ASAHI KASEI [AK4522] AK4522 20Bit Stereo ΔΣ ADC & DAC GENERAL DESCRIPTION The AK4522 has a dynamic range of 100dB and is well-suited middle-range MD, surround system, musical instruments and car audio. Signal inputs and outputs are single-ended. The DAC outputs are analog filtered to remove out of band noise. External components are minimized. The AK4522 is available in a small 24pin SSOP package, which will reduce system space. FEATURES • ΔΣ Stereo ADC - 64x Oversampling - Sampling Rate Ranging from 16kHz to 48kHz - S/(N+D): 92dB - Dynamic Range, S/N: 100dB - Digital HPF for offset cancellation • ΔΣ Stereo DAC - 128x Oversampling - Sampling Rate Ranging from 16kHz to 48kHz - 2nd order SCF + 2nd order CTF - Digital de-emphasis for 32kHz, 44.1kHz, 48kHz sampling - S/(N+D): 90dB - Dynamic Range, S/N: 100dB - Soft Mute • High Jitter Tolerance • Master Clock: 256fs, 384fs, 512fs • Analog Power Supply: 4.5 to 5.5V, Digital Power Supply: 2.7 to 5.5V • Small SSOP Package: 24pin SSOP VA AINL+ AINLAINR+ AINR- AGND VD DGND CMODE ΔΣ Modulator Decimation Filter HPF ΔΣ Modulator Decimation Filter HPF AOUTL AOUTR Common Voltage LPF LPF MCKI LRCK VREFH VCOM Clock Divider SCLK Serial I/O Interface SDTO SDTI ΔΣ Modulator 8x Interpolator DIF0 ΔΣ Modulator 8x Interpolator SMUTE DIF1 DEM0 DEM1 PD M0020-E-02 2012/01 -1- ASAHI KASEI [AK4522] Ordering Guide AK4522VM -10 ∼ +70°C 24pin SSOP (0.65mm pitch) Pin Layout VREFH 1 24 VCOM AINR+ 2 23 AOUTR AINR- 3 22 AOUTL AINL+ 4 21 CMODE AINL- 5 20 VA 6 AGND 7 DIF0 PD 19 DGND 18 VD 8 17 MCKI DIF1 9 16 DEM1 LRCK 10 15 DEM0 SCLK 11 14 SMUTE SDTI 12 13 SDTO Top View M0020-E-02 2012/01 -2- ASAHI KASEI [AK4522] PIN/FUNCTION No. Pin Name I/O 1 VREFH I 2 3 4 5 6 7 8 9 10 11 12 13 AINR+ AINRAINL+ AINLVA AGND DIF0 DIF1 LRCK SCLK SDTI SDTO I I I I I I I I I O 14 SMUTE I 15 16 17 18 19 20 DEM0 DEM1 MCKI VD DGND PD I I I I 21 CMODE I 22 23 24 AOUTL AOUTR VCOM I I O Function Positive Voltage Reference Input Pin, VA Used as a positive voltage reference by ADC & DAC. VREFH should be connected externally to filtered VA. Rch Analog Positive Input Pin Rch Analog Negative Input Pin Lch Analog Positive Input Pin Lch Analog Negative Input Pin Analog Power Supply Pin Analog Ground Pin Audio Data Interface Format Pin Audio Data Interface Format Pin Input/Output Channel Clock Pin Audio Serial Data Clock Pin Audio Serial Data Input Pin Audio Serial Data Output Pin Soft Mute Pin When this pin goes “H”, soft mute cycle is initiated. When returning “L”, the output mute releases. De-emphasis Frequency Select Pin De-emphasis Frequency Select Pin Master Clock Input/X’tal Input Pin Digital Power Supply Pin Digital Ground Pin Reset Pin Master Clock Select Pin (Internal Biased pin) “H”: 384fs, “L”: 256fs, “NC”: 512fs Lch Analog Output Pin Rch Analog Output Pin Common Voltage Output Pin, VA/2 Note: All input pins except pull-down pins should not be left floating. M0020-E-02 2012/01 -3- ASAHI KASEI [AK4522] ABSOLUTE MAXIMUM RATINGS (AGND DGND=0V; Note 1) Parameter Power Supplies Analog Digital |AGND-DGND| (Note 2) Input Current, Any Pin Except Supplies Analog Input Voltage Digital Input Voltage Ambient Temperature (power applied) Storage Temperature Symbol VA VD ΔGND IIN VINA VIND Ta Tstg min -0.3 -0.3 -0.3 -0.3 -10 -65 max 6.0 6.0 0.3 ±10 VA+0.3 VD+0.3 70 150 Units V V V mA V V °C °C Note: 1. All voltages with respect to ground. 2. AGND and DGND must be same voltage. 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 (AGND, DGND=0V; Note 1) Parameter Symbol min typ Power Supplies Analog VA 4.5 5.0 (Note 3) Digital VD 2.7 5.0 max 5.5 VA Units V V Note: 1. All voltages with respect to ground. 3. The power up sequence between VA and VD is not critical. *AKM assumes no responsibility for the usage beyond the conditions in this datasheet. M0020-E-02 2012/01 -4- ASAHI KASEI [AK4522] ANALOG CHARACTERISTICS (Ta=25°C; VA, VD=5V; AGND, DGND=0V; VREFH=VA; fs=44.1kHz; SCLK=64fs; Signal Frequency =1kHz; 20bit Data; Measurement Frequency=10Hz ∼ 20kHz; unless otherwise specified) Parameter min typ max Units ADC Analog Input Characteristics: Differential Inputs; Analog Source Impedance=470Ω Resolution 20 Bits S/(N+D) (-0.5dB Input) (Note 4) 84 92 dB DR (-60dB Input, A-Weighted) (Note 5) 94 100 dB S/N (A-Weighted) (Note 5, 6) 94 100 dB Interchannel Isolation 90 110 dB Interchannel Gain Mismatch 0.1 0.3 dB Gain Drift 20 ppm/°C Input Voltage (AIN=0.6 x VREFH) (Note 7) 2.85 3.0 3.15 Vpp Input Resistance 20 30 kΩ Power Supply Rejection (Note 8) 50 dB DAC Analog Output Characteristics: Resolution 20 Bits S/(N+D) 80 90 dB DR (-60dB Output, A-Weighted) (Note 5) 95 100 dB S/N (A-Weighted) (Note 6, 9) 95 100 dB Interchannel Isolation 90 110 dB Interchannel Gain Mismatch 0.2 0.5 dB Gain Drift 20 ppm/°C Output Voltage (AOUT=0.6 x VREFH) 2.65 2.9 3.15 Vpp Load Resistance 5 kΩ Load Capacitance 25 pF Power Supply Rejection (Note 8) 50 dB Power Supplies Power Supply Current (VA=VD=5V) Analog, VA PD =”H” 42 55 mA Digital, VD PD =”H” 10 20 mA Note: 4. In case of single ended input, S/(N+D)=80dB(typ, @VA=5V). 5. In case of 16bit, DR and S/N of ADC are 98dB. DR of DAC is 98dB. 6. S/N measured by CCIR-ARM is 96dB at each converter and 94dB at ADC to DAC loopback. 7. Full scale input for each AIN+/- pin is 1.5Vpp in differential mode. 8. PSR is applied to VA, VD with 1kHz, 50mVpp. VREFH pin is held a constant voltage. 9. As the input data is “0”, S/N is 100dB regardless of resolution. M0020-E-02 2012/01 -5- ASAHI KASEI [AK4522] FILTER CHARACTERISTICS (Ta=25°C; VA=4.5 ∼ 5.5V, VD=2.7 ∼ 5.5V; fs=44.1kHz; DEM0=”1”, DEM1=”0”) Parameter Symbol min ADC Digital Filter (Decimation LPF): Passband (Note 10) -0.005dB PB 0 -0.02dB 0 -0.06dB 0 -6.0dB 0 Stopband SB 24.34 Passband Ripple PR Stopband Attenuation SA 80 Group Delay (Note 11) GD Group Delay Distortion ΔGD ADC Digital Filter (HPF): Frequency Response (Note 10) -3dB FR -0.5dB -0.1dB DAC Digital Filter: Passband (Note 10) -0.06dB PB 0 -6.0dB 0 Stopband SB 24.1 Passband Ripple PR Stopband Attenuation SA 43 Group Delay (Note 11) GD DAC Digital Filter + Analog Filter: FR Frequency Response: 0 ∼ 20.0kHz typ max Units 19.76 20.02 20.20 22.05 29.3 0 kHz kHz kHz kHz kHz dB dB 1/fs us 0.9 2.7 6.0 Hz Hz Hz ±0.005 20.0 22.05 14.7 kHz kHz kHz dB dB 1/fs ±0.2 dB ±0.06 Note: 10. The passband and stopband frequencies scale with fs. For example, 20.02kHz at -0.02dB is 0.454 x fs. The reference frequency of these responses is 1kHz. 11. 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. For DAC, this time is from setting the 20bit data of both channels on input register to the output of analog signal. DIGITAL CHARACTERISTICS (Ta=25°C; VA=4.5 ∼ 5.5V, VD=2.7 ∼ 5.5V) Parameter Symbol min High-Level Input Voltage (Except CMODE VIH 70%VD pin) VIL Low-Level Input Voltage (Except CMODE pin) High-Level Input Voltage (CMODE pin) VIH 95%VD Low-Level Input Voltage (CMODE pin) VIL Hight-Level Output Voltage (Iout=-80uA) VOH VD-0.4 Low-Level Output Voltage (Iout=80uA) VOL Input Leakage Current (Note 12) Iin - typ - Max 30%VD Units V V - 10%VD 0.4 ±10 V V V V uA Note: 12. CMODE pin has internal pull-up and pull-down devices, nominally 50kohm. M0020-E-02 2012/01 -6- ASAHI KASEI [AK4522] SWITCHING CHARACTERISTICS (Ta=25°C; VA=4.5 ∼ 5.5V, VD=2.7 ∼ 5.5V; CL=20pF) Parameter Symbol min Master Clock Timing 4.096 fCLK External Clock 256fs: 27 tCLKL Pulse Width Low 27 tCLKH Pulse Width High 6.144 fCLK 384fs: 20 tCLKL Pulse Width Low 20 tCLKH Pulse Width High 8.192 fCLK 512fs: 15 tCLKL Pulse Width Low 15 tCLKH Pulse Width High LRCK Frequency fsn 16 Duty Cycle dfs 45 Serial Interface Timing Slave mode 160 tSCK SCLK Period 65 tSCKL SCLK Pulse Width Low 65 tSCKH Pulse Width High 45 tLRS LRCK Edge to SCLK “↑” (Note 13) 45 tSLR SCLK “↑” to LRCK Edge (Note 13) tLRM LRCK to SDTO(MSB) tSSD SCLK “↓” to SDTO 40 tSDH SDTI Hold Time 25 tSDS SDTI Setup Time Reset Timing PD Pulse Width tPD 150 PD “↑” to SDTO valid (Note 14) tPDV typ max Units 12.288 MHz ns ns MHz ns ns MHz ns ns 18.432 24.576 44.1 48 55 40 50 516 kHz % ns ns ns ns ns ns ns ns ns ns 1/fs Note 13. SCLK rising edge must not occur at the same time as LRCK edge. 14. These cycles are the number of LRCK rising from PD rising. The AK4522 can be reset by bringing PD “L”. M0020-E-02 2012/01 -7- ASAHI KASEI [AK4522] Timing Diagram LRCK 50%VD tSLR tSLKL tLRS tSLKH SCLK 50%VD tLRM tSSD 50%VD SDTO tSDH tSDS SDTI 50%VD Serial Interface Timing (Slave mode) tPD 70%VD PD 30%VD tPDV SDTO Reset & Initialize Timing M0020-E-02 2012/01 -8- ASAHI KASEI [AK4522] OPERATION OVERVIEW System Clock The master clock (MCLK) can be external clock input to the MCKI pin. CMODE is used to select either MCLK=256fs, 384fs or 512fs. The relationship between the MCLK and the desired sample rate is defined in Table 1. The LRCK clock input must be synchronized with MCLK, however the phase is not critical. Internal timing is synchronized to LRCK upon power-up. All external clocks must be present unless PD = “L”, otherwise excessive current may result from abnormal operation of internal dynamic logic. fs MCLK 384fs CMODE=”H” 12.2880MHz 16.9344MHz 18.4320MHz 256fs CMODE=”L” 8.1920MHz 11.2896MHz 12.2880MHz 32.0kHz 44.1kHz 48.0kHz SCLK 512fs CMODE=”NC” 16.384MHz 22.579MHz 24.576MHz 64fs 128fs 2.048MHz 2.822MHz 3.072MHz 4.096MHz 5.644MHz 6.144MHz Table 1. System Clock Example Audio Serial Interface Format Data is shifted in/out the SDTI/SDTO pins using SCLK and LRCK inputs. Four serial data modes selected by the DIF0 and DIF1 pins are supported as shown in Table 2. In all modes the serial data has MSB first, 2’s compliment format. The data is clocked out on the falling edge of SCLK and latched on the rising edge. For mode 3, if SCLK is 32fs, then the least significant bits will be truncated. Mode 0 1 2 3 DIF1 0 0 1 1 DIF0 0 1 0 1 SDTO (ADC) 20bit, MSB justified 20bit, MSB justified 20bit, MSB justified IIS (I2S) SDTI (DAC) 16bit, LSB justified 20bit, LSB justified 20bit, MSB justified IIS (I2S) L/R H/L H/L H/L L/H SCLK ≥ 32fs ≥ 40fs ≥ 40fs ≥ 32fs or 40fs Table 2. Serial Data Modes LRCK(i) 0 1 2 3 9 10 11 12 13 14 15 0 1 2 9 10 11 12 13 14 15 0 1 SCLK(i:32fs) SDTO(o) 19 18 17 11 10 9 8 7 6 5 4 19 18 17 11 10 9 8 7 6 5 4 19 SDTI(i) 15 14 13 7 6 5 4 3 2 1 0 15 14 13 7 5 4 3 2 1 0 15 0 1 2 3 17 18 19 20 30 31 0 1 2 3 6 17 18 19 20 31 0 1 SCLK(i:64fs) SDTO(o) SDTI(i) 19 18 17 Don’t Care 3 2 1 15 14 13 0 12 11 19 18 17 2 1 0 Don’t Care SDTO-19:MSB, 0:LSB; SDTI-15:MSB, 0:LSB Lch Data 3 2 1 0 15 14 13 12 11 19 2 1 0 Rch Data Figure 1. Mode 0 Timing M0020-E-02 2012/01 -9- ASAHI KASEI [AK4522] LRCK(i) 0 1 2 12 13 14 20 21 31 0 1 2 12 13 14 20 21 31 0 1 SCLK(i:64fs) SDTO(o) 19 18 SDTI(i) 8 7 Don’t Care 6 0 19 18 19 18 12 11 1 8 7 Don’t Care 0 6 0 19 18 19 12 11 1 0 19:MSB, 0:LSB Lch Data Rch Data Figure 2. Mode 1 Timing LRCK(i) 0 1 2 17 18 19 20 21 0 1 2 17 18 19 20 21 0 1 SCLK(i:64fs) SDTO(o) 19 18 3 2 1 0 SDTI(i) 19 18 3 2 1 0 19:MSB, 0:LSB Don’t Care 19 18 3 2 1 0 23 22 3 2 1 0 Lch Data 19 Don’t Care 19 Rch Data Figure 3. Mode 2 Timing LRCK(i) 0 1 2 3 9 10 11 12 13 14 15 0 1 2 9 10 11 12 13 14 15 0 1 SCLK(i:32fs) SDTO(o) SDTI(i) 4 0 19 18 1 2 12 11 10 3 17 18 9 19 8 20 7 21 6 5 31 4 0 19 18 1 2 12 11 10 3 17 18 9 19 8 20 7 21 6 5 31 4 0 1 SCLK(i:64fs) SDTO(o) 19 18 4 3 2 1 0 SDTI(i) 19 18 4 3 2 1 0 19:MSB, 0:LSB Don’t Care 19 18 4 3 2 1 0 19 18 4 3 2 1 0 Lch Data Don’t Care Rch Data Figure 4. Mode 3 Timing Digital High Pass Filter The ADC of AK4522 has a digital high pass filter for DC offset cancel. The cut-off frequency of the HPF is 0.9Hz at fs=44.1kHz and also scales with sampling rate (fs). M0020-E-02 2012/01 - 10 - ASAHI KASEI [AK4522] De-emphasis Filter The DAC of AK4522 includes the digital de-emphasis filter (tc=50/15us) by IIR filter. This filter corresponds to three frequencies (32kHz, 44.1kHz, 48kHz). The de-emphasis filter selected by DEM0 and DEM1 is enabled for input audio data. The de-emphasis is also disabled at DEM0=”1” and DEM1=”0”. DEM1 0 0 1 1 DEM0 0 1 0 1 Mode 44.1kHz OFF 48kHz 32kHz Table 3. De-emphasis filter control Soft Mute Operation Soft mute operation is performed at digital domain. When SMUTE goes to “H”, the output signal is attenuated by -∞ during 1024 LRCK cycles. When SMUTE is returned to “L”, the mute is cancelled and the output attenuation gradually changes to 0dB during 1024 LRCK cycles. If the soft mute is cancelled within 1024 LRCK cycles after starting the operation, the attenuation is discontinued and returned to 0dB. The soft mute is effective for changing the signal source without stopping the signal transmission. S M U TE 0dB 1 0 2 4 /fs (1 ) 1 0 2 4 /fs (3 ) A tten u ation -∞ GD (2 ) N oise level GD -1 0 0 d B Notes: (1) The output signal is attenuated by -∞ during 1024 LRCK cycles (1024/fs). (2) Analog output corresponding to digital input has the group delay (GD). (3) If the soft mute is cancelled within 1024 LRCK cycles, the attenuation is discontinued and returned to 0dB. Figure 5. Soft Mute Operation M0020-E-02 2012/01 - 11 - ASAHI KASEI [AK4522] Power-Down & Reset The ADC and DAC of AK4522 are placed in the reset mode by bringing a reset pin, PD “L”. This reset should always be done after power-up. In case of the ADC, an analog initialization cycle starts after exiting the reset mode. Therefore, the output data, SDTO becomes available after 516 cycles of LRCK clock. This initialization cycle does not affect the DAC operation. Figure 6 shows the power-up sequence. PD 516/fs ADC Internal State Normal Operation Reset DAC Internal State Normal Operation Reset (1) Init Cycle Normal Operation Normal Operation GD (2) GD ADC In (Analog) (3) ADC Out (Digital) “0”data DAC In (Digital) “0”data GD (2) GD (5) DAC Out (Analog) (4) (5) Clock In MCLK,LRCK,SCLK The clocks may be stopped. External Mute (6) Mute ON (1) The analog part of ADC is initialized after exiting the reset state. (2) Digital output corresponding to analog input and analog output corresponding to digital input have the group delay (GD). (3) A/D output is “0” data at the reset state. (4) Small click noise occurs at the end of initialization of the analog part. Please mute the digital output externally if the click noise influences system application. (5) Click noise occurs at the edge of PD . (6) Please mute the analog output externally if the click noise (5) influences system application. Figure 6. Power-up sequence M0020-E-02 2012/01 - 12 - ASAHI KASEI [AK4522] SYSTEM DESIGN Figure 7 shows the system connection diagram. This is an example which analog signal is input by single ended circuit. In case of differential input, please refer to Figure 10. An evaluation board is available which demonstrates application circuits, the optimum layout, power supply arrangements and measurement results. 4.5 ∼ 5.5V Analog Supply 2.7 ∼ 5.5V Digital Supply 10u + 0.1u 0.1u + 10u 470 2.2n 470 4.7u 2.2n 4.7u 0.1u + 0.1u + 1 VREFH VCOM 24 2 AINR+ AOUTR 23 3 AINR- AOUTL 22 4 AINL+ CMODE 5 AINL- 6 VA 0.1u Format Setting Audio Controller AK4522 21 PD 20 DGND 19 7 AGND 8 DIF0 MCKI 17 9 DIF1 DEM1 16 10 LRCK DEM0 15 11 SCLK SMUTE 14 12 SDTI SDTO 13 VD 18 0.1u 5 + 10u Mode Setting Figure 7. Typical Connection Diagram Notes: - When AOUT drives some capacitive load, some resistor should be added in series between AOUT and capacitive load. - All input pins except CMODE pin should not be left floating. M0020-E-02 2012/01 - 13 - ASAHI KASEI [AK4522] Analog Ground 1 VREFH VCOM 24 2 AINR+ AOUTR 23 3 AINR- AOUTL 22 4 AINL+ CMODE 21 5 AINL- 6 VA PD AK4522 20 DGND 19 VD 18 DIF0 MCKI 17 DIF1 DEM1 16 LRCK DEM0 15 SCLK SMUTE 14 SDTI SDTO 13 7 AGND 8 9 10 11 12 Digital Ground System Controller Figure 8. Ground Layout 5V analog VA 5V digital VD VD System Controller AK4522 Case 1. 5V system 5V analog VA 3V digital VD VD System Controller AK4522 Case 2. 5V/3V system Figure 9. Power Supply Arrangement M0020-E-02 2012/01 - 14 - ASAHI KASEI [AK4522] 1. Grounding and Power Supply Decoupling The AK4522 requires careful attention to power supply and grounding arrangements. VA and VD are usually supplied from analog supply in system. Alternatively if VA and VD are supplied separately, the power up sequence is not critical. AGND and DGND of the AK4522 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 AK4522 as possible, with the small value ceramic capacitor being the nearest. 2. Voltage Reference The differential voltage between VREFH and AGND sets the analog input/output range. VREFH pin is normally connected to VA with a 0.1uF ceramic capacitor. VCOM is a signal ground of this chip. An electrolytic capacitor 10uF parallel with a 0.1uF ceramic capacitor attached to VCOM pin eliminates the effects of high frequency noise. No load current may be drawn from VCOM pin. All signals, especially clocks, should be kept away from the VREFH and VCOM pins in order to avoid unwanted coupling into the AK4522. 3. Analog Inputs The ADC inputs are differential and internally biased to the common voltage (VA/2) with 30kΩ (typ) resistance. Figure 7 is a circuit example which analog signal is input by single end. The signal can be input from either positive or negative input and the input signal range scales with the supply voltage and nominally 0.6 x VREFH Vpp. In case of single ended input, the distortion around full scale degrades compared with differential input. Figure 10 is a circuit example which analog signal is input to both positive and negative input and the input signal range scales with the supply voltage and nominally 0.3 x VREFH Vpp. The AK4522 can accept input voltages from AGND to VA. The ADC output data format is 2’s complement. The output code is 7FFFFH(@20bit) for input above a positive full scale and 80000H(@20bit) for input below a negative fill scale. The ideal code is 00000H(@20bit) with no input signal. The DC offset is removed by the internal HPF. The AK4522 samples the analog inputs at 64fs. The digital filter rejects noise above the stop band except for multiples of 64fs. A simple RC filter (fc=150kHz) may be used to attenuate any noise around 64fs and most audio signals do not have significant energy at 64fs. 4.7k 10k 1.5Vpp AK4522 1.5nF 330 AINR+ 2 330 AINR- + NJM2100 Vop 10k 10k + 22u Signal Vop 3.2Vpp 3 1.5Vpp AINL+ 4 AINL- 5 4.7k Vop=VA=5V 0.1u BIAS 4.7k + 10u Same circuit Figure 10. Differential Input Buffer Example M0020-E-02 2012/01 - 15 - ASAHI KASEI [AK4522] 4. Analog Outputs The analog outputs are also single-ended and centered around the VCOM voltage. The input signal range scales with the supply voltage and nominally 0.58 x VREFH Vpp. The DAC input data format is 2’s complement. The output voltage is a positive full scale for 7FFFFH(@20bit) and a negative full scale for 80000H(@20bit). The ideal output is VCOM voltage for 00000H(@20bit). The internal switched-capacitor filter and continuous-time filter remove most of the noise generated by the delta-sigma modulator of DAC beyond the audio passband. DC offsets on analog outputs are eliminated by AC coupling since DAC outputs have DC offsets of a few mV. Figure 11 shows the example of external op-amp circuit with 6dB gain. The output signal is inverted by using the circuit in this case. 27u AOUTL 2.9Vpp 10k Vop=12V Vop 4.7k BIAS 10u + 18k + 0.1u Vop + 10u Lch Out 5.2Vpp + NJM5532 27k 4.7k Rch Op-amp Optional amp with 6dB gain Figure 11. External analog circuit example (gain=6dB) M0020-E-02 2012/01 - 16 - ASAHI KASEI [AK4522] PACKAGE 24pin SSOP (Unit: mm) 2.10MAX 8.20 24 13 5.30 7.90±0.20 A 12 1 0.30±0.10 0.65±0.08 0.22±0.05 0.13 M 0.10±0.10 0.60±0.15 Detail A Seating Plane | 0.10 NOTE: Dimension "*" does not include mold flash. 0-8° Package & Lead frame material Package molding compound: Lead frame material: Lead frame surface treatment: Epoxy Cu Solder plate M0020-E-02 2012/01 - 17 - ASAHI KASEI [AK4522] MARKING AK4522VM XBYYYC XBYYYC: Date code identifier XB: Lot number (X: Digit number, B: Alpha character) YYYC: Assembly date (Y: Digit number, C: Alpha character) REVISION HISTORY Date (Y/M/D) 12/01/25 Revision 02 Reason Specification Change Page 1, 2, 17, 18 Contents AK4522VF was deleted. (24pin VSOP) AK4522VM was added. (24pin SSOP) Ordering Guide was changed. PACKAGE was changed. MARKING was changed. M0020-E-02 2012/01 - 18 - ASAHI KASEI [AK4522] IMPORTANT NOTICE z These products and their specifications are subject to change without notice. When you consider any use or application of these products, please make inquiries the sales office of Asahi Kasei Microdevices Corporation (AKM) or authorized distributors as to current status of the products. z Descriptions of external circuits, application circuits, software and other related information contained in this document are provided only to illustrate the operation and application examples of the semiconductor products. You are fully responsible for the incorporation of these external circuits, application circuits, software and other related information in the design of your equipments. AKM assumes no responsibility for any losses incurred by you or third parties arising from the use of these information herein. AKM assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of such information contained herein. z Any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. z AKM products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKM. As used here: Note1) A critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. Note2) A hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. z It is the responsibility of the buyer or distributor of AKM products, who distributes, disposes of, or otherwise places the product with a third party, to notify such third party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification. M0020-E-02 2012/01 - 19 -