ASAHI KASEI [AK4620B] AK4620B 24-Bit 192kHz Audio CODEC with IPGA GENERAL DESCRIPTION The AK4620B is a high performance 24-bit CODEC that supports up to 192kHz record and playback. The on-board analog-to-digital converter has a high dynamic range due to AKM's Enhanced Dual-Bit architecture. The DAC utilizes AKM's Advanced Multi-Bit architecture that achieves low out-of-band noise and high jitter tolerance through the use of Switched Capacitor Filter (SCF) technology. The AK4620B has an input Programmable Gain Amplifier and is ideal for Pro Audio sound cards, Digital Audio Workstations, DVD-R, hard disk, CD-R recording/playback systems, and musical instrument recording. FEATURES * 24-bit 2-channel ADC - Selectable Single-ended or Differential Input - High Performance Linear Phase Digital Anti-Alias Filter Passband: 0 ~ 20.25kHz (@fs=44.1kHz) Ripple: 0.005dB Stopband Attenuation: 100dB - S/(N+D): 90dB (single-ended) 100dB (differential) - S/N: 110dB (single-ended) 113dB (differential) - Digital High-pass Filter for Offset Cancellation - Input PGA: 0dB to +18dB, 0.5dB/step (for single-ended input) - Input Digital Attenuator: 0dB to - 63dB, 0.5dB/step - Overflow Flag 2 - Audio Interface Format: MSB justified or I S * 24-bit 2-channel DAC - 24-bit 8 times Oversampling Linear Phase Digital Filter Ripple: 0.005dB Stopband Attenuation: 75dB - Switched-cap Low Pass Filter - Differential Outputs - S/(N+D): 97dB - S/N: 115dB - De-emphasis for 32kHz, 44.1kHz, 48kHz Sampling - Output Digital Attenuator: Linear 255 steps - Soft Mute - Zero Detection Function 2 - Audio interface format: MSB justified, LSB justified, I S, or DSD * High Jitter Tolerance * Sampling Rate: Up to 216kHz * P Interface: 3-wire Serial Interface * Master Clock - 128fs/192fs/256fs/384fs/512fs/768fs/1024fs * Power Supply: 5V 5%(Analog), 3V~3.6V with 5V tolerant I/O(Digital) * Small 30-pin VSOP package * Ta: -10 to 70 C MS0401-E-00 2005/07 -1- ASAHI KASEI [AK4620B] Block Diagram ADMODE VD VT DGND AINL+ AINL-/NC ADC DATT HPF PDN AINR+ AINR-/NC OVF OVFL/DZFL Audio I/F Controller OVFR/DZFR LRCK BICK SDTO SDTI MCLK DFS0 AOUTL+ AOUTLAOUTR+ AOUTR- DATT SMUTE DAC Control Register I/F VCOM VREF VA AGND DEM0 CSN/ DIF CCLK/ CKS1 P/S CDTI/ CKS0 Figure 1. Block Diagram * Compatibility with AK4528 / AK4524 Function Max fs ADC Inputs Input analog PGA Input digital ATT ADC S/(N+D) ADC DR, S/N ADC Digital Filter SA ADC Overflow detection DAC S/(N+D) DAC DR, S/N Output digital Attenuator DAC DSD mode DAC Zero-data detection X'tal Oscillating Circuit Master Mode Parallel Mode AK4524 96kHz Single-ended 0dB ~ +18dB 0.5dB/step Mute, -72dB ~ 0dB Pseudo-log step 90dB 100dB 75dB 94dB 110dB Mute, -72dB ~ 0dB Pseudo-log step X X - AK4528 108kHz Differential Mute, -72dB ~ 0dB Pseudo-log step 94dB 108dB 75dB 94dB 110dB Mute, -72dB ~ 0dB Pseudo-log step X MS0401-E-00 AK4620B 216kHz Single-ended Differential 0 ~ +18dB 0.5dB/step Mute,-63.5dB ~ 0dB Mute,-63.5dB ~ 0dB 0.5dB/step 0.5dB/step 90dB 100dB 110dB 113dB 100dB X 97dB 115dB Mute, -48dB ~ 0dB Mute, -48dB ~ 0dB Linear 256 steps Linear 256 steps X X X X: Available, -: NOT available 2005/07 -2- ASAHI KASEI [AK4620B] Ordering Guide AK4620BVF AKD4620B -10+70C Evaluation Board 30pin VSOP (0.65mm pitch) Pin Layout VCOM 1 30 AOUTR+ AINR+ 2 29 AOUTR- AINR-/NC 3 28 AOUTL+ AINL+ 4 27 AOUTL- AINL-/NC 5 26 DGND VREF 6 25 VD AGND 7 24 VT VA 8 23 ADMODE P/S 9 22 DEM0 MCLK 10 21 PDN LRCK/DSDR 11 20 DFS0 BICK/DCLK 12 19 CSN/DIF SDTO 13 18 CCLK/CKS1 SDTI/DSDL 14 17 CDTI/CKS0 OVFR/DZFR 15 16 OVFL/DZFL Top View MS0401-E-00 2005/07 -3- ASAHI KASEI [AK4620B] PIN/FUNCTION No. Pin Name I/O Function Common Voltage Output Pin, VA/2 Bias voltage of ADC inputs and DAC outputs. Rch Positive Input Pin Rch Negative Input Pin (when ADMODE pin="H") 1 VCOM O 2 AINR+ I I 3 AINR- 4 AINL+ 5 AINL- 6 VREF I 7 8 AGND VA - 9 P/S I 10 MCLK LRCK DSDR BICK I I I I No Connect pin (when ADMODE pin="L") No internal bonding. This pin should be open. Lch Positive Input Pin Lch Negative Input Pin (when ADMODE pin="H") No Connect pin (when ADMODE pin="L") No internal bonding. This pin should be open. Voltage Reference Input Pin, VA Used as a voltage reference by ADC & DAC. VREF is connected externally to filtered VA. Analog Ground Pin Analog Power Supply Pin, 4.75 5.25V Parallel/Serial Mode Select Pin "L": Serial Mode, "H": Parallel Mode Do not change this pin during PDN pin = "H". Master Clock Input Pin Input/Output Channel Clock Pin (in Parallel mode or when D/P bit="0" in Serial Mode) DSD Rch Data Input Pin (when D/P bit="1" in Serial Mode) Audio Serial Data Clock Pin (in Parallel mode or when D/P bit="0" in Serial Mode) DCLK SDTO SDTI I O I DSD Clock Pin (when D/P bit="1" in Serial Mode) Audio Serial Data Output Pin Audio Serial Data Input Pin (in Parallel mode or when D/P bit="0" in Serial Mode) DSDL OVFR DZFR OVFL DZFL I O O O O DSD Lch Data Input Pin (when D/P bit="1" in Serial Mode) Rch Over Flow Flag Pin (in Parallel mode or when ZOS bit="0" in Serial Mode) Rch Zero Detection Flag Pin (when ZOS bit="1" in Serial Mode) Lch Over Flow Flag Pin (in Parallel mode or when ZOS bit="0" in Serial Mode) Lch Zero Detection Flag Pin (when ZOS bit="1" in Serial Mode) CDTI CKS0 CCLK CKS1 I I I I Control Data Input Pin (in Serial Mode) Master Clock Select Pin (in Parallel Mode) Control Data Clock Pin (in Serial Mode) Master Clock Select Pin (in Parallel Mode) CSN I Chip Select Pin in Serial Mode (in Serial Mode) DIF I 20 DFS0 I 21 PDN I 22 DEM0 I 23 ADMODE I 11 12 13 14 15 16 17 18 19 I I I I Digital Audio Interface Select Pin (in Parallel Mode) "L": 24bit MSB justified, "H": I2S compatible Double Speed Sampling Mode Pin Power-Down Mode Pin "L": Power down reset and initialize the control register, "H": Power up De-emphasis Control Pin Analog Input Mode Select Pin "L": Single-ended Input & IPGA Enable "H": Differential Input & IPGA Bypass MS0401-E-00 2005/07 -4- ASAHI KASEI [AK4620B] PIN/FUNCTION (Continued) 24 25 26 27 28 29 30 VT VD DGND AOUTLAOUTL+ AOUTRAOUTR+ O O O O Input Buffer Tolerant Pin, 3.0 5.25V Digital Power Supply Pin, 3.0 3.6V Digital Ground Pin Lch Negative Analog Output Pin Lch Positive Analog Output Pin Rch Negative Analog Output Pin Rch Positive Analog Output Pin Note. Do not allow digital input pins (P/S, MCLK, LRCK/DSDR, BICK/DCLK, SDTI/DSDL, CDTI/CKS0, CCLK/CKS1, CSN/DIF, DFS0, PDN, DEM0 and ADMODE pins) to float. Handling of Unused Pin The unused I/O pin should be processed appropriately as below. Classification Pin Name AINL+, AINL-/NC, AINR+, AINR+NC Analog Input AINL+, AINL-/NC AINR+, AINR-/NC Analog Output Digital Input Digital Output AOUTL+, AOUTL-, AOUTR+, AOUTRDEM0 OVFL/DZFL, OVFR/DZFR Setting These pins should be open when ADMODE pin = "L". AINL+ pin is connected to AINL-/NC pin when ADMODE pin = "H". AINR+ pin is connected to AINR-/NC pin when ADMODE pin = "H". These pins should be open. This pin should be connected to DVSS. These pins should be open. MS0401-E-00 2005/07 -5- ASAHI KASEI [AK4620B] ABSOLUTE MAXIMUM RATINGS (AGND, DGND=0V;Note 1) Parameter Symbol min Power Supplies: Analog VA -0.3 Digital VD -0.3 Input Tolerant VT -0.3 |AGND - DGND| (Note 2) GND Input Current, Any Pin Except Supplies IIN Analog Input Voltage (Note 3) VINA -0.3 Digital Input Voltage (Note 4) VIND -0.3 Ambient Temperature (powered applied) Ta -10 Storage Temperature Tstg -65 max 6.0 6.0 6.0 0.3 10 VA+0.3 VT+0.3 70 150 Units V V V V mA V V C C Note 1. All voltages with respect to ground. Note 2. AGND and DGND must be connected to the same analog ground plane. Note 3. AINL+, AINL-/NC, AINR+ and AINR-/NC pins Note 4. P/S, MCLK, LRCK/DSDR, BICK/DCLK, SDTI/DSDL, CDTI/CKS0, CCLK/CKS1, CSN/DIF, DFS0, PDN, DEM0 and ADMODE pins. 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 (AGND, DGND=0V;Note 1) Parameter Symbol min typ Power Supplies Analog VA 4.75 5.0 (Note 5) Digital VD 3.0 3.3 Input Tolerant VT VD 5.0 Voltage Reference VREF 3.0 - max 5.25 3.6 5.25 VA Units V V V V Note 5. The power up sequence among VA, VD and VT is not critical. *AKM assumes no responsibility for the usage beyond the conditions in this datasheet. MS0401-E-00 2005/07 -6- ASAHI KASEI [AK4620B] ANALOG CHARACTERISTICS (ADC: Single-ended Input) (Ta=25C; VA=5V, VD=3.3V, VT=5V; AGND=DGND=0V; VREF=VA; fs=44.1kHz; Signal Frequency =1kHz; 24bit Data; Measurement frequency=20Hz 20kHz at fs=44.1kHz, 40Hz 40kHz at fs=96kHz, 40Hz 40kHz at fs=192kHz; unless otherwise specified) Parameter min typ max Units Input PGA Characteristics: Input Voltage (Note 6) 2.77 3.07 3.37 Vpp Input Resistance (Note 7) 0.7 5.1 k Step Size 0.2 0.5 0.8 dB Gain Control Range 0 18 dB ADC Analog Input Characteristics: IPGA=0dB Resolution 24 Bits S/(N+D) fs=44.1kHz -1dBFS 80 90 dB BW=20kHz -60dBFS 47 dB fs=96kHz -1dBFS 90 dB BW=40kHz -60dBFS 44 dB fs=192kHz -1dBFS 90 dB BW=40kHz -60dBFS 44 dB Dynamic Range (-60dBFS with A-weighted) 110 dB S/N (A-weighted) 101 110 dB Interchannel Isolation 90 105 dB Interchannel Gain Mismatch 0.2 0.5 dB Gain Drift 150 ppm/C Power Supply Rejection (Note 8) 50 dB ANALOG CHARACTERISTICS (ADC: Differential Input) (Ta=25C; VA=5V, VD=3.3V, VT=5V; AGND=DGND=0V; VREF=VA; fs=44.1kHz; Signal Frequency =1kHz; 24bit Data; Measurement frequency=20Hz 20kHz at fs=44.1kHz, 40Hz 40kHz at fs=96kHz, 40Hz 40kHz at fs=192kHz; unless otherwise specified) Parameter min typ max Units ADC Analog Input Characteristics: Resolution 24 Bits Input Voltage (Note 9) 2.62 2.82 3.02 Vpp Input Resistance fs=44.1kHz 8 14 k fs=48kHz 13 k fs=96kHz 13 k fs=192kHz 13 k S/(N+D) fs=44.1kHz -1dBFS 90 100 dB BW=20kHz -60dBFS 50 dB fs=96kHz -1dBFS 100 dB BW=40kHz -60dBFS 46 dB fs=192kHz -1dBFS 100 dB BW=40kHz -60dBFS 46 dB Dynamic Range (-60dBFS with A-weighted) 113 dB S/N (A-weighted) 103 113 dB Interchannel Isolation 90 120 dB Interchannel Gain Mismatch 0.1 0.5 dB Gain Drift 20 ppm/C Power Supply Rejection (Note 8) 50 dB MS0401-E-00 2005/07 -7- ASAHI KASEI [AK4620B] Note 6. Full scale (0dB) of the input voltage at PGA=0dB. This voltage is proportional to VREF. Vin(typ) = 3.07Vpp x VREF/5. Note 7. These values become smaller when a gain of IPGA is large. IPGA=0dB; typ. 5.1k, IPGA=+18dB; typ. 1.18k Note 8. PSR is applied to VA, VD, VT with 1kHz, 50mVpp. VREF pin is held a constant voltage. Note 9. Full scale (0dB) of the input voltage at 0dB. This voltage is proportional to VREF. Vin (typ) = 2.82Vpp x VREF/5. ANALOG CHARACTERISTICS (DAC) (Ta=25C; VA=5V, VD=3.3V, VT=5V; AGND=DGND=0V; VREF=VA; fs=44.1kHz; Signal Frequency =1kHz; 24bit Data; Measurement frequency=20Hz 20kHz at fs=44.1kHz, 40Hz 40kHz at fs=96kHz, 40Hz 40kHz at fs=192kHz; unless otherwise specified) DAC Analog Output Characteristics: Parameter min typ max Units Resolution 24 Bits Dynamic Characteristics 0dBFS S/(N+D) 87 97 dB fs=44.1kHz BW=20kHz 52 dB -60dBFS 0dBFS 97 dB fs=96kHz BW=40kHz 49 dB -60dBFS 0dBFS 97 dB fs=192kHz BW=40kHz 49 dB -60dBFS Dynamic Range (-60dBFS with A-weighted) (Note 10, Note 11) 115 dB S/N (A-weighted) (Note 11, Note 12) 107 115 dB Interchannel Isolation (1kHz) 90 110 dB DC Accuracy Interchannel Gain Mismatch 0.15 0.3 dB Gain Drift (Note 13) 20 ppm/C Output Voltage (Note 14) 2.6 2.8 3.0 Vpp Load Capacitance 25 pF Load Resistance (Note 15) 3 k Note 10. 100dB at 16bit data and 114dB at 20bit data. Note 11. By Figure 19. External LPF Circuit Example 2 for PCM. Note 12. S/N does not depend on input bit length. Note 13. The voltage on VREF is held +5V externally. Note 14. Full-scale voltage(0dB). Output voltage scales with the voltage of VREF. AOUT (typ.@0dB) = (AOUT+) - (AOUT-) = 5.6Vpp x VREF/5. Note 15. For AC-load. Parameter Power Supplies min Power Supply Current Normal Operation (PDN pin = "H") VA: ADC Single-ended Mode ADC Differential Mode VD+VT (fs=44.1kHz) (fs=96kHz) (fs=192kHz) Power-down mode (PDN pin = "L") (Note 16) VA VD+VT Note 16. All digital input pins are held VT or DGND. MS0401-E-00 typ max Units 60 55 11 21 27 90 83 41 mA mA mA mA mA 10 10 100 100 A A 2005/07 -8- ASAHI KASEI [AK4620B] ADC FILTER CHARACTERISTICS (fs=44.1kHz) (Ta=25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; Normal Speed Mode) Parameter Symbol min typ ADC Digital Filter (Decimation LPF): Passband (Note 17) -0.005dB PB 0 -0.02dB 20.25 -0.06dB 20.4 -6.0dB 22.05 Stopband (Note 17) SB 24.3 Passband Ripple PR Stopband Attenuation SA 100 Group Delay (Note 18) GD 43.2 Group Delay Distortion GD 0 ADC Digital Filter (HPF): Frequency Response (Note 17) -3dB FR 0.9 -0.1dB 6.0 ADC FILTER CHARACTERISTICS (fs=96kHz) (Ta=25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; Double Speed Mode) Parameter Symbol min typ ADC Digital Filter (Decimation LPF): Passband (Note 17) -0.005dB PB 0 -0.02dB 44.08 -0.06dB 44.5 -6.0dB 48.0 Stopband (Note 17) SB 53.0 Passband Ripple PR Stopband Attenuation SA 100 Group Delay (Note 18) GD 43.1 Group Delay Distortion GD 0 ADC Digital Filter (HPF): Frequency Response (Note 17) -3dB FR 2.0 -0.1dB 13.0 FILTER CHARACTERISTICS (fs=192kHz) (Ta=25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; Quad Speed Mode) Parameter Symbol min typ ADC Digital Filter (Decimation LPF): Passband (Note 17) -0.005dB PB 0 -0.02dB 88.18 89.0 -0.06dB 96.0 -6.0dB Stopband (Note 17) SB 106.0 Passband Ripple PR Stopband Attenuation SA 100 Group Delay (Note 18) GD 38.2 Group Delay Distortion GD 0 ADC Digital Filter (HPF): Frequency Response (Note 17) -3dB FR 4.0 -0.1dB 26.0 max Units 19.8 - kHz kHz kHz kHz kHz dB dB 1/fs s 0.005 Hz Hz max Units 43.0 - kHz kHz kHz kHz kHz dB dB 1/fs s 0.005 Hz Hz max Units 86.0 - kHz kHz kHz kHz kHz dB dB 1/fs s 0.005 Hz Hz Note 17. The passband and stopband frequencies scale with fs. The reference frequency of these responses is 1kHz. Note 18. 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. MS0401-E-00 2005/07 -9- ASAHI KASEI [AK4620B] DAC SHARP ROLL-OFF FILTER CHARACTERISTICS (fs = 44.1kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 44.1kHz; Normal Speed Mode; DEM = OFF; SLOW = "0") Parameter Symbol min typ max Units PB 0 24.1 22.05 20.0 - Digital Filter Passband 0.01dB -6.0dB Stopband Passband Ripple Stopband Attenuation Group Delay (Note 19) (Note 19) (Note 20) SB PR SA GD 75 - 28 - kHz kHz kHz dB dB 1/fs - 0.2 - dB 0.005 Digital Filter + SCF Frequency Response: 0 20.0kHz DAC SHARP ROLL-OFF FILTER CHARACTERISTICS (fs = 96kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 96kHz; Double Speed Mode; DEM = OFF; SLOW = "0") Parameter Symbol min (Note 19) PB (Note 19) SB PR SA GD 0 52.5 typ max Units 48.0 43.5 - Digital Filter Passband 0.01dB -6.0dB Stopband Passband Ripple Stopband Attenuation Group Delay (Note 20) 75 - 28 - kHz kHz kHz dB dB 1/fs - 0.3 - dB 0.005 Digital Filter + SCF Frequency Response: 0 40.0kHz DAC SHARP ROLL-OFF FILTER CHARACTERISTICS (fs = 192kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 192kHz; Quad Speed Mode; DEM = OFF; SLOW = "0") Parameter symbol min typ max Units Digital Filter Passband 0.01dB (Note 19) PB 0 87.0 kHz -6.0dB 96.0 kHz Stopband (Note 19) SB 105 kHz Passband Ripple PR 0.005 dB Stopband Attenuation SA 75 dB Group Delay (Note 20) GD 28 1/fs Digital Filter + SCF Frequency Response: 0 80.0kHz +0/-1 dB Note 19. The passband and stopband frequencies scale with fs. For example, PB = 0.4535xfs (@0.01dB), SB = 0.546xfs. Note 20. Delay time caused by digital filtering. This time is from setting the 16/20/24bit data of both channels to input register to the output of analog signal. MS0401-E-00 2005/07 - 10 - ASAHI KASEI [AK4620B] DAC SLOW ROLL-OFF FILTER CHARACTERISTICS (fs = 44.1kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 44.1kHz; Normal Speed Mode; DEM = OFF; SLOW = "1") Parameter Symbol min typ max Units PB 0 39.2 18.2 8.1 - Digital Filter Passband 0.04dB -3.0dB Stopband Passband Ripple Stopband Attenuation Group Delay (Note 21) (Note 21) (Note 20) SB PR SA GD 72 - 28 - kHz kHz kHz dB dB 1/fs - +0/-5 - dB 0.005 Digital Filter + SCF Frequency Response: 0 20.0kHz DAC SLOW ROLL-OFF FILTER CHARACTERISTICS (fs = 96kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 96kHz; Double Speed Mode; DEM = OFF; SLOW = "1") Parameter Symbol min (Note 21) PB (Note 21) SB PR SA GD 0 85.3 typ max Units 39.6 17.7 - Digital Filter Passband 0.04dB -3.0dB Stopband Passband Ripple Stopband Attenuation Group Delay (Note 20) 72 - 28 - kHz kHz kHz dB dB 1/fs - +0/-4 - dB 0.005 Digital Filter + SCF Frequency Response: 0 40.0kHz DAC SLOW ROLL-OFF FILTER CHARACTERISTICS (fs = 192kHz) (Ta = 25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; fs = 192kHz; Quad Speed Mode; DEM = OFF; SLOW = "1") Parameter Symbol min typ max Units PB 0 171 79.1 35.5 - Digital Filter Passband 0.04dB -3.0dB Stopband Passband Ripple Stopband Attenuation Group Delay (Note 21) (Note 21) (Note 20) SB PR SA GD 72 - 28 - kHz kHz kHz dB dB 1/fs - +0/-5 - dB 0.005 Digital Filter + SCF Frequency Response: 0 80.0kHz Note 21. The passband and stopband frequencies scale with fs. For example, PB = 0.185xfs (@0.04dB), SB = 0.888xfs. MS0401-E-00 2005/07 - 11 - ASAHI KASEI [AK4620B] DIGITAL CHARACTERISTICS (Ta=25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V) Parameter Symbol min High-Level Input Voltage VIH 70%VD Low-Level Input Voltage VIL High-Level Output Voltage (Iout=-100A) VOH VD-0.5 Low-Level Output Voltage (Iout=100A) VOL Input Leakage Current Iin - SWITCHING CHARACTERISTICS (Ta=25C; VA=4.75 5.25V; VD=3.0 3.6V, VT=3.0 5.25V; CL=20pF) Parameter Symbol min Master Clock Timing Frequency fCLK 8.192 Pulse Width Low tCLKL 0.4/fCLK Pulse Width High tCLKH 0.4/fCLK LRCK Frequency (Note 22) Normal Speed Mode (DFS0="0", DFS1="0") Double Speed Mode (DFS0="1", DFS1="0") Quad Speed Mode (DFS0="0", DFS1="1") Duty Cycle typ - typ max VT 30%VD 0.5 10 Units V V V V A max Units 55.296 MHz ns ns 54 108 216 55 kHz kHz kHz % fsn fsd fsq 32 54 108 45 PCM Audio Interface Timing BICK Period Normal Speed Mode Double Speed Mode Quad Speed Mode BICK Pulse Width Low Pulse Width High LRCK Edge to BICK "" (Note 23) BICK "" to LRCK Edge (Note 23) LRCK to SDTO (MSB) (Except I2S mode) BICK "" to SDTO SDTI Hold Time SDTI Setup Time tBCK tBCK tBCK tBCKL tBCKH tLRB tBLR tLRS tBSD tSDH tSDS 1/128fsn 1/64fsd 1/64fsq 33 33 20 20 20 20 ns ns ns ns ns ns ns ns ns ns ns DSD Audio Interface Timing DCLK Period DCLK Pulse Width Low Pulse Width High DCLK Edge to DSDL/R tDCK tDCKL tDCKH tDDD 1/64fs 160 160 -20 ns ns ns ns (Note 24) 20 20 20 Note 22. When the normal/double/quad speed modes are switched, the AK4620B should be reset by PDN pin or RSTN bit. Note 23. BICK rising edge must not occur at the same time as LRCK edge. Note 24. DSD data transmitting device must meet this time. MS0401-E-00 2005/07 - 12 - ASAHI KASEI [AK4620B] Parameter Control Interface Timing CCLK Period CCLK Pulse Width Low Pulse Width High CDTI Setup Time CDTI Hold Time CSN "H" Time CSN "" to CCLK "" CCLK "" to CSN "" Reset Timing PDN Pulse Width RSTAD "" to SDTO valid (Note 25) (Note 26) Symbol min tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH 200 80 80 50 50 150 50 50 tPD tPDV 150 typ max Units ns ns ns ns ns ns ns ns 516 ns 1/fs Note 25. The AK4620B can be reset by bringing PDN pin "L". Note 26. These cycles are the number of LRCK rising from RSTAD bit. MS0401-E-00 2005/07 - 13 - ASAHI KASEI [AK4620B] Timing Diagram 1/fCLK VIH MCLK VIL tCLKH tCLKL 1/fs VIH LRCK VIL tBCK VIH BICK VIL tBCKH tBCKL Clock Timing VIH VIL LRCK tBLR tLRB VIH VIL BICK tLRS tBSD 50%VD SDTO tSDS tSDH VIH VIL SDTI Audio Interface Timing (PCM mode) MS0401-E-00 2005/07 - 14 - ASAHI KASEI [AK4620B] tDCK tDCKL tDCKH VIH DCLK VIL tDDD VIH DSDL DSDR VIL Audio Serial Interface Timing (DSD Normal Mode, DCKB bit = "0") tDCK tDCKL tDCKH VIH DCLK VIL tDDD tDDD VIH DSDL DSDR VIL Audio Serial Interface Timing (DSD Phase Modulation Mode, DCKB bit = "0") MS0401-E-00 2005/07 - 15 - ASAHI KASEI [AK4620B] VIH CSN VIL tCSS tCCKL tCCKH VIH CCLK VIL tCDS C1 CDTI tCDH C0 R/W VIH A4 VIL WRITE Command Input Timing tCSW VIH CSN VIL tCSH VIH CCLK CDTI VIL D3 D2 D1 D0 VIH VIL WRITE Data Input Timing tPD PDN VIL Power Down & Reset Timing MS0401-E-00 2005/07 - 16 - ASAHI KASEI [AK4620B] OPERATION OVERVIEW D/A Conversion Mode In serial mode, the AK4620B can digitize either PCM data or DSD data. The P/D bit controls PCM/DSD mode. When DSD mode, DSD data input occurs on DCLK, DSDL and DSDR pins. The ADC and IPGA are in power down mode. In PCM mode, PCM data input occurs on BICK, SDTI and LRCK pins. When PCM/DSD mode changes (D/P bit), the AK4620B should be reset by setting RSTAD and RSTDA bits to "0" or by grounding the PDN pin. It takes from 2/fs to 3/fs to change the mode. In parallel mode, AK4620B can only process PCM data. D/P bit DAC mode ADC mode 0 PCM PCM 1 DSD Power down Table 1. DSD/PCM Mode Control System Clock Input 1. PCM Mode AK4620B requires MCLK, BICK and LRCK external clocks. MCLK should be synchronized with LRCK but the phase is not critical. External clocks (MCLK, BICK and LRCK) should always be present whenever the AK4620B is in normal operation mode (PDN pin = "H" and either the ADC and DAC is in normal operation mode). If these clocks are not provided, the AK4620B may draw excess current due to dynamic refresh of internal logic. If the external clocks are not present, the AK4620B should be in the power-down mode (PDN pin = "L" or power down both the ADC and DAC by the register). After exiting reset (PDN pin = "L" AE "H") at power-up etc., the AK4620B is in power-down mode until MCLK and LRCK are provided. As the AK4620B includes the phase detect circuit for LRCK, the AK4620B is reset automatically when the synchronization is out of phase by changing the clock frequencies. 1-1. Serial mode (P/S pin= "L") As shown in Table 2, Table 3 and Table 4, select the MCLK frequency by setting CMODE, CKS0-1 and DFS0-1 (DFS0 bit and DFS0 pin are internally ORd). These registers are changed when RSTAD bit = RSTDA bit = "0". DFS1 bit 0 0 1 1 OR of DFS0 bit / DFS0 pin Mode Sampling Rate 0 Normal speed 32kHz-54kHz 1 Double speed 54kHz-108kHz 0 Quad speed 108kHz-216kHz 1 N/A Table 2. Sampling speed in serial mode MS0401-E-00 Default 2005/07 - 17 - ASAHI KASEI [AK4620B] CMODE bit CKS1 bit 0 0 0 0 1 1 0 0 1 1 0 0 MCLK Normal Speed (DFS1-0 = "00") CKS0 bit MCLK Double Speed (DFS1-0 = "01") MCLK Quad Speed (DFS1-0 = "10") 0 256fs N/A N/A 1 512fs 256fs 128fs 0 1024fs 512fs 256fs 1 N/A Auto Setting Mode (*) N/A 0 384fs N/A N/A 1 768fs 384fs 192fs Table 3. Master clock frequency in serial mode ("*": refer to Table 4) Default The Auto Setting Mode detects MCLK/LRCK ratio and selects Normal/Double/Quad speed mode automatically. MCLK/LRCK ratio Mode Sampling Rate 512 or 768 Normal speed 32kHz-54kHz 256 or 384 Double speed 54kHz-108kHz 128 or 192 Quad speed 108kHz-216kHz Table 4. Auto Setting Mode in serial mode (DFS1-0 = "01", CMODE bit = "0", CKS1-0 bit = "11") 1-2. Parallel mode (P/S pin= "H") As shown in Table 5, Table 6 and Table 7, select the MCLK frequency with the CKS0-1 and DFS0 pins. These pins should be changed when the PDN pin = "L". DFS0 pin L H CKS1 pin Mode Sampling Rate Normal speed 32kHz-54kHz Double speed 54kHz-108kHz Table 5. Sampling speed in parallel mode CKS0 pin MCLK Normal Speed (DFS0 pin = "L") MCLK Double Speed (DFS0 pin = "H") L L 256fs N/A L H 512fs 256fs H L 384fs Auto Setting Mode (*) H H 1024fs 512fs Table 6. Master clock frequency in parallel mode ("*"; refer to Table 7.) The Auto Setting Mode detects MCLK/LRCK ratio and selects Normal/Double/Quad speed mode automatically. MCLK/LRCK ratio Mode Sampling Rate 512 or 768 Normal speed 32kHz-54kHz 256 or 384 Double speed 54kHz-108kHz 128 or 192 Quad speed 108kHz-216kHz Table 7. Auto Setting Mode in parallel mode (DFS0 pin = "H", CKS1 pin = "H", CKS0 pin = "L") MS0401-E-00 2005/07 - 18 - ASAHI KASEI [AK4620B] MCLK (Normal speed) 256fs 512fs 1024fs 384fs 768fs fs=44.1kHz 11.2896MHz 22.5792MHz 45.1584MHz 16.9344MHz 33.8688MHz MCLK (Quad speed) 128fs 256fs 192fs fs=176.4kHz 22.5792MHz 45.1584MHz 33.8688MHz fs=48kHz 12.288MHz 24.576MHz 49.152MHz 18.432MHz 36.864MHz MCLK (Double speed) N/A 256fs 512fs N/A 384fs fs=88.2kHz N/A 22.5792MHz 45.1584MHz N/A 33.8688MHz fs=96kHz N/A 24.576MHz 49.152MHz N/A 36.864MHz fs=192kHz 24.576MHz 49.152MHz 36.864MHz Table 8. Master clock frequency example 2. DSD Mode The external clocks, which are required to operate the AK4620B, are MCLK and DCLK. The master clock (MCLK) should be synchronized with DSD clock (DCLK) but the phase is not critical. The frequency of MCLK is set by DCKS bit. All external clocks (MCLK, DCLK) must be present whenever the AK4620B is in the normal operation mode (PDN pin = "H"). If these clocks are not provided, the AK4620B may draw excess current because the device utilizes dynamically refreshed logic. The AK4620B should be reset by PDN pin = "L" after these clocks are provided. If the external clocks are not present, the AK4620B should be in the power-down mode (PDN pin = "L"). After exiting reset (PDN pin = "") at power-up etc., the AK4620B is in the power-down mode until MCLK is provided. Audio Serial Interface Format 1. PCM Mode Five serial modes are supported and selected by the DIF2-0 bits in Serial Mode (two modes by DIF pin in Parallel Mode) as shown in Table 9 and Table 10. In all modes the serial data has MSB first, 2's complement format. The SDTO is clocked out on the falling edge of BICK and the SDTI is latched on the rising edge. Mode2 can be used for 20 and 16 MSB justified formats by zeroing the unused LSBs. Mode DIF2 DIF1 DIF0 0 1 2 3 4 0 0 0 0 1 0 0 1 1 0 0 1 0 1 0 Mode DIF pin 2 3 L H LRCK BICK 24bit, MSB justified 16bit, LSB justified 24bit, MSB justified 20bit, LSB justified 24bit, MSB justified 24bit, MSB justified 24bit, I2S 24bit, I2S 24bit, MSB justified 24bit, LSB justified Table 9. Audio data format (Serial Mode) SDTO SDTI H/L H/L H/L L/H H/L 48fs 48fs 48fs 48fs 48fs SDTO BICK SDTI LRCK 24bit, MSB justified 24bit, MSB justified H/L 24bit, I2S 24bit, I2S L/H Table 10. Audio data format (Parallel Mode) MS0401-E-00 Default 48fs 48fs 2005/07 - 19 - ASAHI KASEI [AK4620B] LRCK 0 1 2 3 17 18 19 20 30 31 0 1 2 3 17 18 19 20 31 0 1 BICK(64fs) SDTO(o) 23 22 21 SDTI(i) 7 Don't Care 6 5 4 3 23 22 21 15 14 13 12 11 2 1 7 Don't Care 0 6 5 4 3 23 15 14 13 12 11 SDTO-19:MSB, 0:LSB; SDTI-15:MSB, 0:LSB Lch Data 2 1 0 Rch Data Figure 2. Mode 0 Timing LRCK 0 1 2 12 13 14 24 25 31 0 1 2 12 13 14 24 25 31 0 1 BICK(64fs) SDTO(o) 23 22 SDTI(i) 12 11 10 Don't Care 0 19 18 23 22 8 7 1 12 11 10 Don't Care 0 0 19 18 SDTO-23:MSB, 0:LSB; SDTI-19:MSB, 0:LSB Lch Data 23 8 7 1 0 Rch Data Figure 3. Mode 1 Timing LRCK 0 1 2 18 19 20 21 22 23 24 25 0 1 2 18 19 20 21 22 23 24 25 0 1 BICK(64fs) SDTO(o) 23 22 5 4 3 2 1 0 23 22 5 4 3 2 1 0 SDTI(i) 23 22 5 4 3 2 1 0 Don't Care 23 22 5 4 3 2 1 0 Don't Care 23:MSB, 0:LSB Lch Data 23 Rch Data Figure 4. Mode 2 Timing LRCK 0 1 2 3 19 20 21 22 23 24 25 0 1 2 3 19 20 21 22 23 24 25 0 1 BICK(64fs) SDTO(o) 23 22 5 4 3 2 1 0 23 22 5 4 3 2 1 0 SDTI(i) 23 22 5 4 3 2 1 0 Don't Care 23 22 5 4 3 2 1 0 Don't Care 23:MSB, 0:LSB Lch Data Rch Data Figure 5. Mode 3 Timing MS0401-E-00 2005/07 - 20 - ASAHI KASEI [AK4620B] LRCK 0 1 2 8 9 10 20 21 31 0 1 2 8 9 10 20 21 31 0 1 BICK(64fs) SDTO(o) SDTI(i) 23 22 16 15 14 Don't Care 23:MSB, 0:LSB 23 22 0 12 11 23 22 1 0 16 15 14 Don't Care Lch Data 23 22 0 12 11 23 1 0 Rch Data Figure 6. Mode 4 Timing MS0401-E-00 2005/07 - 21 - ASAHI KASEI [AK4620B] 2. DSD Mode In DSD mode, DIF0-2 is ignored. The frequency of DCLK is fixed at 64fs. The DCKB bit inverts the polarity of DCLK. DCLK (64fs) DCKB=1 DCLK (64fs) DCKB=0 DSDL,DSDR Normal D0 DSDL,DSDR Phase Modulation D0 D1 D1 D2 D1 D2 D3 D3 D2 Figure 7. DSD Mode Timing D/A conversion mode switching timing RSTDA bit 4/fs D/A Mode PCM Mode DSD Mode 0 D/A Data PCM Data DSD Data Figure 8. D/A Mode Switching Timing (PCM to DSD) RSTDA bit D/A Mode DSD Mode PCM Mode 4/fs D/A Data DSD Data PCM Data Figure 9. D/A Mode Switching Mode Timing (DSD to PCM) Caution: In DSD mode, the signal level ranges from 25% to 75%. Peak levels of DSD signal above this range are not recommended by the SACD format book (Scarlet Book). MS0401-E-00 2005/07 - 22 - ASAHI KASEI [AK4620B] Input Volume The AK4620B includes two channel-independent analog volumes (IPGA), each with 32 levels in 0.5dB increments. These are located in front of the ADC while digital volume controls (IATT) with 128 levels (including MUTE) are located after the ADC. Control of both of these volume settings is handled by the same register address. When the MSB of the register is "1", the IPGA changes and when the MSB = "0" the IATT changes. The IPGA is an analog volume control that improves the S/N ratio compared with digital volume controls (Table 11). Level changes only occur during zero-crossings to minimize switching noise. Channel independent zero-crossing detection is used. If there are no zero-crossings, then the level will change after a time-out. The time-out period scales with fs. The periods of 256/fs, 512/fs, 1024/fs and 2048/fs are selected by ZTM1-0 bits in normal speed mode. If a new value is written to the IPGA register before the IPGA changes at the zero crossing or time-out, the previous value becomes invalid. The timer (channel independent) for time-out is reset and the timer restarts for the new IPGA value. ZCEI bits in the control register enable zero-crossing detection. The IATT is a log volume that is linear-interpolated internally. When changing the level, the transition between ATT values has 29 levels and is done by soft changes, eliminating any switching noise. Input Gain Setting 0dB +6dB fs=44.1kHz, A-weight 110dB 108dB Table 11. IPGA+ADC S/N (typ.) ZTM1 0 0 1 1 ZTM0 Normal speed Double speed 0 256/fs 512/fs 1 512/fs 1024/fs 0 1024/fs 2048/fs 1 2048/fs 4096/fs Table 12. LRCK cycles for timeout period +18dB 101dB Quad speed 1024/fs 2048/fs 4096/fs 8192/fs Default Output Volume The AK4620B includes channel independent digital output volumes (ATT) with 256 levels at linear steps including MUTE. These volumes are in front of the DAC and can attenuate the input data from 0dB to -48dB and mute. When changing levels, transitions are executed via soft changes, eliminating any switching noise. The transition time of 1 level and all 256 levels is shown in Table 13. Transition Time 1 Level 255 to 0 Normal Speed Mode 4LRCK 1020LRCK Double Speed Mode 8LRCK 2040LRCK Quad Speed Mode 16LRCK 4080LRCK Table 13. ATT Transition Time Sampling Speed MS0401-E-00 2005/07 - 23 - ASAHI KASEI [AK4620B] Overflow Detection The ADC has a channel independent overflow detection function. This function is enabled in the parallel control mode, or when the ZOS bit = ZOE bit = "0"in serial control mode. OVFL/R pins go to "H" if each Lch/Rch analog input overflows (exceeds -0.3dBFS). The output of each OVFL/R pin has same group delay as ADC against analog input. OVFL/R pin is "L" for 516/fs (=10.8ms @fs=48kHz) after PDN pin = "", and then overflow detection is enabled. Zero detection The DAC has a channel-independent zero detect function. The zero detect function is enabled when the ZOS bit = "1" and the ZOE bit = "0"in serial control mode. When the input data at both channels is continuously zero for 8192 LRCK cycles, the DZF pin of each channel goes to "H". The DZF pin of each channel immediately goes to "L" if the input data of each channel is not zero after DZF "H". If the RSTDA bit is "0", the DZF pins of both channels go to "H". DZF pins of both channels go to "L" at 4~5/fs after the RSTDA bit becomes "1". Zero detect function can be disabled by the ZOE bit. In this case, the DZF pins of both channels are always "L". The DZFB bit can invert the polarity of the DZF pin. Digital High Pass Filter The ADC has a digital high pass filter for DC offset cancellation. The cut-off frequency of the HPF is 0.9Hz at fs=44.1kHz. The digital high pass filter cutoff frequency scales with the sampling rate (fs). In parallel mode, the HPF is always enabled. In serial mode, the HPF can control each channel by HPLN/HPRN bits. De-emphasis Filter The DAC includes a digital de-emphasis filter (tc=50/15s) via an integrated IIR filter. This filter corresponds to three frequencies (32kHz, 44.1kHz, 48kHz). This setting is done via control register (DEM1-0 bits). This filter is always OFF in double and quad speed modes. The DEM0 pin and DEM0 bit are OR'd in serial control mode. In parallel control mode, the DEM1 bit is fixed to "0" and only the DEM0 pin can be controlled (44.1kHz or OFF). When in DSD mode, DEM1-0 bits are ignored. The setting value is held even if PCM mode and DSD mode are switched. No DEM1 DEM0 Mode 0 0 0 44.1kHz 1 0 1 OFF 2 1 0 48kHz 3 1 1 32kHz Table 14. De-emphasis control (Normal Speed Mode) MS0401-E-00 Default 2005/07 - 24 - ASAHI KASEI [AK4620B] ADC Single-ended/Differential Input Mode The ADC has a selectable single-ended or differential input mode. This mode can be selected by ADMODE pin, AML bit and AMR bit. (See Table 15 and Table 16) In differential input mode, the IPGA is powered-down and bypassed. IATT can be controlled in differential mode. ADMODE pin Lch Rch L Single-ended Single-ended H Differential Differential Table 15. ADC Input Mode in parallel mode ADMODE pin L H AML bit AMR bit Lch Rch 0 0 Single-ended Single-ended 0 1 Single-ended Differential 1 0 Differential Single-ended 1 1 Differential Differential X X Differential Differential Table 16. ADC Input Mode in serial mode (X: Don't care) Soft Mute Operation Soft mute operation is performed in the digital domain of the DAC input. When the SMUTE bit goes to "1", the output signal is attenuated by - during ATT_DATA x ATT transition time (Table 12) from the current ATT level. When SMUTE bit is returned to "0", the mute is cancelled and the output attenuation gradually changes to the ATT level during ATT_DATA x ATT transition time. If soft mute is cancelled before attenuating to - after starting the operation, the attenuation is discontinued and returns to ATT level by the same cycle. The soft mute is effective for changing the signal source without stopping the signal transmission. SM U T E bit (1) (1) AT T _Level (3) Attenuation - GD (2) GD (2) AO U T D ZF pin (4) 8192/fs Notes: (1) ATT_DATA x ATT transition time (Table 12). For example, this time is 1020LRCK cycles (1020/fs) at ATT_DATA=255 in Normal Speed Mode. (2) Analog output corresponding to digital input has group delay (GD). (3) If the soft mute is cancelled before attenuating - after starting the operation, the attenuation is discontinued and returned to ATT level by the same cycle. (4) When the input data at each channel is continuously zero for 8192 LRCK cycles, DZF pin of each channel goes to "H". DZF pin immediately goes to "L" if input data are not zero after going DZF pin "H". Figure 10. Soft Mute and Zero Detection MS0401-E-00 2005/07 - 25 - ASAHI KASEI [AK4620B] Power Down & Reset The ADC and DAC of AK4620B are placed in power-down mode by bringing the PDN pin = "L". Each digital filter is also reset at the same time. The internal register values are initialized by bringing PDN pin to "L". This reset should always be done after power-up. As both control registers of the ADC and the DAC go to the reset state (RSTAD bit = RSTDA bit = "0"), each register should be cleared after performing the reset. In the case of the ADC, an analog initialization cycle starts after exiting the power-down or reset state. The output data (SDTO) is available after 516 cycles of LRCK clock. This initialization cycle does not affect the DAC operation. Power down mode can be also controlled by the registers (PWAD bit, PWDA bit). Pow er Supply PDN pin RSTAD(register) RSTDA(register) PWAD(register) PWDA(register) PWVR(register) ADC Internal State PD IATT Reset INITA 00H XXH 00H SDTO "0" PD Reset OATT FFH FFH (1) AOUT Hi-z External clocks INITA Normal 00H 00H XXH Output "0" XXH FI Output Normal VCOM * PD XXH FI DAC Internal State External Mute Example Normal PD FFH XXH XXH FADE Output * Normal XXH(2 ) Hi-z * XXH YYH YYH FADE * MCLK, LRCK, BICK The clocks can be stopped. * INITA: Initializing period of ADC analog section (516/fs). * PD: Power down state. The contents of all registers are held. * XXH, YYH: The current value in ATT registers. * FI: Fade in. After exiting power down and reset state, ATT value fades in. * FADE: After exiting power down and reset state, ATT value fades in/out. (1) When RSTDA is "L" and OATT value is written to "XXH", OATT value changes from FFH to XXH according to fade operation. (2) When PWDA is "L" and OATT value is written to "YYH", OATT value changes from XXH to YYH according to fade operation. * AOUT: Some pop noise may occur at "*". Figure 11. Reset & Power down sequence in serial mode MS0401-E-00 2005/07 - 26 - ASAHI KASEI [AK4620B] In parallel mode, both ADC and DAC are powered up with releasing internal reset state when PDN pin is set to "H". When PDN pin is "L", IATT is set to "00H (Mute)". After exiting power down mode, IATTs fade in to "80H (0dB)". At that time, ADC s output "0" during first 516/fs cycles. DAC does not have the initialization cycle and the operation of fade-in. Power Supply PDN pin ADC Internal State PD INITA IATT 00H 00HAE80H SDTO DAC Internal State AOUT External Mute Example External clocks "0" PD FI Normal PD INITA 80H 00H 00HAE80H Output Hi-Z PD Output * FI "0" Normal 80H Output Normal Output Hi-Z * Normal * MCLK, LRCK, BICK MCLK, LRCK, BICK The clocks can be stopped. * INITA: * PD: * FI: * AOUT: Initializing period of ADC analog section (516/fs). Power down state. Fade in. After exiting power down and reset state, ATT value fades in. Some pop noise may occur at "*". Figure 12. Reset & Power Down Sequence in parallel mode MS0401-E-00 2005/07 - 27 - ASAHI KASEI [AK4620B] Serial Control Interface The internal registers may be written to the 3-wire P interface pins: CSN, CCLK, CDTI. The data on this interface consists of Chip address (2bits, C0/1) Read/Write (1 bit), Register address (MSB first, 5 bits) and Control data (MSB first, 8 bits). Address and data is clocked in on the rising edge of CCLK. Data is latched out after the 16th rising edge of CCLK, following a high-to-low transition of CSN. Operation of the control serial port may be completely asynchronous with the audio sample rate. The maximum clock speed of the CCLK is 5MHz. The chip address is fixed to "10". The access to the chip address except for "10" is invalid. PDN pin = "L" resets the registers to their default values. Function Parallel mode Serial mode ADC Single-ended/Differential Input mode X X Overflow detection X X Zero detection X Soft Mute X Input Volume X Output Volume X HPF OFF X DSD mode X 16/20/24 bit LSB justified format of DAC X MCLK = 256fs @ Quad Speed X De-emphasis: 32kHz, 48kHz X Table 17. Function List (X: available, -: not available) CSN 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 CCLK CDTI C1 C0 R/W A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 C1-C0: R/W: A4-A0: D7-D0: Chip A ddress (Fixed to "10") READ/WRITE (Fixed to "1":WRITE) Register Address Cont rol data Figure 13. Control I/F Timing * READ command is not supported. * The control data can not be written when the CCLK rising edge is 15times or less or 17times or more during CSN is "L". MS0401-E-00 2005/07 - 28 - ASAHI KASEI [AK4620B] Register Map Addr 00H 01H 02H 03H 04H 05H 06H 07H Register Name Power Down Control Reset Control Clock and Format Control D7 SLOW D/P DIF2 Deem and Volume Control SMUTE Lch IPGA Control Rch IPGA Control Lch ATT Control Rch ATT Control IPGL7 IPGR7 ATTL7 ATTR7 D6 DZFB DCKS DIF1 HPRN IPGL6 IPGR6 ATTL6 ATTR6 D5 ZOE DCKB DIF0 HPLN IPGL5 IPGR5 ATTL5 ATTR5 D4 ZOS 0 CMODE ZCEI IPGL4 IPGR4 ATTL4 ATTR4 D3 0 AML CKS1 ZTM1 IPGL3 IPGR3 ATTL3 ATTR3 D2 PWVR AMR CKS0 ZTM0 IPGL2 IPGR2 ATTL2 ATTR2 D1 PWAD RSTAD DFS1 DEM1 IPGL1 IPGR1 ATTL1 ATTR1 D0 PWDA RSTDA DFS0 DEM0 IPGL0 IPGR0 ATTL0 ATTR0 Note: Data should not be written to addresses 08H through 1FH. PDN pin = "L" resets the registers to their default values. Control Register Setup Sequence When the PDN pin goes "L" to "H" upon power-up etc., the AK4620B will be ready for normal operation by the next sequence. In this case, all control registers are set to default values and the AK4620B is in the reset state. (1) Set the clock mode and the audio data interface mode. (2) Cancel the reset state by setting RSTAD bit or RSTDA bit to "1". Refer to Reset Contorl Register (01H). (3) ADC output and DAC output should be muted externally until canceling each reset state. The clock mode should be changed after setting RSTAD bit and RSTDA bit to "0". At that time, ADC outputs and DAC outputs should be muted externally. MS0401-E-00 2005/07 - 29 - ASAHI KASEI [AK4620B] Register Definitions Addr 00H Register Name Power Down Control DEFAULT D7 SLOW 0 D6 DZFB 0 D5 ZOE 0 D4 ZOS 0 D3 0 0 D2 PWVR 1 D1 PWAD 1 D0 PWDA 1 PWDA: DAC power down 0: Power down 1: Power up (Default) "0" powers down only the DAC section and then the AOUTs go to Hi-Z immediately. The contents of all registers are not initialized and enabled to write to the registers. After exiting power down mode, the OATTs fade in/out the setting value of the control register (06H & 07H). The analog output should be muted externally as some pop noise may occur when entering and exiting this mode. PWAD: ADC power down 0: Power down 1: Power up (Default) "0" powers down only the ADC and then the SDTO goes "L" immediately. The IPGAs also go "00H", but the contents of all registers are not initialized and enabled to write to the registers. After exiting power down mode, the IPGAs fade in the setting value of the control register (04H & 05H). At that time, the ADCs output "0" during first 516 LRCK cycles. PWVR: Vref power down 0: Power down 1: Power up (Default) "0" powers all sections down and then both ADC and DAC do not operate. The contents of all register values are not initialized and enabled to write to the registers. When PWAD and PWDA bits go to "0" and PWVR bit goes to "1", only the VREF section can be powered up. ZOS: Zero-detection/ Overflow-detection control for #15 and 16 pins. 0: Overflow detection for ADC input (Default) 1: Zero detection for DAC input. ZOE: Zero-detection / Overflow-detection Disable 0: Enable (Default) 1: Disable. Outputs "L". DZFB: Inverting Enable of DZF 0: DZF goes "H" at Zero Detection (Default) 1: DZF goes "L" at Zero Detection SLOW: DAC Slow Roll-off Filter Enable 0: Sharp Roll-off Filter (Default) 1: Slow Roll-off Filter MS0401-E-00 2005/07 - 30 - ASAHI KASEI Addr 01H Register Name Reset Control DEFAULT [AK4620B] D7 D/P 0 D6 DCKS 0 D5 DCKB 0 D4 0 0 D3 AML 0 D2 AMR 0 D1 RSTAD 0 D0 RSTDA 0 RSTDA: DAC reset 0: Reset (Default) 1: Normal Operation "0" resets the internal timing and the AOUTs go to VCOM voltage immediately. The contents of all registers are not initialized and enabled to write to the registers. After exiting the power down mode, the OATTs fade in the setting values of the control register (06H & 07H). The analog outputs should be muted externally since pop noise may occur when entering to and exiting from this mode. RSTAD: ADC reset 0: Reset (Default) 1: Normal Operation "0" resets the internal timing and then SDTO goes to "L" immediately. The IPGAs also go "00H", but the contents of all registers are not initialized and enabled to write to the register. After exiting the power down mode, the IPGAs fade in the setting value of the control register (04H & 05H). At that time, the ADCs output "0" during first 516 LRCK cycles. AML, AMR: default "0" (see Table 16) DCKB: Polarity of DCLK (DSD Only) 0: DSD data is available upon DCLK falling edge. (Default) 1: DSD data is available upon DCLK rising edge. DCKS: Master Clock Frequency Select at DSD mode (DSD only) 0: 512fs (Default) 1: 768fs D/P: DSD/PCM Mode Select 0: PCM mode (Default) 1: DSD mode Addr 02H Register Name Clock and Format Control DEFAULT D7 DIF2 0 D6 DIF1 1 D5 DIF0 0 D4 CMODE 0 D3 CKS1 0 D2 CKS0 0 D1 DFS1 0 D0 DFS0 0 DFS1-0: Sampling Speed Control (see Table 2) Default: Normal speed CMODE, CKS1-0: Master Clock Frequency Select (see Table 3) Default: 256fs DIF2-0: Audio data interface modes (see Table 9) 000: Mode 0 001: Mode 1 010: Mode 2 (Default) 011: Mode 3 100: Mode 4 Default: 24bit MSB justified for both ADC and DAC MS0401-E-00 2005/07 - 31 - ASAHI KASEI Addr 03H Register Name Deem and Volume Control DEFAULT [AK4620B] D7 D6 D5 SMUTE HPRN HPLN 0 0 0 D4 ZCEI 1 D3 ZTM1 1 D2 ZTM0 0 D1 DEM1 0 D0 DEM0 1 DEM1-0: De-emphasis response (see Table 3) 00: 44.1kHz 01: OFF (Default) 10: 48kHz 11: 32kHz ZTM1-0: Zero-crossing timeout period select (see Table 11) Default: 1024fs ZCEI: ADC IPGA Zero crossing enable 0: Input PGA gain changes occur immediately 1: Input PGA gain changes occur only on zero-crossing or after timeout. (Default) HPLN/RN: Left/Right channel Digital High Pass Filter Disable 0: Enable (Default) 1: Disable SMUTE: DAC Input Soft Mute control 0: Normal operation (Default) 1: DAC outputs soft-muted The soft mute is independent of the output ATT and performed digitally. MS0401-E-00 2005/07 - 32 - ASAHI KASEI Addr 04H 05H [AK4620B] Register Name Lch IPGA Control Rch IPGA Control DEFAULT D7 IPGL7 IPGR7 1 D6 IPGL6 IPGR6 0 D5 IPGL5 IPGR5 0 D4 IPGL4 IPGR4 0 D3 IPGL3 IPGR3 0 D2 IPGL2 IPGR2 0 D1 IPGL1 IPGR1 0 D0 IPGL0 IPGR0 0 IPGL/R7-0: ADC Input Gain Level Refer to Table 10 Default: 80H (0dB) The AK4620B includes two channel-independent analog volumes (IPGA), each with 32 levels in 0.5dB increments. These are located in front of the ADC while digital volume controls (IATT) with 128 levels (including MUTE) are located after the ADC. Control of both of these volume settings is handled by the same register address (04H for L-ch, 05H for R-ch). When the MSB of the register is "1", the IPGA changes and when the MSB= "0" the IATT changes. 80H is the crossover point of the IPGA and DATT, and both IPGA/IATT are set to 0dB. The IPGAs are set to "00H" when the PDN pin goes "L". After returning to "H", the IPGAs fade in the default value, "80H" by 531(1/fs) cycles. The IPGAs are set to "00H" when PWAD goes "0". After returning to "1", the IPGAs fade in the current value, but the ADC output is "0" during the first 516(1/fs) cycles. The IPAGs are set to "00H" when RSTAD goes "0". After returning to "1", the IPGAs fade in to the current value, but the ADC outputs "0" during the first 516(1/fs) cycles. IATTs can be controlled in differential mode. Data FFH ~ A5H A4H A3H : 82H 81H 80H 7FH 7EH : 02H 01H 00H Addr 06H 07H Analog Volume (dB) +18 +18 +17.5 : +1.0 +0.5 0 0 0 : 0 0 0 Register Name Lch OATT Control Rch OATT Control DEFAULT Step width Digital Total Gain (dB) (dB) ATT (dB) 0 +18 0 +18 0 +17.5 0.5 : : : 0 +1.0 0.5 0 +0.5 0.5 0 0 0.5 -0.5 -0.5 0.5 -1.0 -1.0 0.5 : : : -63.0 -63.0 0.5 -63.5 -63.5 0.5 MUTE MUTE Table 10. IPGA code table D7 ATTL7 ATTR7 1 D6 ATTL6 ATTR6 1 D5 ATTL5 ATTR5 1 D4 ATTL4 ATTR4 1 D3 ATTL3 ATTR3 1 IPGA Analog volume with 0.5dB/step IATT Digital volume with 0.5dB/step. Soft-changes between each level. D2 ATTL2 ATTR2 1 D1 ATTL1 ATTR1 1 D0 ATTL0 ATTR0 1 ATT7-0: Attenuation Level ATT = 20 log10 (ATT_DATA / 255) [dB] FFH : 0dB (Default) 00H : Mute MS0401-E-00 2005/07 - 33 - ASAHI KASEI [AK4620B] SYSTEM DESIGN Figure 14 & Figure 15 shows the system connection diagram. An evaluation board (AKD4620B) is available, which demonstrates application circuits, the optimum layout, power supply arrangements and measurement results. 0.1u 10u + 1 VCOM AOUTR+ 30 Rch Input Buffer 2 AINR+ AOUTR- 29 3 AINR- AOUTL+ 28 Lch Input Buffer 4 AINL+ AOUTL- 27 5 AINL- DGND 26 6 VREF VD 25 7 AGND VT 24 8 VA ADMODE 23 9 P/S DEM0 22 10 MCLK PDN 21 11 LRCK DFS0 20 CSN/DIF 19 13 SDTO CCLK/CKS1 18 14 SDTI CDTI/CKS0 17 15 OVFR/DZFR OVFL/DZFL 16 4.75 5.25V Analog Supply + 10u AK4620B 0.1u Rch LPF Rch Out Lch LPF Lch Out 0.1u 3.0 3.6V Digital Supply 3.0 5.25V Digital Supply 0.1u Audio DSP 12 BICK Mode Setting/ uP 330 330 33p 33p Notes: - AGND and DGND must be connected to the same analog ground plane. - When AOUT+/- drives some capacitive load, some resistance should be added in series between AOUT+/- and capacitive load. - All digital input pins must not be left floating. - When OVFR/DZFR pin and OVFL/DZFL pin are used, a 330 resistor and a 33pF capacitor should be added to OVFR/DZFR pin and OVFL/DZFL pin to avoid the coupling from SDTO pin. Figure 14. Typical Connection Diagram (Differential mode) MS0401-E-00 2005/07 - 34 - ASAHI KASEI [AK4620B] 0.1u 4.75 5.25V Analog Supply + 10u 10u + 1 VCOM AOUTR+ 30 2 AINR+ AOUTR- 29 3 NC AOUTL+ 28 4 AINL+ AOUTL- 27 5 NC DGND 26 6 VREF VD 25 7 AGND VT 24 8 VA ADMODE 23 9 P/S DEM0 22 10 MCLK PDN 21 11 LRCK DFS0 20 CSN/DIF 19 13 SDTO CCLK/CKS1 18 14 SDTI CDTI/CKS0 17 15 OVFR/DZFR OVFL/DZFL 16 AK4620B 0.1u Rch LPF Rch Out Lch LPF Lch Out 0.1u 3.0 3.6V Digital Supply 3.0 5.25V Digital Supply 0.1u Audio DSP 12 BICK Mode Setting/ uP 330 330 33p 33p Notes: - AGND and DGND must be connected to the same analog ground plane. - When AOUT+/- drives some capacitive load, some resistor should be added in series between AOUT+/- and capacitive load. - All digital input pins must not be left floating. - When OVFR/DZFR pin and OVFL/DZFL pin are used, a 330 resistor and a 33pF capacitor should be added to OVFR/DZFR pin and OVFL/DZFL pin to avoid the coupling from SDTO pin. Figure 15. Typical Connection Diagram (Single-ended mode) MS0401-E-00 2005/07 - 35 - ASAHI KASEI [AK4620B] Digital Ground Analog Ground System Controller 1 VCOM AOUTR+ 30 2 AINR+ AOUTR- 29 3 AINR-/NC AOUTL+ 28 4 AINL+ AOUTL- 27 5 AINL-/NC DGND 26 6 VREF VD 25 7 AGND VT 24 8 VA ADMODE 23 9 P/S DEM0 22 10 MCLK PDN 21 11 LRCK DFS0 20 12 BICK CSN/DIF 19 13 SDTO CCLK/CKS1 18 14 SDTI CDTI/CKS0 17 15 OVFR/DZFR OVFL/DZFL 16 AK4620B Figure 16. Ground Layout 1. Grounding and Power Supply Decoupling The AK4620B requires careful attention to power supply and grounding layout. To minimize coupling from digital noise, decoupling capacitors should be connected to VA, VD and VT respectively. VA is supplied from the analog supply in the system, and VD and VT are supplied from the digital supply in the system. Power lines of VA, VD and VT should be distributed separately from the point with low impedance of regulator etc. The power up sequence is not critical among VA, VD and VT. AGND and DGND must be connected to one analog ground plane. Decoupling capacitors should be as near to the AK4620B as possible, with the small value ceramic capacitor being the nearest. 2. Voltage Reference The differential voltage between VREF and AGND sets the analog input/output range. VREF pin is normally connected to VA with a 0.1F ceramic capacitor. VCOM is the signal ground of this chip. A 10F electrolytic capacitor in 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 VCOM pin. All signals, especially clocks, should be kept away from the VREF and VCOM pins in order to avoid unwanted coupling into the AK4620B. 3. ADC Output The ADC output data format is 2's complement. The DC offset, including the ADC's own DC offset, is removed by the internal HPF. The AK4620B samples the analog inputs at 128fs. The digital filter rejects noise above the stopband except for multiples of 128fs. MS0401-E-00 2005/07 - 36 - ASAHI KASEI [AK4620B] 4. Analog Inputs 4-1. Single-ended Input (ADMODE pin = "L") The IPGA inputs are single-ended. The input resistance of IPGA is typically 5.1k at IPGA=0dB and typically 1.18k at IPGA=+18dB. The input signal is typically AC coupled through a capacitor. The cut-off frequency is fc = (1/2RC). The input signal range scales with the VREF voltage and is nominally 3.07Vpp (VREF=5V) centered around the internal common voltage (about VA/2). In single-ended mode, the AK4620B includes an anti-aliasing filter (RC filter) to attenuate noise around 128fs. 4-2. Full-Differential Input (ADMODE pin = "H") The AK4620B can accept input voltages from AGND to VA. The input signal range scales with the VREF voltage and is nominally 2.82Vpp (VREF = 5V), centered around the internal common voltage (about VA/2). Figure 17 shows an input buffer circuit example. This is a fully differential input buffer circuit with an inverted amplifier (gain: -10dB). The capacitor of 10nF between AINL+/- (AINR+/-) decreases the clock feedthrough noise of the modulator, and composes a 1st order LPF (fc=360kHz) with a 22 resistor before the capacitor. This circuit also has a 1st order LPF (fc=370kHz) composed of op-amp. The evaluation board should be referred about the detail. 910 4.7k 4.7k 470p VP+ Analog In 47 3k 22 2.82Vpp AIN+ VP9.3Vpp Bias NJM5532 910 VA 10k 47 22 AIN- 0.1 10 Bias 10k 3k AK4620B 10n 470p VA = 5V VP+ = 15V VP- = -15V Bias 2.82Vpp Figure 17. Input Buffer example in differential mode MS0401-E-00 2005/07 - 37 - ASAHI KASEI [AK4620B] 5. Analog Outputs The analog outputs are fully differential and 2.8Vpp (typ. VREF = 5V), centered around VCOM. The differential outputs are summed externally: Vout = (AOUT+)-(AOUT-) between AOUT+ and AOUT-. If the summing gain is 1, the output range is 5.6Vpp (typ. VREF = 5V). The bias voltage of the external summing circuit is supplied externally. The input data format is 2's complement. The output voltage is a positive full scale for 7FFFFFH(@24bit) and a negative full scale for 800000H(@24bit). The ideal AOUT is 0V for 000000H(@24bit). The internal switched-capacitor filter and the external LPF attenuate the noise generated by the delta-sigma modulator beyond the audio passband. Figure 18 shows an example of external LPF circuit summing the differential outputs by an op-amp. Figure 19 shows an example of differential outputs and LPF circuit example by three op-amps. AK4620B 4.7k 4.7k AOUT200 330p +Vop AOUT+ 2.2n 4.7k 4.7k Analog Out 200 330p -Vop Figure 18. External LPF Circuit Example 1 for PCM (fc = 136kHz, Q=0.694) Frequency Response Gain 20kHz -0.01dB 40kHz -0.06dB 80kHz -0.59dB Table 18. Filter Response of External LPF Circuit Example 1 for PCM MS0401-E-00 2005/07 - 38 - ASAHI KASEI [AK4620B] +15 3.3n + 180 AOUTL- + 0.1u 7 3 2 + 4 3.9n 10k 330 -15 10u 6 NJM5534D + 10u 0.1u 620 620 3.3n + 100u 180 3 + 2 - AOUTL+ + 3.9n 10k 330 7 6 1.2k 2 - 4 3 + 7 Lch 1.0n NJM5534D 10u 0.1u 680 100 6 0.1u 4 NJM5534D +10u 1.0n 1.2k 680 0.1u 560 560 100u + + 10u 10u 0.1u Figure 19. External LPF Circuit Example 2 for PCM 1st Stage 2nd Stage Total Cut-off Frequency 182kHz 284kHz Q 0.637 Gain +3.9dB -0.88dB +3.02dB 20kHz -0.025 -0.021 -0.046dB Frequency 40kHz -0.106 -0.085 -0.191dB Response 80kHz -0.517 -0.331 -0.848dB Table 19. Filter Response of External LPF Circuit Example 2 for PCM MS0401-E-00 2005/07 - 39 - ASAHI KASEI [AK4620B] It is recommended by SACD format book (Scarlet Book) that the filter response at SACD playback is an analog low pass filter with a cut-off frequency of maximum 50kHz and a slope of minimum 30dB/Oct. The AK4620B can achieve this filter response by combination of the internal filter (Table 20) and an external filter (Figure 20). Frequency Gain 20kHz -0.4dB 50kHz -2.8dB 100kHz -15.5dB Table 20. Internal Filter Response at DSD mode 2.0k 1.8k 4.3k AOUT1.0k 270p 2.8Vpp 2200p +Vop 3300p 2.0k 1.8k 1.0k AOUT+ + 2.8Vpp 4.3k 270p Analog Out 6.34Vpp -Vop Figure 20. External 3rd order LPF Circuit Example for DSD Frequency Gain 20kHz -0.05dB 50kHz -0.51dB 100kHz -16.8dB DC gain = 1.07dB Table 21. 3rd order LPF (Figure 20) Response MS0401-E-00 2005/07 - 40 - ASAHI KASEI [AK4620B] PACKAGE 30pin VSOP (Unit: mm) 1.5MAX *9.70.1 0.3 30 16 15 1 0.220.1 7.60.2 5.60.1 A 0.15 +0.10 -0.05 0.65 0.12 M 0.450.2 +0.10 0.08 0.10 -0.05 1.20.10 Detail A NOTE: Dimension "*" does not include mold flash. Material & Lead finish Package molding compound: Epoxy Lead frame material: Cu Lead frame surface treatment: Solder (Pb Free) plate MS0401-E-00 2005/07 - 41 - ASAHI KASEI [AK4620B] MARKING AKM AK4620BVF XXXBYYYYC XXXBYYYYC Date code identifier XXXB : Lot number (X : Digit number, B : Alpha character) YYYYC : Assembly date (Y : Digit number, C : Alpha character) Revision History Date (YY/MM/DD) 05/07/08 Revision 00 Reason First Edition Page Contents 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. MS0401-E-00 2005/07 - 42 -