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ManualsBrandsTEXAS INSTRUMENTS ManualsLinear ICsLinear IC - Audio amplifier 2-channel (stereo) with stereo headphones Class AB HTSSOP 24

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TPA0202

2-W STEREO AUDIO POWER AMPLIFIER

SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

Integrated Depop Circuitry

High Power with PC Power Supply

– 2 W/Ch at 5 V into a 3-Ω Load

– 800 mW/Ch at 3 V

Fully Specified for Use With 3-Ω Loads

Ultra-Low Distortion

– 0.05% THD+N at 2 W and 3-Ω Load

Bridge-Tied Load (BTL) or Single-Ended

(SE) Modes

Stereo Input MUX

Surface-Mount Power Package

24-Pin TSSOP PowerPAD

Shutdown Control ...I

= 5 µA

Right

MUX

RLINEIN

RHPIN

Left

MUX

LHPIN

LLINEIN

Bias, Mute,

Shutdown,

and SE/BTL

MUX Control

–

RBYPASS

MUTE IN

MUTE OUT

SHUTDOWN

LBYPASS

ROUT+

ROUT–

LOUT+

LOUT–

SE/BTL

HP/LINE

System

Control

100 kΩ

OUTR

OUTL

1 kΩ

GND/HS

LOUT+

LLINEIN

LHPIN

LBYPASS

SHUTDOWN

MUTE OUT

LOUT–

MUTE IN

GND/HS

ROUT+

RLINEIN

RHPIN

RBYPASS

HP/LINE

ROUT–

SE/BTL

GND/HS

PWP PACKAGE

(TOP VIEW)

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of Texas Instruments

standard warranty. Production processing does not necessarily include

testing of all parameters.

PowerPAD is a trademark of Texas Instruments Incorporated.

Summary of content (49 pages)

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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 D D D D D D D D Integrated Depop Circuitry High Power with PC Power Supply – 2 W/Ch at 5 V into a 3-Ω Load – 800 mW/Ch at 3 V Fully Specified for Use With 3-Ω Loads Ultra-Low Distortion – 0.05% THD+N at 2 W and 3-Ω Load Bridge-Tied Load (BTL) or Single-Ended (SE) Modes Stereo Input MUX Surface-Mount Power Package 24-Pin TSSOP PowerPAD Shutdown Control . . .
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 description The TPA0202 is a stereo audio power amplifier in a 24-pin TSSOP thermal package capable of delivering greater than 2 W of continuous RMS power per channel into 3-Ω loads. The TPA0202 simplifies design and frees up board space for other features. Full power distortion levels of less than 0.1% THD+N from a 5-V supply are typical.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 Terminal Functions TERMINAL NAME NO.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 absolute maximum ratings over operating free-air temperature range (unless otherwise noted)† Supply voltage, VDD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 V Input voltage, VI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.3 V to VDD +0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 ac operating characteristics, VDD = 5 V, TA = 25°C, RL = 3 Ω (unless otherwise noted) PARAMETER PO Output power ((each channel)) see Note 2 THD+N Total harmonic distortion plus noise BOM Maximum output power bandwidth Phase margin Supply ripple rejection ratio TEST CONDITIONS TYP ZI See Figure 3 2 THD = 1%, BTL, See Figure 3 2.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 PARAMETER MEASUREMENT INFORMATION RF CI MUX RI 4.7 µF CB RL = 3 Ω or 8 Ω SE/BTL HP/LINE Figure 1. BTL Test Circuit RF CI CO MUX RI RL = 3 Ω, 8 Ω, or 32 Ω VDD 4.7 µF CB SE/BTL HP/LINE Figure 2.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS Table of Graphs FIGURE 4, 5, 7, 8, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30 32, 33 vs Frequency THD + N Total harmonic distortion plus noise 3, 6, 9, 10, 13, 16, 19, 22, 25, 28, 31, 34 vs Output power Vn Output noise voltage vs Frequency 35,36 Supply ripple rejection ratio vs Frequency 37,38 Crosstalk vs Frequency 39 – 42 Open loop response vs Frequency 43,44 45, 4
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS 10 VDD = 5 V RL = 4 Ω AV = –2 V/V BTL 1 PO = 1.5 W PO = 2 W, RL = 3 Ω PO = 0.75 W 0.1 PO = 0.25 W TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY 0.01 20 100 1k f – Frequency – Hz 10 VDD = 5 V RL = 3 Ω BTL 1 f = 20 kHz f = 20 Hz 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS 10 TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER VDD = 5 V RL = 8 Ω AV = –2 V/V BTL 1 f = 20 kHz 0.1 f = 1 kHz f = 20 Hz 10 VDD = 3.3 V f = 1 kHz BTL 1 RL = 8 Ω 0.1 0.01 0.01 0.01 0.1 1 PO – Output Power – W 0 10 0.1 0.2 0.3 0.4 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS 10 VDD = 3.3 V RL = 3 Ω AV = –2 V/V BTL f = 20 kHz 1 TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER f = 20 Hz 0.1 f = 1 kHz 0.01 0.1 10 VDD = 3.3 V PO = 0.4 W RL = 8 Ω BTL 1 AV = –20 V/V 0.1 AV = –10 V/V AV = –2 V/V 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS 10 VDD = 5 V PO = 0.5 W RL = 4 Ω SE 1 AV = –10 V/V 0.1 TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY AV = –5 V/V AV = –1 V/V 10 VDD = 5 V RL = 4 Ω AV = –2 V/V SE 1 PO = 0.5 W PO = 0.25 W 0.1 PO = 0.1 W 0.01 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER 10 VDD = 5 V RL = 8 Ω SE THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY 1 0.1 PO = 0.25 W PO = 0.1 W PO = 0.05 W 0.01 20 100 1k 10 k 20 k 10 VDD = 5 V RL = 8 Ω AV = –2 V/V SE 1 f = 20 kHz 0.1 f = 1 kHz f = 100 Hz 0.01 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY 10 THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER VDD = 5 V RL = 32 Ω SE 1 f = 20 kHz 0.1 f = 20 Hz f = 1 kHz 0.01 0.001 10 VDD = 3.3 V PO = 0.2 W RL = 4 Ω SE 1 AV = –10 V/V 0.1 AV = –5 V/V AV = –1 V/V 0.01 0.01 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY 10 THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY VDD = 3.3 V PO = 100 mW RL = 8 Ω SE 1 AV = –10 V/V 0.1 AV = –5 V/V AV = –1 V/V 10 VDD = 3.3 V RL = 8 Ω SE 1 PO = 100 mW PO = 50 mW 0.1 PO = 25 mW 0.01 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS 10 VDD = 3.3 V RL = 32 Ω SE 1 0.1 TOTAL HARMONIC DISTORTION PLUS NOISE vs OUTPUT POWER THD+N –Total Harmonic Distortion + Noise – % THD+N –Total Harmonic Distortion + Noise – % TOTAL HARMONIC DISTORTION PLUS NOISE vs FREQUENCY PO = 20 mW PO = 30 mW 0.01 PO = 10 mW 0.001 20 100 VDD = 3.3 V RL = 32 Ω SE 1 f = 20 kHz 0.1 f = 1 kHz f = 20 Hz 0.01 0.001 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS SUPPLY RIPPLE REJECTION RATIO vs FREQUENCY SUPPLY RIPPLE REJECTION RATIO vs FREQUENCY 0 RL = 4 Ω CB = 4.7 µF BTL –10 –20 Supply Ripple Rejection Ratio – dB Supply Ripple Rejection Ratio – dB 0 –30 –40 –50 –60 VDD = 3.3 V –70 –80 VDD = 5 V –90 RL = 4 Ω CB = 4.7 µF SE –10 –20 –30 –40 –50 VDD = 5 V –60 –70 VDD = 3.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS CROSSTALK vs FREQUENCY –40 CROSSTALK vs FREQUENCY –40 VDD = 5 V PO = 75 mW RL = 32 Ω SE –50 –50 –60 Crosstalk – dB –60 –70 –80 Left to Right –90 –100 –70 Left to Right –80 –90 –100 Right to Left Right to Left –110 –110 –120 –120 100 10 k 20 k 1k 20 100 1k f – Frequency – Hz f – Frequency – Hz Figure 41 Figure 42 10 k 20 k OPEN LOOP RESPONSE 100 VDD = 5 V RL = 4 Ω BTL
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS OPEN LOOP RESPONSE 80 180° VDD = 3.3 V RL = 4 Ω BTL 60 90° Gain – dB 0° 20 Phase Phase 40 Gain 0 –90° –20 –40 0.01 0.1 1 10 100 1000 –180° 10000 f – Frequency – kHz Figure 44 CLOSED LOOP RESPONSE 0° 10 VDD = 5 V AV = –2 V/V PO = 1.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS CLOSED LOOP RESPONSE 0° 10 VDD = 3.3 V AV = –2 V/V PO = 0.75 W BTL 9 8 – 45° 7 – 90° 5 – 135° 4 Phase Gain – dB Gain 6 Phase – 180° 3 2 – 225° 1 0 20 100 1k 10 k – 270° 100 k 200 k f – Frequency – Hz Figure 46 CLOSED LOOP RESPONSE 0° 0 Gain –1 – 45° –2 – 90° –4 –5 – 135° –6 Phase Gain – dB –3 Phase – 180° –7 VDD = 5 V AV = –1 V/V PO = 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS CLOSED LOOP RESPONSE 0° 0 Gain –1 – 45° –2 – 90° –4 –5 – 135° –6 Phase Gain – dB –3 Phase – 180° –7 VDD = 3.3V AV = –1 V/V PO = 0.25 W SE –8 –9 –10 20 100 1k 10 k – 225° – 270° 100 k 200 k f – Frequency – Hz Figure 48 SUPPLY CURRENT vs SUPPLY VOLTAGE OUTPUT POWER vs SUPPLY VOLTAGE 3 30 2.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS OUTPUT POWER vs SUPPLY VOLTAGE 1 OUTPUT POWER vs LOAD RESISTANCE 3 THD+N = 1% SE Each Channel 2.5 PO – Output Power – W PO – Output Power – W 0.8 RL = 4 Ω 0.6 RL = 8 Ω 0.4 THD+N = 1% BTL Each Channel 0.2 2 1.5 VDD = 5 V 1 0.5 RL = 32 Ω VDD = 3.3 V 0 0 2.5 3 3.5 4 4.5 5 VDD – Supply Voltage – V 5.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 TYPICAL CHARACTERISTICS POWER DISSIPATION vs OUTPUT POWER POWER DISSIPATION vs OUTPUT POWER 0.8 0.8 PD – Power Dissipation – W PD – Power Dissipation – W RL = 3 Ω 0.7 0.6 RL = 4 Ω 0.5 0.4 0.3 RL = 8 Ω 0.2 0 0 0.75 0.25 0.5 PO – Output Power – W RL = 4 Ω 0.4 RL = 8 Ω 0.2 RL = 32Ω VDD = 3.3 V BTL Each Channel 0.1 0.6 0 0 1 0.1 0.4 0.2 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 THERMAL INFORMATION The thermally enhanced PWP package is based on the 24-pin TSSOP, but includes a thermal pad (see Figure 58) to provide an effective thermal contact between the IC and the PWB. Traditionally, surface-mount and power have been mutually exclusive terms. A variety of scaled-down TO-220-type packages have leads formed as gull wings to make them applicable for surface-mount applications.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION bridged-tied load versus single-ended mode Figure 59 shows a linear audio power amplifier (APA) in a BTL configuration. The TPA0202 BTL amplifier consists of two linear amplifiers driving both ends of the load. There are several potential benefits to this differential drive configuration but initially consider power to the load.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION bridged-tied load versus single-ended mode (continued) For example, a 68-µF capacitor with an 8-Ω speaker would attenuate low frequencies below 293 Hz. The BTL configuration cancels the dc offsets, which eliminates the need for the blocking capacitors. Low-frequency performance is then limited only by the input network and speaker response.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION Although the voltages and currents for SE and BTL are sinusoidal in the load, currents from the supply are very different between SE and BTL configurations. In an SE application the current waveform is a half-wave rectified shape, whereas in BTL it is a full-wave rectified waveform. This means RMS conversion factors are different.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION For example, if the 5-V supply is replaced with a 3.3-V supply (TPA0202 has a maximum recommended VDD of 5.5 V) in the calculations of Table 1, then efficiency at 0.5 W would rise from 44% to 67% and internal power dissipation would fall from 0.62 W to 0.25 W at 5 V. Then for a stereo 0.5-W system from a 3.3-V supply, the maximum draw would only be 1.5 W as compared to 2.24 W from 5 V.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION CFRLINE 5 pF RFRLINE 50 kΩ RFRHP 10 kΩ CIRLINE 1 µF RIRLINE 10 kΩ 21 RLINEIN 20 RHPIN RIRHP CIRHP 10 kΩ 1 µF CBR 0.1 µF 19 RBYPASS System Control 11 ROUT+ 22 – + ROUT – 15 RVDD 18 9 See Note A Right MUX 8 MUTE IN MUTE OUT SHUTDOWN CSR 0.1 µF (see Note B) Bias, Mute, Shutdown, and SE/BTL MUX Control COUTR 330 µF VDD 100 kΩ 1 kΩ SE/BTL 14 100 kΩ HP/LINE 16 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION gain setting resistors, RF and RI ǒǓ The gain for each audio input of the TPA0202 is set by resistors RF and RI according to equation 5 for BTL mode. BTL Gain + *2 R F R I (5) BTL mode operation brings about the factor 2 in the gain equation due to the inverting amplifier mirroring the voltage swing across the load.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION input capacitor, CI In the typical application an input capacitor, CI, is required to allow the amplifier to bias the input signal to the proper dc level for optimum operation. In this case, CI and RI form a high-pass filter with the corner frequency determined in equation 8.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION midrail bypass capacitor, CB The midrail bypass capacitor, CB, is the most critical capacitor and serves several important functions. During startup or recovery from shutdown mode, CB determines the rate at which the amplifier starts up. The second function is to reduce noise produced by the power supply caused by coupling into the output drive signal.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION VDD 100 kΩ 50 kΩ BYPASS 100 kΩ Figure 64. PNP Transistor Clamping of BYPASS Terminal The PNP transistor limits the voltage drop across the 50 kΩ resistor by slewing the internal node slowly when power is applied. At start-up, the xBYPASS capacitor is at 0. The PNP is pulling the mid-point of the bias circuit down, so the capacitor sees a lower effective voltage, and thus charges slower.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION VDD Right Channel Rm1 100 kΩ SE/BTL 0.1 µF From GPIO Rm2 100 kΩ Left Channel Figure 66. Implementation with a Diode The OR gate and diode isolate the GPIO terminal from the headphone switch. In these implementations, the headphone switch has priority. When the amplifier is in mute mode, the output stage continues to be biased.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION output coupling capacitor, CC In the typical single-supply SE configuration, an output coupling capacitor (CC) is required to block the dc bias at the output of the amplifier thus preventing dc currents in the load. As with the input coupling capacitor, the output coupling capacitor and impedance of the load form a high-pass filter governed by equation 14.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION SE/BTL operation The ability of the TPA0202 to easily switch between BTL and SE modes is one of its most important cost saving features. This feature eliminates the requirement for an additional headphone amplifier in applications where internal stereo speakers are driven in BTL mode but external headphone or speakers must be accommodated.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION Input MUX operation Working in concert with the SE/BTL feature, the HP/LINE MUX feature gives the audio designer the flexibility of a multichip design in a single IC (see Figure 69). The primary function of the MUX is to allow different gain settings for BTL versus SE mode.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION mute and shutdown modes The TPA0202 employs both a mute and a shutdown mode of operation designed to reduce supply current, IDD, to the absolute minimum level during periods of nonuse for battery-power conservation. The SHUTDOWN input terminal should be held low during normal operation when the amplifier is in use.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION headroom and thermal considerations Linear power amplifiers dissipate a significant amount of heat in the package under normal operating conditions. A typical music CD requires 12 dB to 15 dB of dynamic headroom to pass the loudest portions without distortion as compared with the average power output.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION headroom and thermal considerations (continued) Table 4. TPA0202 Power Rating, 5-V, 3-Ω, Stereo PEAK OUTPUT POWER (W) AVERAGE OUTPUT POWER POWER DISSIPATION (W/Channel) MAXIMUM AMBIENT TEMPERATURE 2 2W 1.7 – 3°C 2 1000 mW (3 dB) 1.6 6°C 2 500 mW (6 dB) 1.4 24°C 2 250 mW (9 dB) 1.1 51°C 2 120 mW (12 dB) 0.8 78°C 2 63 mW (15 dB) 0.
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TPA0202 2-W STEREO AUDIO POWER AMPLIFIER SLOS205B – FEBRUARY 1998 – REVISED DECEMBER 2000 APPLICATION INFORMATION headroom and thermal considerations (continued) T A Max + TJ Max * ΘJA PD + 150 * 45 (0.6 2) + 96°C (15 dB headroom, (20) 0 CFM) NOTE: Internal dissipation of 0.6 W is estimated for a 2-W system with 15 dB headroom per channel. Table 4 shows that for some applications no airflow is required to keep junction temperatures in the specified range.
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PACKAGE OPTION ADDENDUM www.ti.
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PACKAGE OPTION ADDENDUM www.ti.
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PACKAGE MATERIALS INFORMATION www.ti.com 14-Aug-2013 TAPE AND REEL INFORMATION *All dimensions are nominal Device TPA0202PWPR Package Package Pins Type Drawing SPQ HTSSOP 2000 PWP 24 Reel Reel A0 Diameter Width (mm) (mm) W1 (mm) 330.0 16.4 Pack Materials-Page 1 6.95 B0 (mm) K0 (mm) P1 (mm) 8.3 1.6 8.0 W Pin1 (mm) Quadrant 16.
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PACKAGE MATERIALS INFORMATION www.ti.com 14-Aug-2013 *All dimensions are nominal Device Package Type Package Drawing Pins SPQ Length (mm) Width (mm) Height (mm) TPA0202PWPR HTSSOP PWP 24 2000 367.0 367.0 38.
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