ASAHI KASEI [AK2303LV] AK2303LV Dual PCM CODEC for PBX Analog Line Card FEATURE GENERAL DESCRIPTION AK2303LV is a 3.3V dual PCM CODEC-Filter most suitable for analog line card of PBX switch. - Dual PCM CODEC and Filtering systems for PBX switch - Independent functions on each channel Controlled by the internal register or hard pin - Power Down Mode (Register setting) - Mute (Hard pin, register setting) - Gain Adjustment: +6 to -18dB (1dB step by register setting) - Selectable PCM Data Interface Timing: Long Frame / Short Frame/GCI - Selectable PCM Data Rate: 4.096MHz, 2.048MHz (Register setting) - OP Amp for External Gain Adjustment - A-law/u-law Select (Hard pin, Register setting) - Serial Interface for the internal register access - Power on Reset - Single Power Supply Voltage - +3.3V ± 0.3V - Low Power Consumption - 42mW typ CODEC-Filter is compliant with G711/G712 recommendations. It includes Selectable A-law/u-law function, Internal Gain Adjustment from +6dB to –18dB by 1dB step control. All of these functions are controlled by the internal register accessed through the serial interface. Additionally, channel mute and A-law/u-law selection is controlled by the hard pin. PCM interface of AK2303LV supports Long Frame, Short Frame clock formats and GCI format. 4.096MHz, 2.048MHz bit clock input is available for PCM interface. PACKAGE - 28pinSSOP 10.40 x 7.9 mm (0.65mm pin pitch) MS0117-E-02 1 2012/01 ASAHI KASEI [AK2303LV] CONTENTS ITEMS PAGE - BLOCK DIAGRAM….…………..……………………… 3 - PIN ASSIGNMENT….……………………………..…… 4 - PIN CONDITION……...………………………………… 5 - PIN FUNCTION…….…………………………………… 6 - CIRCUIT DESCRIPTION….….……………………...… 8 - FUNCTIONAL DESCRIPTION…….…..……………… 9 - PCM INTERFACE……….…………………….... 9 LONGFRAME/SHORTFRAME……….…… 9 GCI……………………………………………. 12 - MUTE…………………………………….……… 14 - GAIN ADJUSTMENT….…..…………………… 15 - RESET…………………………..………………. 16 - POWER DOWN……..……………………..…… 17 - SERIAL INTERFACE………….………….…… 19 - MODE SETTING……..……………………..….. 23 - REGISTER……….……………………………………… 24 - ABSOLUTE MAXIMUM RATINGS……..…………..… 28 - RECOMMENDED OPERATING CONDITIONS…….. 28 - ELECTRICAL CHARACTERISTICS……..………...… 28 - APPLICATION CIRCUIT EXAMPLE…..…………...… 37 - PACKAGE INFORMATION……..…………………..… MS0117-E-02 2 39 2012/01 ASAHI KASEI [AK2303LV] BLOCK DIAGRAM GST0 VFTN0 GA0T AAF0 GA0R SMF0 AMPT0 VR0 VFR0 GSR0 CH0 GA1T AAF1 GA1R SMF1 CODEC CH1 BGREF MODE TEST ALAWN MUTE1 MUTE0 A/u_SEL Register PWDN Internal TXVlm1 TXVlm0 RXVlm1 PLL VDD VSS Serial I/F Power on Reset Register MS0117-E-02 FS1 AMPR1 RXVlm0 LPC FS0 DX DR FS BCLK AMPT1 VREF PCM I/F AMPR0 GST1 VFTN1 VR1 VFR1 GSR1 CODEC 3 SCLK DATA CSN 2012/01 ASAHI KASEI [AK2303LV] PIN ASSIGNMENT TEST VFTN1 GST1 GSR1 VFR1 VR1 ALAWN AVDD DVDD FS BCLK DX DR MUTE1 MS0117-E-02 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 4 VREF MODE VFTN0 GST0 GSR0 VFR0 AVSS DVSS VR0 LPC CSN DATA SCLK MUTE0 2012/01 ASAHI KASEI [AK2303LV] PIN CONDITION Pin # Name I/O Pin type 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 TEST VFTN1 GST1 GSR1 VFR1 VR1 ALAWN AVDD DVDD FS BCLK DX DR MUTE1 MUTE0 SCLK DATA CSN LPC VR0 DVSS AVSS VFR0 GSR0 GST0 VFTN0 I I O O I O I - - I I O I I I I I/O I O O - - I O O I (*2) Analog Analog Analog Analog Analog CMOS 27 MODE I CMOS CMOS CMOS CMOS CMOS CMOS CMOS CMOS CMOS Analog Analog AC load (MAX.) DC load (MIN.) Outout status (Power down mode) Remarks Tied to AVSS 50pF 50pF 10kΩ(*1) 10kΩ(*1) Hi-Z Hi-Z 50pF 10kΩ Hi-Z 15pF Hi-Z 15pF Hi-Z (Input) 0.22uF 50pF 10kΩ Hi-Z 50pF 50pF 10kΩ(*1) 10kΩ(*1) Hi-Z Hi-Z Analog Analog Analog Analog Tied to AVSS or AVDD More than 1.0uF (*2) 28 VREF O Analog *1) DC load(MIN.) includes a feedback resistance of input/output op-amp. *2) Please tie to AVSS or AVDD, in order not to have a noise impact to the adjacent analog pins. MS0117-E-02 5 2012/01 ASAHI KASEI [AK2303LV] PIN FUNCTION Pin# Name 1 TEST I/O I 2 VFTN1 I 3 4 5 GST1 GSR1 VFR1 O O I 6 7 VR1 ALAWN O I 8 AVDD - 9 DVDD - 10 FS I 11 BCLK I 12 DX O 13 DR I 14 MUTE1 I 15 MUTE0 I 16 17 18 19 SCLK DATA CSN LPC MS0117-E-02 I I/O I O Function TEST MODE setting (Please tie to AVSS) 0: Normal mode 1: Test mode Negative analog input of the transmit OPamp(AMPT1) for channel 1. Transmit gain is defined by the ratio of R2/R1. R1 is the external input resister connected to this pin. R2 is the external feedback resister connected between this pin and GST1. Output of the transmit OPamp(AMPT1) for channel 1. Output of the receive OPamp(AMPR1) for channel 1. Negative analog input of the receive OPamp(AMTR1) for channel 1. Receive gain is defined by the ratio of R4/R3. R3 is the external input resister connected to this pin. R4 is the external feedback resister connected between this pin and VR1. Analog Output equivalent to the received PCM data for channel 1. A-law/u-law Select 0:A-law 1:u-law Positive supply voltage for analog circuit. +3.3V supply. Positive supply voltage for digital circuit. +3.3V supply. Frame sync input. FS must be 8kHz clock which is synchronized with BCLK. Bit clock of PCM data interface. This clock is input for the internal PLL which gerenates the internal system clocks. This clock defines the input/output data rate of DX and DR. The frequency of BCLK should be 2.048MHz or 4.096MHz set via CPU register.. Serial output of PCM data. The channel 1 data is output following the channel 0 data. The PCM data rate is synchronized with BCLK. This output remains in the high impedance state except for the period of transmitting PCM data. Serial input of PCM data. The channel 1 data is received following the channel 0 data. The PCM data rate is synchronized with BCLK. CH1 mute setting 0:mute 1:normal operation CH0 mute setting 0:mute 1:normal operation Clock input of serial interface. Data input of serial interface. Read and write enable of serial interface. Pin for PLL loop filter. External capacitance(Min 0.22uF) should be connected between this pin and AVSS. 6 2012/01 ASAHI KASEI [AK2303LV] Pin# 20 21 22 23 Name VR0 DVSS AVSS VFR0 I/O O I 24 25 26 27 GSR0 GST0 VFTN0 MODE O O I I 28 VREF O MS0117-E-02 Function Analog Output equivalent to the received PCM data for channel 0. Ground for digital circuit. Ground for analog circuit. Negative analog input of the receive OPamp(AMTR0) for channel 0. Receive gain is defined by the ratio of R4/R3. R3 is the external input resister connected to this pin. R4 is the external feedback resister connected between this pin and VR0. Output of the receive OPamp(AMPR0) for channel 0. Output of the transmit OPamp(AMPT0) for channel 0. Positive analog input of the transmit Opamp(AMPT0) for channel 0. MODE select 0:Register off mode 1:normal mode Analog ground output. External capacitance(1.0 uF) should be connected between this pin and AVSS. 7 2012/01 ASAHI KASEI [AK2303LV] CIRCUIT DESCRIPTION Block AMPT0,1 AMPR0,1 AAF0,1 A/D D/A SMF BGREF GA0T/R GA1T/R GATN SERIAL I/F PLL PCM I/F MS0117-E-02 Function Op-amp for input gain adjustment. The gain is adjusted with external resistors. The resistor larger than 10kΩ is recommended for the feedback resistor. Op-amp for output gain adjustment. This op-amp is used as an inverting amplifier. The gain is adjusted with external resistors. The resistor larger than 10kΩ is recommended for the feedback resistor. Integrated anti-aliasing filter which prevents signals around the sampling rate from folding back into the voice band. AAF is a 2nd order RC low-pass filter. Converts analog signal to 8bit PCM data according to the companding schemes of ITU recommendation G.711; A-law or u-law. The band limiting filter is also integrated. The selection of companding schemes is set by ALAWN register or hard pin as follows: "H": u-Law "L": A-Law Expands 8bit PCM data according to A-law or u-law. The selection of companding schemes is set by ALAWN register or hard pin as follows: "H": u-Law "L": A-Law Extracts the inband signal from D/A output. It also corrects the sinx/x effect of D/A output. Provides the stable analog ground voltage using an on-chip band-gap reference circuit which is temperature compensated. The output voltage is 1.5V for +3.3V operation. Gain selects of analog I/O signals. It is posibble to select gain from +6dB to -18dB (1dB/step). Gain is defined by the internal register. Interface to the internal register by using SCLK, DATA, and CSN pins. PLL generates system clock of AK2303LV. Reference clock is BCLK. More than 0.22uF capacitance should be connected between LPC and VSS as a PLL Loop filter. PCM data rate is available for 4.096, 2.048MHz which synchronizes with BCLK. Three kinds of data format (Long Frame, Short Frame,GCI) are available. Data format is selected by the register “PCM IF”. PCM IF = “L” LongFrame or ShortFrame (LF/SF are selected automatically) PCM IF = “H” GCI PCM data stream, which includes B1 and B2 data, is output through DX pin and input through DR pin. B2 PCM data stream always follows B1 PCM data stream. B1/B2 and Ch0/Ch1 assignment is changed by the SEL2B 8 2012/01 ASAHI KASEI [AK2303LV] FUNCTIONAL DESCRIPTION PCM Data Interface AK2303LV supports the following 3 PCM data formats Long Frame Sync(LF) Short Frame Sync(SF) GCI PCM data of both channels are multiplexed and interfaced through the common pins(DR,DX).The first 8bit is defined as B1 channel and the seconds 8bit is defined as B2 channel in the PCM data stream. The order of PCM data is MSB first in each channel. Selection of the interface mode The GCI and ordinary PCM interface(LF,SF) are selectable through the CPU register as following table. Either LF or SF is automatically selected by means of detecting the length of 8KHz frame signal in AK2303LV when PCM I/F is set to “0”. Register for PCM Interface mode select(Address:100 Bit:5) PCMIF PCM Interface 0 LF or SF 1 GCI Comments LF/SF are selected automatically ∗ Default value after power-on reset =LF/SF mode(PCMIF=0). LONG FRAME( LF ) / SHORT FRAME ( SF ) Automatic LF/SF selection AK2303LV monitors the duration of the FS “H” level and selects either LF or SF interface format automatically. Period of FS=”H” Interface format more than 2 clocks of BCLK LF 1 clock of BCLK SF Timing of the interface 16 bits PCM data (B1 and B2) is ac commodated in 1 frame (125us) defined by 8kHz frame sync signal. Although there are 32 time slots at maximum in 8kHz frame (when BCLK=4.096MHz), PCM data for AK2303LV occupy one time slot for channel 0 and channel 1, as is indicated in following. Frame Sync signal (FS) 8kHz reference signal. This signal indicated the timing and the frame position of 8kHz PCM interface. Bit Clock (BCLK) BCLK defines the PCM data rate. BCLK can be varied 4.096, 2.048MHz. All internal clock of the LSI is generated based on this BCLK signal. Register for BCLK frequency select(Address:101 Bit:7,6) CLKSEL[1:0] BCLK frequency 00 Reserved 01 Reserved 10 2.048MHz 11 4.096MHz MS0117-E-02 comments Default value 9 2012/01 ASAHI KASEI [AK2303LV] Position of the Ch0,Ch1 PCM data in the DX/DR data flow B1 and B2 channel of the PCM data channel are assigned to Analog Ch0 and Ch1 as is defined by SEL2B register. Time-slot on PCM High-way (Time-slot#0~31(MAX)) can be also assigned for B1 and B2 channel data set as is defined by TS[4:0] register. Channel selection CH0,1selection(Address:100 SEL2B CH0 Bit:6) CH1 0 B1 B2 1 B2 B1 Remarks Default on Reset PCM Interface Analog Interface Channe0 B1 B2 Channel 1 SEL2B Time slot Assignment B1, B2 Time-slot selection (Address:101 Bit:4~0) TS[4:0] Time slot B1 B2 The first half of 8bit The latter half of 00000 0 in Time-slot#0 8bit in Time-slot#0 00001 to The first half of 8bit The latter half of XX 11110 in Time-slot#XX 8bit in Time-slot#XX The first half of 8bit The latter half of 11111 31 in Time-slot#31 8bit in Time-slot#31 Remarks Default On Reset FS TS#0 Time slot# ex) Default B1 ex) TS[4:0]=2 setting MS0117-E-02 B2 TS#1 TS#2 TS#3 DR/X TS#31(max) B1 DR/X B1 B2 10 2012/01 ASAHI KASEI [AK2303LV] Long Frame FS BCLK B1 ch DX DR Don’t care B2 ch 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 SEL2B=0 ⇒ SEL2B=1 ⇒ B1-CHANNEL (CH0) B1-CHANNEL (CH1) Don’t care B2-CHANNEL (CH1) B2-CHANNEL (CH0) Short Frame FS BCLK B1 ch DX DR Don’t care B2 ch 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 SEL2B=0 ⇒ SEL2B=1 ⇒ B1-CHANNEL (CH0) B1-CHANNEL (CH1) Don’t care B2-CHANNEL (CH1) B2-CHANNEL (CH0) ! Important Notice Please set time-slot selection as proper value. Maximum time slot is determined from clock speed. At the power up sequence, please set the mute by MUTE0/1 before power up. Then release them after the CODEC initialization and TS assignment to avoid the PCM output data collision with other CODEC’s PCM output. Please don’t stop feeding FS and BCLK except in Full power down mode. Internal PLL does free running when BCLK is not provided. MS0117-E-02 11 2012/01 ASAHI KASEI [AK2303LV] GCI ( General Circuit Interface ) GCI data format and clocking which is used for ISDN application is shown as following. 4.096, 2.048MHz can be used for BCLK. Thus, data rate will be 2.048 or 1.024MHz. Timing of the interface 8 bits PCM data is accommodated in 1 frame( 125us ) defined by 8kHz frame sync signal. Although there are 16 time slots at maximum in 8kHz frame(when BCK=4.096MHz), PCM data on GCI occupy one time slot for channel 0 and channel 1, as is indicated in following. Frame Sync signal (FS) 8kHz reference signal. This signal indicates the timing and the frame position of 8kHz GCI. High level duration of the FS is 1 clock period of BCLK. Bit Clock (BCLK) BCLK defines the GCI data rate. All the internal clock of the LSI is generated based on this BCLK signal. The data rate of GCI is half of BCLK. BCLK can be used either 4.096MHz or 2.048MHz. Position of the Ch0,Ch1 GCI data in the DX/DR data flow B1 and B2 channel of the GCI data channel are assigned to Analog Ch0 and Ch1 as is defined by SEL2B register as same way as PCM interface. Time-slot also can be assigned by same way as PCM format. Channel selection CH0,1selection(Address:100 Bit:6) SEL2B CH0 CH1 0 B1 B2 1 B2 B1 Remarks Default On Reset PCM Interface Analog Interface Channe0 B1 B2 Channel 1 SEL2B Time slot Assignment B1, B2 Time-slot selection (Address:101 Bit:4~0) TS[4:0] Time slot B1 B2 The first half of 8bit The latter half of 00000 0 in Time-slot#0 8bit in Time-slot#0 00001 to The first half of 8bit The latter half of XX 01110 in Time-slot#XX 8bit in Time-slot#XX The first half of 8bit The latter half of 01111 15 in Time-slot#15 8bit in Time-slot#15 MS0117-E-02 12 Remarks Default On Reset 2012/01 ASAHI KASEI [AK2303LV] FS TS#0 Time slot# ex) B1 Default TS#1 TS#2 TS#3 TS#15(max) DR/X B2 B1 DR/X ex) B1 TS[4:0]=2 setting B2 GCI FS BCLK B1 ch DX DR Don’t care B2 ch 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 SEL2B=0 ⇒ SEL2B=1 ⇒ B1-CHANNEL (CH0) B1-CHANNEL (CH1) Don’t care B2-CHANNEL (CH1) B2-CHANNEL (CH0) ! Important Notice Please set time-slot selection as proper value. Maximum time slot is determined from clock speed. At the power up sequence, please set the mute by MUTE0/1 before power up. Then release them after the CODEC initialization and TS assignment to avoid the PCM output data collision with other CODEC’s PCM output. Please don’t stop feeding FS and BCLK except in Full power down mode. Internal PLL does free running when BCLK is not provided. MS0117-E-02 13 2012/01 ASAHI KASEI [AK2303LV] MUTE The output on each channel can be muted independently throu gh the CPU register as shown in the table. Mute register( Address:100 Bit:5,4 ) MTCH0,1 Operation DX pin VRX pin 0 Normal PCM data output CODEC analog output 1 Mute High-Impedance( *1) AGND* (*1) MTCH0 and MTCH1 are the mute control bit for CH0 and CH1, respectively. B1 and B2 channel muted by MTCH0/1 is defined by SEL2B bit shown in the PCM Interface section. <EXAMPLE> LF Mode CH0 mute (MTCH=1, MTCH1=0, SEL2B=0) FS0 BCLK DX Don’t care DR 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 B1-CHANNEL(CH0) <SEL2B=”0”> Don’t care B2-CHANNEL(CH1) <SEL2B=”0”> VRX0 : CODEC CH0 analog output is always at AGND level. VRX1 : CODEC CH1 analog output is the signal converted from the PCM data of CH1 input through DR pin. GCI mode CH0 mute (MTCH0=1, MTCH1=0, SEL2B=0) FS0 BCLK DX Don’t care DR 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 B1-CHANNEL(CH0) <SEL2B=”0”> Don’t care B2-CHANNEL(CH1) <SEL2B=”0”> VRX0 : CODEC CH0 analog output is always at AGND level. VRX1 : CODEC CH1 analog output is the signal converted from the PCM data of CH1 input through DR pin. MS0117-E-02 14 2012/01 ASAHI KASEI [AK2303LV] GAIN ADJUSTMENT Analog input/output gain can be adjusted at the range from +6dB to –18dB by 1.0dB step through CPU register. VR Register( Address:011 –000 Bit:4 –0) GanT4 GanR4 GanT3 GanR3 GAnT2 GAnR2 GAnT1 GAnR1 GAnT0 GAnR0 Gain [dB] 0 0 0 0 0 +6 0 0 0 0 1 +5 0 0 0 1 0 +4 0 0 0 1 1 +3 0 0 1 0 0 +2 0 0 1 0 1 +1 0 0 1 1 0 0 0 0 1 1 1 -1 0 1 0 0 0 -2 0 1 0 0 1 -3 0 1 0 1 0 -4 0 1 0 1 1 -5 0 1 1 0 0 -6 0 1 1 0 1 -7 0 1 1 1 0 -8 0 1 1 1 1 -9 1 0 0 0 0 -10 1 0 0 0 1 -11 1 0 0 1 0 -12 1 0 0 1 1 -13 1 0 1 0 0 -14 1 0 1 0 1 -15 1 0 1 1 0 -16 1 0 1 1 1 -17 1 1 --- --- --- -18 MS0117-E-02 15 Remarks Default 2012/01 ASAHI KASEI [AK2303LV] RESET Power on Reset AK2303LV automatically generates the internal reset pulse which resets all the circui t that is necessary to start the initialization after the power on reset. The CPU registers are set to the default value. After the internal reset pulse is generated, CODEC Ch0/Ch1 starts the initialization procedure by being fed FS signal, and it takes 180ms( typ.), 350ms(max) to complete the initialization after the detection of power on. Power up slope to enable the Power-on Reset When power-up slope is no longer than 50ms(=5tau:tau is time constant), Power On Reset works normally. When the time is longer than 50ms, Power On Reset is not activated and no internal registers are initialized. In this case all registers must be written through CPU interface. NOTE) For stable operation after power up, we recommend to write all register value through CPU interface after power up. Recommended start up procedure The following start up procedure is recommended when AK2303LV is going to power up. Power up Wait 200ms *In case of VDD rising time =50ms(=5tau) Write data to the internal register through serial I/F - FS=”L” - BCLK=”L” - MUTE 0/1=”L” When 1stFS and BCLK are set to “L”, CODEC ch0,ch1 dose not interface with external devices. - Write data to the internal register before CODEC starts working. Supply FS and BCLK - CODEC Initialization starts. Wait 130ms - CODEC Initialization complete. - MUTE 0/1=”H” CODEC starts working MS0117-E-02 16 2012/01 ASAHI KASEI POWER [AK2303LV] DOWN Power consumption is reduced in the power down mode. In the power down mode, the current fed to analog circuits and the clock for digital circuits, are stopped, and the related circuits hold its current status. There are two power down modes. - Power down for all circuits - Power down by block * In the power down mode, the output pins of corresponding blocks turn to Hi-Z. (See page 5) POWER DOWN MODE SETTING 2 power down modes Mode Circuits Registers All circuit All PD CODEC CH0 PDCH0 Operation for “0”/”1” ”0” : Normal ”1” : Power down ”0” : Normal ”1” : Power down Block CODEC CH1 PDCH1 Note - CPU Registers are not reset.(hold its value) - Serial I/F is available. - No need to supply FS, BCLK. - Keep supplying FS and BCLK. - AMPTn, AMPRn(n=0,1) Input/Output is active, even when CODEC CHn(n=0,1) is in power down mode, Please refer table of the next page in detail. WAKE UP FROM POWER DOWN MODE After power down mode for CODEC CH0/CH1 is cleared, the CODEC circuit starts to be initialized. It takes 130mS(typ). WAKE UP FROM FULL POWER DOWN MODE When full circuit power down mode for CODEC is cleared, AK2303LV starts the same wake up sequence as one at power on. It takes 250ms(typ). MS0117-E-02 17 2012/01 ASAHI KASEI POWER DOWN BLOCK [AK2303LV] ALL BLOCK CODEC CH0 CODEC CH1 CODEC CH0&1 PDCH0 PDCH1 PDCH0 PDCH1 PD AMPT0 OFF GA0T OFF OFF OFF AAF0 OFF OFF OFF CODEC CH0 OFF OFF OFF SMF0 OFF OFF OFF GA0R OFF AMPR0 OFF AMPT1 OFF GA1T OFF OFF OFF AAF1 OFF OFF OFF CODEC CH1 OFF OFF OFF SMF1 OFF OFF OFF GA1R OFF AMPR1 OFF Channel 1 Channel 0 REGISTER PCM I/F OFF PLL OFF BGREF OFF OFF SERIAL I/F MS0117-E-02 18 2012/01 ASAHI KASEI [AK2303LV] SERIAL INTERFACE The internal registers can be read/written with SCLK, DATA, and CSN pins. 1word consists of 16bits. The first 4bits are the instruction code which specifies read/write. The following 3bits specify the address. The rest of 8bits are for setting registers. B15 B14 B13 B12 B11 B10 B9 B8 B7 B6 B5 B4 B3 B2 B1 B0 I3 I2 I1 I0 A2 A1 A0 * D7 D6 D5 D4 D3 D2 D1 D0 Instruction code (4bit) Address (3bit) Data for internal registers (8bit) * *)Dummy bit for adjusting the I/O timing when reading register. INSTRUCTION CODEC I3 I2 I1 I0 1 1 1 0 1 1 1 1 Read/Write Read Write No action Other codes SCLK and WRITE/READ (1) Input data are loaded into the internal shift register at the rising edge of SCLK. (2) The rising edge of SCLK is counted after the falling edge of CSN. (3) When CSN is “L” and more than 16 SCLK pulses: [WRITE] Data are loaded into the internal register at the rising edge of the SCLK 16th pulse. [READ] DATA pin is switched to an input pin at the falling edge of the SCLK 16th pulse. CSN and WRITE / READ CANCELLATION th (1) WRITE is cancelled when CSN goes up before the rising edge of the SCLK 16 pulse. th (2) READ is cancelled when CSN goes up before the falling edge of the SCLK 16 pulse. SERIAL WRITE / READ (SERIAL ACCESS) (1) CSN must go up to “H” before the next access in successive access. (2) When the next access is going to be done , if CSN remains to be “L”, successive access can not be done. MS0117-E-02 19 2012/01 ASAHI KASEI [AK2303LV] WRITE Continuous SCLK Goes up anytime th after SCLK 16 pulse Must goes up once CSN SCLK 1 Z DATA 2 1 3 1 4 1 5 1 6 0 Instruction Code 7 0 8 0 9 D7 * Z D0 Write data to address”000” Address “000” 1 16 2 1 WRITE at the rising th edge of SCLK 16 pulse 1 3 1 4 8 1 9 D7 15 D1 16 D0 Z Write data Instruction Code Burst SCLK SCLK can be stop at “H” level or “L” level at anytime during the write cycle. After resuming the SCLK, write cycle is retrieved normally. Goes up anytime after SCLK 16th pulse Must go up once CSN SCLK 1 Z DATA 2 1 3 1 4 1 5 1 6 0 Instruction Code 7 0 8 0 9 16 D7 * D0 Write data to address “000” Address ”000” Z WRITE at the rising edge of SCLK 16th pulse CANCELLATION CSN goes “H” before the rising th edge of 16 SCLK pulse CS SCLK DATA 1 Z 1 2 1 3 1 Instruction Code MS0117-E-02 4 1 5 0 6 0 Address ”000” 7 0 8 * 9 D7 16 D0 Write data to address”000” Z Write is not Excuted 20 Z DATA pin : Input mode (Hi-Z) 2012/01 ASAHI KASEI [AK2303LV] SERIAL ACCESS Serial access with CSN staying “L” during the serise of write cycle. CS SCLK DATA 1 Z 1 2 1 3 1 4 1 5 0 6 7 0 0 8 D7 * Address ”000” Instruction Code 9 16 1 Z D0 1 Write data to Address”000” 2 3 1 1 4 8 1 9 15 D1 D7 16 Z D0 Write data Instruction Code EXCUTE! NOT EXCUTED! READ CONTINOUS SCLK Can be going up at anytime after SCLK 16th pulse Must go up once CS SCLK DATA 1 Z 1 2 1 3 1 4 0 5 A2 Read Instruction 6 7 A1 A0 8 Z 9 D7 16 1 Z D0 1 Read Data Address 2 1 3 1 4 0 Read Instruction 8 9 D7 15 16 D1 D0 Z Read Data Read period until the earlier edge of either CSN rising or SCLK 16th pulse falling Data output starts at the falling edge of SCLK 8th pulse Burst SCLK Can be going up at anytime after SCLK 16th pulse Must go up once CS SCLK DATA 1 Z 1 2 1 3 1 Read Instruction 4 0 5 A2 6 7 A1 A0 Address 8 Z 9 16 D0 D7 Z Read Data Read output starts at the falling edge of SCLK 8 th pulse MS0117-E-02 21 2012/01 ASAHI KASEI [AK2303LV] SERIAL ACCESS Serial access with CSN staying “L” during the serise of read cycle. CS SCLK DATA 1 Z 1 2 1 3 1 4 0 5 0 6 0 7 0 Z 9 D7 16 1 Z D0 Read data Address ”000” Read Instruction 8 1 2 1 3 1 4 8 9 15 16 Z 0 Read Instruction READ EXCUTED! READ NOT EXCUTED! DISCORD OF INSTRUCTION CODE CS SCLK DATA Z 1 2 3 4 5 I3 I2 I1 I0 A2 IInstructions except specified 0bbb 10bb 110b (b=0 or 1) MS0117-E-02 6 7 8 9 16 Z A1 A0 Address WRITE/READ NOT EXCUTED! Z 22 DATA pin: Input mode (Hi-Z) 2012/01 ASAHI KASEI [AK2303LV] MODE SETTING AK2303LV has a normal mode and a register off mode set by MODE pin. (pin#27) In nomal mode, all registers are able to be accessed through the serial interface and the various functions listed in the table of the next page can be controled via the interface. In register off mode, all registers except volume are forced to defult value. The register off mode eliminates the fatal abnormal condition of system caused by the crush of the internal register value whitch may occurr due to the lightning, the strong electromagnetic field and quick power supply change. MODE pin status MODE=”H” (AVDD) MODE Normal mode: 1.All registers can be accessed. 2. It iis highly recommended that all the register are to be written periodically and after the abnormal circumstances happens. MODE=”L” (AVSS) Register off mode: 1.Register data of address “100” and “101” are forced to defult value. The register of adress “000” to “001” are remain to be accessed. 2.ALAWN, MUTE1 and MUTE0 setting are valid only from pin setting. Attention: Please connect MODE pin to AVSS or AVDD. MS0117-E-02 23 2012/01 ASAHI KASEI [AK2303LV] REGISTER MAP Bit 11 Bit 10 Bit 9 Bit 8 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 A2 A1 A0 * D7 D6 D5 D4 D3 D2 D1 D0 0 0 0 * 0 0 - GA0R4 GA0R3 GA0R2 GA0R1 GA0R0 0 0 1 * 0 0 - GA1R4 GA1R3 GA1R2 GA1R1 GA1R0 0 1 0 * 0 0 - GA0T4 GA0T3 GA0T2 GA0T1 GA0T0 0 1 1 * 0 0 - GA1T4 GA1T3 GA1T2 GA1T1 GA1T0 1 0 0 * ALAWN SEL2B PCMIF MTCH1 MTCH0 PD PDCH1 PDCH0 1 0 1 * CLKSEL1 CLKSEL0 - TS4 TS3 TS2 TS1 TS0 1 1 0 * Reserved 1 1 1 * Reserved *) Dummy Bit Note) All registers except “0” and “Reserved” can read/write. Note) “0” bit data can not be written, however “0” data will be output when it is read. Note) When mode pin is “L”, register address “100” and “101” is fixed to default value. INITIALIZATION OF REGISTERS The registers are initialized at POWER ON RESET only. Power on reset may not be excuted due to the difference of power up time constant. Thus it is highly recommended that all the register (address(000 – 101) ) are to be written at the time of the power up and after the abnormal circumstances happens such as micro interrupt of the power line or mal operation due to lightning. REGISTER FUNCTION Address 000 001 MS0117-E-02 Bit 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 Name GA0R0 GA0R1 GA0R2 GA0R3 GA0R4 GA1R0 GA1R1 GA1R2 GA1R3 GA1R4 - Default 0 1 1 0 0 Function Receive gain adjustment on ch0 +6 to –18dB by 1.0dB step 0 1 1 0 0 Receive gain adjustment on ch1 +6 to –18dB by 1.0dB step Refer 00000: +6dB 11xxx: -18dB 00000: +6dB 11xxx: -18dB 24 2012/01 ASAHI KASEI Address 010 011 100 101 110 [AK2303LV] Bit 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 0 1 Name GA0T0 GA0T1 GA0T2 GA0T3 GA0T4 GA1T0 GA1T1 GA1T2 GA1T3 GA1T4 PDCH0 PDCH1 Default 0 1 1 0 0 Function Transmit gain adjustment on ch0 +6 to –18dB by 1.0dB step 0 1 1 0 0 Transmit gain adjustment on ch1 +6 to –18dB by 1.0dB step 0 0 2 PD 0 3 4 MTDX0 MTDX1 0 0 5 PCMIF 0 6 SEL2B 0 7 ALAWN 1 CODEC CH0,1 Power down control 0: Power ON 1: Power OFF Full Power down 0: Power ON 1: Power OFF Mute control: VR0.VR1,DX pin 0: Normal output 1: Mute PCM Interface select 0: LF/SF 1: GCI PCM data channel select 0: CH0→B1 1: CH1→B1 A/u-law select 0: A-law 1: µ-law 0 1 TS0 TS1 0 0 2 3 4 5 TS2 TS4 TS5 - 0 0 0 0 6 CLKSEL0 0 7 CLKSEL1 1 0 0 1 0 2 0 3 0 4 0 5 0 6 0 7 0 * Please set the same frequency as BCLK input. MS0117-E-02 Refer 00000: +6dB 11xxx: -18dB 00000: +6dB 11xxx: -18dB Time slot setting 4.096MHz : 0 to 31 2.048MHz : 0 to 15 1.024MHz : 0 to 7 BCLK frequency setting * CLKSEL[1:0]= 00: (Reserved) 01: (Reserved) 10: 2.048MHz 11: 4.096MHz Reserved 25 2012/01 ASAHI KASEI Address 111 Bit MS0117-E-02 [AK2303LV] Name 0 1 2 3 4 5 6 7 Default 0 0 0 0 0 0 0 0 Function Reserved Refer 26 2012/01 ASAHI KASEI [AK2303LV] MUTE 0 MUTE 1 Mute setting register MTCH 0 Internal MUTE0 signal ( default: 0 ) ( 1:Mute ) R Internal MUTE1signal MTCH 1 ( default: 0 ) ( 1:Mute ) R ALAWN Internal A-law signal S ALAWN ( default: 1 ) ( 0: A-law, 1:u-law ) A-law /u-law setting register MODE Power-On Reset Circuit MS0117-E-02 27 Internal Reset signal (Active high signal ) 2012/01 ASAHI KASEI [AK2303LV] ABSOLUTE MAXIMUM RATINGS Parameter Power Supply Voltages Analog/Digital Power Supply VSS Voltage Symbol Min Max AVDD DVDD -0.3 6.5 AVSS -0.1 0.1 DVSS Digital Input Voltage VTD -0.3 VDD+0.3 Analog Input Voltage VTA -0.3 VDD+0.3 Input current (except power supply pins) IIN -10 10 Storage Temperature Tstg -55 125 Warning: Exceeding absolute maximum ratings may cause permanent damage. Normal operation is not guaranteed at these extremes. Units V V V V mA o C RECOMMENDED OPERATING CONDITIONS Parameter Symbol VDD Min 3.0 Power Supplies Analog/Digital power supply Ambient Operating Temperature Ta Frame Sync Frequency FS Note) All voltages reference to ground : VSS=0V Typ 3.3 -40 Max 3.6 Units V o 85 C kHz Max Units 8 ELECTRICAL CHARACTERISTICS o Unless otherwise noted, guaranteed for VDD=+3V±0.3V, Ta = –40 ~ +85 C, FS=8kHz. DC Characteristics Parameter Power Consumption Symbol PDD1 VOH Conditions PDCH0,1 =0,0 All output unloaded PD = 1 Power down IOH=-1.6mA VOL IOL=1.6mA BCLK=2048kHz Output High Voltage (CMOS level) Output Low Voltage (CMOS level) Input High Voltage1 (CMOS level) Input Low Voltage1 (CMOS level) Input Leakage Current Input Capacitance Output Leakage Current MS0117-E-02 PDDd Min 42 mW 2.5 0.8VDD V 0.4 VIH1 0.7VDD VIL1 Ii Ci Io Typ -10 Tri-state mode -10 28 V V 0.3VDD V +10 5 +10 uA pF uA 2012/01 ASAHI KASEI CODEC [AK2303LV] Absolute Gain (VDD=3.3V ±0.3V ) Parameter Conditions Analog Input Level Input: 0dBm0@1020Hz Absolute Transmit Gain (Typ) Analog Output Level Absolute Receive Gain Input: 0dBm0@1020Hz (Typ) Maximum Overload Level +3.14dBm0 Min (-0.15) -0.25 (-0.15) -0.25 Typ 0.531 0.531 0.762 Max Units Vrms (+0.15) dB +0.25 dB Vrms (+0.15) dB +0.25 dB Vrms * Power supply and the temperature are in typical condition. Not tested. Gain Tracking Parameter Transmit Gain Tracking Error Receive Gain Tracking Error Frequency Response Parameter Transmit Frequency Response Receive Frequency Response Conditions Reference Level: -55dBm0 ~-50dBm0 -10dBm0 -50dBm0 ~-40dBm0 1020Hz Tone -40dBm0 ~ 3dBm0 Reference Level: -55dBm0 ~-50dBm0 -10dBm0 -50dBm0 ~-40dBm0 1020Hz Tone -40dBm0 ~ 3dBm0 Min -1.2 -0.4 -0.2 -1.2 -0.4 -0.2 Typ - Max 1.2 0.4 0.2 1.2 0.4 0.2 Units Conditions Relative to: 0.05kHz 0dBm0@1020Hz 0.06kHz 0.2kHz 0.3 ~3.0kHz 3.4kHz 4.0kHz Relative to: 0 ~3.0kHz 0dBm0@1020Hz 3.4kHz 4.0kHz Min -1.8 -0.15 -0.8 -0.15 -0.8 - Typ - Max -30 -26 0 0.15 0 -14 0.15 0 -14 Min 25 30 36 25 30 36 - Typ - Max -46 - -46 dB - -42 dB dB dB Units dB dB Distortion Parameter Transmit Signal to Distortion Receive Signal to Distortion Conditions -40dBm0 ~-45dBm0 -30dBm0 ~-40dBm0 0dBm0 ~-30dBm0 1020Hz Tone -40dBm0 ~-45dBm0 -30dBm0 ~-40dBm0 0dBm0 ~-30dBm0 1020Hz Tone Single Frequency Distortion Transmit Single Frequency Distortion Receive Intermodulation Distortion -6dBm@860Hz,1380Hz Note) C-message Weighted for u-Law, Psophometric Weighted for A-Law MS0117-E-02 29 Units dB dB dB 2012/01 ASAHI KASEI [AK2303LV] Envelope delay Distortion Parameter Transmit Delay, Absolute Transmit Delay, Relative Conditions f =1600Hz f =500Hz ~600Hz f =600Hz ~1000Hz f =1000Hz ~2600Hz f =2600Hz ~2800Hz f =2800Hz ~3000Hz f =1600Hz f =500Hz ~1000Hz f =1000Hz ~1600Hz f =1600Hz ~2600Hz f =2600Hz ~2800Hz f =2800Hz ~3000Hz Relative to f=1600Hz Receive Delay, Absolute Receive Delay, Relative Relative to f=1600Hz Min - Typ - Units us - Max 360 220 145 75 105 155 240 90 125 175 Min - Typ 0 90 0 90 - Max 10 -80 10 -80 -53 Units dBrnC0 dBm0p dBrnC0 dBm0p dBm0 40 - - dB 40 - - dB - - -30 -40 -32 dB -40 -30 - us us us Noise Parameter 1) Idle Channel Noise A!D 2) Idle Channel Noise D!A Noise, Single Frequency Conditions u-law, C-message A-law, Psophometric u-law, C-message A-law, Psophometric VFXIN = 0 Vrms, DR = DX f=0 ~100kHz PSRR, Transmit AVDD=DVDD=5V±100mVop f=0 ~50kHz PSRR, Receive AVDD=DVDD=5V±100mVop f=0 ~50kHz Spurious Out-of-Band Signal 0dBm0, 4.6 ~7.6kHz 3) at VRX Output 0.3 ~3.4kHz 7.6 ~8.4kHz PCM CODE 8.4 ~100kHz Note 1) Analog Input = Analog Ground Note 2) Digital Input(DR) = +0 Code Note 3) Not tested in production Test. Parameters guaranteed by design. Interchannel Crosstalk Parameter Transmit to Receive Receive to Transmit Transmit to Transmit Receive to Receive Conditions 0dBm0@VFXIN, Idle PCM code 0dBm0 code level, VFXIN = 0 Vrms 0dBm0@VFXIN, Idle PCM code 0dBm0 code level, VFXIN = 0 Vrms Min - Typ - Max -75 -75 -75 -75 Units dB dB dB dB Intrachannel Crosstalk Parameter Transmit to Receive Receive to Transmit Conditions 0dBm0@VFXIN, Idle PCM code 0dBm0 code level, VFXIN = 0 Vrms Min - Typ - Max -75 -75 Units dB dB Min 10 - Typ 2.25 Max 50 Units kΩ pF Vp-p Analog Interface Transmit Amplifier Parameter Load Resistance Load Capacitance Output voltage Swing MS0117-E-02 Conditions GSTn(n=0,1) 30 2012/01 ASAHI KASEI [AK2303LV] Analog Interface Receive Output (VDD: 3.3V±0.3V) Parameter Conditions Output voltage(AGND level) +0 PCM code input Load Resistance Load Capacitance Output voltage Swing VRn(n=0,1) Min 10 Typ 1.5 Max - - 2.25 50 - Units V kΩ pF Vp-p Min 10 - Typ 2.25 Max 50 - Units kΩ pF Vp-p Analog Interface Receive Output Amplifier Parameter Load Resistance Load Capacitance Output Voltage Swing Conditions GSRn(n=0,1) VOLUME ( GA0T,GA0R,GA1T,GA1R) Parameter Step margin Pin Conditions Relative to: 0dB Min -1.0 typ max Unit +1.0*) dB *)Monotonus increase/decrease is guranteed MS0117-E-02 31 2012/01 ASAHI KASEI PCM INTERFACE ( Long Frame, Short Frame, GCI ) [AK2303LV] o Unless otherwise noted, the specification applies for TA = -40 to +85 C, VDD = 5V±5%/3V±0.3V,VSS = 0V and FS0= 8kHz. All timing parameters are measured at VOH = 0.8VDD and VOL =0.4V. Parameter Symbol Min Typ Max Units Ref Fig FS Frequency 1/tPF - 8 - kHz BCLK Frequency 1/tPB 2048 4096 kHz BCLK Pulse Width High tWBH 80 ns BCLK Pulse Width Low tWBL 80 ns Rising Time: (BCLK,FS0,FS1,DX0,DX1,DR0,DR1) tR 40 ns Falling Time: (BCLK,FS0,FS1,DX0,DX1,DR0,DR1) tF 40 ns Hold Time: BCLK Low to FS High tHBF 40 ns Setup Time: FS High to BCLK Low tSFB 70 ns Setup Time: DR to BCLK Low tSDB 40 ns Hold Time: BCLK Low to DR tHBD 40 ns Delay Time: BCLK High to DX valid Note1) tDBD 60 Fig1 Fig2 Fig3 ns Long Frame nd Hold Time: 2 period of BCLK Low to FS Low tHBFL Delay Time: FS or BCLK High, whichever is later,to DX valid Note1) tDZFL Delay Time: BCLK Low to DX High-Z tDZCL 10 tWFSL 1 BCL K Hold Time: BCLK Low to FS Low tHBFS 40 ns Setup Time: FS Low to BCLK Low tSFBS 40 ns tDZCS 10 60 ns BCLK Frequency 1/tPBG 2048 4096 kHz Delay Time: Second BCLK Low to DX High-Z tDZCG 10 60 ns Setup Time: DR to Second BCLK High tSDBG 40 ns Hold Time: Second BCLK High to DR tHBDG 40 ns Note1) FS Pulse Width Low 40 ns 60 ns 60 ns Fig1 Short Frame Delay Time: BCLK Low to DX High-Z Note1) Fig2 GCI Fig3 Note1) Measured with 150pF Load capacitance and driving two LSTTLs MS0117-E-02 32 2012/01 ASAHI KASEI [AK2303LV] tFB tRB tWBL tWBH tPB BCLK tHBFL tSF FS tHBF tDZF tDZC tDB DX MSB 2 3 4 MSB 2 6 7 8 5 6 7 8 tHB tSD DR 5 3 4 FS tPF tWFSL Fig1 PCM Interface Timing tFB tRB tWB tWBH < Long Frame > tPB BCLK tSF tHBF FS tHBF tSFB tDBD tDBD tDZC DX MSB 2 3 4 tSD DR MSB 2 3 5 6 7 8 tHB 4 5 6 7 8 Fig2 PCM Interface Timing < Short Frame > MS0117-E-02 33 2012/01 ASAHI KASEI [AK2303LV] FS tPB 1 2 3 4 5 6 7 8 9 10111213141516 tWB BCLK tDB DX MS B 2 3 4 5 MS B 2 3 6 7 6 7 8 MS B 2 3 4 5 6 7 MS B 2 3 4 5 6 7 8 tHBD tSDB DR tWB tDZC 4 5 8 8 BCLK tSF tHBFS tWFSL FS tHBF tDZFL DX 1 2 3 Fig3 PCM Interface Timing MS0117-E-02 34 < GCI > 2012/01 ASAHI KASEI SERIAL INTERFACE [AK2303LV] Parameter Symbol SCLK Frequency Min 1/tPSCLK Typ Max 4 Units Ref fig MHz SCLK Pulse Width High tWSH 40 ns SCLK Pulse Width Low tWSL 40 ns CS(bar) Pulse Width Low tWCL 16 SCL K Hold Time: SCLK High to CS(bar) Low tHCS 80 ns Setup Time: CS Low to SCLK High tSCS 40 ns Rising Time: CS(bar),SCLK tR 100 ns Falling Time: CS(bar),SCLK tF 100 ns Fig4 W R I T E Setup Time: DATA to SCLK High tSDC 40 ns Hold Time: SCLK High to DATA tHDC 40 ns Hold Time: SCLK Low to CS(bar) High tHCS2 0 ns Delay Time: SCLK Low to DATA pin drive tDDD 0 ns Delay Time: SCLK Low to DATA valid tDVD Delay Time: SCLK Low to DATA High-Z tDZSD Delay Time: CS High to DATA High-Z CS(bar) Pulse Width High Fig4 R E A D MS0117-E-02 35 Fig5 60 ns 0 60 ns tDZCD 0 60 ns tWCH 40 Fig6 ns 2012/01 ASAHI KASEI [AK2303LV] tWCL CS(bar) tWSH tWSL tHC tF tPSC tR tHC SCLK tHDC tSC DATA tSD I3 I2 I0 A2 A0 * D 7 D6 D1 D 0 Fig4 Serial Interface Timing <WRITE> tWCL CS(bar) tWSH tHCS tF tPSCLK tWSL tR tHCS SCLK tHDC tSC tDVD tSD tDDD Z DATA I3 I2 I0 A2 A0 D7 Fig5 Serial Interface Timing D6 D1 D0 <READ> tWCH CS(bar) SCLK tDZSD DATA D1 D0 tDZCD Z I1 I0 D0 Z Fig6 Serial Interface Timing <READ> MS0117-E-02 36 2012/01 ASAHI KASEI [AK2303LV] APPLICATION CIRCUIT EXAMPLE Analog input circuit(AMPT0,1) AK2303LV has an op-amp at analog input of each channel. Each op-amp can be used as a gain adjustment. Op-amp can be used as an inverting amplifier. Feedback resistor must be 10k Ω or larger. AK2303LV GSTn R2 (n=0,1) C1 R1 VFTn AMPTn C1=0.47uF R1=R2=33K ohm Analog output circuit(AMPR0,1) AK2303LV has an op-amp at analog output stage of each channel to consist in an inverting amplifier for a gain adjustment of 0dBm0 level. Feedback resistor must be 10kΩ or larger. AK2303LV BGREF GSRn (n=0,1) R1 R1=R2=33K ohm VFRn R2 VRn MS0117-E-02 GAnR 37 2012/01 ASAHI KASEI [AK2303LV] Analog ground stabilization capacitor An external capacitor of more than 1.0uF should be connected between VREF and VSS to stabilize analog ground (VREF). AK2303LV VREF AVSS C + PLL Loop filter capcitor An external capacitor of more than 0.22uF should be connected between LPC and VSS. AK2303LV LPC AVSS C + Power Supply To attenuate the power supply noise, connect capacitors between VDD and VSS, as shown below. A K 230 3LV AVDD C 1= 0.1µ F + C1 C2 C 2= 10µ F AVSS D VD D + C1 C2 D V SS MS0117-E-02 38 2012/01 ASAHI KASEI [AK2303LV] PACKAGE INFORMATION - 28pin SSOP Marking XXXXXXXXX: Date Code Identifier (9 digits) AK2303LV AKM AK2303LVM XXXXXXXXX MS0117-E-02 39 2012/01 ASAHI KASEI [AK2303LV] 28pin SSOP (Unit: mm) 10.40MAX 2.1MAX 28 15 5.30 7.90±0.20 A 14 1 0.22±0.05 0.65 0.32±0.08 0.1±0.1 0.60±0.15 Detail A 0.10 1.30 Seating Plane NOTE: Dimension "*" does not include mold flash. MS0117-E-02 40 0-8° 2012/01 ASAHI KASEI [AK2303LV] REVISION HISTORY Date (Y/M/D) 11/10/17 Revision 01 Reason Specification Change Page 1, 39, 40 12/01/25 02 Error Correction 39 Contents Package Change: (28pin VSOP) → (28pin SSOP) Marking diagram was changed. Package drawing was changed. PACKAGE INFORMATION Marking diagram was changed IMPORTANT NOTICE z z z z z These products and their specifications are subject to change without notice. When you consider any use or application of these products, please make inquiries the sales office of Asahi Kasei Microdevices Corporation (AKM) or authorized distributors as to current status of the products. Descriptions of external circuits, application circuits, software and other related information contained in this document are provided only to illustrate the operation and application examples of the semiconductor products. You are fully responsible for the incorporation of these external circuits, application circuits, software and other related information in the design of your equipments. AKM assumes no responsibility for any losses incurred by you or third parties arising from the use of these information herein. AKM assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of such information contained herein. 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 componentsNote1) in any safety, life support, or other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKM. As used here: Note1) A critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. Note2) A hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. It is the responsibility of the buyer or distributor of AKM products, who distributes, disposes of, or otherwise places the product with a third party, to notify such third party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification. MS0117-E-02 41 2012/01