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| ASAHI KASEI [AK4353] 96kHz 24Bit DAC with DIT GENERAL DESCRIPTION The AK4353 is a stereo CMOS D/A Converter and Digital Audio Interface Transmitter. The DAC signal outputs are single-ended and are analog filtered to remove out of band noise. Therefore no external filters are required. The AK4353 can operate at the power supply from 2.7V to 5.5V and the digital I/F can correspond to both TTL and CMOS levels. FEATURES o Stereo DAC o S/(N+D): 90dB@5V o DR: 102dB@5V o S/N: 102dB@5V o Sampling Speed: 16kHz96kHz o Multiple Master Clock Frequencies: 256fs/384fs/512fs/768fs/1024fs/1536fs for Half speed (16kHz24kHz) 256fs/384fs/512fs/768fs for Normal speed (32kHz48kHz) 128fs/192fs/256fs/384fs for Double speed (64kHz96kHz) o Data Input Formats: LSB justified / MSB justified / I2S selectable o Selectable Function: Soft Mute Digital Attenuator (256 Steps) Digital De-emphasis (44.1kHz/48kHz/32kHz) o Output Mode: Stereo, Mono, Reverse, Mute o On-Chip Digital Audio Interface Transmitter: Compatible with S/PDIF, IEC958, AES/EBU & EIAJ CP1201 consumer mode o Input Level: TTL/CMOS Selectable o Output Level: 3.0Vpp@5V o Control mode: 3-wire Serial / I2C Bus o Low Power Dissipation: 80mW@5V o Small 24pin VSOP Package o Power Supply: 2.75.5V o Ta: -4085C AK4353 MS0016-E-01 -1- 2000/07 ASAHI KASEI [AK4353] n Block Diagram CAD1 CAD0 I2C CSN CCLK CDTI MCKI MCKO TX DIT AVDD LRCK BICK SDTI Serial Input Interface AVSS Clock Generator VCOM TTL ATT DVDD DVSS 8X Interpolator 8X Interpolator Modulator Modulator LPF AOUTL Mixer ATT LPF AOUTR DZF PDN Figure 1. 3-wire Serial Control Mode (I2C = "L") CAD1 CAD0 I2C CSN SCL SDA MCKI MCKO TX DIT AVDD LRCK BICK SDTI Serial Input Interface AVSS Clock Generator VCOM TTL ATT DVDD DVSS 8X Interpolator 8X Interpolator Modulator Modulator LPF AOUTL Mixer ATT LPF AOUTR DZF PDN Figure 2. I2C Bus Control Mode (I2C = "H") MS0016-E-01 -2- 2000/07 ASAHI KASEI [AK4353] n Ordering Guide AK4353VF AKD4353 -40+85C Evaluation Board 24pin VSOP n Pin Layout MCKO TX DVDD DVSS MCKI BICK SDTI LRCK PDN CSN SCL/CCLK SDA/CDTI 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 DZF NC AVDD AVSS VCOM AOUTL AOUTR CAD1 CAD0 I2C TTL TST Top View 19 18 17 16 15 14 13 MS0016-E-01 -3- 2000/07 ASAHI KASEI [AK4353] PIN/FUNCTION No. 1 2 3 4 5 6 7 8 9 Pin Name MCKO TX DVDD DVSS MCKI BICK SDTI LRCK PDN I/O O O I I I I I Description Master Clock Output Pin Same frequency as MCKI is output Transmit Channel Output Pin Digital Power Supply Pin, +2.7+5.5V Digital Ground Pin, 0V Master Clock Input Pin Serial Data Clock Pin Serial Data Input Pin Serial Input Channel Clock Pin Power-Down Pin When "L", the circuit is in power-down mode. The AK4353 should always be reset upon power-up. Chip Select Pin at 3-wire Serial control mode This pin should be connected to DVDD at I2C Bus control mode. Control Clock Pin at I2C bus control mode Control Clock Pin at 3-wire serial control mode Control Data Input/Output Pin at I2C Bus control mode Control Data Input Pin at 3-wire serial control mode Test pin This pin should be connected to DVDD. Digital Input Level Select Pin "L": CMOS, "H": TTL Control Mode Select Pin "L": 3-wire Serial, "H": I2C Bus Chip Address Select 0 Pin Chip Address Select 1 Pin Rch Analog Output Pin Lch Analog Output Pin Common Voltage Output Pin, AVDD/2 Used for analog common voltage. Large external capacitor is used to reduce power supply noise. Analog Ground Pin Analog Power Supply Pin No Connect Nothing should be connected externally to this pin. Zero Input Detect Pin When SDTI follows a total 8192 LRCK cycles with "0" input data or RSTN = "0", this pin goes to "H". 10 11 12 13 14 15 16 17 18 19 20 CSN SCL CCLK SDA CDTI TST TTL I2C CAD0 CAD1 AOUTR AOUTL VCOM I I I I/O I I I I I I O O O 21 22 23 24 AVSS AVDD NC DZF O Note: No input pins should be left floating. MS0016-E-01 -4- 2000/07 ASAHI KASEI [AK4353] ABSOLUTE MAXIMUM RATINGS (AVSS, DVSS=0V; Note 1) Parameter Symbol min Power Supplies Analog AVDD -0.3 Digital DVDD -0.3 |AVSS-DVSS| (Note 2) GND Input Current (any pins except for supplies) IIN Analog Input Voltage VINA -0.3 Digital Input Voltage VIND -0.3 Ambient Temperature Ta -40 Storage Temperature Tstg -65 Note:1. All voltages with respect to ground. 2. AVSS and DVSS must be connected to the same analog ground plane. max 6.0 6.0 0.3 10 AVDD+0.3 DVDD+0.3 85 150 Units V V V mA V V C C WARNING: Operation at or beyond these limits may results in permanent damage to the device. Normal operation is not guaranteed at these extremes. RECOMMENDED OPERATING CONDITIONS (AVSS, DVSS=0V; Note 1) Parameter Symbol min typ Power Supplies 3V operation (TTL = "L") (Note 3) Analog AVDD 2.7 3.0 Digital DVDD 2.7 3.0 5V operation (TTL = "H") Analog AVDD 4.5 5.0 Digital DVDD 4.5 5.0 Note:1. All voltages with respect to ground. 3. The power up sequence between AVDD and DVDD is not critical. max 5.5 3.6 or AVDD 5.5 AVDD Units V V V V *AKM assumes no responsibility for the usage beyond the conditions in this datasheet. MS0016-E-01 -5- 2000/07 ASAHI KASEI [AK4353] ANALOG CHARACTERISTICS (fs=44.1kHz) (Ta=25C; AVDD, DVDD=5V; fs=44.1kHz; DFS1-0 = "00"; CKS2-0 = "000"; DIF2-0 = "101"; Signal Frequency =1kHz; Measurement frequency=20Hz20kHz; unless otherwise specified) Parameter min typ Dynamic Characteristics Resolution S/(N+D) AVDD=5V 84 90 AVDD=3V 80 86 DR (-60dB input, A-weighted) AVDD=5V 94 102 AVDD=3V 90 97 S/N (A-weighted) AVDD=5V 94 102 AVDD=3V 90 97 Interchannel Isolation 90 110 DC Accuracy Interchannel Gain Mismatch 0.2 Gain Drift 20 Output Voltage AOUT=0.6x(AVDD-AVSS) AVDD=5V 2.8 3.0 AVDD=3V 1.66 1.8 Load Resistance (Note 4) 10 Load Capacitance Power Supplies Power Supply Current Normal Operation (PDN = "H") AVDD 8 DVDD (Note 5) 8 Power-Down-Mode (PDN = "L") AVDD+DVDD 10 Note:4. AC load. 5. DVDD drops to 4mA at DVDD=3V. max 24 Units Bits dB dB dB dB dB dB dB dB ppm/C Vpp Vpp k pF 0.5 3.2 1.94 25 12 16 100 mA mA A MS0016-E-01 -6- 2000/07 ASAHI KASEI [AK4353] ANALOG CHARACTERISTICS (fs=96kHz) (Ta=25C; AVDD, DVDD=5V; fs=96kHz; DFS1-0 = "01"; CKS2-0 = "001"; DIF2-0 = "101"; Signal Frequency =1kHz; Measurement frequency=20Hz40kHz; unless otherwise specified) Parameter min typ Dynamic Characteristics Resolution S/(N+D) AVDD=5V 80 86 AVDD=3V 78 84 DR (-60dB input) AVDD=5V 88 96 AVDD=3V 84 92 S/N AVDD=5V 88 96 AVDD=3V 84 92 Interchannel Isolation 90 110 DC Accuracy Interchannel Gain Mismatch 0.2 Gain Drift 20 Output Voltage AOUT=0.6x(AVDD-AVSS) AVDD=5V 2.8 3.0 AVDD=3V 1.66 1.8 Load Resistance (Note 4) 10 Load Capacitance Power Supplies Power Supply Current Normal Operation (PDN = "H") AVDD 8 DVDD (Note 6) 13 Power-Down-Mode (PDN = "L") AVDD+DVDD 10 Note:4. AC load. 6. DVDD drops to 7mA at DVDD=3V. max 24 Units Bits dB dB dB dB dB dB dB dB ppm/C Vpp Vpp k pF 0.5 3.2 1.94 25 12 26 100 mA mA A MS0016-E-01 -7- 2000/07 ASAHI KASEI [AK4353] FILTER CHARACTERISTICS (fs=44.1kHz) (Ta=25C; AVDD, DVDD=2.75.5V; fs=44.1kHz; DEM=OFF) Parameter Symbol min typ Digital Filter Passband (Note 7) -0.02dB PB 0 -6.0dB 22.05 Stopband (Note 7) SB 24.1 Passband Ripple PR Stopband Attenuation SA 54 Group Delay (Note 8) GD 20.1 Digital Filter + Analog Filter FR Frequency Response: 020.0kHz 0.2 max 20.0 0.02 - Units kHz kHz kHz dB dB 1/fs dB Note:7. The passband and stopband frequencies scale with fs. For example, PB=0.4535*fs(@0.02dB), SB=0.546*fs. 8. The calculating delay time which occurred by digital filtering. This time is from setting the 24bit data of both channels on the input register to the output of analog signal. FILTER CHARACTERISTICS (fs=96kHz) (Ta=25C; AVDD, DVDD=2.75.5V; fs=96kHz; DEM=OFF) Parameter Symbol min typ Digital Filter Passband (Note 7) -0.02dB PB 0 -6.0dB 48.0 Stopband (Note 7) SB 52.5 Passband Ripple PR Stopband Attenuation SA 54 Group Delay (Note 8) GD 20.1 Digital Filter + Analog Filter FR Frequency Response: 020.0kHz 0.2 40.0kHz 0.2 max 43.5 0.02 - Units kHz kHz kHz dB dB 1/fs dB dB Note:7. The passband and stopband frequencies scale with fs. For example, PB=0.4535*fs(@0.02dB), SB=0.546*fs. 8. The calculating delay time which occurred by digital filtering. This time is from setting the 24bit data of both channels on the input register to the output of analog signal. MS0016-E-01 -8- 2000/07 ASAHI KASEI [AK4353] DIGITAL CHARACTERISTICS (CMOS level input) (Ta=25C; AVDD=2.75.5V; DVDD=2.73.6V; TTL = "L") Parameter Symbol min typ High-Level Input Voltage VIH 0.7xDVDD Low-Level Input Voltage VIL High-Level Output Voltage (TX, MCKO pins: Iout=-100A) VOH DVDD-0.5 (DZF pin: Iout=-100A) VOH AVDD-0.5 Low-Level Output Voltage (TX, MCKO, DZF pins: Iout= 100A) VOL (SDA pin: Iout= 3mA) VOL Input Leakage Current Iin - max 0.3xDVDD 0.5 0.4 10 Units V V V V V V A DIGITAL CHARACTERISTICS (TTL level input; except for TTL pin) (Ta=25C; AVDD, DVDD=4.55.5V; TTL = "H") Parameter Symbol min typ max Units High-Level Input Voltage (TTL pin) VIH 0.7xDVDD V (All pins except for TTL pin) VIH 2.2 V Low-Level Input Voltage (TTL pin) VIL 0.3xDVDD V (All pins except for TTL pin) VIL 0.8 V High-Level Output Voltage (TX, MCKO pins: Iout=-100A) VOH DVDD-0.5 V (DZF pin: Iout=-100A) VOH AVDD-0.5 V Low-Level Output Voltage (TX, MCKO, DZF pins: Iout= 100A) VOL 0.5 V (SDA pin: Iout= 3mA) VOL 0.4 V Input Leakage Current Iin 10 A MS0016-E-01 -9- 2000/07 ASAHI KASEI [AK4353] SWITCHING CHARACTERISTICS (Ta=25C; AVDD, DVDD=2.75.5V; CL=20pF) Parameter Symbol min Master Clock Input: Frequency 128fs/256fs/512fs/1024fs fCLK 4.096 192fs/384fs/768fs/1536fs fCLK 6.144 Duty Cycle dCLK 40 LRCK: (Note 9) Frequency fsh 16 Half Speed Mode (DFS1-0 = "11") fsn 32 Normal Speed Mode (DFS1-0 = "00") fsd 64 Double Speed Mode (DFS1-0 = "01") Duty 45 Duty Cycle Serial Interface Timing: BICK Period Half Speed Mode tBCK 1/128fs Normal Speed Mode tBCK 1/128fs Double Speed Mode tBCK 1/64fs BICK Pulse Width Low tBCKL 70 BICK Pulse Width High tBCKH 70 tBLR 40 BICK "" to LRCK Edge (Note 10) tLRB 40 LRCK Edge to BICK "" (Note 10) tSDH 40 SDTI Hold Time tSDS 40 SDTI Setup Time Power-down & Reset Timing PDN Pulse Width (Note 11) tPDW 150 typ max Units 24.576 36.864 60 MHz MHz % 24 48 96 55 kHz kHz kHz % ns ns ns ns ns ns ns ns ns ns Note: 9. If sampling speed mode (DFS0-1) changes, please reset by PDN pin or RSTN bit. 10. BICK rising edge must not occur at the same time as LRCK edge. 11. The AK4353 can be reset by PDN pin "L" upon power up. If CKS0-2 or DFS0-1 changes, the AK4353 should be reset by PDN pin or RSTN bit. MS0016-E-01 - 10 - 2000/07 ASAHI KASEI [AK4353] Parameter Control Interface Timing (3-wire Serial mode): CCLK Period CCLK Pulse Width Low Pulse Width High CDTI Setup Time CDTI Hold Time CSN "H" Time CSN "" to CCLK "" CCLK "" to CSN "" Control Interface Timing (I2C Bus mode): SCL Clock Frequency Bus Free Time Between Transmissions Start Condition Hold Time (prior to first clock pulse) Clock Low Time Clock High Time Setup Time for Repeated Start Condition SDA Hold Time from SCL Falling (Note 12) SDA Setup Time from SCL Rising Rise Time of Both SDA and SCL Lines Fall Time of Both SDA and SCL Lines Setup Time for Stop Condition Pulse Width of Spike Noise Suppressed by Input Filter Symbol tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH fSCL tBUF tHD:STA tLOW tHIGH tSU:STA tHD:DAT tSU:DAT tR tF tSU:STO tSP min 200 80 80 40 40 150 50 50 4.7 4.0 4.7 4.0 4.7 0 0.25 4.0 0 typ max Units ns ns ns ns ns ns ns ns 100 1.0 0.3 50 kHz s s s s s s s s s s ns Note:12. Data must be held for sufficient time to bridge the 300 ns transition time of SCL. MS0016-E-01 - 11 - 2000/07 ASAHI KASEI [AK4353] n Timing Diagram 1/fCLK VIH VIL tCLKH tCLKL dCLK=tCLKH*fCLK*100 =tCLKL*fCLK*100 MCKI 1/fs VIH LRCK VIL 1/fBCK VIH VIL tBCKH tBCKL BICK Clock Timing VIH VIL tBLR tLRB VIH VIL tSDS tSDH VIH VIL LRCK BICK SDTI Serial Interface Timing tPDW PDN VIL Power-down & Reset Timing MS0016-E-01 - 12 - 2000/07 ASAHI KASEI [AK4353] VIH CSN VIL tCSS tCCKL tCCKH VIH VIL tCDS tCDH VIH VIL CCLK CDTI C1 C0 R/W A4 WRITE Command Input Timing (3-wire Serial mode) tCSW VIH CSN VIL tCSH CCLK VIH VIL CDTI D3 D2 D1 D0 VIH VIL WRITE Data Input Timing (3-wire Serial mode) VIH SDA VIL tBUF tLOW tR tHIGH tF tSP VIH SCL VIL tHD:STA Stop Start tHD:DAT tSU:DAT tSU:STA Start tSU:STO Stop I2C Bus mode Timing MS0016-E-01 - 13 - 2000/07 ASAHI KASEI [AK4353] OPERATION OVERVIEW n System Clock Input The external clocks which are required to operate the AK4353 are MCKI, LRCK and BICK. The master clock (MCKI) should be synchronized with sampling clock (LRCK) but the phase is not critical. MCKI is used to operate the digital interpolation filter and the delta-sigma modulator. The frequency of MCKI can be set by CKS2-0, and can be selected to half, normal or double speed mode by DFS1-0 (See Table 1). All external clocks (MCKI,BICK,LRCK) should always be present whenever the AK4353 is in the normal operation mode (PDN = "H"). If these clock are not provided, the AK4353 may draw excess current and may not possibly operate properly because the device utilizes dynamic refreshed logic internally. If the external clocks are not present, the AK4353 should be in the power-down mode (PDN = "L") or in the reset mode (RSTN = "0"). After exiting reset at power-up etc., the AK4353 is in the power-down mode until MCKI and LRCK are input. When the register data of CKS2-0 or DFS1-0 is changed during normal operation, the AK4353 should be reset by PDN pin "L" or RSTN bit "0". CKS2 0 0 0 0 1 1 1 1 CKS1 0 0 1 1 0 0 1 1 DFS1-0 "11" "00" "01" (Half speed) (Normal speed) (Double speed) 0 512fs 128fs 256fs 1 256fs 256fs 256fs 0 768fs 384fs 192fs 1 384fs 384fs 384fs 0 1024fs 512fs 256fs 1 512fs 512fs N/A 0 1536fs 768fs 384fs 1 768fs 768fs N/A Table 1. System Clock (DFS1-0="10": reserved) CKS0 default (DFS1-0 = "00") fs [kHz] 16 32 64 22.05 44.1 88.2 24 48 96 Mode Half Normal Double Half Normal Double Half Normal Double 128fs 8.1920 11.2896 12.2880 192fs 256fs 384fs 512fs 4.0960 6.1440 8.1920 8.1920 12.2880 16.3840 12.2880 16.3840 24.5760 5.6448 8.4672 11.2896 11.2896 16.9344 22.5792 16.9344 22.5792 33.8688 6.1440 9.2160 12.2880 12.2880 18.4320 24.5760 18.4320 24.5760 36.8640 Table 2. Example of System Clock [MHz] 768fs 12.2880 24.5760 16.9344 33.8688 18.4320 36.8640 - 1024fs 16.3840 22.5792 24.5760 - 1536fs 24.5760 33.8688 36.8640 - MS0016-E-01 - 14 - 2000/07 ASAHI KASEI [AK4353] n Audio Serial Interface Format Data is shifted in via the SDTI pin using BICK and LRCK inputs. 6 serial data modes are supported and selected by register data of DIF2-0 as shown in Table 3. In all modes the serial data is MSB-first, 2's compliment format and is latched on the rising edge of BICK. Mode 4 can be used for 20, 18 and 16 MSB justified formats by zeroing the unused LSBs. Mode 0 1 2 3 4 5 6 7 DIF2 0 0 0 0 1 1 1 1 DIF1 0 0 1 1 0 0 1 1 DIF0 SDTI 0 16bit, LSB justified 1 18bit, LSB justified 0 20bit, LSB justified 1 24bit, LSB justified 0 24bit, MSB justified 1 I2 S 0 Reserved 1 Reserved Table 3. Audio Data Format L/R H/L H/L H/L H/L H/L L/H BICK 32fs 36fs 40fs 48fs 48fs 48fs default LRCK 0 1 10 11 12 13 14 15 0 1 10 11 12 13 14 15 0 1 BICK (32fs) SDTI Mode 0 0 15 1 14 6 14 5 15 4 16 3 17 2 1 31 0 0 15 1 14 6 14 5 15 4 16 3 17 2 1 31 0 15 0 14 1 BICK (64fs) SDTI Mode 0 SDTI Mode 1 Don't care 15:MSB, 0:LSB Don't care 17:MSB, 0:LSB 0 1 7 8 11 12 31 0 1 7 8 11 12 31 0 1 15 14 0 Don't care 15 14 0 17 16 15 14 0 Don't care 17 16 15 14 0 BICK (64fs) SDTI Mode 2 SDTI Mode 3 Don't care 19:MSB, 0:LSB Don't care 23:MSB, 0:LSB 23 20 19 0 Don't care 23 20 19 0 19 0 Don't care 19 0 Lch Data Rch Data Figure 3. Mode 0-3 Timing MS0016-E-01 - 15 - 2000/07 ASAHI KASEI [AK4353] LRCK 0 1 2 22 23 24 30 31 0 1 2 22 23 24 30 31 0 1 BICK (64fs) SDTI 23 22 1 0 Don't care 23 22 1 0 Don't care 23 22 23:MSB, 0:LSB Lch Data Figure 4. Mode 4 Timing Rch Data LRCK 0 1 2 3 11 12 13 14 15 0 1 2 3 11 12 13 14 15 0 1 BICK (32fs) SDTI 8 23 22 13 12 11 10 9 8 23 22 13 12 11 10 9 8 23 0 1 2 3 23 24 25 31 0 1 2 3 23 24 25 31 0 1 BICK (64fs) SDTI 23 22 1 0 Don't care 23 22 1 0 Don't care 23 23:MSB, 0:LSB Lch Data Rch Data Figure 5. Mode 5 Timing n Data Transmission Format Data input via SDTI pin is formatted in digital interface format and output via TX pin. Data transmitted on the TX output is formatted in blocks as shown in figure 6. Each block consists of 192 frames. A frame of data contains two sub-frames. A sub-frame consists of 32 bits of information. Each data bit received is coded using a bi-phase mark encoding as a two binary state symbol. The preambles violate bi-phase encoding so they may be differentiated from data. In bi-phase encoding, the first state of an input symbol is always the inverse of the last state of the previous data symbol. For a logic 0, the second state of the symbol is the same as the first state. For a 1, the second state is the opposite of the first. Figure 7 illustrates a sample stream of 8 data bits encoded in 16 symbol states. M Channel 1 W Channel 2 B Channel 1 W Channel 2 M Channel 1 W Channel 2 Sub-frame Frame 191 Sub-frame Frame 1 Frame 0 Figure 6. Block format MS0016-E-01 - 16 - 2000/07 ASAHI KASEI [AK4353] 0 1 1 0 0 0 1 0 Figure 7. A biphase-encoded bit stream The sub-frame is defined in the figure below: - Bits 0-3 of the sub-frame represent a preamble for synchronization. There are three preambles: The block preamble, B, is contained in the first sub-frame of Frame 0. The channel 1 preamble, M, is contained in the first sub-frame of all other frames. The channel 2 preamble, W, is contained in all of the second sub-frames. Table 4 defines the symbol encoding for each of the preambles. - Bits 4-27 of the sub-frame contain the 24 bit audio sample in 2's complement format with bit 27 as the most significant bit (MSB). For 16 bit mode, Bits 4-11 are all 0. - Bit 28 is the validity flag. This is equal to V bit in the register. - Bit 29 is a user data bit. This is always "0" in the AK4353. - Bit 30 is a channel status bit. Frame 0 contains the first bit of the 192 bit word with the last bit in frame 191. - Bit 31 is an even parity bit for bits 4-31 of the sub-frame. 0 34 L S Sync B Audio sample Figure 8. Sub-frame format 27 28 29 30 31 M SVUCP B The block of data contains consecutive frames transmitted at a bit rate of 64 times the sample frequency, fs. Preamble B M W Preceding state = 0 11101000 11100010 11100100 Preceding state = 1 00010111 00011101 00011011 Table 4. Sub-frame preamble encoding Figure 9 shows the relation between input data to SDTI pin and audio data on sub-frame. 4 L Sub-frame S B Mode 0 Mode 1 Mode 2 Audio sample 27 M S B 15 17 19 23 0 012 01234 Mode 3,4,5 0 1 2 3 4 5 6 7 8 Figure 9. Relation between input data to SDTI pin and audio data on sub-frame MS0016-E-01 - 17 - 2000/07 ASAHI KASEI [AK4353] n De-emphasis filter A digital de-emphasis filter is available for 32, 44.1 or 48kHz sampling speed (tc=50/15s). It is enabled or disabled with the control register data of DEM1-0 and DFS1-0. The de-emphasis filter is disabled at half/double sampling mode. DEM1 DEM0 De-emphasis 0 0 44.1kHz 0 1 OFF default 1 0 48kHz 1 1 32kHz Table 5. De-emphasis filter control with DEM1-0 (DFS1-0="00") DFS1 DFS0 De-emphasis 0 0 See Table 5. default 0 1 OFF 1 0 OFF 1 1 OFF Table 6. De-emphasis filter control with DFS1-0 MS0016-E-01 - 18 - 2000/07 ASAHI KASEI [AK4353] n Zero detection When the input data at both channels is continuously zeros for 8192 LRCK cycles, DZF pin goes to "H". DZF pin immediately goes to "L" if input data is not zero after going DZF "H". If RSTN bit becomes "0", DZF pin goes to "H". DZF pin goes to "L" at 45/fs after RSTN bit returns to "1". n Soft mute operation Soft mute operation is performed at digital domain. When the serial control register data of SMUTE goes "1", the output signal is attenuated by - during 1024 LRCK cycles. When SMUTE is returned to "0", the mute is cancelled and the output attenuation gradually changes to 0dB during 1024 LRCK cycles. If the soft mute is cancelled within 1024 LRCK cycles after starting the operation, the attenuation is discontinued and returned to 0dB. The soft mute is effective for changing the signal source without stopping the signal transmission. SMUTE bit 1024/fs 0dB Attenuation (1) (3) 1024/fs - GD (2) AOUT (4) 8192/fs GD DZF pin Notes: (1) The output signal is attenuated by - during 1024 LRCK cycles (1024/fs). (2) Analog output corresponding to digital input have the group delay (GD). (3) If the soft mute is cancelled within 1024 LRCK cycles, the attenuation is discontinued and returned to 0dB. (4) When the input data at both channels are continuously zeros for 8192 LRCK cycles, DZF pin goes to "H". DZF pin immediately goes to "L" if input data are not zero after going DZF "H". Figure 10. Soft mute and zero detection MS0016-E-01 - 19 - 2000/07 ASAHI KASEI [AK4353] n Power-down The DAC is placed in the power-down mode by bringing PDN pin "L" and the digital filter is also reset at the same time. The internal register values are initialized by PDN "L". This reset should always be done after power-up. Because some click noise occurs at the edge of PDN, the analog output should be muted externally if the click noise influences system application. PDN Internal State D/A In (Digital) GD Normal Operation Power-down Normal Operation "0" data (1) GD D/A Out (Analog) Clock In MCKI, LRCK, BICK (3) (4) (2) (3) (1) Don't care DZF External MUTE (6) (5) Mute ON Notes: (1) The analog output corresponding to digital input has the group delay (GD). (2) Analog outputs are floating (Hi -Z) at the power-down mode. (3) Click noise occurs at the edge of PDN signal. This noise is output even if "0" data is input. (4) The external clocks (MCKI, BICK and LRCK) can be stopped in the power-down mode (PDN = "L"). (5) Please mute the analog output externally if the click noise (3) influences system application. The timing example is shown in this figure. (6) DZF pin is "L" in the power-down mode (PDN = "L"). Figure 11. Power-down/up sequence example MS0016-E-01 - 20 - 2000/07 ASAHI KASEI [AK4353] n Reset function When RSTN = "0", the DAC is powered down but the internal register values are not initialized. The analog outputs go to VCOM voltage and DZF pin goes to "H". Figure 12 shows the sequence of reset by RSTN bit. RSTN bit 2~3/fs (6) Internal RSTN bit Internal State D/A In (Digital) (1) D/A Out (Analog) Clock In MCKI,LRCK,BICK Normal Operation Digital Block Power-down Normal Operation "0" data GD GD (3) (2) (4) Don't care (3) (1) 2/fs(5) DZF Notes: (1) The analog output corresponding to digital input has the group delay (GD). (2) Analog outputs go to VCOM voltage. (3) Click noise occurs at the edges(" ") of the internal timing of RSTN bit. This noise is output even if "0" data is input. (4) The external clocks (MCKI, BICK and LRCK) can be stopped in the reset mode (RSTN = "L"). (5) DZF pin goes to "H" when the RSTN bit becomes "0", and goes to "L" at 4~5/fs after RSTN bit becomes "1". (6) There is a delay, 2~3/fs from RSTN bit "1" to the internal RSTN "1". Figure 12. Reset sequence example MS0016-E-01 - 21 - 2000/07 ASAHI KASEI [AK4353] n Serial Control Interface The AK4353 can control its functions via registers. Internal registers may be written by 2 types of control mode. The chip address is determined by the state of the CAD0 and CAD1 inputs. PDN = "L" initializes the registers to their default values. Writing "0" to the RSTN bit can initialize the internal timing circuit. But in this case, the register data is not be initialized. (1) 3-wire Serial Control Mode (I2C = "L") Internal registers may be written to the 3 wire P interface pins (CSN,CCLK and CDTI). The data on this interface consists of Chip address (2bits, CAD0/1), Read/Write (1bit, Fixed to "1"; Write only), Register address (MSB first, 5bits) and Control data (MSB first, 8bits). Address and data is clocked in on the rising edge of CCLK and data is clocked out on the falling edge. For write operations, data is latched after a low-to-high transition of CSN. The clock speed of CCLK is 5MHz(max). The CSN and CCLK pins should be held to "H" except for access. 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: Chip Address (C1=CAD1, C0=CAD0) R/W: Read/Write (Fixed to "1" : Write only) A4-A0: Register Address D7-D0: Control Data (2) I2C Bus Control Mode (I2C = "H") Internal registers may be written to I 2C Bus interface pins: SCL & SDA. The data on this interface consists of Chip address (2bits, CAD0/1), Read/Write (1bit, Fixed to "0"; Write only), Register address (MSB first, 5bits) and Control data (MSB first, 8bits). Address and data is clocked in on the rising edge of SCL and data is clocked out on the falling edge. Data can be written after a high-to-low transition of SDA when SCL is "H"(start condition), and is latched after a low-to-high transition of SDA when SCL is "H"(stop condition). The clock speed of SCL is 100kHz(max). The CSN pin should be connected to DVDD at I 2C Bus control mode. The AK4353 does not have a register address auto increment capability. R/W ACK ACK 0 0 0 A4 A3 A2 A1 A0 ACK SDA SCL Start 0 0 1 0 0 C1 C0 D7 D6 D5 D4 D3 D2 D1 D0 Stop C1-C0: Chip Address (C1=CAD1, C0=CAD0) R/W: Read/Write (Fixed to "0" : Write only) A4-A0: Register Address D7-D0: Control Data ACK: Acknowledge * When the AK4353 is in the power down mode (PDN = "L") or the MCLK is not provided, writing into the control register is inhibited. MS0016-E-01 - 22 - 2000/07 ASAHI KASEI [AK4353] n Mapping of Program Registers Addr 00H 01H 02H 03H 04H 05H 06H 07H Register Name Control 1 Control 2 Control 3 Lch ATT Rch ATT TX Channel Status 1 Channel Status 2 D7 0 0 PL3 ATT7 ATT7 0 0 CS15 D6 0 0 PL2 ATT6 ATT6 0 CS29 CS14 D5 0 DFS1 PL1 ATT5 ATT5 0 CS28 CS13 D4 0 DFS0 PL0 ATT4 ATT4 0 CS25 CS12 D3 DIF2 CKS2 DEM1 ATT3 ATT3 0 CS24 CS11 D2 DIF1 CKS1 DEM0 ATT2 ATT2 0 CS3 CS10 D1 DIF0 CKS0 ATC ATT1 ATT1 V CS2 CS9 D0 RSTN RSTN SMUTE ATT0 ATT0 TXE CS1 CS8 Note: For addresses from 08H to 1FH, data should not be written. When PDN goes to "L", the registers are initialized to their default values. When RSTN bit goes to "0", the internal timing is reset, DZF pin goes to "H" and registers are not initialized to their default values. MS0016-E-01 - 23 - 2000/07 ASAHI KASEI [AK4353] n Register Definitions Addr 00H Register Name Control 1 Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 DIF2 1 D2 DIF1 0 D1 DIF0 1 D0 RSTN 1 RSTN: Internal timing reset 0: Reset. DZF pin goes to "H" and registers are not initialized. 1: Normal operation When the states of DIF2-0,CKS2-0 or DFS1-0 changes, the AK4353 should be reset by PDN pin or RSTN bit. Some click noise may occur at that timing. DIF2-0: Audio data interface modes (See Table 3.) Initial: "101", Mode 5 Addr 01H Register Name Control 2 Default D7 0 0 D6 0 0 D5 DFS1 0 D4 DFS0 0 D3 CKS2 0 D2 CKS1 0 D1 CKS0 0 D0 RSTN 1 RSTN: Internal timing reset 0: Reset. DZF pin goes to "H" and registers are not initialized. 1: Normal operation When the states of DIF2-0,CKS2-0 or DFS1-0 changes, the AK4353 should be reset by PDN pin or RSTN bit. Some click noise may occur at that timing. CKS2-0: Clock select (See Table 1.) Initial: "000" DFS1-0: Half/Normal/Double sampling modes (See Table 1), De-emphasis response (See Table 6.) Initial: "00" MS0016-E-01 - 24 - 2000/07 ASAHI KASEI [AK4353] Addr 02H Register Name Control 3 Default D7 PL3 1 D6 PL2 0 D5 PL1 0 D4 PL0 1 D3 DEM1 0 D2 DEM0 1 D1 ATC 0 D0 SMUTE 0 SMUTE: Soft Mute Enable 0: Normal operation 1: DAC outputs soft-muted ATC: Attenuation Control 0: The attenuation data for each register is applied separately to left and right channels. 1: The attenuation data loaded in addr=03H is used for both left and right channels. DEM1-0: De-emphases response (See Table 5,6.) Initial: "01", OFF PL3-0: Mixing mode PL3 PL2 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 PL1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 PL0 Lch Output Rch Output Note 0 MUTE MUTE MUTE 1 MUTE R 0 MUTE L 1 MUTE (L+R)/2 0 R MUTE 1 R R 0 R L REVERSE 1 R (L+R)/2 0 L MUTE 1 L R STEREO 0 L L 1 L (L+R)/2 0 (L+R)/2 MUTE 1 (L+R)/2 R 0 (L+R)/2 L 1 (L+R)/2 (L+R)/2 MONO Table 7. Programmable Output Format default STEREO: REVERSE: MONO: MUTE: Normal stereo output L/R Reverse output Monaural output Soft mute operation MS0016-E-01 - 25 - 2000/07 ASAHI KASEI [AK4353] Addr 03H 04H Register Name Lch ATT Rch ATT Default D7 ATT7 ATT7 1 D6 ATT6 ATT6 1 D5 ATT5 ATT5 1 D4 ATT4 ATT4 1 D3 ATT3 ATT3 1 D2 ATT2 ATT2 1 D1 ATT1 ATT1 1 D0 ATT0 ATT0 1 Equation of attenuation level: ATT = 20 x Log10 (Binary level / 255) [dB] FFH: 0dB : 01H: -48.1dB 00H: Mute The transition between ATT values is same as soft mute operation. When current value is ATT1 and new value is set as ATT2, ATT1 gradually becomes ATT2 with same operation as soft mute. If new value is set as ATT3 before reaching ATT2, ATT value gradually becomes ATT3 from the way of transition. Cycle time of soft mute: Ts=1024/fs When PDN pin goes to "L", the ATT values are set to 00H. The ATT values fade to FFH(0dB) during Ts after PDN pin returns to "H". When RSTN bit goes to "0", the ATT values are set to 00H. The ATT values fade to their current values after RSTN bit returns to "1". Digital attenuator is independent of soft mute function. MS0016-E-01 - 26 - 2000/07 ASAHI KASEI [AK4353] Addr 05H Register Name TX Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 0 0 D1 V 0 D0 TXE 1 TXE: TX output 0: "L" 1: Normal Operation Validity Flag 0: Valid 1: Invalid Register Name Channel Status 1 Default 0: Audio 1: Non-Audio 0: Copyright 1: Non-Copyright 0: No Pre-emphasis 1: 50/15sec Pre-emphasis D7 0 0 D6 CS29 0 D5 CS28 0 D4 CS25 0 D3 CS24 0 D2 CS3 0 D1 CS2 0 D0 CS1 0 V: Addr 06H CS1 CS2 CS3 CS24,25: Sampling Frequency 00: 44.1kHz 01: 48kHz 10: Reserved 11: 32kHz CS28,29: Clock Accuracy 00: Standard mode 01: Variable pitch mode 10: High accuracy mode 11: Reserved Addr 07H Register Name Channel Status 2 Default D7 CS15 0 D6 CS14 0 D5 CS13 0 D4 CS12 0 D3 CS11 0 D2 CS10 1 D1 CS9 0 D0 CS8 0 CS8-15: Category code (See the Standard of EIAJ.) 00100000: Digital Audio Broadcast Reception in Japan (default) MS0016-E-01 - 27 - 2000/07 ASAHI KASEI [AK4353] n Channel Status Explanation (from the Standard of EIAJ and IEC958) Bit 7 CS7 CS15 CS23 CS31 Bit 6 CS6 CS14 CS22 CS30 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 CS5 CS4 CS3 CS2 CS1 CS0 CS13 CS12 CS11 CS10 CS9 CS8 CS21 CS20 CS19 CS18 CS17 CS16 CS29 CS28 CS27 CS26 CS25 CS24 (Bold type: Programmable, Normal type: fixed in this device) Byte 0 Byte 1 Byte 2 Byte 3 CS0 CS1 0: Consumer (fixed) 0: Audio 1: Non-audio CS2 0: Copyright 1: Non-copyright CS3-5 000: No pre-emphasis 100: 50/15sec pre-emphasis (CS4-5: fixed to 00) CS6-7: Mode 00: Mode 0 (fixed) CS8-15: Category code (See the next page. For more detail information, please see the Standard of EIAJ.) CS16-19: Source number 00: Not regulated (fixed) CS20-23: Channel (fixed) 1000: Left 0100: Right CS24-27: Sampling frequency 0000: 44.1kHz 0100: 48kHz 1100: 32kHz others: Not regulated CS28-29: Clock accuracy 00: Standard mode 01: Variable pitch mode 10: High accuracy mode 11: Not regulated CS30- : Reserved (fixed to all 0) MS0016-E-01 - 28 - 2000/07 ASAHI KASEI [AK4353] Category code (bit 8-15) bit15 (L bit): indicates generation of digital audio signal. General 0: not regulated 1: recorded software issued for business Optical disc machine ("100 xxxxL"), Broadcast reception ("001 xxxxL" and "011 1xxxL") 0: recorded software issued for business 1: not regulated "000 00000": General (Digital audio reception without copyright information in Japan) "100 xxxxL":Optical disc machine "100 0000L":Compact disc adapted to IEC908 "100 1000L":Optical disc not adapted to IEC908 "100 1001L":Mini disc system "100 1100L":Digital video disc "010 xxxxL" and "011 1xxxL": Digital/digital converting machine and signal process machine "010 0000L":PCM encoder/decoder "010 0100L":Digital signal mixer "010 1100L":Sampling rate converter "010 0010L":Digital sound sampler "110 xxxxL":Magnetic tape and magnetic disc machine "110 0000L":Digital audio tape "110 1000L":Video tape recorder with digital voice "110 0001L":Digital compact cassette "001 xxxxL":Digital audio broadcast reception "001 0000L":in Japan ("001 00000": default) "001 1000L":in Europe "001 0011L":in U.S.A "001 0001L":Software electronics delivery "101 xxxxL: Music instrument, microphone and source processing original signal "101 0000L":Synthesizer "101 1000L":Microphone "011 00xxx": A/D converter without copyright information "011 0000x": A/D converter "011 01xxL":A/D converter with copyright information "011 0100L":A/D converter "000 1xxxL":Solid memory machine "000 0001L":Experimental machine not used for business "111 xxxxL":Not regulated "000 0xxxL":Not regulated (except for "000 00000" and "000 0001L") MS0016-E-01 - 29 - 2000/07 ASAHI KASEI [AK4353] SYSTEM DESIGN Figure 13 shows the system connection diagram. An evaluation board is available which demonstrates application circuits, the optimum layout, power supply arrangements and measurement results. Condition: AVDD=DVDD=5V(TTL mode), I2C mode, Chip Address="00" Analog 5V Optical 1 MCKO TX DVDD DVSS MCKI BICK SDTI LRCK PDN CSN SCL SDA 5 DZF NC AVDD AVSS 24 23 0.1u 10u 22 21 20 19 18 17 16 15 14 13 + 10u + 0.1u 10u + 10u + External Clock 2 10u 0.1u + 3 4 5 AK4353 VCOM AOUTL AOUTR Decoder 6 7 8 Lch MUTE 220 27k Lch Out Top View CAD1 CAD0 I2C TTL TST Reset 9 10 11 Rch MUTE 220 27k Rch Out uP 12 System Ground Analog Ground Figure 13. Typical Connection Diagram MS0016-E-01 - 30 - 2000/07 ASAHI KASEI [AK4353] Digital Ground Analog Ground 1 2 MCKO TX DVDD DVSS MCKI BICK SDTI LRCK PDN CSN SCL SDA DZF NC AVDD AVSS VCOM 24 23 22 21 20 19 18 17 16 15 14 13 System Controller 3 4 5 6 7 8 9 10 11 12 AK4353 AOUTL AOUTR CAD1 CAD0 I2C TTL TST Figure 14. Ground Layout Note: AVSS and DVSS must be connected to the same analog ground plane. 1. Grounding and Power Supply Decoupling The AK4353 requires careful attention to power supply and grounding arrangements. AVDD and DVDD are usually supplied from analog supply in system. Alternatively if AVDD and DVDD are supplied separately, the power up sequence is not critical. AVSS and DVSS of the AK4353 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 near to the AK4353 as possible, with the small value ceramic capacitors being the nearest. 2. Voltage Reference Inputs The differential voltage between AVDD and AVSS sets the analog output range. VCOM is AVDD/2 and normally connected to AVDD with a 0.1F ceramic capacitor. An electrolytic capacitor 10F 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 these pins. All signals, especially clocks, should be kept away from the VCOM pin in order to avoid unwanted coupling into the AK4353. 3. Analog Outputs The analog outputs are single-ended outputs and 0.6x(AVDD-AVSS) Vpp (typ) centered around the VCOM voltage. The internal switched-capacitor filter and continuous-time filter attenuate the noise generated by the delta-sigma modulator beyond the audio passband. The input data format is 2's complement. The output voltage is a positive full scale for 7FFFFF(@24bit) and a negative full scale for 800000H(@24bit). The ideal output is 0V for 000000H(@24bit). MS0016-E-01 - 31 - 2000/07 ASAHI KASEI [AK4353] PACKAGE 24pin VSOP (Unit: mm) *7.80.15 1.250.2 24 13 A 7.60.2 0.150.05 0.10.1 Detail A 0-10 0.50.2 0.10 Epoxy Cu Solder plate 2000/07 - 32 - 1 0.220.1 12 0.65 Seating Plane NOTE: Dimension "*" does not include mold flash. n Package & Lead frame material Package molding compound: Lead frame material: Lead frame surface treatment: MS0016-E-01 *5.60.2 ASAHI KASEI [AK4353] MARKING AKM AK4353VF AAXXXX Contents of AAXXXX AA: Lot# XXXX: Date Code 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. MS0016-E-01 - 33 - 2000/07 |
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