apa2020a

Stereo 2-W Audio Power AmplifierFeatures

• Low Supply Current , IDD= 8mA at Stereo BTL• Low Shutdown Current , IDD= 0.5µA• Depop Circuitry Integrated• Low Supply Voltage

• Thermal Shutdown Circuitry Integrated• Output Power at 1% THD+N , VDD=5V

- 1.8 W/Ch (typ) into a 4 Ω Load - 1.2 W/Ch (typ) into a 8 Ω Load

• Bridge-Tied Load (BTL) or Single-Ended (SE) Modes Operation

• Various 24-Pin Power Packages Available SOP , TSSOP-P

• High Supply Voltage Ripple Rejection

General Description

The APA2020A is a stereo bridge-tied audio poweramplifier in various 24-pin power packages , includ-ing SOP , TSSOP-P. When connecting to a 5V volt-age supply , the APA2020A is capable of delivering1.8W/1.2W of continuous RMS power per channelinto 4Ω/8Ω loads with less than 1% THD+N ,respectively. The APA2020A simplifies design andfrees up board space for other features .

The APA2020A also served well in low-voltageapplications , which provides 800-mW per channelinto 4Ω loads with a 3.3V supply voltage . Both of thedepop circuitry and the thermal shutdown protectioncircuitry are integrated in the APA2020A , that reducespops and clicks noise during power up and whenusing the shutdown or mute modes and protects thechip from being destroyed by over-temperaturefailure.

To simplify the audio system design in notebookcomputer applications , the APA2020A combines astereo bridge-tied loads (BTL) mode for speaker driveand a stereo single-end (SE) mode for headphonedrive into a single chip , where both modes are easilyswitched by the SE/BTL input control pin signal . Forpower sensitive applications , the APA2020A alsofeatures a shutdown function which keeps the supplycurrent only 0.5 µA (typ) .

Applications

• Stereo Audio Power Amplifier for Notebook

Computer

Ordering Information

APA2020AHandling CodeTemp. RangePackage CodeTemp. Range° I: - 40 to 85 CHandling Code TU : Tube TR : Tape & Reel TY : Tray* TSSOP-P is a standard TSSOP package with a thermal pad exposure on the bottom of the package.

Package Code K : SOPR : TSSOP-P *ANPEC reserves the right to make changes to improve reliability or manufacturability without notice, and advisecustomers to obtain the latest version of relevant information to verify before placing orders.Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

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APA2020A

Block Diagram

MUXMUXMUXSE/BTLAbsolute Maximum Ratings

(Over operating free-air temperature range unless otherwise noted.)

SymbolVCCTATJTSTGTSVESDSupply VoltageOperating Ambient Temperature RangeMaximum Junction TemperatureStorage Temperature RangeSoldering Temperature,10 secondsElectrostatic DischargeParameterRating6-40 to 85150-65 to +150300-3000 to 3000 *1-200 to 200 *2UnitV°C°C°C°CVNote: 1. Human body model : C=100pF , R=1500Ω , 3 positive pulses plus 3 negative pulses

2. Machine model : C=200pF , L=0.5mH , R=0Ω , 3 positive pulses plus 3 negative pulses

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APA2020A

Recommended Operating Conditions

Min.Supply Voltage, VDDVDD=5V, 4-Ω stereo BTL drive,Operating free-air250mW/Ch average power, with proper PCBtemperature, TA designVDD=5V, 3-Ω stereo BTL drive,2 W/Ch average power, with proper PCB design and 300 CFM forced-air coolingVDD=5 VCommon modeinput voltage, VICMVDD=3.3V3-20Typ.5Max.5.585UnitV°C-20851.251.254.52.7VElectrical Characteristics (Cont.)

AC Operating Characteristics , VDD= 5V , TA= 25°C , RL= 4Ω (unless otherwise noted)

SymbolP(out)ParameterOutput power (each channel )see Note 1Test ConditionTHD = 10% , BTL , RL=4Ω RL=8ΩTHD = 1% , BTL , RL=4Ω RL=8ΩTHD = 10% , SE , RL=4Ω RL=8ΩTHD = 1% , SE , RL=4Ω RL=8ΩTHD = 0.5% , SE , RL=32 ΩTHD + NTotal harmonic distortion plusPO = 1.6W , BTL , RL=4ΩnoisePO = 1W , BTL , RL=8ΩPO = 78mW , SE ,RL=32ΩV1 = 1V , RL=4Ω , G = 1BOMMaximum output powerbandwidthPhase marginG = 10 , THD < 1%RL = 4Ω , BTLRL = 4Ω , Open LoadRL = 4Ω , SEAPA2020AMin.Typ.Max.2.31.51.81.2650400500320903001502010>20727152°KHzm%mWWUnitCopyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

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APA2020A

Electrical Characteristics (Cont.)

AC Operating Characteristics , VDD= 5V , TA= 25°C , RL= 4Ω (unless otherwise noted)

SymbolPSRRParameterPower supply ripple rejectionMute attenuationChannel-to-channel outputseparationLine HP input separationBTL attenuation in SE modeZIVnInput impedanceSignal-to-noise ratioOutput noise voltagePo = 500 mW , BTLTest Conditionf =100 HzAPA2020AMin.Typ.Max.808585758029080UnitdBdBdBdBdBMΩdBµV(rms)Notes 1 : Output power is meaured at the output teminals of the IC at 1 KHz.

AC Operating Characteristics , VDD= 3.3V , TA= 25°C , RL= 4Ω (unless otherwise noted)APA2020ASymbolParameterTest ConditionMin.Typ.Max.P(out)Output power (each channel )1THD = 10% , BTL , RL=4Ωsee Note 20.6 RL=8Ω0.8THD = 1% , BTL , RL=4Ω RL=8ΩTHD = 10% , SE , RL=4Ω RL=8ΩTHD = 1% , SE , RL=4Ω RL=8ΩTHD = 0.5% , SE , RL=32 ΩTHD + NTotal harmonic distortion plusPO = 1.6W , BTL , RL=4ΩnoisePO = 1W , BTL , RL=8ΩPO = 78mW , SE ,RL=32ΩV1 = 1V , RL=4Ω , G = 1BOMMaximum output powerbandwidthPhase marginG = 10 , THD < 1%RL = 4Ω , BTLRL = 4Ω , Open LoadRL = 4Ω , SE0.5290180230140432701502010>20927057UnitWmWm%KHz°Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

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Electrical Characteristics (Cont.)

AC Operating Characteristics , VDD= 3.3V , TA= 25°C , RL= 4Ω (unless otherwise noted)

SymbolPSRRParameterPower supply ripple rejectionMute attenuationChannel-to-channel outputseparationLine HP input separationBTL attenuation in SE modeZIVnInput impedanceSignal-to-noise ratioOutput noise voltagePo = 500 mW , BTLf =1 KHzTest Conditionf =100 HzAPA2020AMin.Typ.Max.708585758029050UnitdBdBdBdBdBMΩdBµV(rms)Notes 2 : Output power is meaured at the output teminals of the IC at 1 KHz.

DC Electrical Characteristic , TA=25 °C

SymbolParameter Test Conditions V DD = 5VStereo BTLStereo SEV DD = 3.3 VStereo BTLStereo SEV DD =5V, Gain = 2, see Note3APA2020ATyp.Max.81146.5793.55.652580.5115UnitmAmAmAmAmVmAµAIDDSupply CurrentVO (DIFF)IDD(MUTE)ISDDC Differential OutputVoltageSupply Current in Mute ModeV DD = 5VIDD in ShutdownV DD = 5VNote 3 : at 3VCopyright  ANPEC Electronics Corp.

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APA2020A

Pin Description

GND/HSTJLOUT+LLINEINLHPINLBYPASS

LVDDSHUTDOWNMUTE OUT

LOUT-MUTE INGND/HS

1234567101112

242322212019181716151413

GND/HSNCROUT+RLINEINRHPINRBYPASSRVDDNCHP/LINEROUT-SE/BTLGND/HS

ThermalPadTop View

For SOP and TSSOP-P

Bottom View

For TSSOP-P Only

PinNameGND/HSTJNo1,12,13,242I/ODescriptionGround connection for circuitry, directly connected to thermal pad(only in TSSOP-P package).Shutdown mode control signal input, sources a current proportionalto the junction temperature. This pin should be left unconnectedduring normal operation. For more information, see the junctiontemperature measurement section of this document.Left channel + output in BTL mode, + output in SE mode.Left channel line input, selected when HP/LINE pin (16) is held low.Left channel headphone input, selected when HP/LINEpin (16) isheld high.Connect to voltage divider for left channel internal mid-supply bias.Supply voltage input for left channel and for primary bias circuits.Shutdown mode control signal input, places entire IC in shutdownmode when held high, IDD= 0.5µA.Follows MUTE in pin (11), provides buffered output.Left channel - output in BTL mode, high-impedance state in SEmode.Mute control signal input, hold low for normal operation, hold high tomute.Mode control signal input, hold low for BTL mode, hold high for SEmode.Right channel - output in BTL mode, high impedance state in SEmode.MUX control input, hold high to select headphone inputs (5,20),hold low to select line inputs (4,21).6

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OLOUT +L LINE INLHP INLBYPASSLVDDSHUTDOWNMUTE OUTLOUT -MUTE INSE/BTLROUT-HP/LINE345671011141516OIIIIOOIIOICopyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

APA2020A

Pin Description (Cont.)

PinNameNCRVDDRBYPASSRHP INRLINE INROUT+No17,231819202122II/ODescriptionNo internal connection.Supply voltage input for right channel.Connect to voltage divider for right channel internal mild-supplybias.Right channel headphone input, selected when HP/LINEpin (16) isheld high.Right channel line input, selected when HP/LINEpin (16) is heldlow.Right channel + output in BTL mode, + output in SE mode.IIOTest Information

RFCI4.7µFRICBSE/BTLHP/LINERFCOMUXRL=4 Ω , 8Ω or 32 ΩCI4.7µFRICBMUXVDDSE/BTLHP/LINERL= 4 Ω , 8 Ω or 32 ΩFigure 2. BTL Test Circuit

Figure 3. SE Test Circuit

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Typical Characteristics

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise10521%0.50.20.10.060500m11.5W22.53105210.5VDD=5Vf=1 KHzBTLVDD=5VPO=1.5WRL=4ΩBTLAV=20AV=10AV=2%RL=8ΩRL=3Ω0.20.10.0620AV=2PO=1.8W, RL=3Ω501002005001kHz2k5k20k Po - Output Power

Figure 4 f - FrequencyFigure 5

THD+N- Total Harmonic Distortion + Noise5VDD=5VAV=2RL=4ΩBTLPO=1.8W, RL=3ΩPO=0.25WTHD+N- Total Harmonic Distortion + Noise1010521%0.5f=1KHzf=20Hzf=20KHz21%0.5VDD=5VRL=3ΩBTL0.2PO=0.75W PO=1.5W0.10.0620501002005001kHz2k5k20k0.20.10.06100m200m500m1W2510 f - FrequencyFigure 6 Po - Output Power

Figure 7

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APA2020A

Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise10510521AV=20AV=10AV=2VDD=5VAV=2RL=8ΩBTL21%0.5VDD=5VPO=1WRL=8ΩBTL%0.5PO=0.25W0.20.10.0620PO=0.5WPO=1W0.20.10.0620501002005001kHz2k5k20k501002005001kHz2k5k20kf - Frequency- Hz

Figure 8f - Frequency- Hz

Figure 9

THD+N- Total Harmonic Distortion + Noise52%1VDD=5VAV=2RL=8ΩBTLTHD+N- Total Harmonic Distortion + Noise1010521%0.5 RL=8 Ω RL=3 ΩVDD=3.3Vf=1 KHzBTL0.50.20.10.06f=20KHzf=20Hzf=1KHz500m1W25100.20.10.060200m400m600m800m1W1.21.4100m200mPo - Output Power

Figure 10Po - Output Power

Figure 11

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Typical Characteristics (Cont.)THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise1052%11052%1PO=0.1WPO=0.35WPO=0.7WVDD=3.3VPO=0.65WRL=4ΩBTLAV=20AV=10VDD=3.3VAV=2RL=4ΩBTL0.50.20.10.0620501002005001kHz2k5k20kAV=2AV=2PO=0.7W, RL=3Ω0.50.20.10.0620PO=0.75W, RL=3Ω501002005001kHz2k5k20kf - FrequencyFigure 12f - FrequencyFigure 13

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise1052110521%0.5AV=200.20.10.0620501002005001k2kHz5k20kAV=10AV=2VDD=3.3VAV=2RL=3ΩBTLf=20KHzf=20Hzf=1KHzVDD=3.3VPO=0.4WRL=8ΩBTL%0.50.20.10.06100m200m500m1W2510Po - Output Power

Figure 14f - FrequencyFigure 15

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Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise10521%0.50.20.10.0620501002005001k2k5k20kPO=0.1WPO=0.25WPO=0.4W10521%0.50.20.10.06100m200m500m1W2510f=20Hzf=1KHzVDD=3.3VAV=2RL=8ΩBTLVDD=3.3VAV=2RL=8ΩBTLf=20KHzHzf - FrequencyFigure 16

Po - Output Power

Figure 17

THD+N- Total Harmonic Distortion + Noise5210.5%0.20.10.05VDD=5VPO=0.5WRL=4ΩSEAV=10AV=5THD+N- Total Harmonic Distortion + Noise1010521%0.50.20.10.050.020.0120501002005001k2kHz5k20kPO=0.1WPO=0.25WPO=0.4WVDD=5VAV=2RL=4ΩSEAV=10.020.0120501002005001k2kHz5k20kf - FrequencyFigure 18f - FrequencyFigure 19

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Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.02f=1KHz50m100m200mW500m1f=100HzVDD=5VAV=2RL=4ΩSEf=20KHzTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.0120AV=10AV=5AV=1501002005001k2kHz5k20kVDD=5VPO=0.25WRL=8ΩSE0.0110m20mPo - Output Power

Figure 20

f - Frequency- Hz

Figure 21

THD+N- Total Harmonic Distortion + Noise5210.5%0.20.10.050.020.0120THD+N- Total Harmonic Distortion + Noise10VDD=5VRL=8ΩSE5210.5%0.20.10.050.02VDD=5VAV=2RL=8ΩSEf=20KHzPO=0.25WPO=0.1WPO=0.05Wf=1KHzf=100Hz20m50m100m200mW500m1501002005001k2kHz5k20k0.0110mf- Frequency- Hz

Figure 22Po - Output Power

Figure 23

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Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.00620AV=10AV=5AV=1501002005001k2kHz5k20kVDD=5VPO=0.075WRL=32ΩSE105210.50.2%0.10.050.020.010.0050.0020.001VDD=5VRL=32ΩSEPO=25WPO=50WPO=75W20501002005001k2kHz5k20kf - Frequency- Hz

Figure 24

f - Frequency- Hz

Figure 25

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.010.0050.002f=1KHz50m100m200mW500m1f=20Hzf=20KHz105210.5%0.20.10.050.020.0120501002005001k2kHz5k20kAV=10AV=5AV=1VDD=5VRL=32ΩSEVDD=3.3VPO=0.2WRL=4ΩSE0.00110m20mPo - Output Power

Figure 26f - Frequency- Hz

Figure 27

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APA2020A

Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.0120501002005001k2kHz5k20k105210.5%0.20.10.050.020.0110mf=100Hzf=1KHzVDD=3.3VRL=4ΩSEVDD=3.3VAV=2RL=4ΩSEf=20KHzPO=0.05WPO=0.1WPO=0.15W20m50m100m200mW500m1f - FrequencyFigure 28Po - Output Power

Figure 29

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.05AV=10.020.0120AV=10AV=5105210.5%0.20.10.050.020.0120501002005001k2kHz5k20kVDD=3.3VPO=100mWRL=8ΩSEVDD=3.3VRL=8ΩSEPO=25mWPO=50mWPO=100mW501002005001kHz2k5k20kf - FrequencyFigure 30f - FrequencyFigure 31

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Typical Characteristics (Cont.)

THD+N- Total Harmonic Distortion + NoiseTHD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.0110mf=100Hz20m50m100m200mW500m1f=1KHzf=20KHz105210.5%0.20.10.050.02VDD=3.3VRL=8ΩSEVDD=3.3VPO=30mWRL=32ΩSEAV=10AV=5AV=10.00620501002005001k2kHz5k20kPo - Output Power

Figure 32f - FrequencyFigure 33

THD+N- Total Harmonic Distortion + Noise105210.50.2%0.10.050.020.010.0050.0020.001THD+N- Total Harmonic Distortion + Noise105210.5%0.20.10.050.020.0110mf=20KHzf=20Hzf=1KHzVDD=3.3VRL=32ΩSEVDD=3.3VRL=32ΩSEPO=10mWPO=20mWPO=30mW20501002005001k2kHz5k20k20m50m100m200mW500m1f - FrequencyFigure 34Po - Output Power

Figure 35

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Typical Characteristics (Cont.)

100u100uVN- Output Noise Voltage - µVVN- Output Noise Voltage - µV50uVO BTL50uVO BTLVO SE +20u10uVO SE +20u10u5uV5uV2u1uVDD=5VBW=22Hz to 22 KHz20501002005001k2kHz5k20k2u1u20VDD=3.3VBW=22Hz to 22 KHz501002005001k2kHz5k20kf - FrequencyFigure 36

f - FrequencyFigure 37

+0-20-40+0VDD=5VPO=1.5WRL=4ΩBTLVDD=3.3V-20PO=0.75WRL=4Ω-40 BTLCrosstalk-60dB-80-100Crosstalk-60dB-80-100Left to RightRight to LeftLeft to RightRight to Left-12020501002005001kHz2k5k20k-12020501002005001kHz2k5k20kf - FrequencyFigure 38f - FrequencyFigure 39

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Typical Characteristics (Cont.)

+0-20-40+0VDD=5VPO=75mWRL=32ΩSE-20-40VDD=3.3VPO=35mWRL=32ΩSECrosstalkCrosstalk-60dB-60dB-80-100-120-80-100-12020Left to RightLeft to RightRight to LeftRight to Left501002005001kHz2k5k20k20501002005001k2kHz5k20kf - FrequencyFigure 40

f - FrequencyFigure 41

+10+9+10+9+8+7VDD=5VAV=2V/V+8PO=1.5W+7+6+5+4+3+2+1-020501002005001k2k5k10k20k50k200kHzVDD=3.3VAV=2V/VPO=0.75WGainGaindBdB+6GainGain+5+4+3+2+1-020501002005001k2k5k10k20k50k200kHzPhasePhasef- FrequencyFigure 42f- FrequencyFigure 43

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Typical Characteristics (Cont.)

-0-1-2-3dB-4-5-6-7-8-9-1020501002005001k2k5k10k20k50k200kHz-0-1VDD=5VAV=1 V/VPO=0.5W-2-3-4GainGaindBVDD=3.3VAV=1 V/VPO=0.25WGain-5-6-7GainPhase-8-9-10Phase20501002005001k2k5k10k20k50k200kHzf- Frequency

Figure 44f- FrequencyFigure 45

983IDD - Supply Current - mA765432102.53PO - Output Power - WStereo BTL2.5THD +N = 1%BTL2RL=3 ΩStereo SE1.5RL=4 Ω1RL=8 Ω0.503.544.555.562.533.544.555.56VDD - Supply Voltage - V

Figure 46VDD - Supply Voltage - V

Figure 47

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Typical Characteristics (Cont.)

13PO - Output Power - W0.8PO - Output Power - WTHD +N = 1%SEEach Channel2.5THD +N = 1%BTLEach ChannelVDD= 5V20.6RL= 4ΩRL= 8 Ω1.50.410.2VDD= 3.3V0.5RL= 32 Ω02.533.544.555.56ΩRL= 320048121620242832VDD - Supply Voltage - V

Figure 48RL - Load Resistance- Ω

Figure 49

PD - Power Disspation - W11.81.61.41.210.80.60.40.20PO - Output Power - W0.8THD +N = 1%SEEach ChannelRL=3 ΩRL=3ΩRL=4 Ω0.60.4VDD= 5VRL= 8ΩVDD= 5VBTLEach Channel00.511.522.50.2004VDD=3.5V8121620242832RL - Load Resistance- Ω

Figure 50

PO - Output Power - W

Figure 51

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Typical Characteristics (Cont.)

0.80.4PD - Power Disspation - WPD - Power Disspation - WRL= 3Ω0.60.3VDD=5VSEEach ChannelRL= 4ΩRL= 4Ω0.40.2RL=8Ω0.2RL= 8 Ω0.1VDD= 3.3VBTLEach Channel00.250.50.7510000.10.20.30.40.50.6PO - Output Power - W

Figure 52PO - Output Power - W

Figure 53

0.4PD - Power Disspation - W0.3VDD=3.3VSEEach Channel0.2RL= 4Ω0.1RL= 8 Ω000.050.10.150.20.25PO - Output Power - W

Figure 54

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Packaging Information

SO – 300mil ( Reference JEDEC Registration MS-013)

DNHEGAUGEPLANE123AeBA1L1MillimetersDimAA1BDEeHLNφ1Min.2.350.100.33Max.2.650.300.51Variations- DVariationsSO-16SO-18SO-20SO-24SO-28SO-14Min.10.1011.3512.6015.2017.708.80Max.10.5011.761315.6018.119.20DimAA1BDEeHLNφ 1InchesMin.0.0930.0040.013Max.0.10430.01200.020Variations- DVariationsSO-16SO-18SO-20SO-24SO-28SO-14Min.0.3980.4470.4960.5990.6970.347Max.0.4130.4630.5120.6140.7130.362See variations7.407.60See variations0.29140.29921.27BSC100.4010.651.270.050BSC0.3940.0160.4190.050See variations0°8°See variations0°8°Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

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Packaging Information

TSSOP/ TSSOP-P ( Reference JEDEC Registration MO-153)

e N 2 x E / 2 E1E 123e/2 D A2 A( A1 b D1S EXPOSED THERMAL PAD ZONE E2 0.25 (3) BOTTOM VIEW(THERMALLY ENHANCED VARIATIONDS ONLY) Dim 2)GAUGEPLANEL(L1)1Millimeters Inches Min. Max. Min. Max. A 1.2 0.047 A1 0.00 0.15 0.000 0.006 A2 0.80 1.05 0.031 0.041 6.4 (N=20PIN) 6.6 (N=20PIN) 0.252 (N=20PIN) 0.260 (N=20PIN) D 7.7 (N=24PIN) 7.9 (N=24PIN) 0.303 (N=24PIN) 0.311 (N=24PIN) 9.6 (N=28PIN) 9.8 (N=28PIN) 0.378 (N=28PIN) 0.386 (N=28PIN) 4.2 BSC (N=20PIN) 0.165 BSC (N=20PIN) D1 4.7 BSC (N=24PIN) 0.188 BSC (N=24PIN) 3.8 BSC (N=28PIN) 0.150 BSC (N=28PIN) e 0.65 BSC 0.026 BSC E 6.40 BSC 0.252 BSC E1 4.30 4.50 0.169 0.177 E2 3.0 BSC (N=20PIN) 0.118 BSC (N=20PIN) 3.2 BSC (N=24PIN) 0.127 BSC (N=24PIN) 2.8 BSC (N=28PIN) 0.110 BSC (N=28PIN) L 0.45 0.75 0.018 0.030 L1 1.0 REF 0.039REF R 0.09 0.004 R1 0.09 0.004 S 0.2 0.008 0° 8° 0° 8° φ1 12° REF φ2 12° REF 12°REF φ3 12° REF 22

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Physical Specifications

Terminal MaterialLead SolderabilitySolder-Plated Copper (Solder Material : 90/10 or 63/37 SnPb)Meets EIA Specification RSI86-91, ANSI/J-STD-002 Category 3.Reflow Condition (IR/Convection or VPR Reflow)

Reference JEDEC Standard J-STD-020A APRIL 1999

temperaturePeak temperature°183 CPre-heat temperatureTimeClassification Reflow Profiles

Convection or IR/ConvectionAverage ramp-up rate(183°C to Peak)3°C/second max.120 seconds maxPreheat temperature 125 ± 25°C)60 – 150 secondsTemperature maintained above 183°CTime within 5°C of actual peak temperature10 –20 secondsPeak temperature range220 +5/-0°C or 235 +5/-0°CRamp-down rate6 °C /second max.6 minutes max.Time 25°C to peak temperatureVPR10 °C /second max.60 seconds215-219°C or 235 +5/-0°C10 °C /second max.Package Reflow Conditions

pkg. thickness ≥ 2.5mmand all bgasConvection 220 +5/-0 °CVPR 215-219 °CIR/Convection 220 +5/-0 °Cpkg. thickness < 2.5mm andpkg. volume ≥ 350 mm³pkg. thickness < 2.5mm and pkg.volume < 350mm³Convection 235 +5/-0 °CVPR 235 +5/-0 °CIR/Convection 235 +5/-0 °Cwww.anpec.com.tw

Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

23

APA2020A

Reliability test program

Test itemSOLDERABILITYHOLTPCTTSTESDLatch-UpMethodMIL-STD-883D-2003MIL-STD-883D-1005.7JESD-22-B, A102MIL-STD-883D-1011.9MIL-STD-883D-3015.7JESD 78Description245°C , 5 SEC1000 Hrs Bias @ 125 °C168 Hrs, 100 % RH , 121°C-65°C ~ 150°C, 200 CyclesVHBM > 2KV, VMM > 200V10ms , Itr > 100mACarrier Tape & Reel DimensionsPoEPP1DtFWBoAoKoD1T2JCABT1ApplicationA330±1B62 ±1.5DC12.75 ±0.15D1J2 ± 0.6Po4.0 ± 0.1T124.4 ± 0.2P1T22± 0.2AoW24 ± 0.3BoPE12 ± 0.11.75± 0.1KotSOP- 24F11.5 ± 0.11.55 +0.11.5+ 0.252.0 ± 0.110.9 ± 0.115.9± 0.13.1± 0.10.35±0.05 (mm)

Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

24www.anpec.com.tw

APA2020A

Cover Tape Dimensions

ApplicationSOP- 16 / 20 / 24 / 28Carrier Width24Cover Tape Width21.3Devices Per Reel1000Customer Service

Anpec Electronics Corp.Head Office :

5F, No. 2 Li-Hsin Road, SBIP,Hsin-Chu, Taiwan, R.O.C.Tel : 886-3-52000Fax : 886-3-52050Taipei Branch :

7F, No. 137, Lane 235, Pac Chiao Rd.,

Hsin Tien City, Taipei Hsien, Taiwan, R. O. C.Tel : 886-2-191368Fax : 886-2-191369

Copyright  ANPEC Electronics Corp.Rev. A.5 - July., 2002

25www.anpec.com.tw