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| [AK5701] AK5701 16-Bit Stereo ADC with PLL & MIC-AMP GENERAL DESCRIPTION The AK5701 features a 16-bit stereo ADC. Input circuits include a Microphone-Amplifier and an ALC (Auto Level Control) circuit that is suitable for portable application with recording function. On-chip PLL supports base-band clock of mobile phone, therefore it is easy to connect with DSP. The AK5701 is available in a 24pin QFN, utilizing less board space than competitive offerings. FEATURES 1. Resolution: 16bits 2. Recording Function - 2 Stereo Input Selector - Full-differential or Single-ended Input - MIC Amplifier (+30dB/+15dB or 0dB) - Input Voltage: 1.8Vpp@VA=3.0V (= 0.6 x AVDD) - ADC Performance: S/(N+D): 78dB, DR, S/N: 89dB@MGAIN=0dB S/(N+D): 77dB, DR, S/N: 87dB@MGAIN=+15dB S/(N+D): 72dB, DR, S/N: 77dB@MGAIN=+30dB - Digital HPF for DC-offset cancellation (fc=3.4Hz@fs=44.1kHz) - Digital ALC (Automatic Level Control) (+36dB -54dB, 0.375dB Step, Mute) 3. Sampling Rate: - PLL Slave Mode (EXLRCK pin): 7.35kHz 48kHz - PLL Slave Mode (EXBCLK pin): 7.35kHz 48kHz - PLL Slave Mode (MCKI pin): 8kHz, 11.025kHz, 12kHz, 16kHz, 22.05kHz, 24kHz, 32kHz, 44.1kHz, 48kHz - PLL Master Mode: 8kHz, 11.025kHz, 12kHz, 16kHz, 22.05kHz, 24kHz, 32kHz, 44.1kHz, 48kHz - EXT Slave Mode: 7.35kHz 48kHz (256fs), 7.35kHz 26kHz (512fs), 7.35kHz 13kHz (1024fs) 4. PLL Input Clock: - MCKI pin: 27MHz, 26MHz, 24MHz, 19.2MHz, 13.5MHz, 13MHz, 12.288MHz, 12MHz, 11.2896MHz - EXLRCK pin: 1fs - EXBCLK pin: 32fs/64fs 5. Master/Slave mode 6. Audio Interface Format: MSB First, 2's compliment - DSP Mode, 16bit MSB justified, I2S 7. P I/F: 3-wire Serial 8. Power Supply: - AVDD: 2.4 3.6V - DVDD: 1.6 3.6V 9. Power Supply Current: 8mA 10. AK5701VN: Ta = -30 85C AK5701KN: Ta = -40 85C 11. Package: 24pin QFN (4mm x 4mm) MS0404-E-02 -1- 2007/08 [AK5701] Block Diagram LIN1 RIN1 LIN2 RIN2 MPWR VCOM AVDD AVSS VCOC PLL S E L ALC or IVOL Audio I/F Controller S E L DVDD DVSS PDN LRCK BCLK SDTO ADC HPF MIX Control Register EXLRCK EXBCLK EXSDTI MCKO MCKI CSP CSN CCLK CDTI Figure 1. Block Diagram MS0404-E-02 -2- 2007/08 [AK5701] Ordering Guide AK5701VN AK5701KN AKD5701 -30 +85C 24pin QFN (0.5mm pitch) -40 +85C 24pin QFN (0.5mm pitch) Evaluation board for AK5701 Pin Layout EXBCLK 13 12 11 CCLK 18 17 16 15 MPWR RIN2 LIN2 RIN1 LIN1 VCOC 19 20 21 22 23 24 1 2 3 4 5 6 14 MCKI CDTI PDN CSN EXLRCK EXSDTI MCKO CSP SDTO LRCK AK5701 Top View 10 9 8 7 VCOM DVDD AVDD DVSS AVSS Comparison with AK5355VN Function Input Selector Input Gain Mic Bias ALC Mono Mic Mode Audio I/F Format PLL Master Mode Output Data Selector Serial Control Power Supply Package Ambient Temperature AK5355VN No +15dB/0dB No No No Left justified, I2S No No No No 2.1 3.6V 20pin QFN (4.2mm x 4.2mm) -40 +85C AK5701 Yes +30dB/+15dB/0dB Yes Yes Yes DSP Mode, Left justified, I2S Yes Yes Yes Yes AVDD=2.4 3.6V DVDD=1.6 3.6V 24pin QFN (4mm x 4mm) AK5701VN : -30 +85C AK5701KN : -40 +85C MS0404-E-02 -3- BCLK 2007/08 [AK5701] PIN/FUNCTION Function Common Voltage Output Pin, 0.5 x AVDD 1 VCOM O Bias voltage of ADC inputs. 2 AVSS Analog Ground Pin 3 AVDD Analog Power Supply Pin 4 DVDD Digital Power Supply Pin 5 DVSS Digital Ground Pin 6 BCLK O Audio Serial Data Clock Pin 7 LRCK O Input / Output Channel Clock Pin 8 SDTO O Audio Serial Data Output Pin Chip Select Polarity Pin 9 CSP I "H": CSN pin = "H" active, C1-0 = "01" "L": CSN pin = "L" active, C1-0 = "10" 10 MCKO O Master Clock Output Pin 11 EXSDTI I External Audio Serial Data Input Pin 12 EXLRCK I External Input / Output Channel Clock Pin 13 EXBCLK I External Audio Serial Data Clock Pin 14 MCKI I External Master Clock Input Pin 15 CDTI I Control Data Input Pin 16 CCLK I Control Data Clock Pin (Internal Pull-down at CSP pin = "H") 17 CSN I Chip Select Pin Power-Down Mode Pin 18 PDN I "H": Power-up, "L": Power-down, reset and initializes the control register. 19 MPWR O MIC Power Supply Pin RIN2 I Rch Analog Input 2 Pin (MDIF2 bit = "0") 20 RIN+ I Rch Positive Input Pin (MDIF2 bit = "1") LIN2 I Lch Analog Input 2 Pin (MDIF2 bit = "0") 21 I Rch Negative Input Pin (MDIF2 bit = "1") RIN- RIN1 I Rch Analog Input 1 Pin (MDIF1 bit = "0") 22 I Lch Negative Input Pin (MDIF1 bit = "1") LIN- LIN1 I Lch Analog Input 1 Pin (MDIF1 bit = "0") 23 LIN+ I Lch Positive Input Pin (MDIF1 bit = "1") Output Pin for Loop Filter of PLL Circuit 24 VCOC O This pin should be connected to AVSS with one resistor and capacitor in series. Note 1. All input pins except analog input pins (LIN1, RIN1, LIN2, RIN2) should not be left floating. No. Pin Name I/O Handling of Unused Pin The unused I/O pins should be processed appropriately as below. Classification Analog Digital Pin Name MPWR, VCOC, LIN1/LIN+, RIN1/LIN-, LIN2/RIN-, RIN2/RIN+ BCLK, LRCK, SDTO, MCKO MCKI, EXBCLK, EXLRCK, EXSDTI Setting These pins should be open. These pins should be open. These pins should be connected to DVSS. MS0404-E-02 -4- 2007/08 [AK5701] ABSOLUTE MAXIMUM RATINGS (AVSS, DVSS=0V; Note 2) Parameter Power Supplies: Analog Digital |AVSS - DVSS| (Note 3) Input Current, Any Pin Except Supplies Analog Input Voltage (Note 4) Digital Input Voltage (Note 5) Ambient Temperature AK5701VN (powered applied) AK5701KN Storage Temperature Symbol AVDD DVDD GND IIN VINA VIND Ta Ta Tstg min -0.3 -0.3 -0.3 -0.3 -30 -40 -65 max 4.6 4.6 0.3 10 AVDD+0.3 DVDD+0.3 85 85 150 Units V V V mA V V C C C Note 2. All voltages with respect to ground. Note 3. AVSS and DVSS must be connected to the same analog ground plane. Note 4. LIN1/LIN+, RIN1/LIN-, LIN2/RIN-, RIN2/RIN+ pins Note 5. PDN, CSN, CCLK, CDTI, CSP, MCKI, EXSDTI, EXLRCK, EXBCLK pins WARNING: Operation at or beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. RECOMMENDED OPERATING CONDITIONS (AVSS, DVSS=0V; Note 2) Parameter Power Supplies Analog (Note 6) Digital Symbol AVDD DVDD min 2.4 1.6 typ 3.0 3.0 Max 3.6 AVDD Units V V Note 2. All voltages with respect to ground. Note 6. The power-up sequence between AVDD and DVDD is not critical. When only AVDD is powered OFF, the power supply current of DVDD at power-down mode may be increased. DVDD should not be powerd OFF while AVDD is powered ON. * AKEMD assumes no responsibility for the usage beyond the conditions in this datasheet. MS0404-E-02 -5- 2007/08 [AK5701] ANALOG CHARACTERISTICS (Ta=25C; AVDD, DVDD=3.0V; AVSS=DVSS=0V; PLL Master Mode; MCKI=12MHz, fs=44.0995kHz, BCLK=64fs; Signal Frequency=1kHz; 16bit Data; Measurement frequency=20Hz 20kHz; unless otherwise specified) Min Typ max Units Parameter MIC Amplifier: LIN1, RIN1, LIN2, RIN2 pins; MDIF1 = MDIF2 bits = "0" (Single-ended inputs) Input MGAIN1-0 bits = "00" 40 60 80 k Resistance MGAIN1-0 bits = "01" or "10" 20 30 40 k MGAIN1-0 bits = "00" 0 dB Gain MGAIN1-0 bits = "01" +15 dB MGAIN1-0 bits = "10" +30 dB MIC Amplifier: LIN+, LIN-, RIN+, RIN- pins; MDIF1 = MDIF2 bits = "1" (Full-differential input) Input Voltage (Note 7) MGAIN1-0 bits = "01" 0.37 Vpp MGAIN1-0 bits = "10" 0.066 Vpp MIC Power Supply: MPWR pin Output Voltage (Note 8) 2.02 2.25 2.48 V Load Resistance 0.5 k Load Capacitance 30 pF ADC Analog Input Characteristics: LIN1/RIN1/LIN2/RIN2 pins (Single-ended inputs) ADC IVOL, MGAIN=+15dB, IVOL=0dB, ALC=OFF Resolution 16 Bits MGAIN=+30dB 0.057 Vpp Input Voltage (Note 9) MGAIN=+15dB 0.27 0.32 0.37 Vpp MGAIN=0dB 1.53 1.80 2.07 Vpp 67 77 dB S/(N+D) (-0.5dBFS) (Note 10) 79 87 dB D-Range (-60dBFS, A-weighted) (Note 11) S/N (A-weighted) (Note 11) 79 87 dB Interchannel Isolation (Note 12) 80 90 dB MGAIN=+30dB 0.2 dB Interchannel Gain Mismatch MGAIN=+15dB 0.2 1.0 dB MGAIN=0dB 0.2 0.5 dB Power Supplies: Power Supply Current: AVDD+DVDD Power Up (PDN pin = "H") (Note 13) 8 12 mA Power Down (PDN pin = "L") (Note 14) 1 20 A Note 7. The voltage difference between LIN+/RIN+ and LIN-/RIN- pins. AC coupling capacitor should be connected in series at each input pin. Full-differential input is not available at MGAIN1-0 bits = "00". Maximum input voltage of LIN+, LIN-, RIN+ and RIN- pins is proportional to AVDD voltage, respectively. Vin = |(L/RIN+) - (L/RIN-)| = 0.123 x AVDD (max)@MGAIN1-0 bits = "01", 0.022 x AVDD (max)@MGAIN1-0 bits = "10". When the signal larger than above value is input to LIN+, LIN-, RIN+ or RIN- pin, ADC does not operate normally. Note 8. Output voltage is proportional to AVDD voltage. Vout = 0.75 x AVDD (typ). Note 9. Input voltage is proportional to AVDD voltage. Vin = 0.107 x AVDD (typ)@MGAIN1-0 bits = "01" (+15dB), Vin = 0.6 x AVDD(typ)@MGAIN1-0 bits = "00" (0dB). Note 10. 80dB(typ)@MGAIN=0dB, 70dB(typ)@MGAIN=+30dB Note 11. 89dB(typ)@MGAIN=0dB, 77dB(typ)@MGAIN=+30dB Note 12. 100dB(typ)@MGAIN=0dB, 80dB(typ)@MGAIN=+30dB Note 13. PLL Master Mode (MCKI=12MHz), PMADL = PMADR = PMVCM = PMPLL = PMMP = M/S bits = "1" and MCKO bit = "0". MPWR pin outputs 0mA. AVDD=6.4mA(typ), DVDD=1.6mA(typ). EXT Slave Mode (PMPLL = M/S = MCKO bits = "0"): AVDD=5.7mA(typ), DVDD=1.3mA(typ). Bypass Mode (THR bit = "1", PMADL = PMADR = M/S bits = "0"), fs=8kHz: AVDD=1A(typ), DVDD=150A(typ). Note 14. All digital input pins are fixed to DVDD or DVSS. MS0404-E-02 -62007/08 [AK5701] FILTER CHARACTERISTICS (Ta=25C; AVDD=2.4 3.6V; DVDD=1.6 3.6V; fs=44.1kHz) Parameter Symbol min ADC Digital Filter (Decimation LPF): Passband (Note 15) PB 0 0.1dB -1.0dB -3.0dB Stopband (Note 15) SB 25.7 Passband Ripple PR Stopband Attenuation SA 65 Group Delay (Note 16) GD Group Delay Distortion GD ADC Digital Filter (HPF): HPF1-0 bits = "00" Frequency Response (Note 15) -3.0dB FR -0.5dB -0.1dB typ 20.0 21.1 18 0 3.4 10 22 max 17.4 0.1 - Units kHz kHz kHz kHz dB dB 1/fs s Hz Hz Hz Note 15. The passband and stopband frequencies scale with fs (system sampling rate). For example, PB=0.454*fs (@-1.0dB). Each response refers to that of 1kHz. Note 16. The calculated delay time caused by digital filtering. This time is from the input of analog signal to setting of the 16-bit data of both channels from the input register to the output register of the ADC. This time includes the group delay of the HPF. DC CHARACTERISTICS (Ta=25C; AVDD=2.4 3.6V; DVDD=1.6 3.6V) Parameter Symbol min High-Level Input Voltage Except CSP pin; 2.2V DVDD 3.6V VIH 70%DVDD Except CSP pin; 1.6V DVDD <2.2V VIH 80%DVDD CSP pin VIH 90%DVDD Low-Level Input Voltage Except CSP pin; 2.2V DVDD 3.6V VIL Except CSP pin; 1.6V DVDD <2.2V VIL CSP pin VIL High-Level Output Voltage (Iout= -200A) VOH DVDD-0.2 Low-Level Output Voltage (Iout= 200A) VOL Input Leakage Current (Note 17) Iin - typ - max 30%DVDD 20%DVDD 10%DVDD 0.2 10 Units V V V V V V V V A Note 17. When CSP pin is "H", CCLK pin has internal pull-down device, normally 100k. MS0404-E-02 -7- 2007/08 [AK5701] SWITCHING CHARACTERISTICS (Ta=25C; AVDD=2.4 3.6V; DVDD=1.6 3.6V; CL=20pF) Parameter Symbol min PLL Master Mode (PLL Reference Clock = MCKI pin) MCKI Input Timing Frequency fCLK 11.2896 Pulse Width Low tCLKL 0.4/fCLK Pulse Width High tCLKH 0.4/fCLK MCKO Output Timing Frequency fMCK 0.2352 Duty Cycle Except 256fs at fs=32kHz, 29.4kHz dMCK 40 256fs at fs=32kHz, 29.4kHz dMCK LRCK Output Timing Frequency Except DSP Mode 1 fs 7.35 DSP Mode 1 (Note 18) fsd 14.7 DSP Mode: Pulse Width High tLRCKH Except DSP Mode: Duty Cycle Duty BCLK Output Timing Period BCKO1-0 bit = "01" tBCK BCKO1-0 bit = "10" tBCK Duty Cycle dBCK PLL Slave Mode (PLL Reference Clock = MCKI pin) MCKI Input Timing Frequency fCLK 11.2896 Pulse Width Low tCLKL 0.4/fCLK Pulse Width High tCLKH 0.4/fCLK MCKO Output Timing Frequency fMCK 0.2352 Duty Cycle Except 256fs at fs=32kHz, 29.4kHz dMCK 40 256fs at fs=32kHz, 29.4kHz dMCK EXLRCK Input Timing Frequency fs 7.35 DSP Mode: Pulse Width High tLRCKH tBCK-60 Except DSP Mode: Duty Cycle Duty 45 EXBCLK Input Timing Period tBCK 1/(64fs) Pulse Width Low tBCKL 0.4 x tBCK Pulse Width High tBCKH 0.4 x tBCK PLL Slave Mode (PLL Reference Clock = EXLRCK pin) EXLRCK Input Timing Frequency fs 7.35 DSP Mode: Pulse Width High tLRCKH tBCK-60 Except DSP Mode: Duty Cycle Duty 45 EXBCLK Input Timing Period tBCK 1/(64fs) Pulse Width Low tBCKL 0.4 x tBCK Pulse Width High tBCKH 0.4 x tBCK Note 18. Sampling frequency is 7.35kHz 48kHz. typ max Units 50 33 tBCK 50 1/(32fs) 1/(64fs) 50 27 12.288 60 48 96 - MHz ns ns MHz % % kHz kHz ns % ns ns % 50 33 - 27 12.288 60 48 1/fs - tBCK 55 1/(32fs) - MHz ns ns MHz % % kHz ns % ns ns ns - 48 1/fs - tBCK 55 1/(32fs) - kHz ns % ns ns ns MS0404-E-02 -8- 2007/08 [AK5701] Parameter Symbol PLL Slave Mode (PLL Reference Clock = EXBCLK pin) EXLRCK Input Timing Frequency fs DSP Mode: Pulse Width High tLRCKH Except DSP Mode: Duty Cycle Duty EXBCLK Input Timing Period PLL3-0 bits = "0010" tBCK PLL3-0 bits = "0011" tBCK Pulse Width Low tBCKL Pulse Width High tBCKH External Slave Mode MCKI Input Timing Frequency 256fs fCLK 512fs fCLK 1024fs fCLK Pulse Width Low tCLKL Pulse Width High tCLKH EXLRCK Input Timing Frequency 256fs fs 512fs fs 1024fs fs DSP Mode: Pulse Width High tLRCKH Except DSP Mode: Duty Cycle Duty EXBCLK Input Timing Period tBCK Pulse Width Low tBCKL Pulse Width High tBCKH External Master Mode MCKI Input Timing Frequency 256fs fCLK 512fs fCLK 1024fs fCLK Pulse Width Low tCLKL Pulse Width High tCLKH LRCK Output Timing Frequency fs DSP Mode: Pulse Width High tLRCKH Except DSP Mode: Duty Cycle Duty BCLK Output Timing Period BCKO1-0 bit = "01" tBCK BCKO1-0 bit = "10" tBCK Duty Cycle dBCK min typ max Units 7.35 tBCK-60 45 0.4 x tBCK 0.4 x tBCK 1/(32fs) 1/(64fs) - 48 1/fs - tBCK 55 - kHz ns % ns ns ns ns 1.8816 3.7632 7.5264 0.4/fCLK 0.4/fCLK 7.35 7.35 7.35 tBCK-60 45 312.5 130 130 - 12.288 13.312 13.312 48 26 13 1/fs - tBCK 55 - MHz MHz MHz ns ns kHz kHz kHz ns % ns ns ns 1.8816 3.7632 7.5264 0.4/fCLK 0.4/fCLK 7.35 - tBCK 50 1/(32fs) 1/(64fs) 50 12.288 13.312 13.312 48 - MHz MHz MHz ns ns kHz ns % ns ns % MS0404-E-02 -9- 2007/08 [AK5701] Parameter Audio Interface Timing (DSP Mode) Master Mode LRCK "" to BCLK "" (Note 19) LRCK "" to BCLK "" (Note 20) BCLK "" to SDTO (BCKP bit = "0") BCLK "" to SDTO (BCKP bit = "1") Slave Mode EXLRCK "" to EXBCLK "" (Note 19) EXLRCK "" to EXBCLK "" (Note 20) EXBCLK "" to EXLRCK "" (Note 19) EXBCLK "" to EXLRCK "" (Note 20) EXBCLK "" to SDTO (BCKP bit = "0") EXBCLK "" to SDTO (BCKP bit = "1") Audio Interface Timing (Left justified & I2S) Master Mode BCLK "" to LRCK Edge (Note 21) LRCK Edge to SDTO (MSB) (Except I2S mode) BCLK "" to SDTO Slave Mode EXLRCK Edge to EXBCLK "" (Note 21) EXBCLK "" to EXLRCK Edge (Note 21) EXLRCK Edge to SDTO (MSB) (Except I2S mode) EXBCLK "" to SDTO Symbol min typ Max Units tDBF tDBF tBSD tBSD tLRB tLRB tBLR tBLR tBSD tBSD 0.5 x tBCK - 40 0.5 x tBCK - 40 -70 -70 0.4 x tBCK 0.4 x tBCK 0.4 x tBCK 0.4 x tBCK - 0.5 x tBCK 0.5 x tBCK - 0.5 x tBCK + 40 0.5 x tBCK + 40 70 70 80 80 ns ns ns ns ns ns ns ns ns ns tMBLR tLRD tBSD tLRB tBLR tLRD tBSD -40 -70 -70 50 50 - - 40 70 70 80 80 ns ns ns ns ns ns ns Note 19. MSBS, BCKP bits = "00" or "11" Note 20. MSBS, BCKP bits = "01" or "10" Note 21. EXBCLK rising edge must not occur at the same time as EXLRCK edge. MS0404-E-02 - 10 - 2007/08 [AK5701] Parameter Control Interface Timing (CSP pin = "L") CCLK Period CCLK Pulse Width Low Pulse Width High CDTI Setup Time CDTI Hold Time CSN "H" Time CSN Edge to CCLK "" (Note 22) CCLK "" to CSN Edge (Note 22) Control Interface Timing (CSP pin = "H") CCLK Period CCLK Pulse Width Low Pulse Width High CDTI Setup Time CDTI Hold Time CSN "L" Time CSN Edge to CCLK "" (Note 22) CCLK "" to CSN Edge (Note 22) Power-down & Reset Timing PDN Pulse Width (Note 23) PMADL or PMADR "" to SDTO valid (Note 24) HPF1-0 bits = "00" HPF1-0 bits = "01" HPF1-0 bits = "10" Symbol tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH tPD tPDV tPDV tPDV min 142 56 56 28 28 150 50 50 142 56 56 28 28 150 50 50 150 - typ 3088 1552 784 max - Units ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 1/fs 1/fs 1/fs Note 22. CCLK rising edge must not occur at the same time as CSN edge. Note 23. The AK5701 can be reset by the PDN pin = "L". Note 24. This is the count of LRCK "" from the PMADL or PMADR bit = "1". MS0404-E-02 - 11 - 2007/08 [AK5701] Timing Diagram 1/fCLK VIH MCKI VIL tCLKH 1/fs tCLKL LRCK tLRCKH tBCK tLRCKL 50%DVDD Duty = tLRCKH x fs x 100 tLRCKL x fs x 100 BCLK tBCKH tBCKL 1/fMCK 50%DVDD dBCK = tBCKH / tBCK x 100 tBCKL / tBCK x 100 MCKO tMCKL 50%DVDD dMCK = tMCKL x fMCK x 100 Figure 2. Clock Timing (PLL/EXT Master mode) tLRCKH LRCK tDBF tBCK dBCK BCLK (BCKP = "0") 50%DVDD 50%DVDD BCLK (BCKP = "1") tBSD 50%DVDD SDTO MSB 50%DVDD Figure 3. Audio Interface Timing (PLL/EXT Master mode & DSP mode: MSBS = "0") MS0404-E-02 - 12 - 2007/08 [AK5701] tLRCKH LRCK tDBF tBCK dBCK BCLK (BCKP = "1") 50%DVDD 50%DVDD BCLK (BCKP = "0") tBSD 50%DVDD SDTO MSB 50%DVDD Figure 4. Audio Interface Timing (PLL/EXT Master mode & DSP mode: MSBS = "1") LRCK 50%DVDD tMBLR tBCKL 50%DVDD BCLK tLRD tBSD SDTO 50%DVDD Figure 5. Audio Interface Timing (PLL/EXT Master mode & Except DSP mode) MS0404-E-02 - 13 - 2007/08 [AK5701] 1/fs VIH VIL tLRCKH tBCK VIH EXBCLK (BCKP = "0") tBCKH tBCKL VIH EXBCLK (BCKP = "1") VIL VIL tBLR EXLRCK Figure 6. Clock Timing (PLL Slave mode; PLL Reference Clock = EXLRCK or EXBCLK pin & DSP mode; MSBS = 0) 1/fs VIH VIL tLRCKH tBCK VIH EXBCLK (BCKP = "1") tBCKH tBCKL VIH EXBCLK (BCKP = "0") VIL VIL tBLR EXLRCK Figure 7. Clock Timing (PLL Slave mode; PLL Reference Clock = EXLRCK or EXBCLK pin & DSP mode; MSBS = 1) MS0404-E-02 - 14 - 2007/08 [AK5701] 1/fCLK VIH MCKI VIL tCLKH 1/fs VIH EXLRCK VIL tLRCKH tBCK tLRCKL Duty = tLRCKH x fs x 100 = tLRCKL x fs x 100 VIH EXBCLK VIL tBCKH fMCK tBCKL tCLKL MCKO tMCKL 50%DVDD dMCK = tMCKL x fMCK x 100 Figure 8. Clock Timing (PLL Slave mode; PLL Reference Clock = MCKI pin & Except DSP mode) tLRCKH VIH EXLRCK tLRB VIL VIH EXBCLK (BCKP = "0") VIH EXBCLK (BCKP = "1") tBSD VIL VIL SDTO MSB 50%DVDD Figure 9. Audio Interface Timing (PLL Slave mode & DSP mode; MSBS = 0) MS0404-E-02 - 15 - 2007/08 [AK5701] tLRCKH VIH EXLRCK VIL tLRB VIH EXBCLK (BCKP = "1") VIH EXBCLK (BCKP = "0") tBSD VIL VIL SDTO MSB 50%DVDD Figure 10. Audio Interface Timing (PLL Slave mode, DSP mode; MSBS = 1) 1/fCLK VIH MCKI VIL tCLKH 1/fs VIH EXLRCK VIL tLRCKH tBCK VIH EXBCLK VIL tBCKH tBCKL tLRCKL Duty = tLRCKH x fs x 100 tLRCKL x fs x 100 tCLKL Figure 11. Clock Timing (EXT Slave mode) MS0404-E-02 - 16 - 2007/08 [AK5701] VIH EXLRCK VIL tBLR tLRB VIH EXBCLK VIL tLRD tBSD SDTO MSB 50%DVDD Figure 12. Audio Interface Timing (PLL/EXT Slave mode) MS0404-E-02 - 17 - 2007/08 [AK5701] VIH CSN VIL tCSS tCCKL tCCKH VIH CCLK VIL tCDS CDTI C1 C0 tCCK tCDH VIH R/W VIL Figure 13. WRITE Command Input Timing (CSP pin = "L") tCSW VIH CSN VIL tCSH VIH CCLK VIL VIH CDTI D2 D1 D0 VIL Figure 14. WRITE Data Input Timing (CSP pin = "L") MS0404-E-02 - 18 - 2007/08 [AK5701] VIH CSN VIL tCSS tCCKL tCCKH VIH CCLK VIL tCDS CDTI C1 C0 tCCK tCDH VIH R/W VIL Figure 15. WRITE Command Input Timing (CSP pin = "H") tCSW VIH CSN VIL tCSH VIH CCLK VIL VIH CDTI D2 D1 D0 VIL Figure 16. WRITE Data Input Timing (CSP pin = "H") MS0404-E-02 - 19 - 2007/08 [AK5701] PMADL bit or PMADR bit tPDV SDTO 50%DVDD Figure 17. Power Down & Reset Timing 1 tPD PDN VIL Figure 18. Power Down & Reset Timing 2 MS0404-E-02 - 20 - 2007/08 [AK5701] OPERATION OVERVIEW System Clock There are the following five clock modes to interface with external devices (Table 1 and Table 2) Mode PMPLL bit M/S bit PLL3-0 bits Figure PLL Master Mode (Note 25) 1 1 See Table 4 Figure 19 PLL Slave Mode 1 Figure 20 1 0 See Table 4 (PLL Reference Clock: MCKI pin) PLL Slave Mode 2 Figure 21 1 0 See Table 4 (PLL Reference Clock: EXLRCK or EXBCLK pin) EXT Slave Mode 0 0 x Figure 22 EXT Master Mode (Note 26) 0 0 x Figure 23 Note 25. If M/S bit = "1", PMPLL bit = "0" and MCKO bit = "1" during the setting of PLL Master Mode, the invalid clocks are output from the MCKO pin when MCKO bit is "1". Note 26. In case of EXT Master Mode, the register should be set as Figure 49. Table 1. Clock Mode Setting (x: Don't care) Mode PLL Master Mode PLL Slave Mode (PLL Reference Clock: MCKI pin) PLL Slave Mode (PLL Reference Clock: EXLRCK or EXBCLK pin) EXT Slave Mode EXT Master Mode MCKO bit 0 1 0 1 0 0 0 MCKO pin L Selected by PS1-0 bits L Selected by PS1-0 bits L L L MCKI pin Selected by PLL3-0 bits Selected by PLL3-0 bits GND Selected by FS1-0 bits Selected by FS1-0 bits BCLK pin, EXBCLK pin BCLK pin (Selected by BCKO1-0 bits) LRCK pin, EXLRCK pin LRCK pin (1fs) (Note 27) EXLRCK pin (1fs) EXLRCK pin (1fs) EXLRCK pin (1fs) LRCK pin (1fs) EXBCLK pin ( 32fs) EXBCLK pin (Selected by PLL3-0 bits) EXBCLK pin ( 32fs) BCLK pin (Selected by BCKO1-0 bits) Note 27. LRCK becomes 2fs at PLL Master Mode & DSP Mode 1. Table 2. Clock pins state in Clock Mode Master Mode/Slave Mode The M/S bit selects either master or slave mode. M/S bit = "1" selects master mode and "0" selects slave mode. When the AK5701 is power-down mode (PDN pin = "L") and exits reset state, the AK5701 is slave mode. After exiting reset state, the AK5701 goes to master mode by changing M/S bit = "1". M/S bit 0 1 Mode Used pins Slave Mode EXBCLK, EXLRCK Master Mode BCLK, LRCK Table 3. Select Master/Salve Mode (default) MS0404-E-02 - 21 - 2007/08 [AK5701] PLL Mode When PMPLL bit is "1", a fully integrated analog phase locked loop (PLL) generates a clock that is selected by the PLL3-0 and FS3-0 bits. The PLL lock time is shown in Table 4, whenever the AK5701 is supplied to a stable clocks after PLL is powered-up (PMPLL bit = "0" "1") or sampling frequency changes. 1) Setting of PLL Mode Mode PLL3 bit 0 0 0 0 0 0 0 1 1 1 1 1 1 PLL2 Bit 0 0 0 1 1 1 1 0 0 1 1 1 1 Others PLL1 bit 0 1 1 0 0 1 1 0 0 0 0 1 1 PLL0 bit 0 0 1 0 1 0 1 0 1 0 1 0 1 PLL Reference Clock Input Pin EXLRCK pin EXBCLK pin EXBCLK pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin MCKI pin N/A Input Frequency 1fs 32fs 64fs 11.2896MHz 12.288MHz 12MHz 24MHz 19.2MHz 12MHz (Note 28) 13.5MHz 27MHz 13MHz 26MHz 0 2 3 4 5 6 7 8 9 12 13 14 15 Others R and C of VCOC pin R[] C[F] 6.8k 220n 10k 4.7n 10k 10n 10k 4.7n 10k 10n 10k 4.7n 10k 4.7n 10k 4.7n 10k 4.7n 10k 4.7n 10k 4.7n 10k 10n 10k 10n 10k 220n 10k 220n PLL Lock Time (max) 80ms 2ms 4ms 2ms 4ms 40ms 40ms 40ms 40ms 40ms 40ms 40ms 40ms 60ms 60ms (default) Note 28. Please see Table 5 regarding the difference between PLL3-0 bits = "0110"(Mode 6) and "1001"(Mode 9). Table 4. Setting of PLL Mode (*fs: Sampling Frequency) 2) Setting of sampling frequency in PLL Mode When PLL reference clock input is MCKI pin, the sampling frequency is selected by FS3-0 bits as defined in Table 5. Mode FS3 bit FS2 bit FS1 bit FS0 bit Sampling Frequency 0 0 0 0 0 8kHz 1 0 0 0 1 12kHz 2 0 0 1 0 16kHz 3 0 0 1 1 24kHz 7.35kHz 0 1 0 4 0 7.349918kHz (Note 29) 11.025kHz 0 1 1 5 0 11.024877kHz (Note 29) 14.7kHz 0 1 0 6 1 14.69984kHz (Note 29) 22.05kHz 0 7 1 1 1 22.04975kHz (Note 29) 32kHz 10 1 0 1 0 48kHz 11 1 0 1 1 29.4kHz 1 14 1 1 0 29.39967kHz (Note 29) 44.1kHz 1 15 1 1 1 (default) 44.0995kHz (Note 29) Others Others N/A Note 29. In case of PLL3-0 bits = "1001" Table 5. Setting of Sampling Frequency at PMPLL bit = "1" and Reference Clock=MCKI pin MS0404-E-02 - 22 - 2007/08 [AK5701] When PLL reference clock input is EXLRCK or EXBCLK pin, the sampling frequency is selected by FS3 and FS2 bits (Table 6). FS3 bit FS2 bit Sampling Frequency Mode FS1 bit FS0 bit Range 0 0 x x 7.35kHz fs 12kHz 0 0 1 x x 12kHz < fs 24kHz 1 (default 1 x x x 2 24kHz < fs 48kHz ) Others Others N/A (x: Don't acre, N/A: Not available) Table 6. Setting of Sampling Frequency at PMPLL bit = "1" and Reference=EXLRCK/EXBCLK PLL Unlock State 1) PLL Master Mode (PMPLL bit = "1", M/S bit = "1") In this mode, LRCK and BCLK pins go to "L" and irregular frequency clock is output from the MCKO pin at MCKO bit is "1" before the PLL goes to lock state after PMPLL bit = "0" "1". If MCKO bit is "0", the MCKO pin changes to "L" (Table 7). In DSP Mode 0 and 1, BCLK and LRCK start to output corresponding to Lch data after PLL goes to lock state by setting PMPLL bit = "0" "1". When MSBS and BCKP bits are "01" or "10" in DSP Mode 0 and 1, BCLK "H" time of the first pulse becomes 1/(256fs) shorter than "H" time except for the first pulse. When sampling frequency is changed, BCLK and LRCK pins do not output irregular frequency clocks but go to "L" by setting PMPLL bit to "0". PLL State After that PMPLL bit "0" "1" PLL Unlock (except above case) PLL Lock MCKO pin MCKO bit = "0" MCKO bit = "1" "L" Output Invalid "L" Output Invalid "L" Output See Table 9 BCLK pin "L" Output Invalid See Table 10 LRCK pin "L" Output Invalid 1fs Output (Note 30) Note 30. LRCK becomes 2fs at DSP Mode 1. Table 7. Clock Operation at PLL Master Mode (PMPLL bit = "1", M/S bit = "1") 2) PLL Slave Mode (PMPLL bit = "1", M/S bit = "0") In this mode, an invalid clock is output from the MCKO pin before the PLL goes to lock state after PMPLL bit = "0" "1". After that, the clock selected by Table 9 is output from the MCKO pin when PLL is locked. ADC and DAC output invalid data when the PLL is unlocked. For DAC, the output signal should be muted by writing "0" to DACL, DACH and DACS bits. MCKO pin MCKO bit = "0" MCKO bit = "1" After that PMPLL bit "0" "1" "L" Output Invalid PLL Unlock (except above case) "L" Output Invalid PLL Lock "L" Output See Table 9 Table 8. Clock Operation at PLL Slave Mode (PMPLL bit = "1", M/S bit = "0") PLL State MS0404-E-02 - 23 - 2007/08 [AK5701] PLL Master Mode (PMPLL bit = "1", M/S bit = "1") When an external clock (11.2896MHz, 12MHz, 12.288MHz, 13MHz, 13.5MHz, 19.2MHz, 24MHz, 26MHz or 27MHz) is input to MCKI pin, the MCKO, BCLK and LRCK clocks are generated by an internal PLL circuit. The MCKO output frequency is selected by PS1-0 bits (Table 9) and the output is enabled by MCKO bit. The BCLK output frequency is selected among 32fs or 64fs, by BCKO1-0 bits (Table 10). 11.2896MHz, 12MHz, 12.288MHz, 13MHz 13.5MHz, 19.2MHz, 24MHz, 26MHz, 27MHz AK5701 MCKI MCKO BCLK LRCK SDTO 256fs/128fs/64fs/32fs 32fs, 64fs 1fs DSP or P MCLK BCLK LRCK SDTI Figure 19. PLL Master Mode Mode PS1 bit PS0 bit MCKO pin 0 0 0 256fs (default) 1 0 1 128fs 2 1 0 64fs 3 1 1 32fs Table 9. MCKO Output Frequency (PLL Mode, MCKO bit = "1") BCLK Output Frequency 0 0 N/A 0 1 32fs (default) 1 0 64fs 1 1 N/A Table 10. BCLK Output Frequency at Master Mode (N/A: Not available) BCKO1 bit BCKO0 bit MS0404-E-02 - 24 - 2007/08 [AK5701] PLL Slave Mode (PMPLL bit = "1", M/S bit = "0") A reference clock of PLL is selected among the input clocks to the MCKI, EXBCLK or EXLRCK pin. The required clock to the AK5701 is generated by an internal PLL circuit. Input frequency is selected by PLL3-0 bits (Table 4). a) PLL reference clock: MCKI pin EXBCLK and EXLRCK inputs should be synchronized with MCKO output. The phase between MCKO and EXLRCK is not important. The MCKO pin outputs the frequency selected by PS1-0 bits (Table 9) and the output is enabled by MCKO bit. Sampling frequency can be selected by FS3-0 bits (Table 5). 11.2896MHz, 12MHz, 12.288MHz, 13MHz 13.5MHz, 19.2MHz, 24MHz, 26MHz, 27MHz AK5701 MCKI MCKO EXBCLK EXLRCK SDTO 256fs/128fs/64fs/32fs 32fs 1fs DSP or P MCLK BCLK LRCK SDTI Figure 20. PLL Slave Mode 1 (PLL Reference Clock: MCKI pin) The external clocks (MCKI, EXBCLK and EXLRCK) should always be present whenever the ADC is in operation (PMADL bit = "1" or PMADR bit = "1"). If these clocks are not provided, the AK5701 may draw excess current and it is not possible to operate properly because utilizes dynamic refreshed logic internally. If the external clocks are not present, the ADC should be in the power-down mode (PMADL=PMADR bits = "0"). b) PLL reference clock: EXBCLK or EXLRCK pin Sampling frequency corresponds to 7.35kHz to 48kHz by changing FS3-0 bits (Table 6). AK5701 DSP or P MCKI EXBCLK EXLRCK SDTO 32fs, 64fs 1fs BCLK LRCK SDTI Figure 21. PLL Slave Mode 2 (PLL Reference Clock: EXLRCK or EXBCLK pin) MS0404-E-02 - 25 - 2007/08 [AK5701] EXT Slave Mode (PMPLL bit = "0", M/S bit = "0") When PMPLL bit is "0", the AK5701 becomes EXT mode. Master clock is input from the MCKI pin, the internal PLL circuit is not operated. This mode is compatible with I/F of the normal audio CODEC. The clocks required to operate are MCKI (256fs, 512fs or 1024fs), EXLRCK (fs) and EXBCLK (32fs). The master clock (MCKI) should be synchronized with EXLRCK. The phase between these clocks is not important. The input frequency of MCKI is selected by FS1-0 bits (Table 11). Mode MCKI Input Sampling Frequency Frequency Range x 0 0 0 256fs 7.35kHz 48kHz x 0 1 1024fs 1 7.35kHz 13kHz x 1 0 512fs 2 7.35kHz 26kHz x 1 1 256fs (default) 3 7.35kHz 48kHz Table 11. MCKI Frequency at EXT Slave Mode (PMPLL bit = "0", M/S bit = "0") (x: Don't care) FS3-2 bits FS1 bit FS0 bit The external clocks (MCKI, EXBCLK and EXLRCK) should always be present whenever the ADC is in operation (PMADL bit = "1" or PMADR bit = "1"). If these clocks are not provided, the AK5701 may draw excess current and it is not possible to operate properly because utilizes dynamic refreshed logic internally. If the external clocks are not present, the ADC should be in the power-down mode (PMADL=PMADR bits = "0"). AK5701 MCKO 256fs, 512fs or 1024fs MCKI EXBCLK EXLRCK SDTO 32fs 1fs MCLK BCLK LRCK SDTI DSP or P Figure 22. EXT Slave Mode MS0404-E-02 - 26 - 2007/08 [AK5701] EXT Master Mode (PMPLL bit = "0", M/S bit = "1", TE3-0 bits = "0101", TMASTER bit = "1") The AK5701 becomes EXT Master Mode by setting as Figure 49. Master clock is input from the MCKI pin, the internal PLL circuit is not operated. The clock required to operate is MCKI (256fs, 512fs or 1024fs). The input frequency of MCKI is selected by FS1-0 bits (Table 12). Mode 0 1 2 3 FS3-2 bits x x x x MCKI Input Sampling Frequency Frequency Range 0 0 256fs 7.35kHz 48kHz 0 1 1024fs 7.35kHz 13kHz 1 0 512fs 7.35kHz 26kHz 1 1 256fs 7.35kHz 48kHz Table 12. MCKI Frequency at EXT Master Mode (x: Don't care) FS1 bit FS0 bit (default) MCKI should always be present whenever the ADC is in operation (PMADL bit = "1" or PMADR bit = "1"). If MCKI is not provided, the AK5701 may draw excess current and it is not possible to operate properly because utilizes dynamic refreshed logic internally. If MCKI is not present, the ADC should be in the power-down mode (PMADL=PMADR bits = "0"). AK5701 MCKO 256fs, 512fs or 1024fs MCKI BCLK LRCK SDTO 32fs or 64fs 1fs MCLK BCLK LRCK SDTI DSP or P Figure 23. EXT Master Mode BCLK Output Frequency 0 0 N/A 0 1 32fs (default) 1 0 64fs 1 1 N/A Table 13. BCLK Output Frequency at Master Mode (N/A: Not available) BCKO1 bit BCKO0 bit MS0404-E-02 - 27 - 2007/08 [AK5701] Bypass Mode When THR bit = "1", M/S bit = "0", PMADL bit = "0" and PMADR bit = "0", input clocks and data of EXLRCK, EXBCLK and EXSDTI pins are bypassed to LRCK, BCLK and SDTO pins, respectively. When THR bit = "1", M/S bit = "0" and PMADL bit = "1" or PMADR bit = "1", input clocks of EXLRCK and EXBCLK pins are bypassed to LRCK and BCLK pins, and ADC data is output from the SDTO pin. THR bit M/S bit 0 PMADL bit PMADR bit 00 BCLK/LRCK L SDTO L Mode Power down Figure (default ) 0 1 0 1 1 01/10/11 L ADC data Slave mode 00 Output L Power down 01/10/11 Output ADC data Master mode 00 EXBCLK/EXLRCK EXSDTI Bypass mode 01/10/11 EXBCLK/EXLRCK ADC data Slave & Bypass 00 N/A N/A N/A 01/10/11 Output ADC data Master mode Table 14. Bypass Mode Select (N/A: Not available) Figure 24 Figure 25 DSP or P 32fs BCLK LRCK SDTI 1fs AK5701 32fs BCLK LRCK SDTO EXBCLK EXLRCK EXSDTI 1fs BCLK DSP or P LRCK SDTO Figure 24. Bypass Mode DSP or P 32fs BCLK LRCK SDTI 1fs AK5701 32fs BCLK LRCK SDTO EXBCLK EXLRCK LIN/RIN 1fs BCLK DSP or P LRCK Analog In Figure 25. Slave & Bypass Mode MS0404-E-02 - 28 - 2007/08 [AK5701] Audio Interface Format Fore types of data format are available and are selected by setting the DIF1-0 bits (Table 15). In all modes, the serial data is MSB first, 2's complement format. Audio interface formats can be used in both master and slave modes, but DSP Mode 1 supports PLL Master Mode only. LRCK, BCLK and SDTO pins are used in master mode. EXLRCK, EXBCLK and SDTO pins are used in slave mode. In modes 2 and 3, the SDTO is clocked out on the falling edge ("") of BCLK/EXBCLK. Mode 0 1 2 3 DIF1 bit 0 0 1 1 DIF0 bit 0 1 0 1 SDTO BCLK, EXBCLK DSP Mode 0 32fs DSP Mode 1 32fs MSB justified 32fs I2S compatible 32fs Table 15. Audio Interface Format Figure See Table 16 Figure 34 Figure 35 (default) In Modes 0 and 1 (DSP mode 0 and 1), the audio I/F timing is changed by BCKP and MSBS bits. When BCKP bit is "0", SDTO data is output by rising edge ("") of BCLK/EXBCLK. When BCKP bit is "1", SDTO data is output by falling edge ("") of BCLK/EXBCLK. MSB data position of SDTO can be shifted by MSBS bit. The shifted period is a half of BCLK/EXBCLK. DIF1 DIF0 MSBS 0 BCKP 0 Audio Interface Format MSB of SDTO is output by the rising edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 26). MSB of SDTO is output by the falling edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 27). MSB of SDTO is output by next rising edge ("") of the falling edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 28). MSB of SDTO is output by next falling edge ("") of the rising edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 29). MSB of SDTO is output by the rising edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 30). MSB of SDTO is output by the falling edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 31). MSB of SDTO is output by next rising edge ("") of the falling edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (Figure 32). MSB of SDTO is output by next falling edge ("") of the rising edge ("") of the first BCLK/EXBCLK after the rising edge ("") of LRCK/EXLRCK (default) (Figure 33). Table 16. Audio Interface Format in Mode 0, 1 0 0 0 1 1 0 1 1 0 0 0 0 1 1 1 0 1 1 If 16-bit data that ADC outputs is converted to 8-bit data by removing LSB 8-bit, "-1" at 16bit data is converted to "-1" at 8-bit data. And when the DAC playbacks this 8-bit data, "-1" at 8-bit data will be converted to "-256" at 16-bit data and this is a large offset. This offset can be removed by adding the offset of "128" to 16-bit data before converting to 8-bit data. MS0404-E-02 - 29 - 2007/08 [AK5701] EXLRCK LRCK 15 0 1 2 8 14 15 16 17 18 29 30 31 0 1 2 8 14 15 16 17 18 13 30 31 EXBCLK(32fs) BCLK(32fs) Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 SDTO(o) 1/fs 15:MSB, 0:LSB 1/fs Figure 26. Mode 0 Timing (BCKP = "0", MSBS = "0", M/S = "0" or "1") EXLRCK LRCK 15 0 1 2 8 14 15 16 17 18 29 30 31 0 1 2 8 14 15 16 17 18 13 30 31 EXBCLK(32fs) BCLK(32fs) Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 SDTO(o) 1/fs 15:MSB, 0:LSB 1/fs Figure 27. Mode 0 Timing (BCKP = "1", MSBS = "0", M/S = "0" or "1") EXLRCK LRCK 15 0 1 2 8 14 15 16 17 18 29 30 31 0 1 2 8 14 15 16 17 18 13 30 31 EXBCLK(32fs) BCLK(32fs) Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 SDTO(o) 1/fs 15:MSB, 0:LSB 1/fs Figure 28. Mode 0 Timing (BCKP = "0", MSBS = "1", M/S = "0" or "1") EXLRCK LRCK 15 0 1 2 8 14 15 16 17 18 29 30 31 0 1 2 8 14 15 16 17 18 13 30 31 EXBCLK(32fs) BCLK(32fs) Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 Lch 15 14 8 2 1 0 Rch 15 14 2 1 0 SDTO(o) 1/fs 15:MSB, 0:LSB 1/fs Figure 29. Mode 0 Timing (BCKP = "1", MSBS = "1", M/S = "0" or "1") MS0404-E-02 - 30 - 2007/08 [AK5701] LRCK 15 0 1 2 8 8 9 10 11 12 13 14 15 0 1 2 8 8 9 10 11 12 13 14 15 0 BCLK(32fs) Lch Rch 8 8 SDTO(o) 15 0 0 15 14 1 2 8 14 7 15 6 16 5 17 4 18 3 29 2 30 1 31 0 0 15 14 1 2 8 8 8 14 7 15 6 16 5 17 4 18 3 13 2 30 1 31 0 BCLK(64fs) Lch Rch 8 2 1 0 15 14 8 2 1 0 SDTO(o) 15 14 1/fs 15:MSB, 0:LSB Figure 30. Mode 1 Timing (BCKP = "0", MSBS = "0", M/S = "1") LRCK 15 0 1 2 8 8 9 10 11 12 13 14 15 0 1 2 8 8 9 10 11 12 13 14 15 0 BCLK(32fs) Lch Rch 8 8 SDTO(o) 15 0 0 15 14 1 2 8 14 7 15 6 16 5 17 4 18 3 29 2 30 1 31 0 0 15 14 1 2 8 8 8 14 7 15 6 16 5 17 4 18 3 13 2 30 1 31 0 BCLK(64fs) Lch Rch 8 2 1 0 15 14 8 2 1 0 SDTO(o) 15 14 1/fs 15:MSB, 0:LSB Figure 31. Mode 1 Timing (BCKP = "1", MSBS = "0", M/S = "1") LRCK 15 0 1 2 8 8 9 10 11 12 13 14 15 0 1 2 8 8 9 10 11 12 13 14 15 0 BCLK(32fs) Lch Rch 8 8 SDTO(o) 15 0 0 15 14 1 2 8 14 7 15 6 16 5 17 4 18 3 29 2 30 1 31 0 0 15 14 1 2 8 8 8 14 7 15 6 16 5 17 4 18 3 13 2 30 1 31 0 BCLK(64fs) Lch Rch 8 2 1 0 15 14 8 2 1 0 SDTO(o) 15 14 1/fs 15:MSB, 0:LSB Figure 32. Mode 1 Timing (BCKP = "0", MSBS = "1", M/S = "1") LRCK 15 0 1 2 8 8 9 10 11 12 13 14 15 0 1 2 8 8 9 10 11 12 13 14 15 0 BCLK(32fs) Lch Rch 8 8 SDTO(o) 15 0 0 15 14 1 2 8 14 7 15 6 16 5 17 4 18 3 29 2 30 1 31 0 0 15 14 1 2 8 8 8 14 7 15 6 16 5 17 4 18 3 13 2 30 1 31 0 BCLK(64fs) Lch Rch 8 2 1 0 15 14 8 2 1 0 SDTO(o) 15 14 1/fs 15:MSB, 0:LSB Figure 33. Mode 1 Timing (BCKP = "1", MSBS = "1", M/S = "1") MS0404-E-02 - 31 - 2007/08 [AK5701] EXLRCK LRCK 0 1 2 3 8 9 10 11 12 13 14 15 0 1 2 3 8 9 10 11 12 13 14 15 0 1 EXBCLK(32fs) BCLK(32fs) SDTO(o) 0 15 14 13 1 2 3 8 7 14 6 15 5 16 4 17 3 18 2 1 31 0 0 15 14 13 1 2 3 8 7 14 6 15 5 16 4 17 3 18 2 1 31 0 0 15 1 EXBCLK(64fs) BCLK(64fs) SDTO(o) 15 14 13 13 2 1 0 15 14 13 1 2 1 0 15 15:MSB, 0:LSB Lch Data Rch Data Figure 34. Mode 2 Timing (MSB justified, M/S = "0" or "1") EXLRCK LRCK EXBCLK(32fs) BCLK(32fs) 0 1 2 3 4 9 10 11 12 13 14 15 0 1 2 3 4 9 10 11 12 13 14 15 0 1 SDTO(o) 0 0 1 15 2 14 13 3 4 7 14 7 15 6 16 5 17 4 18 3 2 31 1 0 0 1 15 14 13 2 3 4 7 14 7 15 6 16 5 17 4 18 3 2 31 1 0 0 1 EXBCLK(64fs) BCLK(64fs) SDTO(o) 15 14 13 2 1 0 15 14 13 2 2 1 0 15:MSB, 0:LSB Lch Data Rch Data Figure 35. Mode 3 Timing (I2S, M/S = "0" or "1") Mono/Stereo Selection PMADL, PMADR and MIX bits select mono or stereo mode of ADC output data. ALC operation (ALC bit = "1") or digital volume operation (ALC bit = "0") is applied to the data in Table 17. PMADL bit 0 0 1 1 PMADR bit 0 1 0 1 MIX bit ADC Lch data ADC Rch data x All "0" All "0" x Rch Input Signal Rch Input Signal x Lch Input Signal Lch Input Signal 0 Lch Input Signal Rch Input Signal 1 (L+R)/2 (L+R)/2 Table 17. Mono/Stereo Selection (x: Don't care) (default) MS0404-E-02 - 32 - 2007/08 [AK5701] Digital High Pass Filter The ADC has a digital high pass filter for DC offset cancellation. The cut-off frequency of the HPF is selected by HPF1-0 bits (Table 18) and scales with sampling rate (fs). The default value is 3.4Hz (@fs=44.1kHz). HPF1 bit 0 0 1 1 HPF0 bit fc fs=44.1kHz fs=22.05kHz fs=11.025kHz 0 3.4Hz 1.7Hz 0.85Hz 1 6.8Hz 3.4Hz 1.7Hz 0 13.6Hz 6.8Hz 3.4Hz 1 N/A N/A N/A Table 18. Digital HPF Cut-off Frequency (N/A: Not available) (default) MIC/LINE Input Selector The AK5701 has input selector. When MDIF1 and MDIF2 bits are "0", INL and INR bits select LIN1/LIN2 and RIN1/RIN2, respectively. When MDIF1 and MDIF2 bits are "1", LIN1, RIN1, LIN2 and RIN2 pins become LIN+, LIN-, RIN- and RIN+ pins respectively. In this case, full-differential input is available (Figure 37). MDIF1 bit MDIF2 bit 0 0 1 1 0 1 INR bit Lch 0 LIN1 0 1 LIN1 0 LIN2 1 1 LIN2 0 x LIN1 1 x N/A 0 N/A x 1 LIN+/- x x LIN+/- Table 19. MIC/Line In Path Select (N/A: Not available) INL bit Rch RIN1 RIN2 RIN1 RIN2 RIN+/- N/A N/A RIN2 RIN+/- (default) AK5701 LIN1/LIN+ pin INL bit RIN1/ LIN- pin MDIF1 bit ADC Lch INR bit RIN2/ RIN+ pin LIN2/ RIN- pin MDIF2 bit ADC Rch Figure 36. Mic/Line Input Selector MS0404-E-02 - 33 - 2007/08 [AK5701] AK5701 MPWR pin 1k IN1- pin IN1+ pin 1k MIC-Amp Figure 37. Connection Example for Full-differential Mic Input (MDIF1/2 bits = "1") MIC Gain Amplifier The AK5701 has a gain amplifier for microphone input. The gain of MIC-Amp is selected by the MGAIN1-0 bits (Table 20). The typical input impedance is 60k(typ)@MGAIN1-0 bits = "00" or 30k(typ)@MGAIN1-0 bits = "01" or "10". MGAIN1 bit MGAIN0 bit Input Gain 0 0 0dB 0 1 +15dB (default) 1 0 +30dB 1 1 N/A Table 20. Mic Input Gain (N/A: Not available) MIC Power When PMMP bit = "1", the MPWR pin supplies power for the microphone. This output voltage is typically 0.75 x AVDD and the load resistance is minimum 0.5k. In case of using two sets of stereo mic, the load resistance is minimum 2k for each channel. Any capacitor must not be connected directly to the MPWR pin (Figure 38). PMMP bit MPWR pin 0 Hi-Z 1 Output Table 21. MIC Power MIC Power MPWR pin (default) 2k 2k 2k 2k Microphone LIN1 pin Microphone RIN1 pin Microphone LIN2 pin Microphone RIN2 pin Figure 38. MIC Block Circuit MS0404-E-02 - 34 - 2007/08 [AK5701] ALC Operation The ALC (Automatic Level Control) is done by ALC block when ALC bit is "1". 1. ALC Limiter Operation During the ALC limiter operation, when either Lch or Rch exceeds the ALC limiter detection level (Table 22), the IVL and IVR values (same value) are attenuated automatically by the amount defined by the ALC limiter ATT step (Table 23). When ZELMN bit = "0" (zero cross detection is enabled), the IVL and IVR values are changed by ALC limiter operation at the individual zero crossing points of Lch and Rch or at the zero crossing timeout. ZTM1-0 bits set the zero crossing timeout period of both ALC limiter and recovery operation (Table 24). When ZELMN bit = "1" (zero cross detection is disabled), IVL and IVR values are immediately (period: 1/fs) changed by ALC limiter operation. Attenuation step is fixed to 1 step regardless of the setting of LMAT1-0 bits. The attenuation operation is executed continuously until the input signal level becomes ALC limiter detection level (Table 22) or less. After completing the attenuation operation, unless ALC bit is changed to "0", the operation repeats when the input signal level exceeds LMTH1-0 bits. LMTH1 0 0 1 1 LMTH0 ALC Limier Detection Level ALC Recovery Waiting Counter Reset Level 0 ALC Output -2.5dBFS -2.5dBFS > ALC Output -4.1dBFS 1 ALC Output -4.1dBFS -4.1dBFS > ALC Output -6.0dBFS 0 ALC Output -6.0dBFS -6.0dBFS > ALC Output -8.5dBFS 1 ALC Output -8.5dBFS -8.5dBFS > ALC Output -12dBFS Table 22. ALC Limiter Detection Level / Recovery Counter Reset Level ZELMN 0 1 LMAT1 0 0 1 1 x LMAT0 ALC Limiter ATT Step 0 1 step 0.375dB 1 2 step 0.750dB 0 4 step 1.500dB 1 8 step 3.000dB x 1step 0.375dB Table 23. ALC Limiter ATT Step (default) (default) ZTM1 0 0 1 1 ZTM0 0 1 0 1 Zero Crossing Timeout Period 8kHz 16kHz 44.1kHz 128/fs 16ms 8ms 2.9ms 256/fs 32ms 16ms 5.8ms 512/fs 64ms 32ms 11.6ms 1024/fs 128ms 64ms 23.2ms Table 24. ALC Zero Crossing Timeout Period (default) MS0404-E-02 - 35 - 2007/08 [AK5701] 2. ALC Recovery Operation The ALC recovery operation waits for the WTM1-0 bits (Table 25) to be set after completing the ALC limiter operation. If the input signal does not exceed "ALC recovery waiting counter reset level" (Table 22) during the wait time, the ALC recovery operation is executed. The IVL and IVR values are automatically incremented by RGAIN1-0 bits (Table 26) up to the set reference level (Table 27) with zero crossing detection which is timeout period set by ZTM1-0 bits (Table 24). Then the IVL and IVR are set to the same value for both channels. The ALC recovery operation is executed at a period set by WTM1-0 bits. If ZTM1-0 is longer than WTM1-0 and no zero crossing occurs, the ALC recovery operation is executed at a period set by ZTM1-0 bits. For example, when the current IVOL value is 30H and RGAIN1-0 bits are set to "01", IVOL is changed to 32H by the auto limiter operation and then the input signal level is gained by 0.75dB (=0.375dB x 2). When the IVOL value exceeds the reference level (REF7-0), the IVOL values are not increased. When "ALC recovery waiting counter reset level (LMTH1-0) Output Signal < ALC limiter detection level (LMTH1-0)" during the ALC recovery operation, the waiting timer of ALC recovery operation is reset. When "ALC recovery waiting counter reset level (LMTH1-0) > Output Signal", the waiting timer of ALC recovery operation starts. The ALC operation corresponds to the impulse noise. When the impulse noise is input, the ALC recovery operation becomes faster than a normal recovery operation. When large noise is input to microphone instantaneously, the quality of small level in the large noise can be improved by this fast recovery operation. WTM1 0 0 1 1 WTM0 0 1 0 1 ALC Recovery Operation Waiting Period 8kHz 16kHz 44.1kHz 128/fs 16ms 8ms 2.9ms 256/fs 32ms 16ms 5.8ms 512/fs 64ms 32ms 11.6ms 1024/fs 128ms 64ms 23.2ms Table 25. ALC Recovery Operation Waiting Period RGAIN0 GAIN STEP 0 1 step 0.375dB 1 2 step 0.750dB 0 3 step 1.125dB 1 4 step 1.500dB Table 26. ALC Recovery GAIN Step (default) RGAIN1 0 0 1 1 (default) REF7-0 GAIN(dB) Step F1H +36.0 F0H +35.625 EFH +35.25 : : E2H +30.375 0.375dB E1H +30.0 (default) E0H +29.625 : : 03H -53.25 02H -53.625 01H -54.0 00H MUTE Table 27. Reference Level at ALC Recovery operation MS0404-E-02 - 36 - 2007/08 [AK5701] 3. Example of ALC Operation Table 28 shows the examples of the ALC setting for mic recording. Register Name LMTH ZELMN ZTM1-0 WTM1-0 REF7-0 IVL7-0, IVR7-0 LMAT1-0 RGAIN1-0 ALC Comment Limiter detection Level Limiter zero crossing detection Zero crossing timeout period Recovery waiting period *WTM1-0 bits should be the same data as ZTM1-0 bits Maximum gain at recovery operation Gain of IVOL Limiter ATT step Recovery GAIN step ALC enable fs=8kHz Operation -4.1dBFS Enable 16ms 16ms +30dB 0dB fs=44.1kHz Operation -4.1dBFS Enable 11.6ms 11.6ms +30dB 0dB 1 step 1 step Enable Data 01 0 00 00 E1H 91H Data 01 0 10 10 E1H 91H 00 00 1 00 1 step 00 1 step 1 Enable Table 28. Example of the ALC setting The following registers should not be changed during the ALC operation. These bits should be changed after the ALC operation is finished by ALC bit = "0" or PMADL=PMADR bits = "0". * LMTH, LMAT1-0, WTM1-0, ZTM1-0, RGAIN1-0, REF7-0, ZELMN Example: Limiter = Zero crossing Enable Recovery Cycle = 16ms@8kHz Limiter and Recovery Step = 1 Maximum Gain = +30.0dB Limiter Detection Level = -4.1dBFS Manual Mode ALC bit = "1" * The value of IVOL should be the same or smaller than REF's WR (ZTM1-0, WTM1-0) (2) Addr=1AH, Data=00H (1) Addr=18H&19H, Data=91H WR (IVL/R7-0) WR (REF7-0) (3) Addr=1BH, Data=E1H WR (LMAT1-0, RGAIN1-0, ZELMN, LMTH1-0; ALC= "1") (4) Addr=1CH, Data=81H ALC Operation Note : WR : Write Figure 39. Registers set-up sequence at ALC operation MS0404-E-02 - 37 - 2007/08 [AK5701] Input Digital Volume (Manual Mode) The input digital volume becomes a manual mode when ALC bit is "0". This mode is used in the case shown below. 1. 2. 3. After exiting reset state, set-up the registers for the ALC operation (ZTM1-0, LMTH and etc) When the registers for the ALC operation (Limiter period, Recovery period and etc) are changed. For example; when the change of the sampling frequency. When IVOL is used as a manual volume. IVL7-0 and IVR7-0 bits set the gain of the volume control (Table 29). The IVOL value is changed at zero crossing or timeout. Zero crossing timeout period is set by ZTM1-0 bits. If IVL7-0 or IVR7-0 bits are written during PMADL=PMADR bits = "0", IVOL operation starts with the written values at the end of the ADC initialization cycle after PMADL or PMADR bit is changed to "1". IVL7-0 IVR7-0 F1H F0H EFH : 92H 91H 90H : 03H 02H 01H 00H GAIN (dB) Step +36.0 +35.625 +35.25 : +0.375 0.375dB 0.0 -0.375 : -53.25 -53.625 -54 MUTE Table 29. Input Digital Volume Setting (default) MS0404-E-02 - 38 - 2007/08 [AK5701] When writing to the IVL7-0 and IVR7-0 bits continuouslly, the control register should be written in an interval more than zero crossing timeout. If not, IVL and IVR are not changed since zero crossing counter is reset at every write operation. If the same register value as the previous write operation is written to IVL and IVR, this write operation is ignored and zero crossing counter is not reset. Therefore, IVL and IVR can be written in an interval less than zero crossing timeout. ALC bit ALC Status Disable Enable Disable IVL7-0 bits E1H(+30dB) IVR7-0 bits C6H(+20dB) Internal IVL E1H(+30dB) (1) E1(+30dB) --> F1(+36dB) E1(+30dB) (2) Internal IVR C6H(+20dB) E1(+30dB) --> F1(+36dB) C6H(+20dB) Figure 40. IVOL value during ALC operation (1) The IVL value becomes the start value if the IVL and IVR are different when the ALC starts. The wait time from ALC bit = "1" to ALC operation start by IVL7-0 bits is at most recovery time (WTM1-0 bits) plus zerocross timeout period (ZTM1-0 bits). (2) Writing to IVL and IVR registers (18H and 19H) is ignored during ALC operation. After ALC is disabled, the IVOL changes to the last written data by zero crossing or timeout. When ALC is enabled again, ALC bit should be set to "1" by an interval more than zero crossing timeout period after ALC bit = "0". System Reset When power-up, the AK5701 should be reset by bringing the PDN pin = "L". This ensures that all internal registers reset to their initial values. The ADC enters an initialization cycle that starts when the PMADL or PMADR bit is changed from "0" to "1". The initialization cycle time is 3088/fs=70.0ms@fs=44.1kHz when HPF1-0 bits are "00" (Table 30). During the initialization cycle, the ADC digital data outputs of both channels are forced to a 2's compliment, "0". The ADC output reflects the analog input signal after the initialization cycle is complete. HPF1 bit 0 0 1 1 HPF0 bit 0 1 0 1 Init Cycle fs=44.1kHz fs=22.05kHz 70.0ms 140.0ms 35.2ms 17.8ms 70.4ms (Recommendation) Cycle 3088/fs 1552/fs 784/fs fs=11.025kHz 280.1ms 140.8ms 71.1ms (Recommendation) (Recommendation) (default ) 35.6ms N/A N/A N/A Table 30. ADC Initialization Cycle (N/A: Not available) N/A MS0404-E-02 - 39 - 2007/08 [AK5701] Serial Control Interface Internal registers may be written by using the 3-wire P interface pins (CSN, CCLK and CDTI). The CSP pin selects the polarity of the CSN pin and chip address. 1) CSP pin = "L" The data on this interface consists of a 2-bit Chip address (Fixed to "10"), Read/Write (Fixed to "1"), Register address (MSB first, 5bits) and Control data (MSB first, 8bits). Each bit is clocked in on the rising edge ("") of CCLK. Address and data are latched on the 16th CCLK rising edge ("") after CSN falling edge(""). CSN should be set to "H" once after 16 CCLKs for each address. Clock speed of CCLK is 7MHz (max). The value of internal registers are initialized by the PDN pin = "L". CSN 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 CCLK CDTI Clock, "H" or "L" "H" or "L" C1 C0 R/W A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 Clock, "H" or "L" "H" or "L" C1-C0: R/W: A4-A0: D7-D0: Chip Address (C1 = "1", C0 = CAD0) ; Fixed to "10" READ/WRITE ("1": WRITE, "0": READ); Fixed to "1" Register Address Control data Figure 41. Serial Control I/F Timing (CSP pin = "L") 2) CSP pin = "H" The data on this interface consists of a 2-bit Chip address (Fixed to "01"), Read/Write (Fixed to "1"), Register address (MSB first, 5bits) and Control data (MSB first, 8bits). Each bit is clocked in on the rising edge ("") of CCLK. Address and data are latched on the 16th CCLK rising edge ("") after CSN rising edge(""). CSN should be set to "L" once after 16 CCLKs for each address. Clock speed of CCLK is 7MHz (max). The value of internal registers are initialized by the PDN pin = "L". CSN 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 CCLK CDTI Clock, "H" or "L" "H" or "L" C1 C0 R/W A4 A3 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 Clock, "H" or "L" "H" or "L" C1-C0: R/W: A4-A0: D7-D0: Chip Address (C1 = "0", C0 = CAD1) ; Fixed to "01" READ/WRITE ("1": WRITE, "0": READ); Fixed to "1" Register Address Control data Figure 42. Serial Control I/F Timing (CSP pin = "H") MS0404-E-02 - 40 - 2007/08 [AK5701] Register Map Addr 10H 11H 12H 13H 14H 15H 16H 17H 18H 19H 1AH 1BH 1CH 1DH 1EH Register Name Power Management PLL Control Signal Select Mic Gain Control Audio Format Select fs Select Clock Output Select Volume Control Lch Input Volume Control Rch Input Volume Control Timer Select ALC Mode Control 1 ALC Mode Control 2 Mode Control 1 Mode Control 2 D7 0 0 0 0 0 HPF1 0 0 IVL7 IVR7 0 REF7 ALC TE3 0 D6 0 0 0 0 0 HPF0 0 0 IVL6 IVR6 0 REF6 ZELMN TE2 0 D5 0 PLL3 0 0 1 BCKO1 0 0 IVL5 IVR5 0 REF5 LMAT1 TE1 0 D4 0 PLL2 PMMP 0 MIX BCKO0 0 0 IVL4 IVR4 0 REF4 LMAT0 TE0 0 D3 0 PLL1 MDIF2 0 MSBS FS3 THR 0 IVL3 IVR3 ZTM1 REF3 RGAIN1 0 0 D2 PMVCM PLL0 MDIF1 0 BCKP FS2 MCKO 0 IVL2 IVR2 ZTM0 REF2 RGAIN0 0 0 D1 PMADR M/S INR MGAIN1 D0 PMADL PMPLL INL MGAIN0 DIF1 FS1 PS1 0 IVL1 IVR1 WTM1 REF1 LMTH1 0 TMASTER DIF0 FS0 PS0 IVOLC IVL0 IVR0 WTM0 REF0 LMTH0 0 0 Note 31. PDN pin = "L" resets the registers to their default values. Note 32. "0" must be sent to the register written as "0" and "1" must be sent to the register written as "1". For addresses except for 10H to 1EH, data must not be written. MS0404-E-02 - 41 - 2007/08 [AK5701] Register Definitions Addr 10H Register Name Power Management Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 PMVCM 0 D1 PMADR 0 D0 PMADL 0 PMADL: MIC-Amp Lch and ADC Lch Power Management 0: Power down (default) 1: Power up PMADR: MIC-Amp Rch and ADC Rch Power Management 0: Power down (default) 1: Power up When the PMADL or PMADR bit is changed from "0" to "1", the initialization cycle (3088/fs=70.0ms@fs= 44.1kHz, HPF1-0 bits = "00") starts. After initializing, digital data of the ADC is output. PMVCM: VCOM Power Management 0: Power down (default) 1: Power up When any blocks are powered-up, the PMVCM bit must be set to "1". PMVCM bit can be set to "0" only when PMADL=PMADR=PMPLL=PMMP=MCKO bits = "0". Each block can be powered-down respectively by writing "0" in each bit of this address. When the PDN pin is "L", all blocks are powered-down regardless as setting of this address. In this case, register is initialized to the default value. When PMVCM, PMADL, PMADR, PMPLL and MCKO bits are "0", all blocks are powered-down. The register values remain unchanged. Power supply current is 20A(typ) in this case. For fully shut down (typ. 1A), the PDN pin should be "L". When the ADC is not used, external clocks may not be present. When ADC is used, external clocks must always be present. Addr 11H Register Name PLL Control Default D7 0 0 D6 0 0 D5 PLL3 1 D4 PLL2 0 D3 PLL1 0 D2 PLL0 1 D1 M/S 0 D0 PMPLL 0 PMPLL: PLL Power Management 0: EXT Mode and Power Down (default) 1: PLL Mode and Power up M/S: Master / Slave Mode Select 0: Slave Mode (default) 1: Master Mode PLL3-0: PLL Reference Clock Select (Table 4) Default: "1001"(MCKI pin=12MHz) MS0404-E-02 - 42 - 2007/08 [AK5701] Addr 12H Register Name Signal Select Default D7 0 0 D6 0 0 D5 0 0 D4 PMMP 0 D3 MDIF2 0 D2 MDIF1 0 D1 INR 0 D0 INL 0 INL: ADC Lch Input Source Select 0: LIN1 pin (default) 1: LIN2 pin INR: ADC Rch Input Source Select 0: RIN1 pin (default) 1: RIN2 pin MDIF1: ADC Lch Input Type Select 0: Single-ended input (LIN1/LIN2 pin: default) 1: Full-differential input (LIN+/LIN- pin) MDIF2: ADC Rch Input Type Select 0: Single-ended input (RIN1/RIN2 pin: default) 1: Full-differential input (RIN+/RIN- pin) PMMP: MPWR pin Power Management 0: Power down: Hi-Z (default) 1: Power up Addr 13H Register Name Mic Gain Control Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 0 0 D1 MGAIN1 D0 MGAIN0 0 1 MGAIN1-0: MIC-Amp Gain Control (Table 20) Default: "01"(+15dB) Addr 14H Register Name Audio Format Select Default D7 0 0 D6 0 0 D5 1 1 D4 MIX 0 D3 MSBS 0 D2 BCKP 0 D1 DIF1 1 D0 DIF0 1 DIF1-0: Audio Interface Format (Table 15) Default: "11" (I2S) BCKP: BCLK/EXBCLK Polarity at DSP Mode (Table 16) "0": SDTO is output by the rising edge ("") of BCLK/EXBCLK. (default) "1": SDTO is output by the falling edge ("") of BCLK/EXBCLK. MSBS: LRCK/EXLRCK Polarity at DSP Mode (Table 16) "0": The rising edge ("") of LRCK/EXLRCK is half clock of BCLK/EXBCLK before the channel change. (default) "1": The rising edge ("") of LRCK/EXLRCK is one clock of BCLK/EXBCLK before the channel change. MIX: ADC Output Data Select (Table 17) "0": Normal operation (default) "1": (L+R)/2 MS0404-E-02 - 43 - 2007/08 [AK5701] Addr 15H Register Name fs Select Default D7 HPF1 0 D6 HPF0 0 D5 BCKO1 0 D4 BCKO0 1 D3 FS3 1 D2 FS2 1 D1 FS1 1 D0 FS0 1 FS3-0: Sampling Frequency Select (Table 5 and Table 6) and MCKI Frequency Select (Table 11) Default: "1111" (44.1kHz) FS3-0 bits select sampling frequency at PLL mode and MCKI frequency at EXT mode. BCKO1-0: BCLK Output Frequency Select at Master Mode (Table 10) Default: "01" (32fs) HPF1-0: Offset Cancel HPF Cut-off Frequency and ADC Initialization Cycle (Table 18, Table 30) Default: "00" (fc=3.4Hz@fs=44.1kHz, Init Cycle=3088/fs) Addr 16H Register Name Clock Output Select Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 THR 0 D2 MCKO 0 D1 PS1 0 D0 PS0 0 PS1-0: MCKO Output Frequency Select (Table 9) Default: "00"(256fs) MCKO: Master Clock Output Enable 0: Disable: MCKO pin = "L" (default) 1: Enable: Output frequency is selected by PS1-0 bits. THR: Bypass Mode (Table 14) 0: OFF (default) 1: ON Addr 17H Register Name Volume Control Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 0 0 D1 0 0 D0 IVOLC 1 IVOLC: Input Digital Volume Control Mode Select 0: Independent 1: Dependent (default) When IVOLC bit = "1", IVL7-0 bits control both Lch and Rch volume level, while register values of IVL7-0 bits are not written to IVR7-0 bits. When IVOLC bit = "0", IVL7-0 bits control Lch level and IVR7-0 bits control Rch level, respectively. Addr 18H 19H Register Name Lch Input Volume Control Rch Input Volume Control Default D7 IVL7 IVR7 1 D6 IVL6 IVR6 0 D5 IVL5 IVR5 0 D4 IVL4 IVR4 1 D3 IVL3 IVR3 0 D2 IVL2 IVR2 0 D1 IVL1 IVR1 0 D0 IVL0 IVR0 1 IVL7-0, IVR7-0: Input Digital Volume; 0.375dB step, 242 Level (Table 29) Default: "91H" (0dB) MS0404-E-02 - 44 - 2007/08 [AK5701] Addr 1AH Register Name Timer Select Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 ZTM1 0 D2 ZTM0 0 D1 WTM1 0 D0 WTM0 0 WTM1-0: ALC Recovery Waiting Period (Table 25) Default: "00" (128/fs) ZTM1-0: ALC Limiter/Recovery Operation Zero Crossing Timeout Period (Table 24) Default: "00" (128/fs) Addr 1BH Register Name ALC Mode Control 1 Default D7 REF7 1 D6 REF6 1 D5 REF5 1 D4 REF4 0 D3 REF3 0 D2 REF2 0 D1 REF1 0 D0 REF0 1 REF7-0: Reference Value at ALC Recovery Operation. 0.375dB step, 242 Level (Table 27) Default: "E1H" (+30.0dB) Addr 1CH Register Name ALC Mode Control 2 Default D7 ALC 0 D6 ZELMN 0 D5 LMAT1 0 D4 LMAT0 0 D3 RGAIN1 D2 RGAIN0 0 0 D1 LMTH1 0 D0 LMTH0 0 LMTH1-0: ALC Limiter Detection Level / Recovery Counter Reset Level (Table 22) Default: "00" RGAIN1-0: ALC Recovery GAIN Step (Table 26) Default: "00" LMAT1-0: ALC Limiter ATT Step (Table 23) Default: "00" ZELMN: Zero Crossing Detection Enable at ALC Limiter Operation 0: Enable (default) 1: Disable ALC: ALC Enable 0: ALC Disable (default) 1: ALC Enable MS0404-E-02 - 45 - 2007/08 [AK5701] Addr 1DH Register Name Mode Control 1 Default D7 TE3 1 D6 TE2 0 D5 TE1 1 D4 TE0 0 D3 0 0 D2 0 0 D1 0 0 D0 0 0 TE3-0: EXT Master Mode Enable When TE3-0 bits is set to "0101", the write operation to addr=1EH is enabled. TE3-0 bits should be set to "1010" except for EXT Master Mode. TE3-0 bits must not be set to the value except for "1010" and "0101". Default: "1010" Addr 1EH Register Name Mode Control 2 Default D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 0 0 D1 TMASTER 0 D0 0 0 TMASTER: EXT Master Mode The write operation to TMASTER bit is enabled when TE3-0 bits = "0101". 0: Except EXT Master Mode (default) 1: EXT Master Mode MS0404-E-02 - 46 - 2007/08 [AK5701] SYSTEM DESIGN Figure 43 and Figure 44 shows the system connection diagram for the AK5701. The evaluation board [AKD5701] demonstrates the optimum layout, power supply arrangements and measurement results. P 18 17 16 15 14 MCKI EXBCLK 13 CCLK 2.2k 2.2k 2.2k 2.2k CDTI PDN CSN DSP 19 MPWR External MIC 1u 1u Internal MIC 1u 1u Rp Cp 20 RIN2 21 LIN2 22 RIN1 23 LIN1 24 VCOC VCOM DVDD AVDD DVSS AVSS 0.1 x Cp (Note) EXLRCK 12 EXSDTI 11 AK5701 Top View MCKO 10 CSP SDTO LRCK BCLK 9 8 7 DSP 1 2 3 4 5 10u 0.1u 0.1u Power Supply 2.4 3.6V 2.2u 10u 0.1u Power Supply 1.6 3.6V 6 Analog Ground Digital Ground Notes: - AVSS and DVSS of the AK5701 should be distributed separately from the ground of external controllers. - All digital input pins should not be left floating. - When the AK5701 is EXT mode (PMPLL bit = "0"), a resistor and capacitor of the VCOC pin is not needed. - When the AK5701 is PLL mode (PMPLL bit = "1"), a resistor and capacitor of the VCOC pin is shown in Table 4. 0.1 x Cp in parallel with Cp+Rp improves PLL jitter characteristics. - Mic input AC coupling capacitor should be 1F or less to start the recording within 100ms. Figure 43. Typical Connection Diagram (MIC Input) MS0404-E-02 - 47 - 2007/08 [AK5701] P 18 17 16 15 14 MCKI EXBCLK 13 CCLK CDTI PDN CSN DSP 19 MPWR 20 RIN2 Line In 21 LIN2 22 RIN1 23 LIN1 24 VCOC VCOM DVDD AVDD DVSS AVSS 0.1 x Cp (Note) Rp Cp EXLRCK 12 EXSDTI 11 AK5701 Top View MCKO 10 CSP SDTO LRCK BCLK 9 8 7 DSP 1 2 3 4 5 10u 0.1u 0.1u Power Supply 2.4 3.6V 2.2u 10u 0.1u Power Supply 1.6 3.6V 6 Analog Ground Digital Ground Notes: - AVSS and DVSS of the AK5701 should be distributed separately from the ground of external controllers. - All digital input pins should not be left floating. - When the AK5701 is EXT mode (PMPLL bit = "0"), a resistor and capacitor of the VCOC pin is not needed. - When the AK5701 is PLL mode (PMPLL bit = "1"), a resistor and capacitor of the VCOC pin is shown in Table 4. 0.1 x Cp in parallel with Cp+Rp improves PLL jitter characteristics. Figure 44. Typical Connection Diagram (Line Input) MS0404-E-02 - 48 - 2007/08 [AK5701] 1. Grounding and Power Supply Decoupling The AK5701 requires careful attention to power supply and grounding arrangements. AVDD and DVDD are usually supplied from the system's analog supply. If AVDD and DVDD are supplied separately, the power-up sequence is not critical. AVSS and DVSS of the AK5701 should be connected to the analog ground plane. System analog ground and digital ground should be connected together near to where the supplies are brought onto the printed circuit board. Decoupling capacitors should be as near to the AK5701 as possible, with the small value ceramic capacitor being the nearest. 2. Voltage Reference VCOM is a signal ground of this chip. A 2.2F electrolytic capacitor in parallel with a 0.1F ceramic capacitor attached to the VCOM pin eliminates the effects of high frequency noise. No load current may be drawn from the VCOM pin. All signals, especially clocks, should be kept away from the VCOM pin in order to avoid unwanted coupling into the AK5701. 3. Analog Inputs The analog inputs are single-ended or full-differential and input resistance is 60k (typ)@MGAIN1-0 bits = "00", 30k (typ)@MGAIN1-0 bits = "01" or "10". The input signal range scales with 0.6 x AVDD Vpp(typ)@MGAIN 1-0 bits = "00" centered around the internal common voltage (0.5 x AVDD). Usually the input signal is AC coupled using a capacitor. The cut-off frequency is fc = 1/(2RC). The ADC output data format is 2's complement. The DC offset including the ADC's own DC offset is removed by the internal HPF (fc=3.4Hz@ HPF1-0 bits = "00", fs=44.1kHz). The AK5701 can accept input voltages from AVSS to AVDD at single-ended. MS0404-E-02 - 49 - 2007/08 [AK5701] CONTROL SEQUENCE Clock Set up When ADC is powered-up, the clocks must be supplied. 1. PLL Master Mode. Example: Power Supply (1) PDN pin (2) (3) Audio I/F Format: I2S BCLK frequency at Master Mode: 64fs Input Master Clock Select at PLL Mode: 11.2896MHz MCKO: Enable Sampling Frequency: 44.1kHz PMVCM bit (Addr:10H, D2) (4) (1) Power Supply & PDN pin = "L" "H" MCKO bit (Addr:16H, D2) PMPLL bit (Addr:11H, D0) (5) MCKI pin (2)Addr:11H, Data:12H Addr:14H, Data:23H Addr:15H, Data:2FH Input M/S bit (Addr:11H, D1) 40msec(max) (6) (3)Addr:10H, Data:04H BCLK pin LRCK pin 40msec(max) (8) Output (4)Addr:16H, Data:04H Addr:11H, Data:13H MCKO pin (7) Output MCKO, BCLK and LRCK output Figure 45. Clock Set Up Sequence (1) MS0404-E-02 - 50 - 2007/08 [AK5701] 2. PLL Slave Mode (EXLRCK or EXBCLK pin) Example: Power Supply (1) Audio I/F Format : I2S PLL Reference clock: EXBCLK EXBCLK frequency: 64fs Sampling Frequency: 44.1kHz PDN pin (2) (3) 4fs ofPower Supply & PDN pin = "L" (1) "H" PMVCM bit (Addr:10H, D2) PMPLL bit (Addr:11H, D0) (2) Addr:11H, Data:0CH Addr:14H, Data:23H Addr:15H, Data:2FH Input (4) EXLRCK pin EXBCLK pin Internal Clock (3) Addr:10H, Data:04H (5) (4) Addr:11H, Data:0DH Figure 46. Clock Set Up Sequence (2) MS0404-E-02 - 51 - 2007/08 [AK5701] 3. PLL Slave Mode (MCKI pin) Example: Audio I/F Format: I2S BCLK frequency at Master Mode: 64fs Input Master Clock Select at PLL Mode: 11.2896MHz MCKO: Enable Sampling Frequency: 44.1kHz Power Supply (1) (1) Power Supply & PDN pin = "L" "H" PDN pin (2) (3) PMVCM bit (Addr:10H, D2) (4) (2)Addr:11H, Data:10H Addr:14H, Data:23H Addr:15H, Data:2FH (3)Addr:10H, Data:04H MCKO bit (Addr:16H, D2) PMPLL bit (Addr:11H, D0) (5) MCKI pin Input 40msec(max) (6) (4)Addr:16H, Data:04H Addr:11H, Data:11H MCKO pin (7) (8) Output MCKO output start EXBCLK pin EXLRCK pin Input EXBCLK and EXLRCK input start Figure 47. Clock Set Up Sequence (3) MS0404-E-02 - 52 - 2007/08 [AK5701] 4. EXT Slave Mode Example: Audio I/F Format: I2S Input MCKI frequency: 256fs Sampling Frequency: 44.1kHz MCKO: Disable Power Supply (1) (1) Power Supply & PDN pin = "L" "H" PDN pin (2) (3) PMVCM bit (Addr:10H, D2) (4) (2) Addr:11H, Data:00H Addr:14H, Data:23H Addr:15H, Data:2FH Input (4) MCKI pin EXLRCK pin EXBCLK pin (3) Addr:10H, Data:04H Input MCKI, EXBCLK and EXLRCK input Figure 48. Clock Set Up Sequence (4) MS0404-E-02 - 53 - 2007/08 [AK5701] 5. EXT Master Mode Power Supply (1) PDN pin (2) (3) Example: Audio I/F Format: I2S BCLK frequency at Master Mode: 64fs Input Master Clock Select: 256fs Sampling Frequency: 44.1kHz PMVCM bit (Addr:10H, D2) MCKI pin Input (1) Power Supply & PDN pin = "L" "H" M/S bit (Addr:11H, D1) TE3-0 bits (Addr:1DH, D7-4) "1010" "0101" TMASTER bit (Addr:1EH, D1) (2)Addr:11H, Data:26H Addr:14H, Data:23H Addr:15H, Data:2FH Addr:1DH, Data:50H Addr:1EH, Data:02H BCLK and LRCK output BCLK pin LRCK pin Output (3)Addr:10H, Data:04H Figure 49. Clock Set Up Sequence (5) MS0404-E-02 - 54 - 2007/08 [AK5701] 6. Slave & Bypass Mode Example: Power Supply (1) Audio I/F Format : I2S PLL Reference clock: EXBCLK EXBCLK frequency: 64fs Sampling Frequency: 44.1kHz PDN pin (2) (3) 4fs ofPower Supply & PDN pin = "L" (1) "H" PMVCM bit (Addr:10H, D2) PMPLL bit (Addr:11H, D0) (2) Addr:11H, Data:0CH Addr:14H, Data:23H Addr:15H, Data:2FH Addr:16H, Data:08H Input (4) EXLRCK pin EXBCLK pin Internal Clock (3) Addr:10H, Data:04H (5) (4) Addr:11H, Data:0DH Figure 50. Clock Set Up Sequence (6) MS0404-E-02 - 55 - 2007/08 [AK5701] 7. Bypass Mode Power Supply (1) PDN pin (2) (1) Power Supply & PDN pin = "L" "H" THR bit (Addr:16H, D3) (2) Addr:16H, Data:08H (3) EXLRCK pin EXBCLK pin EXSDTI pin Input MCKI, EXBCLK and EXLRCK input Figure 51. Clock Set Up Sequence (7) MS0404-E-02 - 56 - 2007/08 [AK5701] MIC Input Recording (Stereo) Example: PLL Master Mode Audio I/F Format:I2S Sampling Frequency:44.1kHz Pre MIC AMP:+15dB MIC Power On ALC setting:Refer to Figrure 37 ALC bit = "1" (1) Addr:15H, Data:2FH FS3-0 bits (Addr:15H, D3-0) X,XXX (1) 1111 (2) Addr:12H, Data:10H Addr:13H, Data:01H MIC Control (Addr:12H, D4 & Addr:13H, D1-0) 0, 01 (2) 1, 01 (3) Addr:1AH, Data:0AH Timer Control (Addr:1AH) XXH (3) 0AH (4) Addr:1BH, Data:E1H ALC Control 1 (Addr:1BH) XXH (4) E1H 81H (5) (8) (5) Addr:1CH, Data:81H ALC Control 2 (Addr:1CH) XXH ALC Disable 01H ALC Disable (6) Addr:10H, Data:07H ALC State PMADL/R bit (Addr:10H, D1-0) ALC Enable Recording (7) Addr:10H, Data:04H 3088 / fs (6) (7) ADC Internal State Power Down Initialize Normal State Power Down (8) Addr:1CH, Data:01H Figure 52. MIC Input Recording Sequence MS0404-E-02 - 57 - 2007/08 [AK5701] Stop of Clock Master clock can be stopped when ADC is not used. 1. PLL Master Mode Example: (1) PMPLL bit (Addr:11H, D0) Audio I/F Format: I2S BCLK frequency at Master Mode: 64fs Input Master Clock Select at PLL Mode: 11.2896MHz Sampling Frequency: 44.1kHz M/S bit (Addr:11H, D1) (2) (1) Addr:11H, Data:10H "H" or "L" (3) MCKO bit (Addr:16H, D2) (2) Addr:16H, Data:00H (3) Stop an external MCKI External MCKI Input Figure 53. Clock Stopping Sequence (1) Example (1) PMPLL bit (Addr:11H, D0) (2) Audio I/F Format : I2S PLL Reference clock: EXBCLK BCLK frequency: 64fs Sampling Frequency: 44.1kHz EXBCLK EXLRCK Input (2) (1) Addr:11H, Data:0CH Input (2) Stop the external clocks Figure 54. Clock Stopping Sequence (2) MS0404-E-02 - 58 - 2007/08 [AK5701] 3. PLL Slave Mode (MCKI pin) Example Audio I/F Format: I2S PLL Reference clock: MCKI= 11.2896MHz EXBCLK frequency: 64fs Sampling Frequency: 44.1kHz (1) PMPLL bit (Addr:11H, D0) (2) (1) Addr:11H, Data:10H (2) Addr:16H, Data:00H (3) MCKO bit (Addr:16H, D2) External MCKI Input (3) Stop the external clocks Figure 55. Clock Stopping Sequence (3) (1) External MCKI EXBCLK EXLRCK Input Example (1) Input (1) Audio I/F Format :I2S Input MCKI frequency:256fs Sampling Frequency:44.1kHz Input (1) Stop the external clocks Figure 56. Clock Stopping Sequence (4) (1) External MCKI BCLK LRCK Input Example Output Output "H" or "L" "H" or "L" Audio I/F Format :I2S Input MCKI frequency:256fs Sampling Frequency:44.1kHz (1) Stop MCKI Figure 57. Clock Stopping Sequence (5) MS0404-E-02 - 59 - 2007/08 [AK5701] Power down Power supply current is typ. 20A by stopping clocks and setting PMVCM bit = "0" after all blocks except for VCOM are powered-down. Power supply current can be shut down (typ. 1A) by stopping clocks and setting the PDN pin = "L". When the PDN pin = "L", the registers are initialized. MS0404-E-02 - 60 - 2007/08 [AK5701] PACKAGE 24pin QFN (Unit: mm) 4.0 0.1 13 12 A 2.4 0.15 18 19 2.4 0.15 4.0 0.1 Exposed Pad 7 6 B 24 0.40 0.1 1 0.23 0.05 0.10 M PIN #1 ID (0.35 x 45 ) 0.5 Note) The exposed pad on the bottom surface of the package must be open or connected to the ground. Material & Lead finish Package molding compound: Lead frame material: Lead frame surface treatment: Epoxy Cu Solder (Pb free) plate MS0404-E-02 - 61 - 0.75 0.05 0.08 0.2 2007/08 [AK5701] MARKING AK5701VN 5701 XXXX 1 XXXX : Date code identifier (4 digits) AK5701KN 5701K XXXX 1 XXXX : Date code identifier (4 digits) MS0404-E-02 - 62 - 2007/08 [AK5701] REVISION HISTORY Date (YY/MM/DD) 05/08/04 05/11/22 Revision 00 01 Reason First Edition Error correction Page 8 25 35 57 Contents Switching Characteristics (PLL Slave Mode) tBCKL(min): 240ns 0.4 x tBCK tBCKH(min): 240ns 0.4 x tBCK PLL Slave Mode a) Mode 1: EXBCLK or EXLRCK MCKI b) Mode 2: MCKI EXBCLK or EXLRCK ALC Operation The sentence of "The IVL and IVR are then set to the same value for both channels." was deleted. Control Sequence (MIC Recording) Figure 51 (7) Data=01H 04H (2) 72H&73H 12H&13H (3) 7AH 1AH (4) 7BH 1BH (5) 7CH 1CH AK5701KN was added. (1) Ambient Temperature AK5701VN : -30 +85C AK5701KN : -40 +85C (2) Marking AK5701VN : "5701" AK5701KN : "5701K" 1. Control Interface Timing(CSP pin = "L") (1) CSN "" to CCLK "" CSN Edge to CCLK "" (2) CCLK "" to CSN "" CCLK "" to CSN Edge 2. Control Interface Timing(CSP pin = "H") (1) CSN "" to CCLK "" CSN Edge to CCLK "" (2) CCLK "" to CSN "" CCLK "" to CSN Edge 3. Note 22 was added. Figure 26 Figure 29 : ECTBCLK(32fs)/BCLK(32fs) No of 1st bit in Fugure 15 31 Figure 30 Figure 33 : BCLK(64fs) No of 1st bit in Fugure : 15 31 Serial Control I/F 1. CSP pin = "L" "CSN should be set to "H" once after 16 CCLKs for each address." was added. 2. CSP pin = "H" "CSN should be set to "L" once after 16 CCLKs for each address." was added. 07/08/30 02 Product Addition 1, 3, 5, 62 Spec Addition 11 Error Correction 30 31 Spec Addition 40 MS0404-E-02 - 63 - 2007/08 [AK5701] IMPORTANT NOTICE 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 EMD Corporation (AKEMD) or authorized distributors as to current status of the products. AKEMD assumes no liability for infringement of any patent, intellectual property, or other rights 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. AKEMD products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or other hazard related device or systemNote2), and AKEMD assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKEMD. 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. It is the responsibility of the buyer or distributor of AKEMD 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 AKEMD harmless from any and all claims arising from the use of said product in the absence of such notification. MS0404-E-02 - 64 - 2007/08 |
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