[ASAHI KASEI] [AK4544A] AK4544A AC’ 97 Multimedia Audio CODEC with SRC Features General Description • AC’ 97 Rev. 2.1 Compliant • 18bit Resolution A/D and D/A • Exceeds PC99 Performance Requirements: AK4544A (@fs=48k) A/D………………90dBA D/A………………89dBA A-A………………95dBA • Analog Inputs: 4 Stereo Inputs: LINE, CD, VIDEO, AUX Speakerphone and PC BEEP Inputs 2 Independent MIC Inputs • Variable Sampling Rate Support 48k, 44.1k, 32k, 22.05k, 16k, 11.025k, 8k • Analog Output: Stereo LINE Output with volume control True Line Level with volume control Mono Output with volume control • 3D Stereo Enhancement • POP Function & DAC Feed Back Control • Multiple codec Capability The AK4544A can work as a Primary or Secondary codec depended on codec ID configuration. • EAPD(External Amplifier Powerdown) Support • Power Supplies: Analog 5.0V, Digital 5.0V or 3.3V • Low Power Consumption 230mW(Analog:5V/Digital:3.3V) at full operation • 48 Pin LQFP Package The AK4544A is a 18bit high performance codec which support variable sampling rate conversion compliant with Audio Codec ’ 97 Rev 2.1 requirements. The AK4544A provides two pairs of stereo outputs with independent volume controls, a mono output, and multiple stereo and mono inputs, along with flexible mixing, gain and mute functions to provide a complete integrated audio solution for PCs. In addition, the AK4544A has the POP feature suitable for 3D positioning and direct output from DAC for AD monitoring or docking station application. The AK4544A can function as a Primary AC’ 97 or Secondary codec depending on the codec ID configuration(Multiple codec extension), making the AK4544A suitable for the docking station application and multiple codec applications. Sampling frequency is programmable through AC-link as 48k, 44.1k, 32k, 22.05k, 16k, 11.025k, and 8kHz. This setting is done independent to ADC and DAC side while L/R channels are kept identical. The AK4544A provides excellent audio performance, meeting or exceeding PC99 requirements for a PCI audio solution. It has low power consumption, and flexible power-down modes for use in laptops as well as desktop PCs and aftermarket add-in boards. Like the earlier pin-compatible AK4540, AK4541, AK4542, and AK4543, the AK4544A is available in a compact 48-lead LQFP package. Reference : Audio Codec ’ 97 Revision 2.1 nBlock Diagram SEL_CMOS EAPD SYNC SDATA_OUT Digital Section RESET# Codec ID# Analog Section Power Management AC Link Interface SDATA_IN BIT_CLOCK PLL Dataslot Controller ADC AC'97 Registers and Control Signals Control Logic DAC Input Multiplexer Volume and Mute Control Voltage Reference CD AUX VIDEO MIC1 MIC2 Phone PC_BEEP Output Mixer Volume and Mute Control Multiple Codec Support Clock Generator LINE_IN 3D Stereo Enhancement LINE_OUT TRUE_LINE_LEVEL MONO_OUT * AKM assumes no responsibility for the usage beyond the conditions in this data sheet. <MS0026-E-00> -1- 2000/04 [ASAHI KASEI] [AK4544A] 26 AVdd1 27 AVss1 28 Vref 29 VrefOut 30 AFILTL 31 AFILTR 32 VRAD 33 PLLfilter 34 VRDA 35 3Dcap LINE_OUT_L LINE_OUT_R 36 25 MONO_OUT 37 24 LINE_IN_R AVdd2 38 23 LINE_IN_L LNLVL_OUT_L 39 22 MIC2 NC 40 21 MIC1 LNLVL_OUT_R 41 20 CD_R AVss2 42 19 CD_GND TEST2 43 18 CD_L TEST3 44 17 VIDEO_R codec ID0# 45 16 VIDEO_L codec ID1# 46 15 AUX_R EAPD 47 14 AUX_L SEL_CMOS 48 13 PHONE XTL_OUT DVss1 SDATA_OUT BIT_CLK 8 9 -2- 10 11 12 PC_BEEP XTL_IN 7 RESET# 6 SYNC 5 DVdd2 4 SDATA_IN 3 DVss2 2 DVdd1 <MS0026-E-00> 1 2000/04 [ASAHI KASEI] [AK4544A] Pin/Function No. 1 Signal Name DVdd1 I/O - 2 I 3 4 5 6 XTL_IN (MCLKI) XTL_OUT(open) DVss1 SDATA_OUT BIT_CLK O I I/O 7 8 9 DVss2 SDATA_IN DVdd2 O - 10 11 12 13 14 15 16 17 18 19 SYNC RESET# PC_BEEP PHONE AUX_L AUX_R VIDEO_L VIDEO_R CD_L CD_GND I I I I I I I I I I 20 21 22 23 24 25 CD_R MIC1 MIC2 LINE_IN_L LINE_IN_R AVdd1 I I I I I - 26 27 AVss1 Vref O 28 29 30 31 32 VrefOut AFILTL AFILTR VRAD PLLfilter O O O O O 33 34 35 36 37 38 VRDA 3Dcap LINE_OUT_L LINE_OUT_R MONO_OUT AVdd2 O O O O O - 39 40 41 42 43 44 45 LNLVL_OUT_L NC LNLVL_OUT_R AVss2 TEST2 TEST3 Codec ID0# O O I I I 46 Codec ID1# I <MS0026-E-00> Description Digital power supply; 3.3V or 5.0V(DVdd1 = DVdd2) 0.1uF + 4.7uF capacitors should be connected to digital ground. 24.576MHz(512fs) Crystal is normally connected. If crystal is not connected, external clock can be used. 24.576MHz(512fs) Crystal. If external clock is used, this pin should be open. Digital Ground; 0V. This pin should be directly connected to DVss2 on board. Serial 256-bit AC’97 data stream from digital controller 12.288MHz(256fs) serial data clock Output at Primary codec. Input at Secondary codec. Digital Ground; 0V. This pin should be directly connected to DVss1 on board. Serial 256-bit AC’97 data stream to digital controller Digital power supply; 3.3V or 5.0V(DVdd1 = DVdd2) 0.1uF + 4.7uF capacitors should be connected to digital ground. AC’97 Sync Clock, 48kHz(1fs) fixed rate sampling rate AC’97 Master Hardware Reset PC Speaker beep pass through From telephony subsystem speakerphone Aux Left Channel Aux Right Channel Video Audio Left Channel Video Audio Right Channel CD Audio Left Channel CD Audio analog ground CD_GND or analog ground should be connected through capacitor. CD Audio Right Channel Desktop Microphone Input Second Microphone Input Line In Left Channel Line In Right Channel Power supply; 5.0V(AVdd1=AVdd2) 0.1uF + 4.7uF capacitors should be connected to AVss1(analog ground). Analog Ground; 0V Reference Voltage Output; 0.1µF +4.7µF capacitors should be connected to Avss1(analog ground). Reference Voltage Output (2.5V,1.25mA) Anti-Aliasing Filter Cap; Connected to analog ground with 1nF capacitor. Anti-Aliasing Filter Cap; Connected to analog ground with 1nF capacitor. Vref for ADC ; 0.1µF capacitor should be connected to analog ground. Loop filter for PLL is connected; 36k resistor and 33nF capacitor in series and 390pF capacitor. Vref for DAC; 0.1µF capacitor should be connected to analog ground. 3D Enhancement Cap; 27nF capacitor should be connected to analog ground. Line Out Left Channel Line Out Right Channel To telephony subsystem speakerphone Power supply; 5.0V(AVdd1=AVdd2) 0.1uF capacitor should be connected to AVss2(analog ground). True Line Level Out Left Channel No Connection True Line Level Out Right Channel Analog Ground Test pin (This pin should be open for normal operation):With internal pull-down. Test pin (This pin should be open for normal operation):With internal pull-down. Codec ID configuration(ID select input for multiple codec extension) See Page21. Negative logic input. With internal pull-up. Codec ID configuration(ID select input for multiple codec extension) See Page21. Negative logic input. With internal pull-up. -3- 2000/04 [ASAHI KASEI] 47 48 EAPD SEL_CMOS [AK4544A] O I EAPD(External amplified powerdown) CMOS/TTL selection for digital input levels. With internal pull-up. CMOS: Leave open for 3.3V supply. TTL : Tie to GND for 5V supply. Absolute Maximum Rating AVss1, AVss2, DVss1, DVss2 =0V (Note 1) Parameter Symbol min Power Supplies (Note 2) Analog(AVdd1 & AVdd2) VA -0.3 Digital(DVdd1 & DVdd2) VD -0.3 Input Current (any pins except for supplies) IIN Analog Input Voltage VINA -0.3 Digital Input Voltage VIND -0.3 Ambient Temperature Ta -10 Storage Temperature Ta -65 Note 1: All voltages with respect to ground. AGND(AVss1, AVss2) and DGND(DVss1, DVss2) should be same voltage. Note 2: Supplying Digital Power, Analog Power should be supplied. See Page 28. max Units 6.0 6.0 ±10 VA+0.3 VD+0.3 70 150 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 Condition AGND, DGND=0V (Note 1) Parameter Power Supplies AK4544A Analog Digital Note 1 : All voltages with respect to ground. <MS0026-E-00> Symbol min typ max Units VA VD 4.75 3.135 5.0 5.0 or 3.3 5.25 5.25 V V -4- 2000/04 [ASAHI KASEI] [AK4544A] AK4544A Analog Characteristics Ta=25°C,AVdd=5.0V,DVdd=3.3V, fs=48kHz unless otherwise specified, Signal Frequency =1kHz All volume setting for ADC/DAC performance measurement is 0dB. Parameter min typ max Audio-ADC Resolution 18 S/N (A weight, fs=48kHz) 83 90 S/N (A weight, fs=44.1kHz) 87 S/(N+D) (fs=48KHz, -1dB analog input) 70 77 Inter Channel Isolation 70 77 Inter Channel Gain Mismatch 0.5 Full Scale Input Voltage 0.88 1.0 1.12 Power Supply Rejection 50 Audio DAC: measured at AOUTL/AOUTR via MIXER path Resolution 18 S/N (A weighted, fs=48kHz) : mixer+DAC measured at AOUT 84 89 S/N (A weighted, fs=44.1kHz) : mixer+DAC measured at AOUT 86 S/(N+D) (fs=48KHz, -1dB digital input) 72 80 Inter Channel Isolation 70 80 Inter Channel Gain Mismatch 1.0 Full Scale Output Voltage 0.88 1.0 1.12 Total Out-of-Band Noise (28.8kHz - 100kHz) -70 Power Supply Rejection 50 MIC Amplifier / MUX Gain : 20dB is selected 18 20 22 Master volume (Mono, Stereo, True Line Level Out) : 1.5dB x 32 step Step Size -1.5 Attenuation Control Range -46.5 0 Load Resistance 10 PC Beep : 3dB x 16 step Step Size -3.0 Attenuation Control Range -45 0 Analog Mixer : 1.5dB x 32 step Step Size -1.5 Gain Control Range -34.5 +12 Record Gain : 1.5dB x 16 step Step Size +1.5 Gain Control Range 0 +22.5 Mixer Input Voltage (except for MIC) 1.0 Input Voltage MIC : Gain = 0dB 1 MIC : Gain = 20dB 0.1 S/N(A weighed) : 0dB setting, 1 path is selected at Mixer CD to AOUT: 88 95 Other analog input to AOUT 95 Input Impedance (Input gain=0dB,Rec_MUTE=off) PC_BEEP only (10) 76 Others(PHONE, LINE, CD, AUX, VIDEO) (10) 40 Input Impedance (MIC1 and MIC2) (10) 20 Output load Resistance 10 (LINE_OUT_L/R, MONO_OUT, LNLVL_OUT_L/R) Vrefout Drivability 1.25 <MS0026-E-00> -5- Units Bits dB dB dBFS dB dB Vrms dB Bits dB dB dBFS dB dB Vrms dB dB dB dB dB kΩ dB dB dB dB dB dB Vrms Vrms Vrms dB dB kΩ kΩ kΩ kΩ mA 2000/04 [ASAHI KASEI] [AK4544A] Parameter Power Supplies Analog Power Supply Current(AVdd1 & AVdd2) All ON mode(all PR_bits are 0) Cold Reset status(Reset#=L, Vref is ON) All OFF mode(all PR_bits are 1) Digital Power Supply Current(DVdd1 & DVdd2) All ON mode(all PR_bits are 0) at DVDD=5V All ON mode(all PR_bits are 0) at DVDD=3.3V All OFF mode(all PR_bits are 1) min Filter Characteristics Ta=25°C,AVdd=5.0V±5%,DVdd=3.3V±5% , fs=48KHz(fixed) Parameter min ADC Digital Filter (Decimation LPF) Passband (±0.2dB) Note) 0 Stopband 28.8 Stopband Attenuation 70 Group Delay ADC Digital Filter (HPF) Frequency Response; -3dB -0.5dB -0.1dB DAC Digital Filter Passband (±0.2dB) 0 Stopband 28.8 Group Delay Stopband Rejection 70 DAC Post filter Passband Frequency Response (0 - 19.2kHz) Note) This frequency scales with the sampling frequency (fs). typ max Units 41 4.1 0 62 8 0.2 mA mA mA 13.5 7.5 0 21 11 0.4 mA mA mA Max Units 19.2 kHz kHz dB ms typ 0.5 7.5 21 49 Hz 19.2 0.5 ±0.1 kHz kHz ms dB dB AK4544A DC Characteristics Ta=-10∼70°C, VD=5V±5%(SEL_CMOS=L) or 3.3V±5%(SEL_CMOS=H: Open), VA=5V±5%, 50pF external load Parameter Symbol min typ Max Units “H” level input voltage VIH XTAL_IN 0.7xVD V RESET#, SYNC, SDATA_OUT, BIT_CLK At SEL_CMOS=L(GND) : TTL 2.2 V At SEL_CMOS=H(Open) : CMOS 0.7xVD V ID0#, ID1#, SEL_CMOS(Pull up) 0.8xVD V “L” level input voltage VIL XTAL_IN 0.3xVD V RESET#, SYNC, SDATA_OUT, BIT_CLK At SEL_CMOS=L(GND) : TTL 0.8 V At SEL_CMOS=H(Open) : CMOS 0.3xVD V ID0#, ID1#, SEL_CMOS(Pull up) 0.2xVD V “H” level output voltage Iout= -1mA VOH VD-0.55 V “L” level output voltage Iout= 1mA VOL 0.55 V Input leakage current(exclude pull up pins) Iin ±10 µA Pull up resistance Rup 50 100 200 kΩ <MS0026-E-00> -6- 2000/04 [ASAHI KASEI] [AK4544A] Switching Characteristics Ta=25°C, AVdd=5.0V±5%, DVdd=3.3V±5% or 5V±5%, 50pF external load Parameter Symbol Min Master Clock Frequency Note) Fmclk If Crystal is not used. 45 AC link Interface Timing Fbclk BIT_CLK frequency Tbclk BIT_CLK clock Period(Tbclk=1/Fbclk) 36 Tclk_low BIT_BLK low pulse width 36 Tclk_high BIT_BLK low pulse width Trise_clk BIT_CLK rise time Tfall_clk BIT_CLK fall time SYNC frequency SYNC low pulse width Tsync_low SYNC high pulse width SYNC rise time SYNC fall time Setup time(SYNC, SDATA_OUT) Hold time(SYNC, SDATA_OUT) SDATA_IN delay time from BIT_CLK rising edge SDATA_IN rise time SDATA_IN fall time SDATA_OUT rise time SDATA_OUT fall time Cold Rest (SDATA_OUT=L, SYNC=L) RESET# active low pulse width RESET# inactive to BIT_CLK delay Warm Rest Timing SYNC active low pulse width SYNC inactive to BIT_CLK delay Typ 24.576 50 max 55 Units MHz % 6 6 15 MHz ns ns ns ns ns kHz µs (Tbclk) µs (Tbclk) ns ns ns ns ns - 6 6 6 6 ns ns ns ns 1.0 162.8 (2 cycle) - - µs ns (Tbclk) Tsync_high 1.0 - Tsync2clk 162.8 (2 cycle) 1.3 (16 cycle) µs (Tbclk) ns (Tbclk) Tsync_high - Trise_sync Tfall_sync Tsetup Thold Tdelay 10 25 - 12.288 81.38 40.7 40.7 48 19.5 (240 cycle) 1.3 (16 cycle) - Trise_din Tfall_din Trise_dout Tfall_dout - Trst_low Trst2clk 45 45 6 6 - AC-link Low Power Mode Timing End of Slot 2 to BIT_CLK, SDATA_IN Ts2_pdwn 1.0 µs Low Activate Test Mode Timing Setup to trailing edge of RESET# Tsetup2rst 15.0 ns Hold from RESET# rising edge Thold2rst 100 ns Rising edge of RESET# to Hi-Z Toff 50 ns Falling edge of RESET# to “L” Tlow 50 ns Note ) The use of a crystal is recommended. If master clock is supplied from controller (or if a external oscillator is used), Master Clock should be input to XTAL_IN, meanwhile XTAL_OUT should be open. <MS0026-E-00> -7- 2000/04 [ASAHI KASEI] [AK4544A] n Set ID for Multiple CODEC and CMOS/TTL Before the device is power up, ID1# pin, ID0# pin and SEL_CMOS pin should be open or should be connected to DGND. ID1 bit and ID0 bit are set by ID1# pin and ID0# pin that are 46 pin and 45 pin. If both ID1# pin and ID0# pin are open, ID1 bit and ID0 bit in the extended audio register(28h) are stored as (0,0) respectively. SEL_CMOS pin (48pin) decides which input level is CMOS or TTL. If SEL_CMOS pin is open, CMOS input level is selected. If SEL_CMOS pin is connected to DGND, TTL input level is selected. n Power On Note that AK4544A must be in cold reset at power on and RESET# must be low until master crystal clock becomes stable, or reset must be done once master clock is stable. Vdd RESET# SDATA_OUT=”L” SYNC=”L” BIT_CLK Initialize Registers Trst2clk start up crystal oscillation When using the AK4544A in multiple codec mode, all codec’s connected to the AC-link are waken up at the same time. Secondary codec doesn’t need the master clock of 24.576MHz. Then XTL_IN pin is low internally. BIT_CLK signal of primary codec must be input into BIT_CLK pin of secondary CODEC. After AK4544A powers on, BIT_CLK mustn’t stop except below case. 1) RESET#=L 2) PR0=PR1=PR4=1 nCold Reset Timing Note that both SDATA_OUT and SYNC must be low at the rising edge of RESET# for cold reset. The AK4544A initializes all registers including the Powerdown Control Registers, BIT-CLK is reactivated and each analog output is in Hi-Z state except for PC Beep while RESET# pin is low. The PC Beep is directly routed to L & R line outputs when AK4544A is in Cold Reset. At the rising edge of RESET#, the AK4544A starts the initialization of ADC and DAC, which takes 1028TS cycles. After that, the AK4544A is ready for normal operation. Status bit in the slot 0 is “0” (not ready) when the AK4544A is in RESET period (“L”) or in initialization process. After initialization cycles, the status bit goes to “1” (ready). Trst_low Trst2clk RESET# VIL SDATA_OUT=”L” SYNC=”L” BIT_CLK When the AK4544A is used under the multiple codec configurations and when cold reset is issued, all AK4544A connected to the AC-link will execute a cold reset concurrently. <MS0026-E-00> -8- 2000/04 [ASAHI KASEI] [AK4544A] nWarm Reset The AK4544A initiates warm reset process by receiving a single pulse on the sync. The AK4544A clears PR4 bit and PR5 bit in the Powerdown Control Register. However, warm reset does not influence PR0∼PR3 or PR6,7 bits in Powerdown Control Register. Note that SYNC signal should synchronize with BIT_CLK after AK4544A starts to output BIT_CLK clock. And if an external clock is used, external clocks should be supplied before issuing a sync pulse for warm reset. ADC and DAC require 1028TS for the initialization. Tsync_high Tsync2clk SYNC VIH BIT_CLK Please refer to the appendix on the warm reset when the AK4544A is used under the multiple codec configuration. nBIT_CLK Timing Tclk_high Tclk_low BIT_CLK 50% nSYNC Timing Tsync_low Tsync_high SYNC VIH VIL Tsync_period nSetup and Hold Timing Tdelay Tsetup VIH BIT_CLK VIL VIH SDATA_IN VIL Thold SDATA_OUT SYNC <MS0026-E-00> VIH VIL -9- 2000/04 [ASAHI KASEI] [AK4544A] nSignal Rise and Fall Times (50pF external load : from 10% 90% of DVdd) Trise_clk Tfall_clk Trise_din BIT_CLK Tfall_din SDATA_IN Trise_dout Trise_sync Tfall_sync Tfall_dout SDATA_OUT SYNC nAC-link Low Power Mode Timing Slot 1 Slot 2 Ts2_pdwn BIT_CLK SDATA_OUT Write to 0x26 SDATA_IN Data PR4=1 Don’t care Thold nActivate Test Mode VIH RESET# VIH SDATA_OUT Tsetup2rst HI-Z SDATA_IN BIT_CLK Toff Notes:1 1. All AC-link signals are normally low through the trailing edge of RESET#. Bringing SDATA_OUT high for the rising edge of RESET# causes the AK4544A AC-link outputs to go high impedance which is suitable for ATE in circuit testing. Note that the AK4544A enters in the ATE test mode regardless SYNC is high or low. 2. Once test modes have been entered, the only way to return to the normal operating state is to issue “cold reset” which issues RESET# with both SYNC and SDATA_OUT low. 1 All the following sentences written with small italic font in this document quote the AC’ 97 component specification. <MS0026-E-00> - 10 - 2000/04 [ASAHI KASEI] [AK4544A] General Description nAC ‘97 Connection to the Digital AC ’97 controller 2 AC ‘97 communicates with its companion AC ‘97 controller via a digital serial link, AC-link”. All digital audio streams, and command/status information are communicated over this point to point serial interconnect. A breakout of the signals connecting the two is shown in the following figure. AC’97 Controller AC’97 SYNC BIT_CLK SDATA_OUT SDATA_IN RESET# nDigital Interface The AK4544A incorporates a 5 pin digital serial interface that links it to the AC ’97 controller. AC-link is a bi-directional, fixed rate(48kHz), serial PCM digital stream. It handles multiple input, and output audio streams, as well as control register accesses employing a time division multiplexed (TDM) scheme. The AC-link architecture divides each audio frame into 12 outgoing and 12 incoming data streams, each with 20-bit sample resolution. DAC and ADC resolution of the AK4544A is 18 bit resolution. The data streams currently defined by the AC ‘97 specification include: l PCM Playback 6 output slots(One codec can use 2 slots out of 6 slots) 2 channel composite PCM output stream l PCM Record data 2 input slots 2 channel composite PCM input stream l Control 2 output slot Control register write port l Status 2 input slots Control register read port SYNC, fixed at 48 KHz, is derived by dividing down the serial bit clock (BIT_CLK). BIT_CLK, fixed at 12.288 MHz, provides the necessary clocking granularity to support 12, 20-bit outgoing and incoming time slots. AC-link serial data is transitioned on each rising edge of BIT_CLK. The receiver of AC-link data, the AK4544A for outgoing data and AC ’97 controller for incoming data, samples each serial bit on the falling edges of BIT_CLK. The AK4544A outputs BIT_CLK when it is assigned as Primary codec by codec ID configuration ID1# pin and ID0# pin. The other hand, the AK4544A receives BIT_CLK when assigned as the Secondary codec. The AC-link protocol provides for a special 16-bit slot (Slot 0) wherein each bit conveys a valid tag for its corresponding time slot within the current audio frame. A “1” in a given bit position of slot 0 indicates that the corresponding time slot within the current audio frame has been assigned to a data stream, and contains valid data. If a slot is “Tagged” invalid, it is the responsibility of the source of the data, (The AK4544A for the input stream, AC ’97 controller for the output stream), to stuff all bit positions with 0’s during that slot’s active time. SYNC remains high for a total duration of 16 BIT_CLKs at the beginning of each audio frame. The portion of the audio frame where SYNC is high is defined as the “Tag Phase”. The remainder of the audio frame where SYNC is low is defined as the “Data Phase”. Note that SDATA_OUT and SDATA_IN data is delayed one BIT_CLK because AC’97 controller causes SYNC signal high at a rising edge of BIT_CLK which initiates a frame. “Output” stream means the direction from AC’97 controller to the AK4544A, and “Input” stream means the direction from the AK4544A to AC’97 controller 2 All the following sentences written with small italic font in this document quote the AC’ 97 component specification. <MS0026-E-00> - 11 - 2000/04 [ASAHI KASEI] [AK4544A] nMultiple codec function There can be up to 4 Codecs on the extended AC-link. The Primary Codec generates the master AC-link BIT_CLK for both the AC ’97 Digital Controller and any Secondary Codecs. The AK4544A may be used as a master or slave in any systems using more than one codec. ID for these 4 Codecs is set by combination of ID1# pin and ID0# pin. When AK4544A operates as primary codec, ID1# pin and ID0# pin must be open state before power on. In this case ID1 bit and ID0 bit in Extended Audio register are stored as (0,0) respectively. If either ID1# pin or ID0# pin is connected to DGND or both pins are connected to DGND, AK4544A operates as secondary codec. The slot request bits of ID(0,1) CODEC are same as that of ID(0,0) CODEC. Therefore, note that all sample rates except 48KHz can’t be used for DAC in the multiple CODEC system which secondary CODEC ID is (0,1). Digital Controller AC ‘97 SYNC BIT_CLK SDATA_OUT RESET# SDATA_IN0 SDATA_IN1 SDATA_IN2 SDATA_IN3 SYNC BIT_CLK SDATA_OUT RESET# SDATA_IN AC ‘97 or MC ‘97 SYNC BIT_CLK SDATA_OUT RESET# SDATA_IN Optional 4th AC ‘97 SYNC BIT_CLK SDATA_OUT RESET# SDATA_IN Multiple Codec Example <MS0026-E-00> - 12 - 2000/04 [ASAHI KASEI] Slot [AK4544A] 0 1 2 3 4 5 6 7 8 9 10 11 12 All “0” All “0” All ”0” All “0” All “0” All “0” All “0” All “0” All All “0” “0” PCM(dac) PCM(dac) All “0” All “0” All “0” All “0” All “0” All “0” All All “0” “0” PCM(dac) PCM(dac) All “0” PCM(dac) Left All All ”0” All “0” PCM(dac) Right All “0” All “0” All “0” PCM(adc) PCM(adc) Left Right All “0” All “0” All ”0” All “0” All “0” All “0” All “0” All “0” SYNC Codec ID1:Codec ID0=0:0 or 0:1 SDATA OUT TAG Command Command PCM(dac) PCM(dac) Address Data Left Right Codec ID1:Codec ID0=1:0 TAG Command Command Address Data Codec ID1:Codec ID0=1:1 TAG SDATA IN TAG Command Command Address Data Status Address Status Data Tag Phase PCM(dac) PCM(dac) Left Right All All Data Phase 48kHz AC-link protocol identifies 13slots of data per frame. The frequency of sync is fixed to 48kHz. Only Slot 0, which is the Tag phase, is 16bits, all other slots are 20bits in length. These slots are explained in later sections. AC-link Audio Output Frame (SDATA_OUT) a)Slot 0 Primary codec(CodecID1:CodecID0=0:0) SYNC BIT_CLK SDATA_OUT Valid Frame Slot1 Bit15 Bit14 ” ” Slot3 Slot4 Slot5 Slot6 Slot7 Slot8 Slot9 Slot10 Slot11 Slot12 Bit13 Bit12 ” ” Bit11 ” Bit10 ” Bit9” Bit8 ” Bit7” Bit6” Bit5” “0” “0” Slot2 “1/0” “1/0” “1/0” “1/0” “1/0” “0” “0” “0” “0” Bit4 ” “0” Bit3 “0” Bit2 ” “0” Bit1 Bit0 “0” “0” Slot 0 1 BIT_CLK delay Slot 1 Secondary codec (CodecID1:CodecID0 = 0:1 or 1:0 or 1:1) SYNC BIT_CLK SDATA_OUT Valid Frame Slot1 Bit15 Bit14 ” ” “1/0” “0” 1 BIT_CLK delay Slot3 Slot4 Slot5 Slot6 Slot7 Slot8 Slot9 Slot10 Slot11 Slot12 Bit13 Bit12 ” ” Bit11 ” Bit10 ” Bit9” Bit8 ” Bit6” Bit5” Slot2 “0” “1/0” “1/0” “0” Bit7” “1/0” “1/0” “1/0” “1/0” “0” Slot 0 Bit4 ” “0” Bit3 “0” Bit2 ” “0” Bit1 Bit0 “1/0” “1/0” Slot 1 The AK4544A checks bit15 (valid frame bit). Note that when the valid frame bit is “1”, at least one bit14-6 (slot 1-9) or bit1-0 must be valid, bit5-2 will be “0”and should be ignored. If bit15 is “0”, the AK4544A ignores all following information in the frame. The AK4544A then checks the validity of each bit in the TAG phase (slot 0). If each bit is “0”, the AK4544A ignores the slot indicated by “0”. On the other hand, if each bit is “1”, the slot is valid. All bits in slot10-12(bit5-3) are “0” and bit2 is also “0”. The AK4544A monitors bit1 and 0, which are codec ID configuration bits used in multiple codec designs. These bits are used to identify which codec the frame data is issued to. <MS0026-E-00> - 13 - 2000/04 [ASAHI KASEI] [AK4544A] When codec ID configuration bits1 and 0 which are set by codec ID configuration 45/46 strapping pins(codec ID0# pin and ID1# pin) are set to zero(00), the frame is aimed for the Primary codec. And when codec ID configuration bit1 and 0 are set to non-zero values(01, 10, or 11), the frame is meant for Secondary codec. A new audio output frame begins with a low to high transition of SYNC. SYNC is synchronous to the rising edge of BIT_CLK. On the immediately following falling edge of BIT_CLK, the AK4544A samples the assertion of SYNC. This falling edge marks the time when both sides of AC-link are aware of the start of a new audio frame. On the next rising of BIT_CLK, the AC ’97 controller transitions SDATA_OUT into the first bit position of slot 0 (Valid Frame bit). Each new bit position is presented to AC-link on a rising edge of BIT_CLK, and subsequently sampled by the AK4544A on the following falling edge of BIT_CLK. This sequence ensures that data transitions, and subsequent sample points for both incoming and outgoing data streams are time aligned. Data should be sent to the AC’97 codec with MSB first through the SDATA_OUT. The following table shows the relationship of bit14&13 and the Read/Write operation depending on codec ID configuration. Bit 15 Valid Frame 1 1 1 Bit 14: Slot1 Valid Bit (Command Address) 1 0 1 1 0 Bit 13: Slot 2 Valid Bit (Command Data) 1 1 0 Read/Write Operation of Primary AK4544A Read/Write(Normal Operation) Ignore Read: Normal Operation Write: Ignore 0 Ignore AK4544A Addressing: Slot0 Tag Bits Read/Write Operation of Secondary AK4544A Ignore Ignore Ignore Read/Write(Normal Operation) b)Slot1:Command Address Port Slot1 gives the address of the command data, which is given in the slot 2. The AK4544A has 23 valid registers of 16bit data. See Page19. BIT_CLK Bit19 Bit18 SDATA_OUT Bit17 Bit16 Bit15 Bit14 Bit13 Bit12 “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” Slot 0 Bit11 Bit10 Bit9 Bit9 Bit2 Bit1 Bit0 “0” “0” “0” “0” “0” “0” “0” Slot 1 Bit19 Bit18 Bit17 Bit16 Slot 2 Command Address Port Bit 19: Bit 18:12 Bit 11:0 Read/Write command 1=read, 0=write Control Register Index (see “Mixer Registers for the detail) Reserved (“0”) Bit 18 of this slot1 is equivalent to the most significant bit of the index register address. The AK4544A ignores from bit11 to bit0. These bits will be reserved for future enhancement and must be staffed with 0’s by the AC’97 controller. c)Slot2:Command Data Port BIT_CLK Bit19 Bit18 SDATA_OUT Bit17 Bit16 Bit15 Bit14 Bit13 Bit12 “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” Slot 1 Bit6 Bit5 Bit4 Bit3 “1/0” “1/0” “0” Slot 2 Bit2 Bit1 Bit0 “0” “0” “0” Bit19 Bit18 Bit17 Bit16 Slot 3 Command Data Port Bit19:4 Bit3:0 Control Register Write Data (if bit 19 of slot 1 is “1”, all Bit19:4 should be “0”) Reserved(“0”) If bit19 in slot1 is “0”, the AC’97 controller must output Command Data Port data in slot 2 of the same frame. If the bit19 in slot1 is “1”, the AK4544A will ignore any Command Data Port data in slot2. Bit19 of this slot2 is equivalent to D15 bit of mixer register value. <MS0026-E-00> - 14 - 2000/04 [ASAHI KASEI] [AK4544A] d)Slot3 PCM Playback Left Channel (18bits) In the case of codec ID1:codec ID0=0:0 or 0:1, the AK4544A uses the playback(DAC) data format in slot3 for left channel. Playback data format is MSB first. Data format is 18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot3) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” e)Slot4 PCM Playback Right Channel (18bits) In the case of codec ID1:codec ID0=0:0 or 0:1, the AK4544A uses the playback(DAC) data format in the slot4 for right channel. Playback data format is MSB first. Data format is 18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot 4) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” f)Slot5 Not implemented in the AK4544A The AK4544A ignores this data slot. g)Slot6 PCM Playback Left Channel (18bits) In case of codec ID1:codec ID0=1:1, the AK4544A uses playback(DAC) data format in the slot 6 for left channel. Playback data format is MSB first. Data format is18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot6) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” h)Slot7 PCM Playback Left Channel (18bits) In case of codec ID1:codec ID0=1:0, the AK4544A uses playback(DAC) data format in the slot7 for left channel. Playback data format is MSB first. Data format is18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot7) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” i)Slot8 PCM Playback Right Channel (18bits) In case of codec ID1:codec ID0=1:0, the AK4544A uses playback(DAC) data format in the slot8 for right channel. Playback data format is MSB first. Data format is 18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot8) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” j)Slot9 PCM Playback Right Channel (18bits) In case of codec ID1:codec ID0=1:1, the AK4544A uses playback(DAC) data format in the slot 9 for right channel. Playback data format is MSB first. Data format is 18bits 2’s complement. AC’97 controller should stuff bit1-0 with “0”. If valid bit (slot9) in the slot 0 is invalid (“0”), the AK4544A interprets the data as all “0”. Bit19:2 Playback data Bit 1:0 “0” k)Slot10-12 Not implemented in the AK4544A The AK4544A ignores these data slots. <MS0026-E-00> - 15 - 2000/04 [ASAHI KASEI] [AK4544A] AC-link Input Frame(SDATA_IN) Each AC-link frame consists of one 16bit tag phase and twelve 20bit slots used for data and control. a)Slot0 Slot0 is a special time frame, and consists of 16bits. Slot0 is also named the Tag phase. The AK4544A supports Bits 15-11 and bits1-0. Each bit indicates “1”=valid(normal operation) or ready, “0”=invalid(abnormal operation) or not ready. If the first bit in the slot 0 (Bit15) is valid, the AK4544A is ready for normal operation. 3If the “Codec Ready” bit is invalid, the following bits and remaining slots are all “0”. AC’97 controller should ignore the following bits in the slot 0 and all other slots. When the ADC sampling rate is set for less than 48kHz, then Bits 12and 11 in slot 0 ( corresponds to slot3 and slot4 respectively ) will be 1’s when valid data is transferred in SDATA_IN, and will be 0’s when no data is transmitted. ( On-demand ) base data transaction ) The next is the extracted description from AC’97 Rev.2.1 ; “For variable sample rate input, the tag bit for each input slot indicates whether valid data is present or not. Thus, even in variable sample rate mode, the Codec is always the master: for SDATA_IN (Codec to Controller), the Codec sets the TAG bit; for SDATA_OUT (Controller to Codec), the Codec sets the SLOTREQ bit and then checks for the TAG bit in the next frame.” AK4544A expects Controller will reply TAG bit in the next frame correctly. Bit 14 means that Slot 1(Status Address) output is valid or invalid. And Bit 13 means that Slot 2(Status Data) is valid or invalid. The following table shows the relationship between Bit 14,13 and each Status of the AK4544A. Bit 15 (Codec Ready) 1 Bit 14 (Status Address) 1 Bit 13 (Status Data) 1 Status There is a Read Command in the previous frame. Then both Slot 1 and Slot 2 output normal data. If the access to non-implemented register or odd register is requested, the AK4544A returns “valid” 7-bit register address in slot 1 and returns “valid”0000h data in slot 2 on the next AC-link frame. 1 1 0 Prohibited or non-existing 1 0 0 There is no Read Command in the previous frame. Bits 19-12, Bit 9 and Bits 4-0 in Slot 1 are set to ”0”. And Slot2 outputs All”0”. 1 0 1 Prohibited or non-existing Note 1). The above Read sequence is done as response for previous frames read command. That is, if the previous frame is the Write Command, AK4544A outputs bit14 =”0”, bit13 =”0” and slot 1&2 = All”0”, if there is no SLOTREQ. 2). The Bits 14 and 13 in Slot 0 is independent of the SLOTREQ Bits 11,10, 8, 7, 6 and 5 in Slot 1 which the AK4544A supports. Bit12 means the output of Slot 3(PCM(ADC) Left) is valid or invalid. And Bit 11 means the output of Slot 4(PCM(ADC)Right) is valid or invalid. Bits10-0 are occupied with “0”. A new audio input frame begins with a low to high transition of SYNC. SYNC is synchronous to the rising edge of BIT_CLK. On the immediately following falling edge of BIT_CLK, the AK4544A samples the assertion of SYNC. This falling edge marks the time when both sides of AC-link are aware of the start of a new audio frame. On the next rising of BIT_CLK, the AK4544A transitions SDATA_IN into the first bit position of slot 0 (“Codec Ready” bit). Each new bit position is presented to AC-link on a rising edge of BIT_CLK, and subsequently sampled by the AC ’97 controller on the following falling edge of BIT_CLK. This sequence ensures that data transitions, and subsequent sample points for both incoming and outgoing data streams are time aligned. SYNC BIT_CLK SDATA_IN Codec Ready Slot6 Slot7 Slot8 Slot11 Slot12 “1/0” “1/0” “1/0” “1/0” “1/0” “0” “0” Bit15 Bit14 Bit13 Bit12 Bit11 Bit10 Bit9 “0” Bit8 “0” Bit7 “0” “0” Bit4 Bit3 Slot1 Slot2 Slot3 Slot4 Slot 0 3 Slot5 “0” Bit2 “0” “0” Bit1 Bit0 Slot 1 When the AC’ 97 is not ready for normal operation, output bits are not specified and should be ignored. <MS0026-E-00> - 16 - 2000/04 [ASAHI KASEI] b)Slot1 [AK4544A] Status Address Port Audio input frame slot1’s stream echoes the control register index, for historical reference, for the data to be returned in slot2. (Assuming that slots1 valid bit and slot2 valid bit in the slot0 had been tagged “valid” by the AK4544A) BIT_CLK Bit19 Bit18 SDATA_IN “0” Slot 0 Bit17 Bit16 Bit15 Bit14 Bit13 Bit12 Bit11 “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” “1/0” Bit10 Bit9 “1/0” “1/0” “0” Bit8 Bit7 Bit6 Bit5 Bit4 “1/0 “1/0 “1/0” “1/0” “0” Bit3 Bit2 Bit1 Bit0 “0” “0” “0” “0” Slot 1 Bit19 Slot 2 Status Address Port This address shows register index for which data is being returned in the slot2. This address port is the copy of slot1 of the output frame, and index address input to SDATA_OUT is looped back to the AC’97 controller through SDATA_IN even for non-supported register. For “On Demand” base data transaction, when the DAC sampling rate is set less than 48kHz, then AK4544A will request new audio data as required by setting the SLOTREQ bits 11 and 10 ( or bits 8 and 5, or bits 7 and 6) in Slot1 to 0’s. When no data is required to support the selected sampling rate, these bits will be 1’s. When SLOTREQ bits are asserted as “send data request” during the current frame on SDATA_IN, AC’97 digital controller should send data onto the corresponding slot in the next frame on SDATA_OUT. If VRA is set “0”, SLOTREQ bits show always “0” and sample rate is forced to 48ksps. SLOTREQ Bit 19 18 – 12 11 10 9 8 7 6 5 4–0 Description Reserved ( Set to “0” ) Control Register Index ( Set to “0”s if tagged invalid ) Slot 3 Request : PCM Left channel for Codec ID=0:0 or 0:1 “0”: send data request, “1”: do not send Slot 4 Request : PCM Right channel for Codec ID=0:0 or 0:1 “0”: send data request, “1”: do not send Reserved ( Set to “0” ) Slot 6 Request : PCM Left channel for Codec ID=1:1 “0”: send data request, “1”: do not send Slot 7 Request : PCM Left channel for Codec ID=1:0 “0”: send data request, “1”: do not send Slot 8 Request : PCM Right channel for Codec ID=1:0 “0”: send data request, “1”: do not send Slot 9 Request : PCM Right channel for Codec ID=1:1 “0”: send data request, “1”: do not send Reserved ( Set to “0” ) c)Slot2: Status Data Port Status data addressed by command address port of Output Stream is output through SDATA_IN pin. Bit19:4 Control Register Read Data (the contents of indexed address in the slot 1) Bit3:0 “0” Note that the address of Status Data Port data are consistent with Status Address Port data of the slot 1 in the same frame. If the read operation is issued in the frame N by AC’97 controller, Status Data Port data is output through SDATA_IN in the frame N+1. Note that data is output in only this frame, only one time and that the following frames are invalid if the next read operation is not issued. d)Slot3 PCM Record Left Channel Record(ADC) data format is MSB first. Data format is 2’s complement. As the resolution of the AK4544A is 18bit, lower 2 bits are ignored. If ADC block is powered down, slot-3 valid bit in the slot 0 is invalid (“0”), and data is output as all “0”. Bit19:2 Bit1:0 <MS0026-E-00> Audio ADC left channel output “0” - 17 - 2000/04 [ASAHI KASEI] [AK4544A] e)Slot4 PCM Record Right Channel Record(ADC) data format is MSB first. Data format is 2’s complement. As the resolution of the AK4544A is 18bit, lower 2 bits are ignored. If ADC block is powered down, slot-4 valid bit in the slot 0 is invalid (“0”), and data is output as all “0”. Bit19:2 Audio ADC right channel output Bit1:0 “0” f)Slot5 Modem Line Codec As the AK4544A does not incorporate modem codec, all bits are stuffed with “0”. Bit19:0 “0” g)Slot6 Microphone Record Data As the AK4544A does not incorporate 3rd ADC codec, all bits are stuffed with “0”. Bit19:0 “0” h)Slots7-12 Bits19:0 <MS0026-E-00> Reserved for future enhancement “0” - 18 - 2000/04 [ASAHI KASEI] [AK4544A] nMixer Registers Each Register is 16 bit wide. Note: The AK4544A outputs “valid” 0000h if the controller reads an unused or invalid register address. Reg Num Name D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 00h 02h Reset Master Volume 0 “0” X “1” ML5 “0” ML4 “1” ML3 “1” ML2 “0” ML1 “0” X “1” X “1” “0” “0” MR5 MR4 MR3 MR2 04 LNLVL Volume Mute X ML5 ML4 ML3 ML2 ML1 X X MR5 MR4 MR3 MR2 06h 0Ah 0Ch 0Eh 10h 12h 14h 16h 18h 1Ah 1Ch 20h 22h 26h 28h Master Volume Mono PC_BEEP Volume Phone Volume Mic Volume Line In Volume CD Volume Video Volume Aux Volume PCM Out Volume Record Select Record Gain General Purpose 3D Control Powerdown Ctrl/Stat Extended Audio ID Mute Mute Mute Mute Mute Mute Mute Mute Mute X X X X GL3 GL3 GL3 GL3 GL3 X GL3 X X PR3 X X X X X X GL2 GL2 GL2 GL2 GL2 SL2 GL2 X X PR2 X X MR4 MR3 X X X X X X X X X X X X X X X X X X X X X X X X X X X PV3 GN4 GN4 GR4 GR4 GR4 GR4 GR4 X X X X X X X PV2 GN3 GN3 GR3 GR3 GR3 GR3 GR3 X GR3 X DP3 X X X X X X X X X X X X LPBK X X X X MR5 Ext’d audio Stat/Ctrl X X X X GL4 GL4 GL4 GL4 GL4 X X X X PR4 X X X X X X GL1 GL1 GL1 GL1 GL1 SL1 GL1 MIX X PR1 2Ah X X X X X X X X X X X 3D X PR5 X X X X X POP X PR7 ID1 X X X X X X X X X X X X DFC X PR6 ID0 X “1” ML 0 ML 0 X X X X GL0 GL0 GL0 GL0 GL0 SL0 GL0 MS X PR0 X X “0” Mute 2Ch 32h 7Ch 7Eh PCM Front DAC Rate PCM LR ADC Rate Vendor ID1 Vendor ID2(AK4544A) SR15 SR15 SR14 SR14 SR13 SR13 SR12 SR12 SR11 SR11 SR10 SR10 SR9 SR9 SR8 SR8 SR7 SR7 SR6 SR6 SR5 SR5 SR4 SR4 “0” “0” “1” “1” “0” “0” “0” “0” “0” “1” “0” “1” “0” “0” “1” “1” “0” “0” “1” “0” “0” “0” “0” “0” X Mute AMAP 20dB D4 D3 D0 Default “0” “0” MR1 MR0 2D50h 8000h MR1 MR0 8000h MR2 MR1 MR0 PV1 GN2 GN2 GR2 GR2 GR2 GR2 GR2 SR2 GR2 X PV0 GN1 GN1 GR1 GR1 GR1 GR1 GR1 SR1 GR1 X X GN0 GN0 GR0 GR0 GR0 GR0 GR0 SR0 GR0 X DP2 ANL DP1 DAC X X X X DP0 ADC VRA VRA SR3 SR3 SR2 SR2 SR1 SR1 SR0 SR0 “1” “0” “0” “1” “1” “1” “1” “0” 8000h 0000h 8008h 8008h 8808h 8808h 8808h 8808h 8808h 0000h 8000h 0000h 0000h Na X201h 0000h BB80h BB80h 414Bh 4D06h REF X X D2 D1 *) Vender ID of AKM is “AKM” :This ID has been approved by Intel. *) The AK4544A outputs “X” bits as “0”. *) A write on “Invalid” registers will not affect operation of the AK4544A. *) ANL, DAC, ADC Bit in register 26h are all “0” following cold reset. When each section is ready for normal operation, the coresponding bit becomes “1”. The Powerdown register(26h) is not affected by a write to Reset register(0h). See “Mixer Registers” in AC’97 specification for details. Vref is controlled only by PR3. nReset Register (Index 00h) <Write> When any value is written to the AK4544A, all registers including 2Ah, 2Ch, and 32h in the AK4544A except for 26h Powerdown/Control Register are reset to default values. The value of this register is not altered. <Read> Reading this register returns “2D50h”composed of the ID code of the part, a code for the type of 3D enhancement, 18 bit ADC/DAC resolution, and a code for True Line Level Out. *Setting D14 – D10 “01011” means AKM 3D enhancement which is registered in Audio Codec ’97 Component Specification Rev 1.03 and 2.1 . *Setting D8 “1” means 18bit ADC resolution and D6”1” means 18bit DAC resolution. *Setting D4 “1” means True Line Level Out is supported with Volume Control(Index 04h). n Play Master Volume Registers (Index 02h,06h) and LINVL(True Line Level Out) Volume Register(Index 04h) The following table shows the relationship between bits and the attenuation value with step size of 1.5dB. The AK4544A has a range of 0dB to –46.5dB. The AK4544A does not support the optional MX5 bit. The AK4544A detects when MX5 is set and set all 5 LSBs to 1s. Example: When the driver writes a “01xxxxx” the AK4544A interpret that as “0011111”. When this register is read, the return value is “0011111”. Mute 0 0 0 0 0 0 0 1 MX5 MX4 MX3 MX2 MX1 MX0 Att. 0 0 0 0 0 0 0dB 0 0 0 0 0 1 -1.5dB 0 0 0 0 1 0 -3.0dB 0 0 0 0 1 1 -4.5dB ------------------------------------------------------------------------0 1 1 1 1 0 -45.0dB 0 1 1 1 1 1 -46.5dB ------------------------------------------------------------------------1 X X X X X -46.5dB ------------------------------------------------------------------------X X X X X X Mute <MS0026-E-00> - 19 - 2000/04 [ASAHI KASEI] [AK4544A] n PC Beep Register (Index 0Ah) The following table shows the relationship between bits and the attenuation value. The attenuation step is 3dB with a range of 0 to –45dB. PC_BEEP of the AK4544A is 0dB at default state. The PC Beep is routed to L & R Line outputs directly when AK4544A is in a RESET State(Reset# is “L”) or when the mixer is powerdown with Vref on(PR2=”1” and PR3=”0”). The PC BEEP isn’t routed to True Line Level Out under these states. This is so that Power on Self Test(POST) codes can be heard by the user in case of a hardware problem with the PC. After Reset# goes “H”, direct PC beep pass through becomes OFF. Mute PV3 PV2 PV1 PV0 Att. 0 0 0 0 0 0dB 0 0 0 0 1 -3.0dB 0 0 0 1 0 -6.0dB -------------------------------------------------------------0 1 1 1 1 -45.0dB 1 X X X X Mute n Analog Mixer Input Gain Registers (Index 0Ch-18h) The following table shows the relationship between bits and the gain/attenuation value. Attenuation step is 1.5dB with a range of +12dB to –34.5dB. Mute Gx4 Gx3 Gx2 Gx1 Gx0 Att. 0 0 0 0 0 0 +12dB 0 0 0 0 0 1 +10.5dB ----------------------------------------------------------------------0 0 1 0 0 0 0dB 0 0 1 0 0 1 -1.5dB ----------------------------------------------------------------------0 1 1 1 1 0 -33.0dB 0 1 1 1 1 1 -34.5dB 1 X X X X X Mute n Record Select Control Register (Index 1Ah) SR2 0 0 0 0 1 1 1 1 SR1 0 0 1 1 0 0 1 1 SR0 0 1 0 1 0 1 0 1 <MS0026-E-00> Att. Mic CD In (R) Video In (R) Aux In (R) Line In (R) Stereo Mix (R) Mono Mix Phone - 20 - 2000/04 [ASAHI KASEI] [AK4544A] n Record Gain Register (Index 1Ch) Mute Gx3 Gx2 Gx1 Gx0 Gain 0 0 0 0 0 0dB 0 0 0 0 1 1.5dB 0 0 0 1 0 3.0dB -------------------------------------------------------------0 1 1 1 1 22.5dB 1 X X X X Mute n General Purpose Register (Index 20h) The following table shows the relationship between the bit and control for several miscellaneous functions of the AK4544A. Bit POP D15 DFC D14 3D D13 MIX D9 MS D8 LPBK D7 Function PCM(DAC) Bypass 3D 0= Via 3D Path, 1= 3D Bypass DAC Feed Back Control 0=Mix, 1=DAC only 3D Stereo Enhancement 0=Off, 1=On Mono Output Select 0=Mix, 1=Mic Mic Select 0=Mic1, 1 =Mic2 ADC/DAC Loopback Mode 1= Loopback Comment Controls whether DAC output is mixed with analog inputs before the 3D circuit (POP=0) or after the 3D circuit (POP=1) Controls whether Mix (DFC=0) or DAC only (DFC=1) is sent to the output Controls whether the 3D circuit is bypassed (3D=0) or used (3D=1) Controls whether Full Mix (Mix=0) or Mic inputs (Mix=1) is send to MONO_OUT Selects Mic1 input (MS=0) or Mic2 (MS=1) Selects normal operation (LPBK=0) or loops ADC data directly to DACs (LPBK=1) Relations of control bits D15,14,13 POP X DFC 0 3D 0 Function 3D bypass to Volumes ( Normal ) Mixer à Vol Path at selecting “Stereo Mixer” record(1Ah register = 0505h) Analog INPUT (Line,CD,Mic…..) ADC Mixer DAC 0 0 1 3D output to Volumes Mixer à 3D à Vol Volume Analog INPUT (Line,CD,Mic…..) DAC 1 0 1 ( 3D out + DAC ) to Volumes ( Mixer(w/0 DAC) + DAC ) à Vol 3D Analog INPUT (Line,CD,Mic…..) Volume 3D Line Out S_DATA_IN ADC Mixer Line Out S_DATA_IN ADC Mixer S_DATA_IN Volume Line Out DAC X 1 X Only DAC fed to Volumes DAC à Vol Then the path from DAC to Mixer is cut. Analog INPUT (Line,CD,Mic…..) DAC Mixer ADC Volume S_DATA_IN Line Out D13(3D) will activate the AKM’s 3D enhancement. LPBK(ADC/DAC Loopback Mode) bit enables loopback of the ADC output to slot3 &4 of DAC input for both the Primary codec and Secondary codec on the same AC-Link. While this function is used, the sample rates of ADC and DAC must be set to 48KHz. <MS0026-E-00> - 21 - 2000/04 [ASAHI KASEI] [AK4544A] n 3D Control Register (Index 22h) The following table shows the relationship between the bit and 3D Depth. DP3 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 DP2 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 DP1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 DP0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 Depth 0% 50% 50% 50% 50% 50% 50% 50% 70% 70% 70% 70% 70% 70% 70% 100% Recommended Application Off Audio Audio Audio Audio Audio Audio Audio Audio Audio Audio Audio Audio Audio Audio Game n Powerdown Control/Status Register (Index 26h) BitsD0 to D3 are read only. Any write to these bits will not affect the AK4544A. These bits are used as status bits to subsections of the AC’97 codec. A 1 indicates the subsection is “ready” or that is capable of performing in a nominal manner. Bit REF D3 ANL D2 DAC D1 ADC D0 Function Vref up to nominal state 0=NOT ready, 1=ready, Analog mixers, etc ready 0=NOT ready, 1=ready DAC section ready to accept data 0=NOT ready, 1=ready ADC section ready to transmit data 0=NOT ready, 1=ready The power down modes are as follows. Bit PR0 PR1 PR2 PR3 PR4 PR5 PR6 PR7 D8 D9 D10 D11 D12 D13 D14 D15 Function PCM in ADC’s & Input Mux Powerdown PCM out DACs Powerdown Analog Mixer Powerdown (Vref still on) Analog Mixer Powerdown (Vref off) Digital Interface (AC-link) Powerdown Internal Clk disable True Line Level Out Powerdown EAPD(External Amplifier Powerdown) When PR3 is set to “1”, ADC, DAC, Mixer, True Line Lever Out, and VREF are powered down even if any PRx bit are “0”. When PR3 bit is reset to “0”, the AK4544A resumes the previous state by referencing previous PRx bit. In this case, the AK4544A outputs corresponding slot-x valid bits in the slot 0 as “0” until the AK4544A is power-up. EAPD(External Amplifier Power Down) bit controls an external audio amplifier. EAPD=”0” places a “0”(L) on the output pin, enabling an external audio amplifier, EAPD=”1”(H) shuts it down. Power-up default is EAPD=”0”(external audio amplifier enabled). <MS0026-E-00> - 22 - 2000/04 [ASAHI KASEI] [AK4544A] n Extended Audio ID(Index 28h) The Extended Audio ID(28h) is a read only register. 2bits D15&D14 can be read for codec identification. D15,14 are automatically set with the codec ID1# pin(46pin) and ID0# pin(45pin). ID1# pin and ID0# pin can be strapped and adopt inverted polarity and these logic values are stored to D15 and D14 called as ID1 bit and ID0 bit. Default ID (ID1,ID0)=(0,0) when both ID1# pin and ID0# pin are open state. Depended on codec ID configuration, the AK4544A is assigned to Primary codec or Secondary codec. Note that codec ID configuration has to be fixed before Powering up of the device. Physical Connection Pin46(ID1#) Pin45(ID0#) NC NC NC GND GND NC GND GND Logic Value ID1 ID0 0 0 0 1 1 0 1 1 Configuration Primary Secondary ID01 Secondary ID10 Secondary ID11 The AMAP bit D9 of this read only register for the AK4544A will always be set to “1” indicating that the default(following cold or warm reset) codec slot DAC mapping(configured via hardwiring, strap pin(s), or other methods) conform to below table. The audio DAC mapping can be changed based on the codec ID configuration. AC-link Frame Data used for DACs Comments PCM Left DAC uses PCM Right DAC uses data from Slot No. data from Slot No. 00 3 4 Original Definition(Master) 01 3 4 Original Definition(Docking) 10 7 8 Left/Right surround channels 11 6 9 Center/LFE channels Since AK4544A supports variable sample rates, field of D0: VRA is set to 1, indicates Variable Rate PCM Audio is supported. Codec ID n Extended Audio Status and Control Register (Index 2Ah) Bits D0 to D3, and D11 to D14 are read/write controls, while D6 to D9 are read only data to controller. Bit Function VRA=1 Enables Variable Rate Audio mode in conjunction with Audio Sample Rate (D0) Control Registers and tag-bit/SLOTREQ signaling Because CDAC,LDAC,SDAC, and MICADC are not supported, default value at cold register reset for D11-D14 is set to “0”. Internal SRC related circuits are controlled by this VRA bit(2Ah), not by VRA in Extended Audio ID register(28h). <MS0026-E-00> - 23 - 2000/04 [ASAHI KASEI] [AK4544A] n Audio Sample Rate control Registers (Index 2Ch, 32h) Sample Rate controls for DACs, and ADC. 16bit data in D15(MSB) to D0 show unsigned value between 0 to 65535, representing the exact sampling frequency in Hz. These Sample Rate setting is done at VRA=1 of Extended Audio Status and Control Register(2Ah). Sample Rate (kHz) Data in D15 – D0 8.0 1F40 hex 11.025 2B11 hex 16.0 3E80 hex 22.05 5622 hex 32.0 7D00 hex 44.1 AC44 hex 48.0 BB80 hex The AK4544A supports these discrete frequencies. When any other codes is written in this register, the AK4544A works at the sampling rate rounded to the closest one above by decoding of only D15-D12 bits. D15 – D12 Sample Rate (kHz) 0,1 8.0 2 11.025 3 16.0 4,5 22.05 6,7,8 32.0 9,Ah 44.1 Bh-Fh 48.0 At VRA=0, 2Ch and 32h are “BB80h” and can’t be written. When VRA is set to 0, 2Ch and 32h register are set to “BB80h” automatically. And the sample rate changing will be executed on the fly(immediately). It is recommended to set the zero data(no input/no ouput) at the fs changing in order to prevent some noise. n Vendor ID Registers (Index 7Ch, 7Eh) This register is a read only register that is used to determine the specific vendor identification. The ID method is Microsoft Plug and Play Vendor ID code with upper byte of 7Ch register, the first character of that id, lower byte of 7Ch register, the second character and upper byte of 7Eh register the third character. These three characters are ASCII encoded. Lower byte of 7E register is for the Vendor Revision number. AKM’s vender ID is “AKM”, and revision number is 06 for AK4544A. As ASCII code “A” is 41h, “K” is 4Bh, and “M” is 4Dh, Vendor ID registers are 414Bh and 4D06h respectively for AK4544A. <MS0026-E-00> - 24 - 2000/04 [ASAHI KASEI] [AK4544A] AK4544A Diagram 3Dcap Block PD 26[10] PC_BEEP PC_VOL(0A[4:1]) Mute(0A[15]) PHONE GAIN (0C[5:0]) Mute(0C[15]) LINE_IN_L LINE_IN_R GAIN(10[12:8]) Mute(10[15]) GAIN (10[4:0]) Mute(10[15]) CD_L CD_GND CD_R GAIN(12[12:8]) Mute(12[15]) GAIN (12[4:0]) Mute(12[15]) VIDEO_L L VIDEO_R R AUX_L GAIN(14[12:8]) Mute(14[15]) GAIN (14[4:0]) Mute(14[15]) GAIN(16[12:8]) Mute(16[15]) AUX_R GAIN (16[4:0]) Mute(16[15]) GAIN (0E[5:0]) Mute(0E[15]) (0E[6]) MIC1 20dB MIC2 PD 26[14] AK4544A Mixer PD 26[10] PD 26[10] Mixer <Left> PD 26[10] Mixer Mixer <Right> Mixe 3D ∑(R) ∑ 22[3:0] Mixe LNLVL_OUT_L LNLVL Volume 04[5:0] Mute 04[15] LNLVL_OUT_R ∑(R) Mixe 1/2 PD ∑ ∑ 1/2 1/2 Mux Mute 02[15] Mux Master Volume 02[5:0] Mute 02[15] Mux LINE_OUT_R RESET# PD26[10] Mute 06[15] Mono Volume 06[5:0] (POP 20[15] & 3D 20[13] ) | DFC20[14] LINE_OUT_L Mux 3D 20[13] DFC20[14] 1/2 1/2 PD 26[10] Mixer Master Volume 02[13:8] 3D 20[13] DFC20[14] ∑ Mux (20[8]) Mute 04[15] RESET# PD26[10] ∑(L) ∑(L) LNLVD Volume 04[13:8] Mux 20[9 Mute(18[15]] GAIN(18[12:8]) DAC.L Mute(18[15] DAC.R GAIN (18[4:0]) AC’97 20[7] Digital 20[7]Interface PD 26[9] MONO_OUT SEL_CMOS SYNC BIT_CLK Registers SDATA_OUT Mux 1A[10:8] Mux 1A[2:0] GAIN 1C[11:8] Mute 1C[15] ADC.L GAIN 1C[3:0] Mute 1C[15] ADC.R SDATA_IN RESET# EAPD PLL PD 26[11] NC PD 26[8] Dataslot Controller PD 26[8] Voltage Reference Codec ID1# PD 26[13] Vref VRAD VRDA VrefOut AVdd1 AVss1 AVdd2 AVss2 NC TEST2 TEST3 NC XTL_IN - 25 - PD 26[16] PD 26[8] PD 26[13] <MS0026-E-00> Codec ID0# XTL_OUT AFILT2 AFILT1 DVss1 2000/04 DVdd1 DVss2 DVdd2 [ASAHI KASEI] [AK4544A] nPower Management/Low Power Modes The AK4544A is capable of operating at multiple reduced power modes for when no activity is required. The state of power down is controlled by the Powerdown Register (26h). There are 8 separate commands for power down. See the table below for the different modes. As the AK4544A operates at static mode, the registers will not lose their values even if the master clock is stopped only upon power. Powerdown Mode Truth Table ADC PR0=”1” PR1=”1” PR2=”1” PD don’t care don’t care DAC Mixer VREF ACLINK don’t care PD don’t care don’t care don’t care PD don’t care don’t care don’t care don’t care don’t care don’t care Internal CLK don’t care don’t care don’t care LNLVL_OU T don’t care don’t care PD EAPD don’t care don’t care don’t care don’t care don’t care PD don’t care don’t care PD don’t care don’t care PD don’t care don’t care don’t care don’t care don’t care PD (No DAC out) PR3=”1” PD PD PD PD don’t care PR4=”1” PD PD don’t care don’t care PD PR5=”1” PD PD don’t care don’t care PD PR6=”1” don’t care don’t care don’t care don’t care don’t care PR7=”1” don’t care don’t care don’t care don’t care don’t care *: PD means Powerdown . *: No DAC out means that there is no PCM out because mixer is disabled. From normal operation sequential writes to the Powerdown Register are performed to power down subsections of the AK4544A one at a time. After everything has been shut off, a final write (of PR4) can be executed to shut down the AC ’97 digital interface (AC-link). The part will remain in sleep mode with all its registers holding their static values. To wake up, the AC ‘97 controller will send a pulse on the sync line issuing a warm reset. This will restart the AK4544A digital (resetting PR4 to zero). The AK4544A can also be woken up with a cold reset. A cold reset will cause a loss of values of the registers as a cold reset will set them to their default states. When a subsection is powered back on the Powerdown Control/Status register (index 26h) should be read to verify that the section is ready (i.e. stable) before attempting any operation that requires its normal operation. And the below figure illustrates one example of procedure to do a complete powerdown/power up of AK4544A. PR0=1 PR1=1 ADCs off PR0 Normal PR0=0 & ADC=1 PR2=1 Analog off PR2 or PR3 DACs off PR1 PR1=0 & DAC=1 PR4=1 PR2=0 & ANL=1 Digital I/F off PR4 Shut off AC-Link Warm Reset Cold Reset Default Ready = 1 One example of AK4544A Powerdown/Powerup flow When PR3 bit is set to “1”, ADC, DAC, Mixer, True Line Level Out, and VREF will be powered down even if any PRx bit are “0”. When PR3 bit is reset to “0”, the AK4544A resumes with the previous state by referencing PRx bit. In this case, the AK4544A outputs “0” (invalid) for corresponding slot-x valid bits in the slot 0 until the corresponding block of the AK4544A is power-up. Setting PR4 bit cause the Powerdown mode of AK4544A and AC-Link of AK4544A shut down. In this case, when Warm Reset is executed, PR4 bit is cleared and the AC-Link is reactivated. Meanwhile Cold reset is selected, AK4544A is restored to operation with default register settings. In addition, setting PR5 bit causes the Powerdown mode of AK4544A and the internal clock of AK4544A to be stopped. When a warm reset is done in this case, PR5 bit is cleared to 0 and internal clock and AC-Link are reactivated. When Cold reset is executed, AK4544A is set up to the operation with default register setting, no powerdown modes active. The next figure illustrates a state when all the mixers should work with the static volume settings that are contained in their associated registers. This is used when the user is playing a CD (or external LINE_IN source) through the AC ‘97 codec to the speakers but has most of the system in a low power mode. The procedure for this follows the previous except that the analog mixer is never shut down. <MS0026-E-00> - 26 - 2000/04 [ASAHI KASEI] [AK4544A] PR0=1 PR1=1 ADCs off PR0 Normal PR0=0 & ADC=1 PR4=1 DACs off PR1 PR1=0 & DAC=1 Digital I/F off PR4 Shut off AC-Link Warm Reset AK4544A Powerdown/Powerup flow with analog still alive nPowerdown/Powerup sequence of Multiple codec configuration Under the multiple codec circumstances, there is no restriction on setting PR0(ADC), PR1(DAC), PR2(Mixer), PR6(LNLVL_OUT) and PR7(EAPD) to “1” or “0”. As suggested in AC’97 Specification Rev2.1, AC-Link Powerdown(PR”4”) and Vref Powerdown(PR5=”1”) under the Multiple codec configuration are NOT recommended in order to continue supplying BIT_CLK to Secondary codecs. Below table shows the relationship for AC-Link Powerdown/Powerup procedure. AC-Link Powerdown Procedure RESET#=L Subsequent Procedure for Powerup Cold Reset Shutdown(Complete Powerdown) Cold Reset Comments Cold Reset wakes up all of codecs with default register setting concurrently. Cold Reset wakes up all of codecs with default register setting concurrently. Note: 1) The AC-Link Powerdown of Primary AC’97 will stop supplying the BIT_CLK to the Secondary AC’97. 2) When the AC-Link Powerdown is issued to the Secondary of AC’97, the Secondary of AC’97 will go to the ACLink Powerdown and Warm Reset will be followed by Syn signal at the next time frame. nTestability Activating the Test Modes AC ‘97 has two test modes. One is for ATE in circuit test and the other is for vendor specific tests. AC ‘97 enters the ATE in circuit test mode regardless of SYNC signal (high or low) if SDATA_OUT is sampled high at the trailing edge of RESET#. AC ‘97 enters AKM test mode in the case of condition below. These cases will never occur during standard operating conditions. Regardless of the test mode, the AC ‘97 controller must issue a “Cold” reset to resume normal operation of the AC ‘97 Codec. Test Mode Functions ATE in circuit test mode When AC ‘97 is placed in the ATE test mode, its digital AC-link outputs (i.e. BIT_CLK and SDATA_IN) are driven to a high impedance state. This allows ATE in circuit testing of the AC ‘97 controller. <MS0026-E-00> - 27 - 2000/04 [ASAHI KASEI] [AK4544A] System Design The following figure shows the system connection diagram. Primary codec: codec ID1:codecID0=0:0 AVDD: 5V DVDD: 3.3V or 5V 3.3V : 48pin open 5.0V : 48pin DGND <MS0026-E-00> - 28 - 2000/04 [ASAHI KASEI] [AK4544A] Secondary codec codec ID1:codecID0=0:1,1:0 or 1:1 This figure is the case of ID1 =0 and ID0=1. AVDD: 5V DVDD: 3.3V or 5V 3.3V : 48pin open 5.0V : 48pin DGND <MS0026-E-00> - 29 - 2000/04 [ASAHI KASEI] [AK4544A] 1. Grounding and Power Supply Decoupling AVdd1 and AVdd2 should be connected and derived from same AVdd. And DVdd1 and DVdd2 also should be connected and derived from same DVdd. Analog ground and digital ground should be connected together near to where the supplies are brought onto the printed circuit board. Decoupling capacitors should be as near to the AK4544A as possible, with the small value ceramic capacitor being the nearest. No specific power supply sequencing is required on the AK4544A. 2. On-chip Voltage Reference The on-chip voltage reference are output on the VRADDA, Vref pins for decoupling. A electrolytic capacitor less than 10uF in parallel with a 0.1 uF ceramic capacitor attached to these pins eliminates the effects of high frequency noise. No load current may be drawn from VRADDA, and Vref pins. All signals, especially clocks, should be kept away from the VRADDA, and Vref pins in order to avoid unwanted coupling into delta-sigma modulators. 3. Codec ID configuration Pin 45,46 Physical Connection Pin46(ID1#) Pin45(ID0#) NC NC NC GND GND NC GND GND Logic Value ID1 ID0 0 0 0 1 1 0 1 1 Configuration Primary Secondary ID01 Secondary ID10 Secondary ID11 4.Analog input Since many analog levels can be as high as 2Vrms, the circuit shown below can be used to attenuate the analog input 2Vrms to 1Vrms which is the maximum voltage allowed for all the stereo line-level inputs. J15 LINE_IN_L J4 LINE_IN_R 5.SEL_CMOS(48pin) When DVDD is 3.3V for support of CMOS level, 48pin must be open. The other hand, 48pin must be DGND as the below figure in the case of DVDD is 5.0V for TTL level This SEL_CMOS has to be fixed before powered up the AK4544A. 6.PC_BEEP If PC_BEEP isn’t used, this input pin should be NC(open) or connected to Analog-Ground through capacitor. In this case, the register for PC-Beep(04h,D15) should be set to mute on”1”. (Note that the default of PC_BEEP is mute off.) In addition, when PC_BEEP is connected through capacity to Analog-Ground, PC_BEEP is recommended to be separated from other non-used input pins. <MS0026-E-00> - 30 - 2000/04 [ASAHI KASEI] [AK4544A] 7.Microphone Input design VrefOut of AK4544A 28pin can be used for Bias of Microphone Input. R1 1 2 AK4544A:Vref out 2.2k J1 1 2 3 4 5 C1 1 2 AK4544A:Mic1 1u 1 PHONEJACK STEREO SW 2 C2 0.1n <MS0026-E-00> - 31 - 2000/04 [ASAHI KASEI] [AK4544A] Package 48pin LQFP(Unit:mm) 1.70Max 9.0 ± 0.2 0.13 ± 0.13 7.0 1.40 ± 0.05 25 24 48 13 7.0 37 1 9.0 ± 0.2 36 12 0.145 ± 0.05 0.5 0.22 ± 0.08 0.10 M 0° ∼ 10° 0.10 <MS0026-E-00> 0.5 ± 0.2 - 32 - 2000/04 [ASAHI KASEI] [AK4544A] Marking AK4544AVQ XXXXXXX JAPAN 1 1) 2) 3) 4) 5) <MS0026-E-00> Pin #1 indication Date Code : XXXXXXX (7 digits) Marketing Code : AK4544AVQ Country of Origin Asahi Kasei Logo - 33 - 2000/04 [ASAHI KASEI] [AK4544A] Appendix 1. Summary of the relationship of Slot 0 tag bit between SDATA_OUT and SDATA_IN Following two tables describe the Slot0 tag bits relationship between SDATA_OUT and SDATA_IN. Whenever the AC ’97 Digital Controller addresses the Primary AK4544A or the AK4544A responds to a read command, Slot 0 tag bits should always be set to indicate actual Slot 1 and Slot 2 data validity. Function Slot 0, bit 15 (Valid Frame) Slot 0, bit 14 (Valid Slot 1 Address) Slot 0, bit 13 (Valid Slot 2 Data) Slot 0, Bits 1-0 (Codec ID) 1 1 0 00 1 1 1 00 1 1 1 00 AC ’97 Digital Controller Primary Read Frame N, SDATA_OUT AC ’97 Digital Controller Primary Write Frame N, SDATA_OUT AK4544A Status Frame N+1, SDATA_IN Primary AK4544A Addressing: Slot 0 tag bits When the AC ’97 Digital Controller addresses a Secondary AK4544A, the Slot 0 Tag bits for Address and Data must be “0”. A non-zero 2-bit Codec ID in the LSBs of Slot 0 indicates a valid Read or Write Address in Slot 1, and the Slot 1 R/W bit indicates presence or absence of valid Data in Slot 2. Function Slot 0, bit 15 (Valid Frame) Slot 0, bit 14 (Valid Slot 1 Address) Slot 0, bit 13 (Valid Slot 2 Data) Slot 0, Bits 1-0 (Codec ID) 1 0 0 01, 10, or 11 1 0 0 01, 10, or 11 1 1 1 00 AC ’97 Digital Controller Secondary Read Frame N, SDATA_OUT AC ’97 Digital Controller Secondary Write Frame N, SDATA_OUT AK4544A Status Frame N+1, SDATA_IN Secondary AK4544A Addressing: Slot 0 tag bits 2. Summary of the relationship with Slot 0 tag bits and the SLOTREQ position in Slot1 of SDATA_IN with respect to the multiple codec assignment. In the case of SDATA_OUT, when the AC ’97 Digital Controller addresses a Secondary AK4544A, the Slot 0 Tag bits for Address and Data must be “0”. Instead, either bit or both bits of Bit1-0 in Slot0 must be “1” for Read /Write operation for secondary codec. Function Slot 0, bit 15 (Valid Frame) Slot 0, bit 14 (Valid Slot 1 Address) Slot 0, bit 13 (Valid Slot 2 Data) Slot 0, Bits 1-0 (Codec ID) Primary (Codec ID=0:0 or 0:1) 1 1 or 0 1 or 0 00 Secondary(CodecID=1:0) 1 1 or 0 1 or 0 00 Secondary(CodecID=1:1) 1 1 or 0 1 or 0 00 Slot 1 SLOTREQ Bit11 for PCM Left Bit10 for PCM Right Bit7 for PCM Left Bit6 for PCM Right Bit8 for PCM Left Bit5 for PCM Right SLOTREQ position in Slot1 of SDATA_IN <MS0026-E-00> - 34 - 2000/04 [ASAHI KASEI] [AK4544A] 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. <MS0026-E-00> - 35 - 2000/04