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| ASAHI KASEI [AK5384] AK5384 107dB 24-Bit 96kHz 4-Channel ADC GENERAL DESCRIPTION The AK5384 is a 4-channel A/D Converter with wide sampling rate of 8kHz 96kHz and is suitable for Multi-channel audio system. The AK5384 achieves high accuracy and low cost by using Enhanced dual bit techniques. The AK5384 supports master mode and TDM format. Therefore, the AK5384 is suitable for multi-channel audio system. FEATURES o 4-Channel ADC o Differential Inputs o Digital HPF for DC-Offset Cancel o S/(N+D): 100dB@5V for 48kHz 107dB@5V for 48kHz o DR: 107dB@5V for 48kHz o S/N: o Sampling Rate Ranging from 8kHz to 96kHz o Master Clock: 256fs/384fs/512fs/768fs ( 48kHz) 256fs/384fs ( 96kHz) o TTL Digital Input Level o Output format: 24bit MSB justified, I2S or TDM o Cascade TDM Interface o Master & Slave Mode o Overflow Flag o Power Supply: 4.75 to 5.25V o Power Supply for output buffer: 3.0 to 5.25V o Ta = -40 85C o 28pin VSOP AVDD AVSS DVDD DVSS TVDD LIN1+ LIN1RIN1+ RIN1LIN2+ LIN2RIN2+ RIN2- Modulator Modulator Modulator Modulator Decimation Filter Decimation Filter Decimation Filter Audio Interface LRCK BICK SDTO1 SDTO2 TDMIN M/S DIF Decimation Filter TDM0 TDM1 Clock Divider MCLK VCOM Voltage Reference OVF PDN CKS MS0225-E-00 -1- 2003/05 ASAHI KASEI [AK5384] n Ordering Guide AK5384VF AKD5384 -40 +85C 28pin VSOP (0.65mm pitch) Evaluation Board for AK5384 n Pin Layout LIN2+ LIN2RIN2+ RIN2TEST VCOM AVSS AVDD DIF TDM1 TDM0 TDMIN MCLK OVF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Top View 28 27 26 25 24 23 22 21 20 19 18 17 16 15 LIN1+ LIN1RIN1+ RIN1M/S CKS PDN DVSS DVDD TVDD SDTO1 SDTO2 BICK LRCK MS0225-E-00 -2- 2003/05 ASAHI KASEI [AK5384] PIN/FUNCTION No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Pin Name LIN2+ LIN2- RIN2+ RIN2- TEST VCOM AVSS AVDD DIF TDM1 TDM0 TDMIN MCLK OVF LRCK BICK SDTO2 SDTO1 TVDD DVDD DVSS PDN I/O I I I I I O I I I I I O I/O I/O O O I Function ADC2 Lch Positive Analog Input Pin ADC2 Lch Negative Analog Input Pin ADC2 Rch Positive Analog Input Pin ADC2 Rch Negative Analog Input Pin Test Pin (Connected to AVSS) Common Voltage Output Pin, AVDD/2 Normally connected to AVSS with a 0.1F ceramic capacitor in parallel with an electrolytic capacitor less than 2.2F. Analog Ground Pin Analog Power Supply Pin, 4.75 5.25V Audio Interface Format Pin "L" : 24bit MSB justified, "H" : 24bit I2S Compatible TDM I/F BICK Frequency Select Pin "L" : 256fs, "H" : 128fs TDM I/F Format Enable Pin "L" : Normal Mode, "H" : TDM Mode TDM Data Input Pin Master Clock Input Pin Analog Input Overflow Detect Pin This pin goes to "H" if one of four analog inputs overflows. Output Channel Clock Pin "L" Output in Master Mode at Power-down mode. Audio Serial Data Clock Pin "L" Output in Master Mode at Power-down mode. ADC2 Audio Serial Data Output Pin "L" Output at Power-down mode. ADC1 Audio Serial Data Output Pin "L" Output at Power-down mode. Output Buffer Power Supply Pin, 3.0 5.25V Digital Power Supply Pin, 4.75 5.25V Digital Ground Pin Power-Down Mode Pin When "L", the circuit is in power-down mode. The AK5384 should always be reset upon power-up. Master Clock Select Pin "L" : 256fs, "H" : 512fs This pin is enabled in Master Mode. Master / Slave Mode Pin "L" : Slave Mode, "H" : Master Mode ADC1 Rch Negative Analog Input Pin ADC1 Rch Positive Analog Input Pin ADC1 Lch Negative Analog Input Pin ADC1 Lch Positive Analog Input Pin 23 24 25 26 27 28 CKS M/S RIN1- RIN1+ LIN1- LIN1+ I I I I I I Note: All digital input pins should not be left floating. MS0225-E-00 -3- 2003/05 ASAHI KASEI [AK5384] ABSOLUTE MAXIMUM RATINGS (AVSS, DVSS=0V; Note 1) Parameter Power Supplies: Analog Digital Output buffer |AVSS - DVSS| (Note 2) Input Current, Any Pin Except Supplies Analog Input Voltage Digital Input Voltage (Except BICK, LRCK pins) (BICK, LRCK pins) Ambient Temperature (Powered applied) Storage Temperature Symbol AVDD DVDD TVDD GND IIN VINA VIND1 VIND2 Ta Tstg min -0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -40 -65 max 6.0 6.0 6.0 0.3 10 AVDD+0.3 DVDD+0.3 TVDD+0.3 85 150 Units V V V V mA V V V C C Note 1. All voltages with respect to ground. Note 2. AVSS and DVSS must be connected to the same analog ground plane. WARNING: Operation at or beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. RECOMMENDED OPERATING CONDITIONS (AVSS, DVSS=0V; Note 1) Parameter Power Supplies (Note 3) Symbol AVDD DVDD TVDD min 4.75 4.75 3.0 typ 5.0 5.0 5.0 max 5.25 5.25 5.25 Units V V V Analog Digital Output buffer Note 1. All voltages with respect to ground. Note 3. The power up sequence between AVDD, DVDD and TVDD is not critical. WARNING: AKM assumes no responsibility for the usage beyond the conditions in this datasheet. MS0225-E-00 -4- 2003/05 ASAHI KASEI [AK5384] ANALOG CHARACTERISTICS (Ta=25C; AVDD=DVDD=TVDD=5.0V; AVSS=DVSS=0V; fs=48kHz, 96kHz; I/F format=Mode 0; Signal Frequency=1kHz; Measurement frequency=20Hz 20kHz at fs=48kHz, 40Hz 40kHz at fs=96kHz; unless otherwise specified) Parameter min typ max ADC Analog Input Characteristics: Resolution 24 S/(N+D) (-1dBFS) fs=48kHz 88 100 fs=96kHz 82 94 DR (-60dBFS) fs=48kHz, A-weighted 100 107 fs=96kHz 94 102 S/N fs=48kHz, A-weighted 100 107 fs=96kHz 94 102 Interchannel Isolation 90 110 DC Accuracy: Interchannel Gain Mismatch 0.1 0.5 Gain Drift 100 150 Input Voltage (Note 4) 2.7 2.9 3.1 Input Resistance 18 26 11 16 Power Supply Rejection (Note 5) 50 Power Supplies Power Supply Current (AVDD+DVDD+TVDD) Normal Operation (PDN pin = "H", fs=48kHz) Normal Operation (PDN pin = "H", fs=96kHz) Power-down mode (PDN pin = "L") (Note 6) (Note 6) (Note 7) 43 55 10 65 83 100 mA mA A Units Bits dB dB dB dB dB dB dB dB ppm/C Vpp k k dB Note 4. This value is the full scale (0dB) of the input voltage. This voltage is input to LIN(RIN)+ and LIN(RIN)- pin, and is proportional to AVDD. (Vin = 0.58 x AVDD) Note 5. PSR is applied to AVDD, DVDD and TVDD with 1kHz, 50mVpp. Note 6. AVDD=28mA; DVDD=15mA@48kHz&5V, DVDD=26mA@96kHz&5V(typ). Note 7. All digital input pins are fixed to DVDD or DVSS. MS0225-E-00 -5- 2003/05 ASAHI KASEI [AK5384] FILTER CHARACTERISTICS (fs=48kHz) (Ta=25C; AVDD, DVDD=4.75 5.25V; TVDD=3.0 5.25V; fs=48kHz) Parameter Symbol min ADC Digital Filter (Decimation LPF): 0 Passband (Note 8) -0.005dB PB -0.02dB -0.06dB -6.0dB Stopband (Note 8) SB 26.5 Passband Ripple PR Stopband Attenuation SA 80 Group Delay (Note 9) GD Group Delay Distortion GD ADC Digital Filter (HPF): Frequency Response (Note 8) -3dB FR -0.5dB -0.1dB typ max 21.5 0.005 27.6 0 1.0 2.9 6.5 Units kHz kHz kHz kHz kHz dB dB 1/fs s Hz Hz Hz 21.768 22.0 24.0 FILTER CHARACTERISTICS (fs=96kHz) (Ta=25C; AVDD, DVDD=4.75 5.25V; TVDD=3.0 5.25V; fs=96kHz) Parameter Symbol min ADC Digital Filter (Decimation LPF): 0 PB Passband (Note 8) -0.005dB -0.02dB -0.06dB -6.0dB Stopband (Note 8) SB 53.0 Passband Ripple PR Stopband Attenuation SA 80 Group Delay (Note 9) GD Group Delay Distortion GD ADC Digital Filter (HPF): FR Frequency Response (Note 8) -3dB -0.5dB -0.1dB typ max 43.0 0.005 27.6 0 2.0 5.8 13.0 Units kHz kHz kHz kHz kHz dB dB 1/fs s Hz Hz Hz 43.536 44.0 48.0 Note 8. The passband and stopband frequencies scale with fs. Note 9. The calculated delay time induced by digital filtering. This time is from the input of an analog signal to the setting of 24bit data both channels to the ADC output register for ADC. DC CHARACTERISTICS (Ta=25C; AVDD, DVDD=4.75 5.25V; TVDD=3.0 5.25V) Parameter Symbol High-Level Input Voltage (TVDD=3.0 3.6V) VIH Low-Level Input Voltage (TVDD=3.0 3.6V) VIL High-Level Input Voltage (TVDD=3.6 5.25V) VIH Low-Level Input Voltage (TVDD=3.6 5.25V) VIL High-Level Output Voltage (Iout=-100A) VOH Low-Level Output Voltage (Iout=100A) VOL Input Leakage Current Iin min 2.2 2.7 TVDD-0.5 typ max 0.8 0.5 0.5 10 Units V V V V V V A MS0225-E-00 -6- 2003/05 ASAHI KASEI [AK5384] SWITCHING CHARACTERISTICS (Ta=25C; AVDD, DVDD=4.75 5.25V; TVDD=3.0 5.25V; CL=20pF) min Parameter Symbol Master Clock Timing Master Clock 256fs: fCLK 2.048 Pulse Width Low tCLKL 16 Pulse Width High tCLKH 16 384fs: fCLK 3.072 Pulse Width Low tCLKL 11 Pulse Width High tCLKH 11 512fs: fCLK 4.096 Pulse Width Low tCLKL 16 Pulse Width High tCLKH 16 768fs: fCLK 6.144 Pulse Width Low tCLKL 11 Pulse Width High tCLKH 11 LRCK Timing (Slave Mode) Normal mode (TDM1="L", TDM0="L") LRCK Frequency Duty Cycle TDM256 MODE (TDM1="L", TDM0="H") LRCK Frequency "H" time "L" time TDM128 MODE (TDM1="H", TDM0="H") LRCK Frequency "H" time "L" time LRCK Timing (Master Mode) Normal mode (TDM1="L", TDM0="L") LRCK Frequency Duty Cycle TDM256 MODE (TDM1="L", TDM0="H") LRCK Frequency "H" time (Note 10) TDM128 MODE (TDM1="H", TDM0="H") LRCK Frequency "H" time (Note 10) Note 10. "L" time at I2S format. typ 12.288 max 24.576 Units MHz ns ns MHz ns ns MHz ns ns MHz ns ns 18.432 36.864 24.576 24.576 36.864 36.864 fs Duty fs tLRH tLRL fs tLRH tLRL 8 45 8 1/256fs 1/256fs 8 1/128fs 1/128fs 96 55 48 kHz % kHz ns ns kHz ns ns 96 fs Duty fs tLRH fs tLRH 8 50 8 1/8fs 8 1/4fs 96 kHz % kHz ns kHz ns 48 96 MS0225-E-00 -7- 2003/05 ASAHI KASEI [AK5384] Parameter Audio Interface Timing (Slave mode) Normal mode (TDM1="L", TDM0="L") BICK Period BICK Pulse Width Low Pulse Width High LRCK Edge to BICK "" (Note 11) BICK "" to LRCK Edge (Note 11) LRCK to SDTO1/2 (MSB) (Except I2S mode) BICK "" to SDTO1/2 TDM256 mode (TDM1="L", TDM0="H") BICK Period BICK Pulse Width Low Pulse Width High LRCK Edge to BICK "" (Note 11) BICK "" to LRCK Edge (Note 11) BICK "" to SDTO1/2 TDM128 mode (TDM1="H", TDM0="H") BICK Period BICK Pulse Width Low Pulse Width High LRCK Edge to BICK "" (Note 11) BICK "" to LRCK Edge (Note 11) BICK "" to SDTO1 (Note 12) Audio Interface Timing (Master mode) Normal mode (TDM1="L", TDM0="L") BICK Frequency BICK Duty BICK "" to LRCK BICK "" to SDTO1/2 TDM256 mode (TDM1="L", TDM0="H") BICK Frequency BICK Duty (Note 13) BICK "" to LRCK BICK "" to SDTO1/2 TDM128 mode (TDM1="H", TDM0="H") BICK Frequency BICK Duty BICK "" to LRCK BICK "" to SDTO1 (Note 12) Power-Down & Reset Timing PDN Pulse Width (Note 14) PDN "" to SDTO1/2 valid (Note 15) Symbol min typ max Units tBCK tBCKL tBCKH tLRB tBLR tLRS tBSD tBCK tBCKL tBCKH tLRB tBLR tBSD tBCK tBCKL tBCKH tLRB tBLR tBSD 160 65 65 30 30 35 35 81 32 32 20 20 20 81 32 32 20 20 20 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns fBCK dBCK tMBLR tBSD fBCK dBCK tMBLR tBSD fBCK dBCK tMBLR tBSD tPD tPDV 64fs 50 -20 -40 256fs 50 -12 -20 128fs 50 -12 -20 150 516 12 20 12 20 20 40 Hz % ns ns Hz % ns ns Hz % ns ns ns 1/fs Note 11. BICK rising edge must not occur at the same time as LRCK edge. Note 12. SDTO2 output is fixed to "L". Note 13. This value is MCLK=512fs. Duty cycle is not guaranteed when MCLK=256fs/384fs. Note 14. The AK5384 can be reset by bringing the PDN pin = "L". Note 15. This cycle is the number of LRCK rising edges from the PDN pin = "H". MS0225-E-00 -82003/05 ASAHI KASEI [AK5384] n Timing Diagram 1/fCLK VIH VIL tCLKH tCLKL MCLK 1/fs VIH VIL LRCK tBCK VIH VIL tBCKH tBCKL BICK Clock Timing (TDM0 pin = "L") 1/fCLK VIH VIL tCLKH tCLKL MCLK 1/fs VIH VIL tLRH tLRL LRCK tBCK VIH VIL tBCKH tBCKL BICK Clock Timing (TDM0 pin = "H") MS0225-E-00 -9- 2003/05 ASAHI KASEI [AK5384] VIH LRCK VIL tBLR tLRB VIH BICK VIL tLRS tBSD SDTO Audio Interface Timing (Slave mode, TDM0 pin = "L") 50%TVDD VIH LRCK VIL tBLR tLRB VIH BICK VIL tBSD SDTO Audio Interface Timing (Slave mode, TDM0 pin = "H") 50%TVDD Note: SDTO shows SDTO1 and SDTO2. MS0225-E-00 - 10 - 2003/05 ASAHI KASEI [AK5384] LRCK 50%TVDD tMBLR dBCK 50%TVDD BICK tBSD SDTO Audio Interface Timing (Master mode) 50%TVDD VIH PDN VIL tPDV SDTO tPD PDN 50%TVDD VIL Power Down & Reset Timing Note: SDTO shows SDTO1 and SDTO2. MS0225-E-00 - 11 - 2003/05 ASAHI KASEI [AK5384] OPERATION OVERVIEW n System Clock The external clocks which are required to operate the AK5384 are MCLK(256fs/384fs/512fs/768fs), BICK(48fs), LRCK(1fs) in slave mode (M/S pin = "L"). MCLK should be synchronized with LRCK but the phase is not critical. When 384fs, 512fs or 768fs clock is input to MCLK pin, the internal master clock becomes 256fs(=384fs x 2/3=512fs x 1/2=768fs x 1/3) automatically. Table 1 illustrates standard audio word rates and corresponding frequencies used in the AK5384. In master mode (M/S pin = "H"), MCLK select 256fs or 512fs by CKS pin. But 384fs and 768fs are not supported. 512fs does not support 96kHz sampling. All external clocks (MCLK, BICK, LRCK) should always be present whenever the AK5384 is in normal operation mode (PDN pin = "H"). If these clocks are not provided, the AK5384 may draw excess current and may fall into unpredictable operation. This is because the device utilizes dynamic refreshed logic internally. If the external clocks are not present, the AK5384 should be in the power-down mode (PDN pin = "L"). After exiting reset at power-up etc., the AK5384 is in the power-down mode until MCLK and LRCK are input. In master mode, the master clock (MCLK) must be provided unless PDN pin = "L". fs 32.0kHz 44.1kHz 48.0kHz 96.0kHz MCLK 384fs 512fs 768fs 12.2880MHz 16.3840MHz 24.576MHz 16.9344MHz 22.5792MHz 33.8688MHz 18.4320MHz 24.5760MHz 36.8640MHz 36.8640MHz N/A N/A Table 1. System clock example (Slave mode) BICK 64fs 128fs 2.0480MHz 4.0960MHz 2.8224MHz 5.6448MHz 3.0720MHz 6.1440MHz 6.1440MHz N/A 256fs 8.1920MHz 11.2896MHz 12.2880MHz 24.5760MHz CKS MCLK 8kHz fs 48kHz 48kHz < fs 96kHz L 256fs 256fs H 512fs N/A Table 2. Master clock frequency select (Master mode) n Audio Interface Format 12 types of audio data interface can be selected by the TDM1-0, M/S and DIF pins as shown in Table 3. The audio data format can be selected by the DIF pin. In all formats the serial data is MSB-first, 2's compliment format. The SDTO1/2 is clocked out on the falling edge of BICK. In normal mode, Mode 0-1 are the slave mode, and BICK is available up to 128fs at fs=48kHz. BICK outputs 64fs clock in Mode 2-3. In TDM256 mode, the serial data of all ADC (four channels) is output from the SDTO1/2 pins. BICK should be fixed to 256fs. In the slave mode, "H" time and "L" time of LRCK should be 1/256fs at least. In the master mode, "H" time ("L" time at I2S mode) of LRCK is 1/8fs typically. TDM256 mode does not support 96kHz sampling. In TDM128 mode, the serial data of all ADC (four channels) is output from the SDTO1 pin. The SDTO2 output is fixed to "L". BICK should be fixed to 128fs. In the slave mode, "H" time and "L" time of LRCK should be 1/128fs at least. In the master mode, "H" time ("L" time at I 2S mode) of LRCK is 1/4fs typically. TDM128 mode supports up to 96kHz sampling. MS0225-E-00 - 12 - 2003/05 ASAHI KASEI [AK5384] Mode 0 1 2 3 4 5 6 7 8 9 10 11 12 TDM1 TDM0 M/S DIF SDTO Normal L L TDM256 L H TDM128 N/A H H H L L 24bit, MSB justified L H 24bit, I2S Compatible L 24bit, MSB justified H H 24bit, I2S Compatible L 24bit, MSB justified L H 24bit, I2S Compatible L 24bit, MSB justified H H 24bit, I2S Compatible L 24bit, MSB justified L H 24bit, I2S Compatible L 24bit, MSB justified H H 24bit, I2S Compatible N/A N/A N/A Table 3. Audio Interface Formats LRCK I/O H/L I L/H I H/L O L/H O I I O O I I O O N/A N/A BICK 48-128fs 48-128fs 64fs 64fs 256fs 256fs 256fs 256fs 128fs 128fs 128fs 128fs N/A I/O I I O O I I O O I I O O N/A LRCK 0 1 2 12 13 14 24 25 31 0 1 2 12 13 14 24 25 31 0 1 BICK(64fs) SDTO1/2(o) 23 22 12 11 10 0 23 22 12 11 10 0 23 23:MSB, 0:LSB Lch Data Rch Data Figure 1. Mode 0, 2 Timing (Normal mode, MSB justified) LRCK 0 1 2 3 23 24 25 26 29 30 31 0 1 2 3 23 24 25 26 29 30 31 0 1 BICK(64fs) SDTO1/2(o) 23 22 2 1 0 23 22 2 1 0 23:MSB, 0:LSB Lch Data Rch Data Figure 2. Mode 1, 3 Timing (Normal mode, I2S Compatible) 256 BICK LRCK (Mode 6) LRCK (Mode 4) BICK (256fs) SDTO1 23 22 0 23 22 0 23 22 0 23 22 0 23 22 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK Figure 3. Mode 4, 6 Timing (TDM256 mode, MSB justified) MS0225-E-00 - 13 - 2003/05 ASAHI KASEI [AK5384] 256 BICK LRCK (Mode 7) LRCK (Mode5) BICK (256fs) SDTO1 23 0 23 0 23 0 23 0 23 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK Figure 4. Mode 5, 7 Timing (TDM256 mode, I2S Compatible) 128 BICK LRCK (Mode 10) LRCK (Mode 8) BICK (128fs) SDTO1 23 22 0 23 22 0 23 22 0 23 22 0 23 22 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK Figure 5. Mode 8, 10 Timing (TDM128 mode, MSB justified) 128 BICK LRCK (Mode 11) LRCK (Mode 9) BICK (128fs) SDTO1 23 22 0 23 22 0 23 22 0 23 22 0 23 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK Figure 6. Mode 9, 11 Timing (TDM128 mode, I2S Compatible) n Master Mode and Slave Mode The M/S pin selects either master or slave mode. M/S pin = "H" selects master mode and "L" selects slave mode. The AK5384 outputs BICK and LRCK in master mode. In slave mode, MCLK, BICK and LRCK are input externally. M/S pin L H BICK, LRCK BICK = Input Slave Mode LRCK = Input BICK = Output Master Mode LRCK = Output Table 4. Master mode/Slave mode Mode MS0225-E-00 - 14 - 2003/05 ASAHI KASEI [AK5384] n Digital High Pass Filter The ADC has a digital high pass filter for DC offset cancellation. The cut-off frequency of the HPF is 1.0Hz(@fs=48kHz) and scales with sampling rate (fs). n Overflow Detection The AK5384 has overflow detect function for analog input. OVF pin goes to "H" if one of 4-channels overflows (more than -0.3dBFS). OVF output for overflowed analog input has the same group delay as ADC (GD=27.6/fs=575s@fs=48kHz). OVF is "L" for 516/fs (=10.75ms@fs=48kHz) after PDN pin = "", and then overflow detection is enabled. n Power down The AK5384 is placed in the power-down mode by bringing PDN pin "L" and the digital filter is also reset at the same time. This reset should always be done after power-up. In the power-down mode, the VCOM are AVSS level. An analog initialization cycle starts after exiting the power-down mode. Therefore, the output data SDTO1/2 becomes available after 516 cycles of LRCK clock. During initialization, the ADC digital data outputs of both channels are forced to a 2's complement "0". The ADC outputs settle in the data corresponding to the input signals after the end of initialization (Settling approximately takes the group delay time). 516/fs(10.75ms@fs=48kHz) PDN Internal State A/D In (Analog) A/D Out (Digital) Clock In MCLK,LRCK,BICK Normal Operation GD (1) Power-down Initialize Normal Operation GD Idle Noise (2) "0"data "0"data Idle Noise (3) Notes: (1) Digital output corresponding to analog input has the group delay (GD). (2) ADC output is "0" data at the power-down state. (3) When the external clocks (MCLK, BICK, LRCK) are stopped, the AK5384 should be in the power-down state. Figure 7. Power-down/up sequence example n System Reset The AK5384 should be reset once by bringing PDN pin "L" after power-up. The internal timing starts clocking by the rising edge (falling edge at I2S mode) of LRCK upon exiting from reset. MS0225-E-00 - 15 - 2003/05 ASAHI KASEI [AK5384] n Cascade TDM Mode The AK5384 supports cascading of up to two devices in a daisy chain configuration at TDM256 mode. In this mode, SDTO2 pin of device #1 is connected to TDMIN pin of device #2. SDTO1 pin of device #2 can output 8ch TDM data multiplexed with 4ch TDM data of device #1 and 4ch TDM data of device #2. Figure 8 shows a connection example of a daisy chain. MCLK AK5384 #1 LRCK BICK TDMIN SDTO1 SDTO2 GND 256fs or 512fs 48kHz 256fs MCLK AK5384 #2 LRCK BICK TDMIN SDTO1 SDTO2 8ch TDM Figure 8. Cascade TDM Connection Diagram 256 BICK LRCK BICK(256fs) #1 SDTO1(o) 23 22 0 23 22 0 23 22 0 23 22 0 23 22 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK #1 SDTO2(o) 23 22 0 23 22 0 23 22 0 23 22 0 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK #2 TDMIN(i) 23 22 0 23 22 0 23 22 0 23 22 0 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK #2 SDTO1(o) 23 22 0 23 22 0 23 22 0 23 22 0 23 22 0 23 22 0 23 22 0 23 22 0 23 22 L1 32 BICK R1 32 BICK L2 32 BICK R2 32 BICK L1-#1 32 BICK R1-#1 32 BICK L2-#1 32 BICK R2-#1 32 BICK Figure 9. Cascade TDM Timing MS0225-E-00 - 16 - 2003/05 ASAHI KASEI [AK5384] SYSTEM DESIGN Figure 10 shows the system connection diagram. An evaluation board is available which demonstrates application circuits, the optimum layout, power supply arrangements and measurement results. 1 LIN2+ 2 LIN23 RIN2+ 4 RIN25 TEST 0.1 6 VCOM 2.2 Analog Supply 4.75 ~ 5.25V 10 8 AVDD 9 DIF 10 TDM1 11 TDM0 12 TDMIN 13 MCLK 14 OVF 0.1 7 AVSS LIN1+ 28 LIN1- 27 RIN1+ 26 RIN1- 25 M/S 24 CKS 23 AK5384 PDN 22 0.1 DVSS 21 Reset 10 DVDD 20 TVDD 19 SDTO1 18 SDTO2 17 BICK 16 0.1 Digital Supply 4.75 ~ 5.25V Digital Supply 3.0 ~ 5.25V DSP and uP LRCK 15 Note: - AVSS and DVSS of the AK5384 should be distributed separately from the ground of external digital devices (MPU, DSP etc.). - All digital input pins should not be left floating. Figure 10. Typical Connection Diagram (Normal mode) MS0225-E-00 - 17 - 2003/05 ASAHI KASEI [AK5384] 1. Grounding and Power Supply Decoupling The AK5384 requires careful attention to power supply and grounding arrangements. AVDD and DVDD are usually supplied from the analog supply in the system. Alternatively if AVDD and DVDD are supplied separately, the power up sequence is not critical. AVSS and DVSS of the AK5384 must be connected to analog ground plane. System analog ground and digital ground should be connected together near to where the supplies are brought onto the printed circuit board. Decoupling capacitors should be as near to the AK5384 as possible, with the small value ceramic capacitor being the closest. 2. Voltage Reference Inputs The differential voltage between AVDD and AVSS sets the analog input range. VCOM is a signal ground of this chip. An electrolytic capacitor 2.2F parallel with a 0.1F ceramic capacitor attached to VCOM pin eliminates the effects of high frequency noise. No load current may be drawn from the VCOM pin. All signals, especially clocks, should be kept away from the VCOM pin in order to avoid unwanted coupling into the AK5384. 3. Analog Inputs The AK5384 accepts +5V supply voltage. Any voltage which exceeds the upper limit of AVDD+0.3V and lower limit of AVSS-0.3V and any current beyond 10mA for the analog input pins (LIN+/-, RIN+/-) should be avoided. Excessive currents to the input pins may damage the device. Hence input pins must be protected from signals at or beyond these limits. Use caution specially in case of using 15V in other analog circuits. The analog inputs are differential and internally biased to the common voltage (AVDD/2) with 26k(typ). The input signal range between LIN(RIN)+ and LIN(RIN)- scales with the supply voltage and nominally 0.58 x AVDD. The AK5384 can accept input voltages from AVSS to AVDD. The ADC output data format 2's compliment. The internal HPF removes the DC offset. The AK5384 samples the analog inputs at 64fs. The digital filter rejects noise above the stop band except for multiples of 64fs. MS0225-E-00 - 18 - 2003/05 ASAHI KASEI [AK5384] 4. External Analog Inputs Circuit Figure 11 shows an input buffer circuit example 1. The input level of this circuit is 5.7Vpp (AK5384: typ. 2.9Vpp). 5.1k Analog In 5.7Vpp 22 VA 10k 10k VPNJM5532 Bias 0.1 10 Bias 10k VA = +5V VP+ = +15V VP- = -15V 4.7k VP+ 4.7k 330 2.9Vpp AIN+ Bias NJM5532 330 AIN2.9Vpp 1.5n AK5384 Figure 11. Input buffer circuit example 1 (DC coupled single-end input) Figure 12 shows an input buffer circuit example 2. The input level of this circuit is 5.7Vpp (AK5384: typ. 2.9Vpp). 5.1k Analog In 5.7Vpp 22 10k VPNJM5532 10 NJM5532 330 AIN10 2.9Vpp 1.5n 4.7k VP+ 4.7k 330 2.9Vpp AIN+ VP+ = +15V VP- = -15V AK5384 Figure 12. Input buffer circuit example 2 (AC coupled single-end input) Figure 13 shows an input buffer circuit example 3. The input level of this circuit is 2.9Vpp (AK5384: typ. 2.9Vpp). Analog In 2.9Vpp AIN+ 10 330 1.5n AK5384 AIN- Analog In 2.9Vpp 10 330 Figure 13. Input buffer circuit example 3 (Differential input) MS0225-E-00 - 19 - 2003/05 ASAHI KASEI [AK5384] PACKAGE 28pin VSOP (Unit: mm) *9.80.2 0.675 28 15 A 7.60.2 +0.1 0.15-0.05 0.10.1 Detail A 0.50.2 Seating Plane | 0.10 NOTE: Dimension "*" does not include mold flash. 0-10 2003/05 - 20 - 1.250.2 1 0.220.1 14 0.65 n Material & Lead finish Package molding compound: Lead frame material: Lead frame surface treatment: Epoxy Cu Solder (Pb free) plate MS0225-E-00 *5.60.2 ASAHI KASEI [AK5384] MARKING AKM AK5384VF XXXBYYYYC XXXBYYYYC Date code identifier XXXB : Lot number (X : Digit number, B : Alpha character) YYYYC : Assembly date (Y : Digit number, C : Alpha character) IMPORTANT NOTICE * These products and their specifications are subject to change without notice. Before considering any use or application, consult the Asahi Kasei Microsystems Co., Ltd. (AKM) sales office or authorized distributor concerning their current status. * AKM assumes no liability for infringement of any patent, intellectual property, or other right in the application or use of any information contained herein. * Any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. * AKM products are neither intended nor authorized for use as critical components in any safety, life support, or other hazard related device or system, and AKM assumes no responsibility relating to any such use, except with the express written consent of the Representative Director of AKM. As used here: a. A hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. b. A critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. * It is the responsibility of the buyer or distributor of an AKM product who distributes, disposes of, or otherwise places the product with a third party to notify that party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification. MS0225-E-00 - 21 - 2003/05 |
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