRP4 AINRN4 24bit PCM AVDD/AVSS : Analog Power Supply (typ:3.3V) VDD18 : Digital Logic (typ:1.8V) VDD33 : Digital I/O (typ:3.3V) VSS : Digital GND and Regulator GND Fig. 1 NJU3610 Block Diagram -2- Ver. 2009.12.4 NJU3610 AINRP3 AINRN3 AINRP2 AINRN2 AINRP1 AINRN1 AIVSS AVDD MODE1 MODE0 RESETb PDNb 36 35 34 33 32 31 30 29 28 27 26 25 Pin Configuration AINRN4 37 24 SEL1 AINRP4 38 23 SEL0 REFRP 39 22 FMT1 REFRN 40 21 FMT0 VCOM 41 20 MCK AVDD 42 19 VDD33 AVSS 43 18 VDD18 TEST 44 17 VSS REFLN 45 16 HPF REFLP 46 15 BCK AINLP4 47 14 LRCK AINLN4 48 13 SDO 3 4 5 6 7 8 9 10 11 12 AINLN2 AINLP1 AINLN1 AVSS AVDD VDD33 VSS VREGI VREGO 2 AINLN3 AINLP2 1 AINLP3 NJU3610FR3 Fig.2 NJU3610 Pin Configuration Ver.2009.12.4 -3- NJU3610 Pin Description Table.1 Pin Description Pin No. 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 39 40 41 42 43 44 45 46 47 48 Symbol AINLP3 AINLN3 AINLP2 AINLN2 AINLP1 AINLN1 AVSS AVDD VDD33 VSS VREGI VREGO SDO LRCK BCK HPF VSS VDD18 VDD33 MCK FMT0 FMT1 SEL0 SEL1 PDNb RESETb MODE0 MODE1 AVDD AVSS AINRN1 AINRP1 AINRN2 AINRP2 AINRN3 AINRP3 AINRN4 AINRP4 REFRP REFRN VCOM I/O AI AI AI AI AI AI AG AP DP DG RI RO DO DIO DIO DI DG DL DP DI DI DI DI DI DI DI DI DI AP AG AI AI AI AI AI AI AI AI AI AI AO AVDD AVSS TEST REFLN REFLP AINLP4 AINLN4 AP AG AI AI AI AI AI * AP : Analog power supply, 3.3V AO : Analog output DL : Digital power supply, 1.8V RI : built-in regulator input DI : Digital input DIO : Bi-directional of Digital -4- Description Lch Analog Positive Input 3 Pin Lch Analog Negative Input 3 Pin Lch Analog Positive Input 2 Pin Lch Analog Negative Input 2 Pin Lch Analog Positive Input 1 Pin Lch Analog Negative Input 1 Pin Analog Ground Pin Analog Power Supply Pin, 3.3V Digital Power Supply Pin, 3.3V Digital Ground Pin Built-in Regulator Input Pin, 3.3V Built-in Regulator Output Pin, 1.8V (typ) Audio Serial Data Output Pin LR Clock Bit Clock HPF for Off-set Cancel ("H": ON, "L": OFF) Digital Ground Pin Digital Power Supply Pin, 1.8V Digital Power Supply Pin, 3.3V Master Clock Input Pin Control Serial Data Format 0 Pin Control Serial Data Format 1 Pin Control Input Selector 0 Pin Control Input Selector 1 Pin Power Down Mode Pin ("H": Power up, "L": Power down) Reset Pin ("H": Reset OFF, "L": Reset ON) Control Mode 0 Pin Control Mode 1 Pin Analog Power Supply Pin, 3.3V Analog Ground Pin Rch Analog Negative Input 1 Pin Rch Analog Positive Input 1 Pin Rch Analog Negative Input 2 Pin Rch Analog Positive Input 2 Pin Rch Analog Negative Input 3 Pin Rch Analog Positive Input 3 Pin Rch Analog Negative Input 4 Pin Rch Analog Positive Input 4 Pin Rch Voltage Reference Input Pin, AVDD Rch Voltage Reference Input Pin, GND Common Voltage Output Pin, AVDD/2 Connected to AVSS with a 10uF electrolytic capacitor. Analog Power Supply Pin, 3.3V Analog Ground Pin Test Pin (Connected to AVSS) Lch Voltage Reference Input Pin, GND Lch Voltage Reference Input Pin, AVDD Lch Analog Positive Input 4 Pin Lch Analog Negative Input 4 Pin AG : Analog ground AI : Analog input DP : Digital power supply, 3.3V DG : Digital ground and built-in regulator ground RO : built-in regulator output DO : Digital output Ver. 2009.12.4 NJU3610 Absolute Maximum Ratings Table 2. Absolute Maximum Ratings Parameter Analog Digital Power supplies Built-in Regulator Input Built-in Regulator Output Pin Voltage (VSS=AVSS=0V=GND, Ta=25C) Symbol AVDD VDD33 VDD18 VREGI VREGO Rating -0.3 to +4.2 -0.3 to +2.3 -0.3 to +4.2 -0.3 to +2.3 Digital Input Vx(IN) -0.3 to +5.5 (VDD333.0V) -0.3 to +4.2 (VDD33<3.0V) Digital Output Vx(OUT) -0.3 to VDD33 + 0.3 Analog Input Vx(AIN) VCOM Output Vx(VCOM) Power Dissipation Units V -0.3 to AVDD + 0.3 800 PD mW Mounted on two-layer board of based on the JEDEC. Operating Temperature TOPR -40 to +85 C Storage Temperature TSTR -40 to +125 C * AVDD * VDD33 * VDD18 * VREGI * VREGO * VX(IN) * VX(OUT) * VX(AIN) * VX(VCOM) Note 1) Note 2) : 8, 29, 42pin : 9pin : 18pin : 11pin : 12pin : 16, 20-28pin, and 14-15pin (set in the state of the input.) : 13pin, and 14-15pin (set in the state of the output.) : 1-6, 31-40, 44-48pin : 41pin If the LSI is used on condition beyond the absolute maximum rating, the LSI may be destroyed. Using LSI within electrical characteristics is strongly recommended for normal operation. Use beyond the electrical characteristics conditions will cause malfunction and poor reliability. Please do not open the digital input terminal. Moreover, please do not open the digital I/O terminal set in the state of the input. Recommended operating conditions Table 3. Recommended operating conditions Parameter Power Supplies Symbol Analog AVDD *1 VDD33 *1 Digital VDD18 *2 Built-in Regulator Input VREGI *3 Recommended operating conditions 3.0 to 3.6 AVDD33VDD33 1.65 to 2.0 (Or, a built-in regulator supplies the voltage.) 3.0 to VDD33 Units V *1 VDD33 is recommended to be turned on from AVDD and simultaneous or AVDD back. *2 The power up sequence VDD18 is not critical. *3 When a built-in regulator is used, VREGI is connected with VDD33. When a built-in regulator is not used, VREGI and VREGO are connected with VSS. Ver.2009.12.4 -5- NJU3610 Electric Characteristics Table 4. Analog Characteristics Parameter Condition Min. AIN*** Pin Full-scale voltage level *1 AVDD x 1.4 (Between differential motions) fs=48kHz fs=96kHz fs=192kHz fs=48kHz fs=96kHz fs=192kHz fs=48kHz fs=96kHz fs=192kHz 85 93 93 - 90 90 90 99 100 100 99 100 100 - fs=48kHz, 1kHz BPF - 110 - dB fs=48kHz, 1kHz BPF 97 110 - dB fs=48kHz fs=96kHz fs=192kHz fs=48kHz fs=96kHz fs=192kHz fs=48kHz 40 40 40 -0.1 100 50 50 58 58 58 - 0.1 S/(N+D) (-1.0dBFS) Dynamic Range (-60dBFS, A-weighted) S/N (A-weighted) Channel Separation (Between L and R) Units Vpp AIN*** Pin (During the selection and non-selection) Max. AVDD x 0.7 (Differential one side) Cross Talk Typ. Equivalent input impedance (Selection input terminal) Input impedance *2 (Non-Selection input terminal) Gain Mismatch dB dB dB kOhm KOhm dB (Ta=25C, AVDD=VDD33=3.3V, VDD18=VREGO, HPF=ON, Input signal=1kHz(AINL*4/AINR*4), BCK=64fs, MCK=256fs(48/96kHz), 128fs(192kHz), Measurement frequency=20Hz-20kHz at fs=48kHz, 20Hz-40kHz at fs=96kHz, 20Hz-40kHz at fs=192kHz) *1 The full-scale voltage level indicates full-scale value (0dBFS) of the analog input voltage. A full-scale voltage is proportional to the AVDD voltage. The meaning between differential motions is an operation result of the differential input signal. The input voltage of the terminal is up to AVDD voltage. *2 The analog input terminal of non-selection does the bias to VCOM by the resistance of this value. Ta=25C, AVDD=VDD33=3.3V, VDD18=1.8V Table 5. Power Supply Current Parameter 3.3V, Power Supply Current: IDD + IDDA (Not contain a built-in regulator) 1.8V, Power Supply Current: IDDL (Not contain a built-in regulator) Power down mode: IDDQ+IDDLQ (Not contain a built-in regulator) Built-in regulator Current: IRIN -6- Condition Min. Typ. Max. units fs=48kHz fs=96kHz fs=192kHz fs=48kHz fs=96kHz fs=192kHz - 7.0 8.0 8.0 2.0 4.0 8.0 12 10 Clock stop PDNb=Low - - 100 A VREGI=3.3V IOUT=0mA - 50 70 A mA mA Ver. 2009.12.4 NJU3610 Table 6. Digital DC Characteristics Parameter Symbol (Ta=25C, VDD33=3.3V, VDD18=1.8V) Condition Min. Typ. Max. Units *1 High-Level Input Voltage VIH 2.2 - VDD33 Low-Level Input Voltage VIL 0 - 0.8 V High-Level Output Voltage VOH IOH=-1mA VDD33 x 0.8 - VDD33 V Low-Level Output Voltage VOL IOL=1mA 0 - VDD33 x 0.2 V Input Leakage Current IIN VIN=VSS, VDD -10 - 10 A V *1 The digital input terminal and the input digital I/O terminal are 5V tolerant only at VDD33 ratings. Table 7. Reset AC Characteristics Parameter Reset Time (Ta=25C, VDD33=3.3V, VDD18=1.8V) Symbol Condition Min. Typ. Max. Units tRESETb RESETb 100 - - ns Table 8. Digital Filter Characteristics Parameter (Ta=25C, VDD33=3.3V, VDD18L=1.8V) Condition Min. Typ. Max. Units -3.0dB - fs/44100 - Hz LPF Pass band 0 - 0.454 fs LPF Pass band ripple - - 0.005 dB 0.546 - - fs -80 - - dB - 27 - 1/fs Cut-off frequency (HPF=High) LPF Stop band LPF Stop band attenuation Group Delay Ver.2009.12.4 -7- NJU3610 Table 9. Clock Timing Parameter Symbol (Ta=25C, VDD33=3.3V, VDD18=1.8V) Min. Typ. Max. 1.024 24.576 MCK Frequency *1 fMCK 2.048 24.576 3.072 36.864 BCK Frequency *2 fSCK 0.256 12.288 LRCK Frequency *2 fLRCK 8.0 192 MCK Pulse Width Low tMIL 0.475/fMCK 0.5/fMCK 0.525/fMCK MCK Pulse Width High tMIH 0.475/fMCK 0.5/fMCK 0.525/fMCK BCK Pulse Width Low tSIL Slave 35 0.5/fMCK BCK Pulse Width High tSIH Slave 35 0.5/fMCK BCK to LRCK *3 tSLI Slave 20 LRCK to BCK *3 tLSI Slave 20 *1 For fs=8 to 192kHz at 128fs mode. For fs=8 to 96kHz at 256fs/384fs mode. *2 MCK should synchronized with BCK and LRCK. (Not necessary to phase it.) *3 BCKI rising edge must not occur at the same time as LRCK edge Condition 128fs 256fs 384fs Slave Slave tMIH Units MHz MHz kHz ns ns ns ns tMIL MCK Fig.3 MCK Timing diagram LRCK tSIH tSIL tSLI tLSI BCK Fig.4 BCK, LRCK Timing Diagram Table 10. Serial Audio Output Timing Parameter symbol Condition *1 BCK to LRCK Time tSLO CL=25pF Data Output Delay tDOD CL=25pF *1 It is regulation in Master mode. (Ta=25C VDD33=3.3V, VDD18=1.8V) Min. Typ. Max. -20 20 20 Units ns ns LRCK tSL BCK tDOD SDO Fig.5 Serial Audio Output Timing Diagram -8- Ver. 2009.12.4 NJU3610 1. Power-supply, RESET , Power Down 1.1 Power-supply The power-supply should be used under the recommended condition. The power-on level procedure should increase monotonously. During the operation, the power-supply should not become out of the recommended condition. The large size decoupling capacitor should be implemented near the NJU3610. The analog/digital power line should be taken from this large capacitor. Also the power-supply terminals should have enough decoupling capacitors to the terminals. The REFLP, REFLN, REFRP, REFRN are the reference voltage terminals of the 1bit-feedback-DAC. The REFLP and REFRP should be connected to AVDD power line. The REFLPN and REFRN should be connected to AVSS line. These terminals affect the analog performance, so the decoupling capacitor is very important. The VCOM output is the half of the AVDD voltage level with the voltage-follower buffer. The VCOM voltage level is the internal reference. The non-selected input terminals are pull-upped to the internal reference via 58k-ohm resistors. The 10uF capacitor is recommended to improve noise and channel separation performance. This terminal output is available for the analog reference level of the input circuit. The NJU3610 provides the internal voltage regulator for internal digital circuit. The VREGI terminal is the input to the internal regulator. The input to VREGI should be the same voltage as VDD33 input. The output of the internal voltage regulator is VREGO. If the VREGO output is connected to VDD18, no other 1.8V power-supply is necessary. If the internal voltage regulator is used, put the capacitor (around 4.7 to 10uF) between VREGO and VSS. If the internal voltage regulator is not used, connect both VREGI and VREGO to VSS. The internal voltage regulator is provided for the NJU3610 circuit, do not use it for the other circuit. If the VDD33 and AVDD are different power-supply, follow the next power-on procedure. First power on analog power-supply (AVDD). Next power on digital power-supply (VDD33). Also it is possible to power on analog and digital power-supply simultaneously. Power-on Timing Condition: AVDD (before) VDD33 (same or after) There is no constraining on VDD18 power-on procedure. Also there is no constraining on power-down procedure for all power-supplies. Ver.2009.12.4 -9- NJU3610 1.2 Digital Input Terminal All digital input terminals are 5V tolerant under the recommended VDD33 power-on condition. Also BCK and LRCK that are assigned as input mode are 5V tolerant under the recommended VDD33 power-on condition. Input/output setting of BCK and LRCK are defined by FMT1 terminal. These terminals are input mode in case of FMT1 = "Low" and output mode in case of FMT1 = "High". During RESETb terminal = "Low", BCK and LRCK are input mode regardless of FMT1 condition. 1.3 RESET and Power Down During RESETb terminal = "Low", digital filter and analog integrator are initialized and SDO output is low level. The internal reference voltage generator is operating during RESETb terminal = "Low". If the terminal setting or clock is changed under ADC operation, RESETb should be initialized again. In case of PDNb = "Low", all analog circuit become power-down mode. The digital filter is operating under PDNb = "Low", but the clock to analog circuit is stopped. If power-down mode is not used, PDNb should be "high". After power-on, the next reset procedure should be done at least one time to initialize the NJU3610. RESETb should be "Low" level and become "High" level again. Changing PDNb from "Low "level to "High" level makes VCOM reference level generated. The setup time of VCOM-reference-level depends on the attached capacitor. The procedure to change RESETb level ("Low" to "High") should be done, after VCOM level becomes stable. The procedure of SDO audio data output is as following: First RESET is released from "Low" to "High" level. After RESET release, wait 1368fs period and SDO generates audio data. But to get the accurate output data, VCOM reference level should become half of AVDD level. If the High Pass Filter is used to cancel offset (HPF="High"), some more time (max. 8192fs) after generating audio data is necessary to get accurate output data. In order to power down the NJU3610 completely, PDNb should be "Low" and, also clocks to MCK, BCK and LRCK should be stopped. Notice: The internal regulator does not provide power-down mode. As far as power is supplied to VREG1, it generates output voltage with consuming power. - 10 - Ver. 2009.12.4 NJU3610 2. ADC Function 2.1 Clock and Digital Audio Interface The NJU3610 requires MCK, BCK and LRCK audio clock. BCK and LRCK can be generated by MCK in Master mode. MCK, BCK and LRCK are synchronized in Master mode. In Slave mode, BCK and LRCK are inputted from the outside. In Slave mode, MCK, BCK and LRCK should be synchronized. But it is not necessary that the phase of these three clocks are synchronized. MCK frequency should be one of 128fs, 256fs or 384fs. If fs>96KHz, MCK should be 128fs. The ADC operates with the next frequency. The operate frequency is 64fs in case of fs96KHz. The operate frequency is 32fs in case of fs>96KHz. Mode0 and mode1 terminals select the MCK frequency and ADC operating frequency. In case that ADC operating frequency is 32fs, the effective bandwidth is 1/4fs. Between 1/4fs and 1/2fs, ADC shaping noise exists. The NJU3610 digital audio format provides Left-justified and I2S 24bit(BCK=64clocks/fs) in Master mode. The NJU3610 digital audio format provides Left-justified, I2S 16bit (BCK=32clocks/fs) and I2S 24bit(BCK=64clocks/fs) in Slave mode. FMT0 and FMT1 terminals select the above digital audio format. When FMT0, FMT1, MODE0 and MODE1 are changed, RESET should be done again. MCK, BCK and LRCK frequency is shown in table11. Digital Audio Format and operation mode is shown in table12. In Master mode, BCK and LRCK terminals generate clocks. BCK output clock is fixed at 64fs in Master mode. In Slave mode, BCK and LRCK terminals are assigned input. Table 11. LRCK(kHz) MCK, BCK, LRCK (1) MCK (MHz) Master: Generation from MCK Slave: From outside 128fs 256fs BCK(MHz) 384fs 32fs Slave only: from outside 64fs Master: Generation from MCK Slave: From outside 8 -*2 2.048 3.072 0.256 0.512 16 -*2 4.096 6.144 0.512 1.024 22.05 -*2 5.6448 8.4672 0.7056 1.4112 32 -*2 8.192 12.288 1.024 2.048 44.1 -*2 11.2896 16.9344 1.4112 2.8224 48 -*2 12.288 18.432 1.536 3.072 64 -*2 16.384 24.576 2.048 4.096 88.2 -*2 22.5792 33.8688 2.8224 5.6448 96 -*2 24.576 36.864 3.072 6.144 *1 176.4 22.5792 5.6448 11.2896 192 *1 24.576 6.144 12.288 *1 It is only a setting of "CKMODE[1:0]=10,11". At this time, frequency bandwidth is up to 1/4fs. The shaping noise of the ADC is included in the band from 1/4fs to 1/2fs. *2 Because an effective bandwidth is limited, it is not practicable. Ver.2009.12.4 - 11 - NJU3610 CMKODE 1 0 0 0 0 0 0 0 0 0 0 1 0 1 0 1 0 1 1 0 1 0 1 0 1 0 1 1 1 1 1 1 1 1 Table 12. MCK,BCK,LRCK (2) Master / A/D MCK Slave mode (fs) FMT 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 Slave 64fs 256fs (96kHz) 64fs 384fs (96kHz) 32fs 256fs (>96kHz) 32fs 128fs (>96kHz) Master Slave Master Slave Master Slave Master Left Channel LRCK Format I2S (32 or 64fs) Left-justified(32 or 64fs) I2S (64fs) Left-justified(64fs) I2S (32 or 64fs) Left-justified(32 or 64fs) I2S (64fs) Left-justified(64fs) I2S (32 or 64fs) Left-justified(32 or 64fs) I2S (64fs) Left-justified(64fs) I2S (32 or 64fs) Left-justified(32 or 64fs) I2S (64fs) Left-justified(64fs) Right Channel BCK MSB SDO LSB 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB LSB 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 32 Clocks 23 32 Clocks Fig.6 Left-justified Data Format 64fs, 24bit Data Left Channel LRCK Right Channel BCK MSB SDO LSB 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB LSB 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 32 Clocks 32 Clocks Fig.7 I2S Data Format 64fs, 24bit Data Left Channel LRCK Right Channel BCK MSB SDO LSB MSB LSB 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 16 Clocks 16 Clocks Fig.8 Left-justified Data Format 32fs, 16bit Data Left Channel LRCK Right Channel BCK MSB SDO LSB MSB LSB 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 16 Clocks 16 Clocks 2 Fig.9 I S Data Format 32fs, 16bit Data - 12 - Ver. 2009.12.4 NJU3610 2.2 High Pass Filter for offset-cancel The NJU3610 provides High Pass Filter (digital filter) to cancel offset. Normally HPF terminal is set "High". In case of HFP="High", High Pass Filter is active. The frequency characteristics are shown in table 8. The cutoff frequency is set at low frequency. But sampling rate changes the cutoff frequency. HFP terminal setting can be changed during NJU3610 operating. But changing HPF setup makes pop noise that is caused by offset change. 2.3 Analog Input and 4-1 Selector The NJU3610 provides four differential-stereo-inputs. SEL0 and SEL1 terminals select one of four stereo-input. After this selector, input signal goes to ADC input. SEL0 and SEL1 combination is shown in table13. SEL1 SEL0 0 0 1 1 0 1 0 1 Table 13. SEL1, SEL0 combination Lch Rch Non-reversing Reversing Non-reversing Reversing input input input input AINLP1 AINLN1 AINRP1 AINRN1 AINLP2 AINLN2 AINRP2 AINRN2 AINLP3 AINLN3 AINRP3 AINRN3 AINLP4 AINLN4 AINRP4 AINRN4 Each differential-signal input should be biased with VCOM reference level. The half of AVDD level is available instead of VCOM reference level. Input full-scale level (0dBFS) is "AVDDx0.7Vpp". In differential signal, Input full-scale level is "AVDDx1.4Vpp". Maximum available input range is from GND to AVDD with distortion. But in this case, the distortion occurs. When AMP with high voltage power-supply is used before the ADC, the input level should not exceed the ADC input range. SEL0 and SEL1 settings are taken in at MCK rising edge. In case of RESETb="Low", AINLP1, AINLN1, AINRP1 and AINRN1 are selected regardless of SEL0/SEL1 settings. In case that PDNb level is changed from "high" to "Low", the latest condition is maintained. The terminals that are not selected by SEL0/SEL1 are pull-upped by VCOM bias via 58ohm resisters. The analog input terminals that are not used should be left open or adds the capacitors between terminals and GND. If these terminals connect directly to power-supply or GND, VCOM fluctuates and the NJU3610 does not operate properly. The NJU3610 operates with 32fs over sampling at Mode1="High". The NJU3610 operates with 64fs over sampling at Mode1="Low". If noise exists around over sampling frequency, the noise folds back. To avoid this folding back noise, passive RC filter is required. The example of input buffer circuit is shown in figure10. VCOM output is used for bias level. The J1 selects RCA or XLR input. The RC-passive-filter is consist of Ra/Rb(220ohm), Ca/Cb(100pF) and Cc(200pF). The cutoff frequency of RC-passive-filter is 1447KHz. This input buffer circuit should be implemented to analog input terminals as far as short distance. The layout pattern should be symmetric. C1 R2 47 VCOM_OUT BIAS(VDDAx0.5) R1 RCA 10 Ra=220 AIN*N* BIAS Ca=100p C1 Cc=200p NJU3610 XLR R2 Cb=100p R1 47 1 2 Rb=220 AIN*P* 3 J1 BIAS Fig.10 Input buffer example Ver.2009.12.4 - 13 - NJU3610 Package dimension LQFP48-R3 (Pb-Free) 90.1 70.1 010 25 24 48 13 70.1 37 1 90.1 36 0.60.1 12 0.220.1 1.50.1 1.40.05 0.5 0.076 0.10.05 0.17TYP Mold Plating: Sn-Bi [CAUTION] The specifications on this data book are only given for information , without any guarantee as regards either mistakes or omissions. The application circuits in this data book are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. - 14 - Ver. 2009.12.4