[AK4112B] AK4112B High Feature 96kHz 24bit DIR GENERAL DESCRIPTION The AK4112B is a digital audio receiver (DIR) compatible with 96kHz, 24bits. The channel status decoding supports both consumer and professional modes. The AK4112B can automatically detect a Non-PCM bit stream. When combined with an AK4527B multi channel codec, the two chips provide a system solution for AC-3 applications. The dedicated pins or a serial µP I/F can control the mode setting. The small package, 28pin SSOP saves the board space. *AC-3 is a trademark of Dolby Laboratories. FEATURES Supports AES/EBU, IEC958, S/PDIF, EIAJ CP1201 Low jitter Analog PLL PLL Lock Range: 22k~108kHz Clock Source: PLL or X'tal 4 channel Receivers input and 1 through transmission output Auxiliary digital input De-emphasis for 32kHz, 44.1kHz, 48kHz and 96kHz Dedicated Detect Pins - Non-PCM Bit Stream Detect Pin - Validity Flag Detect Pin - 96kHz Sampling Detect Pin - Unlock & Parity Error Detect Pin Supports up to 24bit Audio Data Format Audio I/F: Master or Slave Mode 32bits Channel Status Buffer Burst Preamble bit Pc, Pd Buffer for Non-PCM bit stream Serial µP I/F Two Master Clock Outputs: 128fs/256fs/512fs Operating Voltage: 2.7 to 3.6V with 5V tolerance Small Package: 28pin SSOP Ta: -40~85°C MS0078-E-03 2012/01 -1- [AK4112B] AVSS RX1 RX2 Input RX3 Selector AVDD R MCKO1 MCKO2 Clock Clock Recovery Generator XTI XTO X'tal Oscillator RX4 96kHz Detect V/TX FS96 DAUX DAIF LRCK DEM Decoder DVDD Audio BICK I/F SDTO DVSS TVDD CSN System PDN AC-3/MPEG Control Error Detect µp I/F CCLK CDTO Detect CDTI AUTO ERF P/S="L" Serial Control Mode AVSS RX1 AVDD R MCKO1 MCKO2 Clock Clock Recovery Generator XTI XTO X'tal Oscillator 96kHz Detect DAUX LRCK DAIF V BICK DEM Audio Decoder DVDD FS96 4 I/F SDTO DIF0 DIF1 DVSS DIF2 OCKS0 OCKS1 TVDD System CM0 CM1 Control OCKS0 AC-3/MPEG Detect Error OCKS1 Detect CM0 PDN CM1 AUTO ERF P/S="H" Parallel Control Mode MS0078-E-03 2012/01 -2- [AK4112B] Ordering Guide -40 ~ +85 °C AK4112BVM 28pin SSOP (0.65mm pitch) Pin Layout DVDD 1 28 CM0/CDTO DVSS 2 27 CM1/CDTI TVDD 3 26 OCKS1/CCLK V/TX 4 25 OCKS0/CSN XTI 5 24 MCKO1 XTO 6 23 MCKO2 PDN 7 22 DAUX R 8 21 BICK AVDD 9 20 SDTO AVSS 10 19 LRCK RX1 11 18 ERF RX2/DIF0 12 17 FS96 RX3/DIF1 13 16 P/SN RX4/DIF2 14 15 AUTO Top View MS0078-E-03 2012/01 -3- [AK4112B] PIN/FUNCTION No. 1 2 3 5 6 Pin Name DVDD DVSS TVDD V TX XTI XTO 7 PDN I 8 R - 9 AVDD - Function Digital Power Supply Pin, 3.3V Digital Ground Pin Input Buffer Power Supply Pin, 3.3V or 5V Validity Flag Output Pin in Parallel Mode Transmit channel (through data) Output Pin in Serial Mode X'tal Input Pin X'tal Output Pin Power-Down Mode Pin When “L”, the AK4112B is powered-down and reset. External Resistor Pin 18kΩ +/-1% resistor to AVSS externally. Analog Power Supply Pin 10 AVSS - Analog Ground Pin 11 RX1 I DIF0 RX2 DIF1 RX3 DIF2 RX4 I I I I I I 15 AUTO O 16 P/S I 17 FS96 O 18 ERF O 19 20 21 22 23 24 LRCK SDTO BICK DAUX MCK02 MCK01 OCKS0 CSN OCKS1 CCLK CM1 CDTI 4 12 13 14 25 26 27 28 CM0 I/O O O I O I/O O I/O I O O I I I I I I I Receiver Channel 1 This channel is selected in Parallel Mode or default of Serial Mode. Audio Data Interface Format 0 Pin in Parallel Mode Receiver Channel 2 in Serial Mode Audio Data Interface Format 1 Pin in Parallel Mode Receiver Channel 3 in Serial Mode Audio Data Interface Format 2 Pin in Parallel Mode Receiver Channel 4 in Serial Mode Non-PCM Detect Pin “L”: No detect, “H”: Detect Parallel/Serial Select Pin “L”: Serial Mode, “H”: Parallel Mode 96kHz Sampling Detect Pin (RX Mode) “H”: fs=88.2kHz or more, “L”: fs=54kHz or less. (X’tal Mode) “H”: XFS96=1, “L”: XFS96=0. Unlock & Parity Error Output Pin “L”: No Error, “H”: Error Output Channel Clock Pin Audio Serial Data Output Pin Audio Serial Data Clock Pin Auxiliary Audio Data Input Pin Master Clock #2 Output Pin Master Clock #1 Output Pin Output Clock Select 0 Pin in Parallel Mode Chip Select Pin in Serial Mode Output Clock Select 1 Pin in Parallel Mode Control Data Clock Pin in Serial Mode Master Clock Operation Mode Pin0 in Parallel Mode Control Data Input Pin in Serial Mode Master Clock Operation Mode Pin1 in Parallel Mode CDTO O Control Data Output Pin in Serial Mode Note 1: All input pins except internal pull-down pins should not be left floating. MS0078-E-03 2012/01 -4- [AK4112B] ABSOLUTE MAXIMUM RATINGS (AVSS, DVSS=0V; Note 2) Parameter Analog Digital Input Buffer |AVSS-DVSS| (Note 3) Input Current, Any Pin Except Supplies Input Voltage (Except XTI pin) Input Voltage (XTI pin) Power Supplies: Symbol min max Unit AVDD DVDD TVDD Δ GND IIN VIN VINX -0.3 -0.3 -0.3 4.6 4.6 6.0 0.3 ±10 TVDD+0.3 DVDD+0.3 V V V V mA V V -0.3 -0.3 °C °C Ambient Temperature (power applied) Ta -40 85 Storage Temperature Tstg -65 150 Note 2: All voltages with respect to ground. Note 3: AVSS and DVSS must be connected to the same ground. WARNING: Operation at or beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. RECOMMENDED OPERATING CONDITIONS (AVSS, DVSS=0V;Note 2) Parameter Power Supplies: Analog Digital Input Buffer Note 2: All voltages with respect to ground. Symbol min typ max Unit AVDD DVDD TVDD 2.7 2.7 DVDD 3.3 3.3 3.3 3.6 AVDD 5.5 V V V max Unit S/PDIF RECEIVER CHARACTERISTICS (Ta=25°C; AVDD, DVDD=2.7~3.6V;TVDD=2.7~5.5V) Parameter Symbol min typ Input Resistance Input Voltage Input Hysteresis Input Sample Frequency Zin VTH VHY fs 350 22 10 kΩ 130 - mVpp mV kHz DC CHARACTERISTICS (Ta=25°C; AVDD, DVDD=2.7~3.6V;TVDD=2.7~5.5V; unless otherwise specified) Parameter Symbol min typ Power Supply Current 20 Normal operation : PDN = “H” (Note 4) 10 Power down: PDN = “L” (Note 5) 70%DVDD VIH High-Level Input Voltage (Except XTI pin) 70%DVDD VIH High-Level Input Voltage (XTI pin) DVSS-0.3 VIL Low-Level Input Voltage High-Level Output Voltage (Iout=-400μA) VOH DVDD-0.4 Low-Level Output Voltage (Iout=400μA) VOL Input Leakage Current Iin Note 4: AVDD, DVDD=3.3V, TVDD=5.0V, CL=20pF, fs=96kHz, X'tal=12.288MHz, Clock Operation Mode 2, OCKS1=1, OCKS0=0. AVDD=8mA(typ), DVDD=12mA(typ), TVDD=10μA(typ) Note 5: RX inputs are open and all digital input pins are held DVDD or DVSS. MS0078-E-03 108 max Unit 40 100 TVDD DVDD 30%DVDD 0.4 ± 10 mA μA V V V V V μA 2012/01 -5- [AK4112B] SWITCHING CHARACTERISTICS (Ta=25°C; DVDD, AVDD2.7~3.6V, TVDD=2.7~5.5V; CL=20pF) Parameter Symbol min Master Clock Timing Crystal Resonator Frequency fXTAL 11.2896 External Clock Frequency Duty Frequency Duty fECLK dECLK fMCK1 dMCK1 11.2896 40 5.632 40 Frequency Duty fMCK2 dMCK2 fpll fs dLCK 2.816 40 22 22 45 tBCK tBCKL tBCKH tLRB tBLR tLRM tBSD tDXH tDXS 140 60 60 30 30 MCKO1 Output MCKO2 output PLL Clock Recover Frequency (RX1-4) LRCK Frequency Duty Cycle Audio Interface Timing Slave Mode BICK Period BICK Pulse Width Low Pulse Width High LRCK Edge to BICK “↑” (Note 6) BICK “↑” to LRCK Edge (Note 6) LRCK to SDTO (MSB) BICK “↓” to SDTO DAUX Hold Time DAUX Setup Time Master Mode BICK Frequency BICK Duty BICK “↓” to LRCK BICK “↓” to SDTO DAUX Hold Time DAUX Setup Time 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 “↑” CDTO Delay CSN “↑” to CDTO Hi-Z fBCK dBCK tMBLR tBSD tDXH tDXS tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH tDCD tCCZ typ 50 50 50 48 max Unit 24.576 MHz 24.576 60 27.648 60 MHz % MHz % 27.648 60 108 108 55 MHz % kHz kHz % 35 35 20 20 64fs 50 -20 20 40 20 20 200 80 80 50 50 150 50 50 45 70 ns ns ns ns ns ns ns ns ns Hz % ns ns ns ns ns ns ns ns ns ns ns ns ns ns Reset Timing PDN Pulse Width tPW 150 Note 6: BICK rising edge must not occur at the same time as LRCK edge. ns MS0078-E-03 2012/01 -6- [AK4112B] Timing Diagram LRCK 50%DVDD tBLR tLRB tBCKL tBCKH BICK 50%DVDD tLRM tBSD 50%DVDD SDTO tDXS tDXH 50%DVDD DAUX Serial Interface Timing (Slave Mode) LRCK 50%DVDD tMBLR 50%DVDD BICK tBSD 50%DVDD SDATA tDXS tDXH 50%DVDD DAUX Serial Interface Timing (Master Mode) 50%DVDD CSN tCSS tCCKL tCCKH 50%DVDD CCLK tCDH tCDS CDTI CDTO C0 C0 R/W A4 50%DVDD Hi-Z WRITE/READ Command Input Timing MS0078-E-03 2012/01 -7- [AK4112B] tCSW 50%DVDD CSN tCSH 50%DVDD CCLK CDTI D3 D2 D1 50%DVDD D0 Hi-Z CDTO WRITE Data Input Timing CSN 50%DVDD CCLK 50%DVDD CDTI A1 50%DVDD A0 tDCD Hi-Z CDTO D7 D6 D5 50%DVDD READ Data Output Timing 1 tCSW CSN 50%DVDD tCSH CCLK 50%DVDD CDTI 50%DVDD tCCZ CDTO D3 D2 D1 D0 50%DVDD READ Data Input Timing 2 tPW PDN 30%DVDD Power Down & Reset Timing MS0078-E-03 2012/01 -8- [AK4112B] OPERATION OVERVIEW Non-PCM (AC-3, MPEG, etc.) Stream Detect The AK4112B has a Non-PCM steam auto detect function. When the 32bit mode Non-PCM preamble based on Dolby “AC-3 Data Stream in IEC958 Interface” is detected, the AUTO goes “H”. The 96bit sync code consists of 0x0000, 0x0000, 0x0000, 0x0000, 0xF872 and 0x4E1F. Detection of this pattern will set the AUTO “H”. Once the AUTO is set “H”, it will remain “H” until 4096 frames pass through the chip without additional sync pattern being detected. When those preambles are detected, the burst preambles Pc and Pd that follow those sync codes are stored to registers 0DH-10H. Clock Recovery and 96kHz Detect On chip low jitter PLL has a wide lock range with 22kHz to 108kHz and the lock time is less than 20ms. The 96kHz detect output pin FS96 goes “H” when the sampling rate is 88.2kHz or more and “L” at 54kHz or less. In X’tal Mode, the FS96 pin outputs the value which is set by XFS96. PLL loses lock when the received sync interval is incorrect. Master Clock The AK4112B has two clock outputs, MCKO1 and MCKO2. These clocks are derived from either the recovered clock or from the X'tal oscillator. The frequencies of the master clock outputs (MCKO1 & MCKO2) are set by OCKS0 and OCKS1 as shown in Table 1. 96kHz sampling is not supported at No.2. No. 0 1 2 3 OCKS1 0 0 1 1 OCKS0 0 1 0 1 MCKO1 256fs 256fs 512fs MCKO2 256fs 128fs 256fs X’tal 256fs 256fs 512fs Test Mode fs (kHz) 32, 44.1, 48, 96 32, 44.1, 48, 96 32, 44.1, 48 Default Table 1. Master clock frequencies select Clock Operation Mode The CM0 and CM1 select the clock source of MCKO1/2 and the data source of SDTO via the dedicated pins or the control register. In Mode 2, the clock source is switched from PLL to X'tal when PLL goes unlock state. In Mode3, the clock source is fixed to X'tal, but PLL is also operating and the recovered data such as C bits can be monitored. Mode CM1 CM0 UNLOCK 0 1 0 0 0 1 - 2 1 0 3 1 1 PLL X'tal Clock source FS96 ON OFF PLL RFS96 XFS96 OFF ON X'tal 0 ON ON PLL RFS96 1 XFS96 ON ON X'tal ON ON X'tal XFS96 ON: Oscillation (Power-up), OFF: STOP (Power-down) SDTO RX DAUX RX DAUX DAUX Default Table 2. Clock Operation Mode select MS0078-E-03 2012/01 -9- [AK4112B] Clock Source The following circuits are available to feed the clock to XTI pin (#5 pin) of AK4112B. 1) X’tal XTI XTO AK4112B Note: External capacitance depends on the crystal oscillator (Typ. 10-40pF) 2) External clock XTI External Clock XTO AK4112B Note: Input clock must not exceed DVDD. 3) Fixed to the Clock Operation Mode 0 XTI XTO AK4112B MS0078-E-03 2012/01 - 10 - [AK4112B] Sampling Frequency and Pre-emphasis Detect The AK4112B outputs the encoded information of sampling frequency and pre-emphasis in channel status to FS0, FS1 and PEM bits in control register. These information are output from channel 1 at default. It can be switched to channel 2 by CS12 bit in control register. FS1 FS0 fs Byte 3 Bits 0-3 0 0 1 1 0 1 0 1 44.1kHz Reserved 48kHz 32kHz 0000 all others 0100 1100 Table 3. fs information in Consumer Mode FS1 FS0 fs Byte 0 Bits 6-7 0 0 1 1 0 1 0 1 44.1kHz Reserved 48kHz 32kHz 10 00 01 11 Table 4. fs information in Profession Mode PEM Pre-emphasis Byte 0 Bits 3-5 0 1 OFF ON ≠ 0X100 0X100 Table 5. PEM in Consumer Mode PEM Pre-emphasis Byte 0 Bits 2-4 0 1 OFF ON ≠110 110 Table 6. PEM in professional Mode MS0078-E-03 2012/01 - 11 - [AK4112B] De-emphasis Filter Control The AK4112B includes the digital de-emphasis filter (tc=50/15µs) by IIR filter corresponding to four sampling frequencies (32kHz, 44.1kHz, 48kHz and 96kHz). When DEAU bit=“1”, the de-emphasis filter is enabled automatically by sampling frequency and pre-emphasis information in the channel status. The AK4112B goes this mode at default. Therefore, in Parallel Mode, the AK4112B is always placed in this mode and the de-emphasis filter is controlled by the status bits in channel 1. In Serial Mode, DEM0/1 and DFS bits can control the de-emphasis filter when DEAU is “0”. When the “0” data is input to the de-emphasis filter, the output data will be “0” or “-1”. The internal de-empahsis filter is bypassed and the recovered data is output without any change if either pre-emphasis or de-emphasis Mode is OFF. FS96 FS1 FS0 Mode 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 44.1kHz OFF 48kHz 32kHz OFF OFF 96kHz OFF Table 7. De-emphasis Auto Control at DEAU=“1” and PEM=“1” DFS DEM1 DEM0 Mode 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 44.1kHz OFF 48kHz 32kHz OFF OFF 96kHz OFF Default Table 8. De-emphasis Manual Control at DEAU=“0” and PEM=“1” MS0078-E-03 2012/01 - 12 - [AK4112B] System Reset and Power-Down The AK4112B has a power-down mode for all circuits by PDN pin can be partially powerd-down by PWN bit. The RSTN bit initializes the register and resets the internal timing. In Parallel Mode, only the control by PDN pin is enabled. The AK4112B should be reset once by bringing PDN pin = “L” upon power-up. PDN Pin (Pin #7): All analog and digital circuit are placed in the power-down and reset mode by bringing PDN= “L”. All the registers are initialized, and clocks are stopped. Reading/Witting to the register are disabled. RSTN Bit (Address 00H; D0): All the registers except PWN and RSTN are initialized by bringing RSTN bit = “0”. The internal timings are also initialized. Witting to the register is not available except PWN and RSTN. Reading to the register is disabled. PWN Bit (Address 00H; D1): The clock recovery part is initialized by bringing PWN bit = “0”. In this case, clocks are stopped. The registers are not initialized and the mode settings are kept. Writing and Reading to the registers are enabled. Biphase Input and Through Output Four receiver inputs (RX1-4) are available in Serial Control Mode. Each input includes amplifier corresponding to unbalance mode and can accept the signal of 350mV or more. IPS0-1 selects the receiver channel, and OPS0-1 selects the source of the bit stream driving the transmit channel (TX). The TX output can be stopped by setting TXE bit “0”. IPS1 IPS0 INPUT Data 0 0 1 1 0 1 0 1 RX1 RX2 RX3 RX4 Default Table 9. Recovery data select OPS1 OPS0 INPUT Data 0 0 1 1 0 1 0 1 RX1 RX2 RX3 RX4 Default Table 10. Output data select MS0078-E-03 2012/01 - 13 - [AK4112B] 0.1uF RX 75Ω Coax 75Ω 0.47nF Note AK4112B Figure 1. Consumer Input Circuit (Coaxial Input) Note: In case of coaxial input, if a coupling level to this input from the next RX input line pattern exceeds 50mV, there is a possibility to occur an incorrect operation. In this case, it is possible to lower the coupling level by adding this decoupling capacitor. Optical Receiver Optical Fiber 470 RX O/E AK4112B Figure 2. Consumer Input Circuit (Optical Input) In case of coaxial input, as the input level of RX line is small, in Serial Mode, be careful not to crosstalk among RX input lines. For example, by inserting the shield pattern among them. In Parallel Mode, only one channel input (RX1) is available and RX2-4 change to other pins for audio format control. Those pins must be fixed to “H” or “L”. The AK4112B includes the TX output buffer. The output level meets combination 0.5V+/-20% using the external resistor network. The T1 in Figure 3 is a transformer of 1:1. R1 TX 75Ω cable R2 DVSS T1 Vdd R1 R2 3.3V 240Ω 150Ω 3.0V 220Ω 150Ω Figure 3. TX External Resistor Network MS0078-E-03 2012/01 - 14 - [AK4112B] Error Handling There are the following five factors which ERF pin goes “H”. ERF pin shows the status of the internal PLL operation and it is “L” when the PLL is OFF (Clock Operation Mode 1). 1. Unlock Error 2. Parity Error 3. Biphase Error 4. Frame length Error 5. STC (Status Change) flag=“1” : “H” when the PLL goes UNLOCK state. : Updated every sub-frame cycle. : Updated every sub-frame cycle : Updated every sub-frame cycle : Holds “1” until reading 03H. In Parallel Mode, ERF pin outputs the ORed signal including the factors of 1,2,3 and 4. Once ERF pin goes ”H”, it maintains “H” for 1024/fs cycles after the all error factors are removed. Table 11 shows the state of each output pins when the ERF pin is “H”. The Frame length Error is occurred when the interval of preamble in biphase signal is incorrect. When unlock state, the channel status bits are not updated and the previous data is maintained. Error AUTO SDTO V Unlock Error Parity Error Biphase Error Frame Length Error “L” Output Output Output “L” Previous Data Previous Data Previous Data “L” Output Output Output Table 11. Error handling (Parallel Mode) In Serial Mode, ERF pin outputs the ORed signal including the factors of 1,2,3,4 and 5. However, Parity, Biphase and Frame Length Error can be masked by MPAR bit, and the STC flag can be masked by MSTC bit. When those are masked by each bit, the error factor does not affect ERF pin operation. The STC flag is set whenever a comparison between the last sample of bits D5-0 of the receiver status 1 register (03H) and the new sample are different This comparison is made every fs cycle. The STC flag is reset by reading the register 03H. This flag is also disabled during the first block after reset. Once ERF pin goes ”H”, it maintains “H” for 1024/fs cycles (can be changed by ERFH0-1 bits) after the all error factors (In case of STC, from STC flag “1” to reading 03H) are removed. Once PAR, BIP, FRERR, V or UNLOCK bit goes “1”, it returns “0” by reading Receiver Status 2 (04H). When unlock state, the channel status bits are not updated and the previous data is maintained. Error & Status Unlock Error Parity Error Biphase Error Frame Length Error Status change UNLOCK 1 0 0 0 0 Register PAR BIP FRERR 0 1 0 0 0 0 0 1 0 0 0 0 0 1 0 Pin STC AUTO SDTO V TX 0 0 0 0 1 “L” Output Output Output Output “L” Previous Data Previous Data Previous Data Output “L” Output Output Output Output Output Output Output Output Output Table 12. Error handling (Serial Mode; MPAR=1, MSTC=1) MS0078-E-03 2012/01 - 15 - [AK4112B] (status change ) (ch. status ) STC bit (state A ) (state B) Hold “1” Command Reset READ 03H ERF ERF Hold Time MCKO, BICK, LRCK SDTO V ERF pin timing at Status Change error(UNLOCK, PAR, BIP, FRERR) (error) ERF ERF Hold Time register (UNOCK, PAR, BIP, FRERR) Hold ”1” Command Reset READ 04H (fs: around 20kHz) MCKO,BICK,LRCK (UNLOCK) Free Run MCKO,BICK,LRCK (except UNLOCK) SDTO(UNLOCK) SDTO (except UNLOCK) Previous Data Vpin (UNLOCK) Vpin (except UNLOCK) ERF pin timing at UNLOCK, PAR, BIP, FRERR error MS0078-E-03 2012/01 - 16 - [AK4112B] PD pin ="L" to "H" Initialize Read 03H STC is reset, ERF pin ="L" Read 04H ERF pin ="H" YES Mute = "H" Read 03H Mute="L" STC is reset, ERF pin ="L" Read 04H NO ERF pin ="H" YES Figure 4. Error handling sequence Example MS0078-E-03 2012/01 - 17 - [AK4112B] Audio Serial Interface Format The DIF0, DIF1 and DIF2 pins as shown in Table 13 can select eight serial data formats. In all formats the serial data is MSB-first, 2's compliment format. The SDTO is clocked out on the falling edge of BICK and the DAUX is latched on the rising edge of BICK. BICK outputs 64fs clock in Mode 0-5. Mode 6-7 are Slave Modes, and BICK is available up to 128fs at fs=48kHz. In the format equal or less than 20bit (Mode0-2), LSBs in sub-frame are truncated. In Mode 3-7, the last 4LSBs are auxiliary data (see Figure 5). When the Parity Error, Biphase Error or Frame Length Error occurs in a sub-frame, AK4112B continues to output the last normal sub-frame data from SDTO repeatedly until the error is removed. When the Unlock Error occurs, AK4112B output “0” from SDTO. In case of using DAUX pin, the data is transformed and output from SDTO. DAUX pin is used in Clock Operation Mode 1, 3 and unlock state of Mode 2. The input data format to DAUX should be left justified except in Mode5 and 7(Table 13). In Mode5 or 7, both the input data format of DAUX and output data format of SDTO are I2S. Mode6 and 7 are Slave Mode that is corresponding to the Master Mode of Mode4 and 5. In salve Mode, LRCK and BICK should be fed with synchronizing to MCKO1/2. The initial state of the audio format is the Master Mode upon the power-up. Therefore, if the audio format is changed to the Slave Mode after power-up, the setting of the external clocks should be careful until completing to set the control registers. sub-frame of IEC958 0 3 4 preamble 7 8 11 12 27 28 29 30 31 Aux. V U C P LSB MSB MSB LSB 23 0 AK4112B Audio Data (MSB First) Figure 5. Bit configuration Mode DIF2 DIF1 DIF0 0 1 2 3 4 5 6 7 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 DAUX 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, I2S 24bit, Left justified 24bit, I2S SDTO 16bit, Right justified 18bit, Right justified 20bit, Right justified 24bit, Right justified 24bit, Left justified 24bit, I2S 24bit, Left justified 24bit, I2S LRCK I/O H/L O H/L O H/L O H/L O H/L O L/H O H/L I L/H I BICK 64fs 64fs 64fs 64fs 64fs 64fs 64-128fs 64-128fs I/O O O O O O O I I Default Table 13. Audio data format MS0078-E-03 2012/01 - 18 - [AK4112B] LRCK(0) 0 1 2 15 16 17 31 0 1 2 15 16 17 31 0 1 0 1 0 1 BICK (0:64fs) 15 14 1 0 15 14 1 0 SDTO(0) 15:MSB, 0:LSB Rch Data Lch Data Figure 5. Mode 0 Timing LRCK(0) 0 1 2 9 10 12 11 31 0 1 2 9 10 11 12 31 BICK (0:64fs) 23 22 21 20 1 0 23 22 21 20 1 0 SDTO(0) 23:MSB, 0:LSB Rch Data Lch Data Figure 6. Mode 3 Timing LRCK 0 1 2 21 22 24 23 31 0 1 2 21 22 23 24 31 BICK (64fs) 23 22 21 2 1 0 23 22 3 2 1 0 23 22 SDTO(0) 23:MSB, 0:LSB Rch Data Lch Data Figure 7. Mode 4, 6 Timing Mode 4: LRCK, BICK: Output Mode 6: LRCK, BICK: Input LRCK 0 1 2 22 24 23 25 31 0 1 2 21 22 23 24 25 31 0 1 BICK (64fs) SDTO(0) 23 22 21 2 1 23 22 0 3 2 1 0 23 23:MSB, 0:LSB Rch Data Lch Data Figure 8. Mode 5, 7 Timing MS0078-E-03 Mode 5: LRCK, BICK: Output Mode 7: LRCK, BICK: Input 2012/01 - 19 - [AK4112B] Serial Control Interface The internal registers may be either written or read by the 4-wire µP interface pins: CSN, CCLK, CDTI & CDTO. The data on this interface consists of Chip address (2bits, C0/1 are fixed to “00”), Read/Write (1bit), 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 the 16th rising edge of CCLK, after a high-to-low transition of CSN. For read operations, the CDTO output goes high impedance after a low-to-high transition of CSN. The maximum speed of CCLK is 5MHz. PDN= “L” resets the registers to their default values. When the state of P/S pin is changed, the AK4112B should be reset by PDN= “L”. CSN 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 CCLK CDTI WRITE C1 C0 R/W A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 Hi-Z CDTO CDTI READ C1 C0 R/W A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 Hi-Z CDTO C1-C0: R/W: A4-A0: D7-D0: D7 D6 D5 D4 D3 D2 D1 D0 Hi-Z Chip Address (Fixed to “00”) READ/WRITE (0:READ, 1:WRITE) Register Address Control Data Figure 10. Control I/F Timing MS0078-E-03 2012/01 - 20 - [AK4112B] Register Map Addr Register Name D7 D6 D5 D4 0 BCU CM1 CM0 D3 D2 OCKS1 OCKS0 D1 D0 PWN RSTN 00H Clock & Power down Control 01H Input/Output Control MPAR MSTC CS12 TXE IPS1 IPS0 OPS1 OPS0 02H Format & De-emphasis Control V/TX DIF2 DIF1 DIF0 DEAU DEM1 DEM0 DFS 03H Receiver status 1 ERF 0 AUDION AUTO PEM FS1 FS0 RFS96 04H Receiver status 2 CV STC CRC UNLOCK V FRERR BIP PAR 05H Channel A Status Byte 0 CA7 CA6 CA5 CA4 CA3 CA2 CA1 CA0 06H Channel A Status Byte 1 CA15 CA14 CA13 CA12 CA11 CA10 CA9 CA8 07H Channel A Status Byte 2 CA23 CA22 CA21 CA20 CA19 CA18 CA17 CA16 08H Channel A Status Byte 3 CA31 CA30 CA29 CA28 CA27 CA26 CA25 CA24 09H Channel B Status Byte 0 CB7 CB6 CB5 CB4 CB3 CB2 CB1 CB0 0AH Channel B Status Byte 1 CB15 CB14 CB13 CB12 CB11 CB10 CB9 CB8 0BH Channel B Status Byte 2 CB23 CB22 CB21 CB20 CB19 CB18 CB17 CB16 0CH Channel B Status Byte 3 CB31 CB30 CB29 CB28 CB27 CB26 CB25 CB24 0DH Burst Preamble Pc Byte 0 PC7 PC6 PC5 PC4 PC3 PC2 PC1 PC0 0EH Burst Preamble Pc Byte 1 PC15 PC14 PC13 PC12 PC11 PC10 PC9 PC8 0FH Burst Preamble Pd Byte 0 PD7 PD6 PD5 PD4 PD3 PD2 PD1 PD0 10H Burst Preamble Pd Byte 1 PD15 PD14 PD13 PD12 PD11 PD10 PD9 PD8 11H Count Control 0 0 0 0 0 EFH1 EFH0 XFS96 Notes: For addresses from 12H to 1FH, data must not be written. When PDN pin goes “L”, the registers are initialized to their default values. When RSTN bit goes “0”, the internal timing is reset and the registers are initialized to their default values. All data can be written to the register even if PWN bit is “0”. MS0078-E-03 2012/01 - 21 - [AK4112B] Register Definitions Reset & Initialize Addr Register Name D7 D6 D5 D4 00H Clock & Power down Control 0 BCU CM1 CM0 RD 0 R/W 0 R/W 0 R/W 0 R/W default D3 D2 OCKS1 OCKS0 R/W 0 D1 D0 PWN RSTN R/W 1 R/W 1 R/W 0 RSTN: Timing Reset & Register Initialize 0: Reset & Initialize 1: Normal Operation PWN: Power Down 0: Power down 1: Normal Operation OCKS1-0: Master Clock frequency Select CM1-0: Master Clock Operation Mode Select BCU: Block start & C/U output Mode When BCU=1, the 3 output pins change another function. MCKO2 pin→ B; block start signal AUTO pin→ C bit FS96 pin→ U bit The block signal goes high at the start of frame 0 and remains high until the end of frame 31. (B, C, U, V output timing at RX mode, Master mode) B C (or U,V) C(R191) C(L0) C(R0) C(L1) C(L31) C(R31) C(L32) 1/4fs LRCK SDTO (I2S) SDTO (except I2S) L191 R191 L0 R0 R30 L31 R31 R190 L191 R191 L0 L30 R30 L31 MS0078-E-03 2012/01 - 22 - [AK4112B] Input/Output Control Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 MPAR MSTC CS12 TXE IPS1 IPS0 OPS1 OPS0 R/W R/W R/W R/W R/W R/W R/W R/W R/W default 1 0 0 1 0 0 0 0 01H Input/Output Control OPS1-0: Output Through Data Select IPS1-0: Input Recovery Data Select TXE: TX Output Enable 0: Disable. TX output pin is placed in a high impedance state. 1: Enable CS12: Channel Status Select 0: Channel 1 1: Channel 2 Selects which channel status is used to derive AUDION, PEM, FS1 and FS0. The de-emphasis filter, however, is always controlled by channel 1 in the Parallel Mode. MSTC: Status change flag mask bit This bit is low to mask status change from being reported by ERF. MPAR: Parity mask bit This bit is low to mask Parity Error, Biphase Error and Frame Length Error from being reported by ERF. Format & De-emphasis Control Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 02H Format & De-emphasis Control V/TX DIF2 DIF1 DIF0 DEAU DEM1 DEM0 DFS R/W default R/W 0 R/W 1 R/W 0 R/W 0 R/W 1 R/W 0 R/W 1 R/W 0 V/TX: V/TX Output Select 0: Validity Flag Output. This output is updated every fs cycle. 1: TX DFS: 96kHz De-emphasis Control DEM1-0: 32, 44.1, 48kHz De-emphasis Control DEAU: De-emphasis Auto Detect Enable 0: Disable 1: Enable DIF2-0: Audio Data Format Control MS0078-E-03 2012/01 - 23 - [AK4112B] Receiver Status 1 Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 ERF 0 AUDION AUTO PEM FS1 FS0 RFS96 R/W RD RD RD RD RD RD RD RD default 0 0 0 0 0 0 0 0 03H Receiver status 1 RFS96: 96kHz Sampling Detect at Recovery Mode. 0: fs=54kHz or less. 1: fs=88.2kHz or more FS1-0: Sampling Frequency Output PEM: Pre-emphasis Output 0: OFF 1: ON This bit is made by encoding channel status bits. AUTO: Non-PCM Auto Detect 0: No detect 1: Detect This function is the same as AUTO pin. AUDION: Audio bit Output 0: Audio 1: Non Audio ERF: Unlock or Parity Error or Status change 0: No Error or No change 1: Error or Change This function is the same as ERF pin. This bit goes “1” when Unlock Error, Parity Error, Biphase Error, Frame Length Error or Status Change occurs. If MPAR=0 & MSTC=0, only an unlock error is reported. Receiver Status 2 Addr Register Name 04H Receiver status 2 R/W default D7 D6 D5 D4 D3 D2 D1 D0 CV STC CRC UNLOCK V FRERR BIP PAR RD 0 RD 0 RD 0 RD 0 RD 0 RD 0 RD 0 RD 0 PAR: Parity Status (0:No Error, 1:Error) It is high if Parity Error is detected in the sub-frame. PAR is unaffected by the state of MPAR. BIP: Biphase Status (0:No Error, 1:Error) FRERR: Frame Error Status (0:No Error, 1:Error) V: Validity bit (0:No Error, 1:Error) UNLOCK: PLL Lock status (0:Lock, 1:Unlock) CRC: Cyclic Redundancy Check (0:No Error, 1:Error on either channel) STC: Status change flag of Receiver status 1 (0:No change, 1:change) This flag goes “H” when the latest value of D5-0 in Receiver Status 1(03H) is different from the previous value. This comparison is made at every fs cycle. This bit returns to “L” by reading Receiver Status 1(03H). The flag is disabled during the first block after Reset. CV: Channel Status Validity (0:Valid, 1:Not Valid, data is updating) This signal goes “H” at the start of frame 0 and maintains “H” until the end of frame 31. MS0078-E-03 2012/01 - 24 - [AK4112B] Channel Status Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 05H Channel A Status Byte 0 CA7 CA6 CA5 CA4 CA3 CA2 CA1 CA0 06H Channel A Status Byte 1 CA15 CA14 CA13 CA12 CA11 CA10 CA9 CA8 07H Channel A Status Byte 2 CA23 CA22 CA21 CA20 CA19 CA18 CA17 CA16 08H Channel A Status Byte 3 CA31 CA30 CA29 CA28 CA27 CA26 CA25 CA24 09H Channel B Status Byte 0 CB7 CB6 CB5 CB4 CB3 CB2 CB1 CB0 0AH Channel B Status Byte 1 CB15 CB14 CB13 CB12 CB11 CB10 CB9 CB8 0BH Channel B Status Byte 2 CB23 CB22 CB21 CB20 CB19 CB18 CB17 CB16 0CH Channel B Status Byte 3 CB31 CB30 CB29 CB28 CB27 CB26 CB25 CB24 R/W RD default Not initialized CA31-0: Channel A Status Byte 4-1 CB31-0: Channel B Status Byte 4-1 Bit definition changes depending upon PRO bit setting. When CV=1, these bits are updating and may be invalid. Burst Preamble Pc/Pd in non-PCM encoded Audio bitstreams Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 0DH Burst Preamble Pc Byte 0 PC7 PC6 PC5 PC4 PC3 PC2 PC1 PC0 0EH Burst Preamble Pc Byte 1 PC15 PC14 PC13 PC12 PC11 PC10 PC9 PC8 0FH Burst Preamble Pd Byte 0 PD7 PD6 PD5 PD4 PD3 PD2 PD1 PD0 10H Burst Preamble Pd Byte 1 PD15 PD14 PD13 PD12 PD11 PD10 PD9 PD8 R/W RD default Not initialized PC15-0: Burst Preamble Pc Byte 1, 0 PD15-0: Burst Preamble Pd Byte 1, 0 Count Control Addr Register Name D7 D6 D5 D4 D3 D2 D1 D0 0 0 0 0 0 EFH1 EFH0 XFS96 R/W RD RD RD RD RD R/W R/W R/W default 0 0 0 0 0 0 1 0 11H Count Control XFS96: FS96 output select at X’tal Mode (clock Operation Mode1, Mode3 and Unlock state of Mode2) 1: FS96pin=“H” 0: FS96pin=“L” EFH1-0: Error Flag Hold Count Select 00: 512 LRCK 01: 1024 LRCK 10: 2048 LRCK 11: 4096 LRCK MS0078-E-03 2012/01 - 25 - [AK4112B] Burst preambles in non-PCM bitstreams sub-frame of IEC958 0 3 4 preamble 7 8 Aux. 11 12 27 28 29 30 31 LSB MSB V U C P 16 bits of bitstream 0 Pa Pb Pc Pd 15 Burst_payload stuffing repetition time of the burst Preamble word Pa Pb Pc Pd Length of field 16 bits 16 bits 16 bits 16 bits Contents sync word 1 sync word 2 Burst info Length code value 0xF872 0x4E1F see Table 15. numbers of bits Table 14. Burst preamble words Bits of Pc value contents 0-4 data type NULL data Dolby AC-3 data reserved PAUSE MPEG-1 Layer1 data MPEG-1 Layer2 or 3 data or MPEG-2 without extension MPEG-2 data with extension MPEG-2 AAC ADTS MPEG-2, Layer1 Low sample rate MPEG-2, Layer2 or 3 Low sample rate reserved DTS type I DTS type II DTS type III ATRAC ATRAC2/3 reserved reserved, shall be set to “0” error-flag indicating a valid burst_payload error-flag indicating that the burst_payload may contain errors data type dependent info bit stream number, shall be set to “0” 5, 6 7 8-12 13-15 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16-31 0 0 1 0 repetition time of burst in IEC958 frames ≤4096 1536 384 1152 1152 1024 384 1152 512 1024 2048 512 1024 Table 15. Fields of burst info Pc MS0078-E-03 2012/01 - 26 - [AK4112B] Non-PCM Bitstream timing 1) When Non-PCM preamble is not coming within 4096 frames, PDN pin Bit stream Pa Pb Pc1 Pd1 Pa Pb Pc2 Pd2 Repetition time Pa Pb Pc3 Pd3 >4096 frames AUTO Pc Register “0” Pd Register “0” Pc1 Pc2 Pd1 Pc3 Pd2 Pd3 2) When Non-PCM bitstream stops ERF hold time ERF pin <20mS (Lock time) Bit stream Pa Pb Pc1 Pd1 Stop Pa Pb Pcn Pdn 2~3 Syncs (B,M or W) <Repetition time AUTO Pc Register Pd Register Pc0 Pc1 Pd0 Pcn Pd1 MS0078-E-03 Pdn 2012/01 - 27 - [AK4112B] SYSTEM DESIGN Figure 11 shows the example of system connection diagram for Serial Mode. 3.3V Supply 10u 0.1u + 1 DVDD CDTO 28 2 DVSS CDTI 27 3 TVDD CCLK 26 4 V/TX 5 XTI 6 3.3~5V Supply + 0.1u 10u CSN 25 MCKO1 24 XTO MCKO2 23 7 PDN DAUX 22 8 R BICK 21 9 AVDD SDTO 20 10 AVSS LRCK 19 11 RX1 ERF 18 12 RX2 FS96 17 13 RX3 P/SN 16 14 RX4 AUTO 15 C (Note 8) C AK4112B Microcontroller 18k 3.3V Supply 10u + 0.1u (see Figure 1,2) DSP and AD/DA Figure 11. Typical Connection Diagram (Serial Mode) Notes: - “C” depends on the crystal oscillator (Typ. 10-40pF) - AVSS and DVSS must be connected the same ground plane - Digital signals, especially clocks, should be kept away from the R pin in order to avoid an effect to the clock jitter performance. . MS0078-E-03 2012/01 - 28 - [AK4112B] PACKAGE 28pin SSOP (Unit: mm) 2.1MAX 10.40MAX 28 15 5.30 7.90±0.20 A 14 1 0.22±0.05 0.65 0.32±0.08 0.1±0.1 0.60±0.15 Detail A 0.10 1.30 Seating Plane NOTE: Dimension "*" does not include mold flash. 0-8° Material & Lead finish Package molding compound: Epoxy Lead frame material: Cu Lead frame surface treatment: Solder plate MS0078-E-03 2012/01 - 29 - [AK4112B] MARKING AK4112BVM XXXBYYYYC XXXXBYYYYC: XXXB: YYYYC: Date code identifier Lot number (X: Digit number, B: Alpha character ) Assembly date (Y: Digit number C: Alpha character) REVISION HISTORY Date (Y/M/D) 01/02/23 02/07/04 Revision 00 01 04/04/19 02 12/01/24 03 Reason First Edition Specification Change Error Correction Error Correction Page Contents QFN package was deleted. 26 1, 3, 29, 30 Table 15. Fields of burst info Pc Value 7: reserved Æ MPEG2 AAC ADTS; repetition time of burst: 1024 Value 14: reserved Æ ATRAC; repetition time of burst: 512 Value 15: reserved Æ ATRAC2/3; repetition time of burst: 1024 Value 27: (Reserved for MPEG-4 AAC data) Æ reserved Value 28: MPEG-2 AAC data Æ reserved AK4112BVF was deleted. (28pin VSOP) AK4112BVM was added. (28pin SSOP) Ordering Guide was changed. PACKAGE was changed. MARKING was changed. MS0078-E-03 2012/01 - 30 - [AK4112B] IMPORTANT NOTICE z These products and their specifications are subject to change without notice. When you consider any use or application of these products, please make inquiries the sales office of Asahi Kasei Microdevices Corporation (AKM) or authorized distributors as to current status of the products. z Descriptions of external circuits, application circuits, software and other related information contained in this document are provided only to illustrate the operation and application examples of the semiconductor products. You are fully responsible for the incorporation of these external circuits, application circuits, software and other related information in the design of your equipments. AKM assumes no responsibility for any losses incurred by you or third parties arising from the use of these information herein. AKM assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of such information contained herein. z 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. z AKM products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKM. As used here: Note1) 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. Note2) 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. z It is the responsibility of the buyer or distributor of AKM products, who distributes, disposes of, or otherwise places the product with a third party, to notify such third 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. MS0078-E-03 2012/01 - 31 -