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ASAHI KASEI
[AK5354]
Low Power 20bit ADC with PGA
FEATURES The AK5354 is a low voltage 20bit A/D converter for digital audio system. The AK5354 also includes Analog input PGA, therefore is suitable for microphone application and etc. As digital power supply of the AK5354 corresponds to 1.8V, the interface with microprocessor can operate at low voltage. Analog signal input of the AK5354 is single-ended, therefore, any external filters are not required. As the package is 16pin TSSOP, the AK5354 is a suitable for minimizing system. FEATURES 1. Resolution : 20bits 2. Recording Functions * 2-Stereo Inputs Selector * Analog Input PGA * Monaural Mixing * Digital HPF for DC-offset cancellation (fc=3.4Hz@fs=44.1kHz) 3. ADC Characteristics * Input Level : 1.5Vpp@VA=2.5V (= 0.6 x VA) * S/(N+D) : 84dB * DR, S/N : 89dB 4. 3-wire Serial Control I/F 5. Master Clock : 256fs/384fs 6. Audio Data Format : MSB First, 2's compliment * 20bit MSB justified or I2S 8. Power Supply * VA : 2.1 3.3V (typ. 2.5V) * VD : 1.8 3.3V (typ. 2.5V) 9. Power Supply Current * IPGA + ADC : 7mA 10. Ta = -40 85C 11. Package : 16pin TSSOP
AK5354
LIN1 LIN2
IPGA
ADC HPF
Audio I/F Controller
RIN1 RIN2
LRCK BCLK SDTO
VD
VCOM VA VSS Control Register I/F Clock Divider
PDN
CSN
CCLK
CDTI
MCLK
MS0054-E-02 -1-
2004/12
ASAHI KASEI
[AK5354]
Ordering Guide
AK5354VT AKD5354 -40 +85C 16pin TSSOP (0.65mm pitch) Evaluation Board for AK5354
Pin Layout
LIN1 RIN1 LIN2 RIN2 VCOM VSS VA VD
1 2 3 4 5 6 7 8 Top View
16 15 14 13 12 11 10 9
PDN CSN CCLK CDTI LRCK MCLK BCLK SDTO
PIN/FUNCTION
No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Pin Name LIN1 RIN1 LIN2 RIN2 VCOM VSS VA VD SDTO BCLK MCLK LRCK CDTI CCLK CSN PDN I/O I I I I O O I I I I I I I Function Lch #1 Input Pin Rch #1 Input Pin Lch #2 Input Pin Rch #2 Input Pin ADC Common Voltage Output Pin Ground Pin Analog Power Supply Pin, +2.5V Digital Power Supply Pin, +2.5V Audio Serial Data Output Pin Audio Serial Data Clock Pin Master Clock Input Pin Input/Output Channel Clock Pin Control Data Input Pin Control Clock Input Pin Chip Select Pin Reset & Power Down Pin "L" : Reset & Power down "H" : Normal operation
Note: All digital input pins should not be left floating.
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ASAHI KASEI
[AK5354]
ABSOLUTE MAXIMUM RATINGS (VSS=0V; Note 1) Parameter Symbol min Power Supply Analog VA -0.3 Digital VD -0.3 Input Current (Any Pin Except Supplies) IIN Analog Input Voltage (LIN2-1, RIN2-1 pins) VINA -0.3 Digital Input Voltage VIND -0.3 Ambient Temperature (power applied) Ta -40 Storage Temperature Tstg -65
Note: 1. All voltages with respect to ground.
max 4.6 4.6 10 VA+0.3 VD+0.3 85 150
Units V V mA V V C C
WARNING: Operation at or beyond these limits may results in permanent damage to the device. Normal operation is not guaranteed at these extremes.
RECOMMENDED OPERATING CONDITIONS
(VSS=0V; Note 1) Parameter Power Supply Analog (VA pin) Digital (VD pin) Note: 1. All voltages with respect to ground. Symbol VA VD min 2.1 1.8 typ 2.5 2.5 max 3.3 VA Units V V
WARNING: AKM assumes no responsibility for the usage beyond the conditions in this data sheet.
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ASAHI KASEI
[AK5354]
ANALOG CHARACTERISTICS (Ta=25C; VA, VD=2.5V; fs=44.1kHz; Signal Frequency=1kHz; Measurement frequency=10Hz 20kHz; unless otherwise specified) Parameter min typ max Resolution 20 Input PGA Characteristics (IPGA): Input Voltage (LIN1, LIN2, RIN1, RIN2) (Note 2) 1.35 1.5 1.65 Input Impedance 6.3 9 15 +28dB -8dB 1 0.5 0.1 Step Width -8dB -16dB 2 1 0.1 4 2 0.1 -16dB -32dB 2 -32dB -40dB 4 -40dB -52dB ADC Analog Input Characteristics: (Note 3) S/(N+D) (-0.5dBFS Input) 74 84 D-Range (EIAJ) 82 89 S/N (EIAJ) 82 89 Interchannel Isolation 90 100 Interchannel Gain Mismatch 0.2 0.5 Power Supplies Power Supply Current: VA+VD Normal Operation (PDN="H") IPGA+AD (PM0=1, PM1=1) 7 10 Power Down (PDN="L") (Note 4) 10 100
Units bits Vpp k dB dB dB dB dB dB dB dB dB dB
mA A
Note: 2. Analog input voltage (full-scale voltage: IPGA = 0dB) scale with VREF. (IPGA = ADC = 0.6 x VREF) Note: 3. ADC is input from LIN1/RIN1 or LIN2/RIN2 and it measures included in IPGA. The value of IPGA is set 0dB. Internal HPF cancels the offset of IPGA and ADC. Note: 4. In case of power-down mode, all digital input pins including clocks pins (MCLK, BCLK and LRCK) are held VD or VSS. PDN pin is held VSS.
MS0054-E-02 -4-
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ASAHI KASEI
[AK5354]
FILTER CHARACTERISTICS (Ta=25C; VA=2.1 3.3V, VD=1.8 3.3; fs=44.1kHz) Parameter Symbol min ADC Digital Filter (Decimation LPF): PB 0 Passband (Note 5) 0.1dB -1.0dB -3.0dB Stopband (Note 5) SB 27.0 Passband Ripple PR Stopband Attenuation SA 65 Group Delay (Note 6) GD Group Delay Distortion GD ADC Digital Filter (HPF): Frequency Response (Note 5) -3dB FR -0.5dB -0.1dB
typ
max 17.4
Units kHz kHz kHz kHz dB dB 1/fs s Hz Hz Hz
20.0 21.1 0.1 17.0 0 3.4 10 22
Note: 5. The passband and stopband frequencies scale with fs (sampling frequency). For examples, PB=0.454 x fs(@ADC: -1.0dB), PB=0.454 x fs(@DAC: -0.1dB). Note: 6. The calculating delay time which occurred by digital filtering. This time is from the input of analog signal to setting the 20bit data of both channels to the output register for ADC and include group delay of HPF.
DC CHARACTERISTICS
(Ta=25C; VA=2.1 3.3V, VD=1.8 3.3V) Parameter High-Level Input Voltage Low-Level Input Voltage High-Level Output Voltage (Iout=-80A) Low-Level Output Voltage (Iout=80A) Input Leakage Current Symbol VIH VIL VOH VOL Iin min 75%VD VD-0.4 Typ max 25%VD 0.4 10 Units V V V V A
MS0054-E-02 -5-
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ASAHI KASEI
[AK5354]
SWITCHING CHARACTERISTICS (Ta=25C; VA=2.1 3.3V, VD=1.8 3.3V; CL=20pF) Parameter Symbol min typ Control Clock Frequency 11.2896 2.048 fCLK Master Clock (MCLK) 256fs: Frequency 28 tCLKL Pulse Width Low 28 tCLKH Pulse Width High 16.9344 3.072 fCLK 384fs: 23 tCLKL Frequency 23 tCLKH Pulse Width Low 44.1 8 fs Pulse Width High 45 Channel Clock (LRCK) Frequency Duty Cycle Audio Interface Timing 312.5 tBLK BCLK Period 130 tBLKL BCLK Pulse Width Low 130 tBLKH Pulse Width High -tBLKH+50 tBLR BCLK "" to LRCK tDLR LRCK Edge to SDTO (MSB) tDSS BCLK "" to SDTO
Control Interface Timing CCLK Period CCLK Pulse Width Low Pulse Width High CDATA Setup Time CDATA Hold Time CSN "H" Time CSN "" to CCLK "" CCLK "" to CSN "" Reset / Calibration Timing PDN Pulse Width PDN "" to SDTO tCCK tCCKL tCCKH tCDS tCDH tCSW tCSS tCSH tPW tPWV 200(Note 7) 80 80 50 50 150(Note 7) 50(Note 7) 50 150 4128
max 12.8
Units MHz ns ns MHz ns ns kHz %
19.2
50 55
tBLKL-50 80 80
ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 1/fs
(Note 8)
Note: 7. fs 19.6kHz. In the case of fs <19.6kHz, these three parameters must meet a relationship of (tCSW + tCSS + 7 x tCCK) > 1/(32 x fs) in addition to these specifications. For example, When tCCK=200ns and tCSS=50ns at fs=8kHz, tCSW(min) is 2457ns. When tCSW=150ns and tCSS=50ns fs=8kHz, tCCK(min) is 530ns. Note: 8. These cycles are the numbers of LRCK rising from PDN pin rising.
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ASAHI KASEI
[AK5354]
Timing Diagram
1/fCLK MCLK tCLKH 1/fs LRCK tBLK BCLK tBLKH tBLKL VIH VIL VIH VIL tCLKL VIH VIL
Figure 1. Clock Timing
LRCK tBLR BCLK tDLR SDTO tDSS D20 (MSB)
VIH VIL
VIH VIL
50%VD
Figure 2. Audio Data Input/Output Timing (Audio I/F = No.0)
CSN tCSS CCLK tCDS CDTI op0 tCDH op2 A0 tCCKL tCCKH
VIH VIL
VIH VIL
op1
VIH VIL
Figure 3. WRITE Command Input Timing
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2004/12
ASAHI KASEI
[AK5354]
tCSW CSN tCSH CCLK VIH VIL VIH VIL
CDTI
D4
D5
D6
D7
VIH VIL
Figure 4. WRITE Data Input Timing
tPW PDN tPWV SDTO 50%VD VIL
Figure 5. Reset Timing
MS0054-E-02 -8-
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ASAHI KASEI
[AK5354]
OPERATION OVERVIEW System Clock
The clocks that are required to operate are MCLK (256fs/384fs), LRCK (fs) and BCLK (40fs). The master clock (MCLK) should be synchronized with LRCK but the phase is free of care. The frequency of MCLK can be input 256fs or 384fs. When the 384fs is input, the internal master clock is divided into 2/3 automatically. *fs is sampling frequency. All external clocks (MCLK, BCLK and LRCK) should always be present whenever ADC is in operation. If these clocks are not provided, the AK5354 may draw excess current and it is not possible to operate properly because utilizes dynamic refreshed internally. If the external clocks are not present, the AK5354 should be in the power-down mode.
Audio Data I/F Format
Using SDTO, BCLK and LRCK pins are connected to external system. Audio data format has two kinds of mode, the data format is MSB-first, 2's compliment. Setting by DIF bit. The initial value is DIF = "0". No. 0 1 DIF bit 0 1 SDTO (ADC) LRCK 20bit MSB justified Lch: "H", Rch: "L" I2S Compatible Lch: "L", Rch: "H" Table 1. Audio Data Format BCLK 40fs 40fs
LRCK
0 1 2 12 13 14 20 21 31 0 1 2 12 13 14 20 21 31 0 1
BCLK(64fs) SDTO(o)
19 18 8 7 6 0 19 18 8 7 6 0 19
19:MSB, 0:LSB Lch Data Rch Data
Figure 6. Audio Data Format (No.0)
LRCK
0 1 2 3 19 20 21 22 23 24 25 0 1 2 18 19 20 21 22 23 24 25 0 1
BCLK(64fs) SDTO(o)
19 18 1 0 19 18 1 0
19:MSB, 0:LSB Lch Data Rch Data
Figure 7. Audio Data Format (No.1)
Digital High Pass Filter
The AK5354 has a Digital High Pass Filter (HPF) to cancel DC-offset in ADC and IPGA. The cut-off frequency of the HPF is 3.4Hz at fs=44.1kHz. It also scales with the sampling frequency (fs). And digital HPF can be selected by ON/OFF of HPF bit.
MS0054-E-02 -9-
2004/12
ASAHI KASEI
[AK5354]
System Reset & Offset Calibration
The AK5354 should be reset once by bringing PDN pin "L" after power-up. The control register values are initialized by PDN "L". Offset calibration starts by PDN pin "L" to "H". It takes 4128/fs to offset calibration cycle. During offset calibration, the ADC digital data outputs of both channels are forced to a 2's compliment "0". Output data of settles data equivalent for analog input signal after offset calibration. IPGA is set MUTE during offset calibration and after offset calibration. As a normal offset calibration may not be executed, nothing write at address 01H during offset calibration. When offset calibration is executed once, the calibration memory is held even if each block is powered down (PM0 = "0" or PM1 = "0") by power management bits.
Power Supply PDN pin PDN pin may be "L" at power-up. ADC Internal PD State AIN SDTO Control register INIT-2 "0"data (4) (2) (3) "0"data Idle Noise Normal (1)
4128/fs 4128/fs
CAL GD
Normal GD (1)
PM
INIT-1
Normal GD
W rite to register
Inhibit-1
Inhibit-2
Normal
External clocks
(5) The clocks may be stopped.
(5)
Figure 8. Power up / Power down Timing Example * PD: * PM: * CAL: * INIT-1: * Inhibit-1: * Inhibit-2: Power-down state. ADC is output "0". Power-down state by Power Management bit. ADC is output "0". During offset calibration cycle. IPGA is set MUTE state. Initializing all control registers. Inhibits writing to all control registers. Enable writing to control registers except address 01H.
Note: See "Register Definitions" about the condition of each register. (1). Digital output corresponding to analog input and analog output corresponding to digital input have the group delay (GD). Output signal gradually comes to settle to input signal during a group delay. (2). If the analog signal does not be input, digital outputs have the offset to op-amp of input and some offset error of a internal ADC. (3). ADC output is "0" at power down. (4). This figure shows that MUTE of IPGA is canceled during offset calibration. If MUTE of IPGA is canceled, SDTO outputs Idle Noise. (5). When the external clocks (MCLK, BCLK and LRCK) are stopped, the AK5354 should be in the power down (PDN pin = "L" or PM1 bit = "0") mode.
MS0054-E-02 - 10 -
2004/12
ASAHI KASEI
[AK5354]
Timing of Control Register
The internal registers are written by the 3-wire P interface pins: CSN, CCLK, CDTI. These data are included by Op-code (3bit), Address (LSB-first, 5bit) and Control data (LSB-first, 8bit). A side of transmitted data is output to each bit by "" of CCLK, a side of receiving data is input by "" of CCLK. Writing of data becomes effective by "" of CSN. CSN should be held to "H" at no access. Address except 00H 03H inhibits control of writing. And CCLK always need 16 edges of "" during CSN = "L".
CSN
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
CCLK CDTI
op0 op1 op2 A0 A1 A2 A3 A4 D0 D1 D2 D3 D4 D5 D6 D7 "*" "*" "1"
op0-op2: Op code (Fixed to "**1:WRITE") A0-A4: Register Address D0-D7: Control data
Figure 9. Control Data Timing
Register Map
Addr 00H 01H 02H 03H Register Name Input Select Mode Control 1 Mode Control 2 Input Analog PGA Control D7 0 0 MONO1 ZEIP D6 0 0 MONO0 IPGA6 D5 0 0 ZTM1 IPGA5 D4 HPF 0 ZTM0 IPGA4 D3 RIN2 0 0 IPGA3 D2 RIN1 0 0 IPGA2 D1 LIN2 PM1 DIF IPGA1 D0 LIN1 PM0 0 IPGA0
All registers are reset at PDN = "L", then inhibits writing to all registers.
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ASAHI KASEI
[AK5354]
Register Definition Input Select
Addr 00H Register Name Input Select RESET D7 0 0 D6 0 0 D5 0 0 D4 HPF 0 D3 RIN2 0 D2 RIN1 1 D1 LIN2 0 D0 LIN1 1
HPF: LIN2-1: RIN2-1:
Select ON/OFF of the digital HPF. (0: ON, 1: OFF) Select ON/OFF of Lch input. (0: OFF, 1: ON) Select ON/OFF of Rch input. (0: OFF, 1: ON)
Mode Control 1
Addr 01H Register Name Mode Control 1 RESET D7 0 0 D6 0 0 D5 0 0 D4 0 0 D3 0 0 D2 0 0 D1 PM1 1 D0 PM0 1
PM1-0:
Power Management (0: Power down, 1: Power up) PM0: Power control of IPGA PM1: Power control of ADC
When PDN pin goes "L", all circuit in the AK5354 can be powered-down in no relation to PM1-0. When PM1-0 goes all "0", all circuit in the AK5354 can be also powered-down. However, the contents of control registers are held. In case of PM1 = "1", MCLK is not stopped.
MS0054-E-02 - 12 -
2004/12
ASAHI KASEI
[AK5354]
Mode Control 2
Addr 02H Register Name Mode Control 2 RESET D7 MONO1 0 D6 MONO0 0 D5 ZTM1 1 D4 ZTM0 1 D3 0 0 D2 0 0 D1 DIF 0 D0 0 0
MONO1-0: Monaural Mixing 00: Stereo (RESET) 01: (L+R)/2 10: LL 11: RR
SW1
Selector
Lch
ADC HPF
Lch
+
x 0.5
Rch ADC HPF
SW2
Selector
Figure 10. Monaural mixing block
Rch
Mode Stereo Recording Monaural Recording Stereo Input Monaural Recording Lch Input Monaural Recording Rch Input
SW1 Lch (L+R)/2 Lch Rch
SW2 Rch (L+R)/2 Lch Rch
MONO1 0 0 1 1
MONO0 0 1 0 1
Table 2. Monaural Mode Setting
ZTM1-0:
Setting of Zero Crossing Timeout for IPGA 00: 256/fs 01: 512/fs 10: 1024/fs 11: 2048/fs (RESET)
DIF:
Select Digital Interface Format No. 0 1 DIF bit 0 1 SDTO(ADC) LRCK 20bit MSB justified Lch: "H", Rch: "L" I2S Compatible Lch: "L", Rch: "H" Table 3. Audio Data Format BCLK 40fs 40fs
Reset
Inhibits writing at PM1 = "0".
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ASAHI KASEI
[AK5354]
Input Analog PGA Control
Addr 03H Register Name Input Analog PGA Control RESET D7 ZEIP 0 D6 IPGA6 D5 IPGA5 D4 IPGA4 D3 D2 IPGA3 IPGA2 00H (MUTE) D1 IPGA1 D0 IPGA0
ZEIP:
Select IPGA zero crossing operation (0: Disable, 1: Enable) Writing to IPGA value at ZEIP = "1", IPGA value of L/R channels changes by zero crossing detection or timeout independently. In the timeout cycle, it is possible to set in ZTM1-0 bit. When ZTM1-0 is "11", timeout cycle is 2048/fs = 46.4ms (@fs=44.kHz). When ZEIP is "0", IPGA changes immediately. When PM1 is "0", ZEIP is ignored and IPGA does the operation which is the same as the case of ZEIP = "0".
IPGA6-0: Input Analog PGA. 97 levels. 00H=MUTE. ON/OFF of zero crossing detection can be controlled by ZEIP bit. Inhibits writing at PM0 = "0". DATA 60H 5FH 5EH * 28H 27H * 19H 18H 17H 16H * 11H 10H 0FH 0EH * 05H 04H 03H 02H 01H 00H GAIN(dB) +28.0 +27.5 +27.0 * +0.0 -0.5 * -7.5 -8.0 -9.0 -10.0 * -15.0 -16.0 -18.0 -20.0 * -38.0 -40.0 Step Level
0.5dB
73
1dB
8
2dB
12
-44.0 4dB -48.0 -52.0 MUTE Table 4. Input Gain Setting
3 1
MS0054-E-02 - 14 -
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ASAHI KASEI
[AK5354]
* About zero crossing operation Comparator for zero crossing detection in the AK5354 has offset. Therefore, it is a possible that IPGA value is changed by zero crossing timeout as zero crossing detection does not occur by a little offset of comparator. For example, when Lch and Rch are in the state of IPGA = 30H, both channels are set to IPGA = 31H. And then the only Lch completed zero crossing, Rch is waiting for zero crossing detection, zero crossing counter is reset when IPGA is newly written 32H, zero crossing operation starts toward IPGA = 32H in state Lch = 31H, Rch = 30H. Internal IPGA value in the AK5354 has the registers of L/R channels independently, according to change IPGA value independently, IPGA value of L/R channels may become a difference in level. Therefore, if IPGA is written before zero crossing detection on zero crossing timeout, IPGA is keeping the same value. When IPGA is finished by normal zero crossing timeout on IPGA value of L/R channels does not give a difference in level, the change of IPGA should be written after zero crossing timeout cycle and over.
Internal zero crossing operation completion flag Lch Internal IPGA 30H 31H Zero crossing Rch Internal IPGA 30H 30H 32H 32H
IPGA Register
30H
31H
32H
WR[IPGA=31H] Reset zero crossing timer
WR[IPGA=32H] Reset zero crossing timer
Figure 11. About Zero Crossing Operation
MS0054-E-02 - 15 -
2004/12
ASAHI KASEI
[AK5354]
SYSTEM DESIGN
Figure 12 shows the system connection diagram. An evaluation board [AKD5354] is available which demonstrates application circuit, optimum layout, power supply arrangements and measurement results.
1 2 3 4 0.1u 2.2u 5 + 6 2.1 ~ 3.3V Analog Supply 1.8 ~ 3.3V Digital Supply + 10u System Digital GND 10u + 0.1u 8 0.1u AGND VD SDTO 9 7 LIN1 RIN1 LIN2 RIN2 PDN CSN CCLK CDTI 16 15 14 13 12
Micro Controller
AK5354
VCOM VSS VA LRCK MCLK 11 BCLK 10
Audio Controller
Figure 12. System Connection Diagram Example
Notes: - Electrolytic capacitor value of VCOM depends on low frequency noise of supply voltage.
MS0054-E-02 - 16 -
2004/12
ASAHI KASEI
[AK5354]
1. Grounding and Power Supply Decoupling The AK5354 requires careful attention to power supply and grounding arrangements. VA is usually supplied from analog supply in system. VD is a power supply pin to interface with the external ICs and is supplied from digital supply in system. VSS of the AK5354 should be connected to analog ground plane. System analog ground and digital ground should be connected together near to where the supplies are brought onto the printed circuit board. Decoupling capacitors should be as near to the AK5354 as possible, with the small value ceramic capacitor being the nearest. 2. Voltage Reference The input to VA Voltage sets the analog input range. A 0.1F ceramic capacitor and a 10F electrolytic capacitor is connected to VA and VSS pins, normally. VCOM is a signal ground of this chip. An electrolytic 2.2F in parallel with a 0.1F ceramic capacitor attached to these pins eliminates the effects of high frequency noise. No load current may be drawn from VCOM pin. All signals, especially clock, should be kept away from the VA, VD and VCOM pins in order to avoid unwanted coupling into the AK5354. 3. Analog Inputs The analog inputs are single-ended and the input resistance 9k (typ). The input signal range scales with nominally 0.6 x VA Vpp (typ) centered in the internal common voltage (typ. 0.45 x VA). Usually, the input signal cuts DC with a capacitor. The cut-off frequency is fc=(1/2RC). The AK5354 can accept input voltages from VSS to VA. The ADC output data format is 2's complement. The DC offset including ADC own DC offset removed by the internal HPF (fc=3.4Hz@fs=44.1kHz).
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ASAHI KASEI
[AK5354]
PACKAGE
16pin TSSOP (Unit: mm)
5.0 1.10max
16
9 A 6.40.2 0.170.05 0.10.1 Detail A 0.50.2 0.10 010
Epoxy Cu Solder plate 2004/12 - 18 -
1 0.220.1
8 0.65
Seating Plane
Package & Lead frame material
Package molding compound: Lead frame material: Lead frame surface treatment:
MS0054-E-02
4.4
ASAHI KASEI
[AK5354]
MARKING
AKM 5354VT XXYYY
1) Pin #1 indication 2) Date Code : XXYYY (5 digits) XX : lot# YYY : Date Code 3) Marketing Code : 5354VT 4) Asahi Kasei Logo
IMPORTANT NOTICE * These products and their specifications are subject to change without notice. Before considering any use or application, consult the Asahi Kasei Microsystems Co., Ltd. (AKM) sales office or authorized distributor concerning their current status. * AKM assumes no liability for infringement of any patent, intellectual property, or other right in the application or use of any information contained herein. * Any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. * AKM products are neither intended nor authorized for use as critical components in any safety, life support, or other hazard related device or system, and AKM assumes no responsibility relating to any such use, except with the express written consent of the Representative Director of AKM. As used here: a. A hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. b. A critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. * It is the responsibility of the buyer or distributor of an AKM product who distributes, disposes of, or otherwise places the product with a third party to notify that party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification.
MS0054-E-02 - 19 -
2004/12

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