ti - tas5086-5186v6evm application reportslea054

Application Report SLEA054 - July 2006

TAS5086-5186V6EVM Application Report Tomas Bruunshuus Digital Audio & Video Products

The TAS5086-5186V6EVM PurePath Digital™ customer evaluation module demonstrates the integrated circuits, TAS5086DBT and TAS5186ADDV, from Texas Instruments (TI).

The TAS5086DBT is a high-performance 32-bit (24-bit input) multichannel PurePath Digital™ pulse width modulator (PWM) based on Equibit™ technology, with a fully symmetrical AD modulation scheme.

The TAS5186ADDV is a third-generation, high-performance, integrated stereo digital amplifier power stage designed to drive five 6- loudspeakers up to 30 W (10% THD+N) in single ended (SE) configuration, and one 3- loudspeaker up to 60 W (10% THD+N) in SE configuration. It contains integrated gate drivers, matched and electrically isolated enhancement-mode N-channel power DMOS transistors, and protection/fault-reporting circuitry.

This EVM is configured with six SE channels for satellite channels and a subwoofer channel.

This EVM, together with a TI input-USB board, is a complete 5.1-channel digital audio amplifier system, which includes digital input (S/PDIF), analog inputs, interface to PC, and features such as digital volume control, input and output multiplexers, auto mute, and simple bass management.

This 5.1 system is designed for home-theater applications, such as DVD receivers, DVD mini-component systems, home theater in a box (HTIB), or plasma display panels (PDPs).

This document covers EVM specifications, audio performance, power-efficiency measurement graphs, and design documentation that includes schematics, a parts list, layout, and mechanical design.

For EVM setup and use, please see the TAS5086-5186V6EVM User’s Guide (SLEU073). For gerber (layout) and parts list (MS Exel format), please see the PurePath Digital™ CD-ROM.

The EVM is delivered with cables and an input-USB board to connect to an input source and be controlled from a PC.

1

SLEA054

Contents1 TAS5086-5186V6EVM Specification................................................................................................................................ 4

1.1 THD+N vs Power (Ch 1-5) ........................................................................................................................................ 6 1.2 THD+N vs Power (Ch 6) ........................................................................................................................................... 7 1.3 THD+N vs Frequency (Ch 1)..................................................................................................................................... 8 1.4 THD+N vs Frequency (Ch 6)..................................................................................................................................... 9 1.5 FFT Spectrum With Dithered –60-dB FS Tone (Ch 1) ............................................................................................ 10 1.6 FFT Spectrum With Dithered –60-dB FS Tone (Ch 6) ............................................................................................ 11 1.7 Idle Channel Noise FFT Spectrum (Ch 1) ............................................................................................................... 12 1.8 Idle Channel Noise FFT Spectrum (Ch 6) ............................................................................................................... 13 1.9 Channel Separation (Ch 1) ..................................................................................................................................... 14 1.10 Channel Separation (Ch 6) ..................................................................................................................................... 15 1.11 Frequency Response (Ch 1) ................................................................................................................................... 16 1.12 Frequency Response (Ch 6) ................................................................................................................................... 17 1.13 High Current Protection (Ch 1)................................................................................................................................ 18 1.14 High Current Protection (Ch 6)................................................................................................................................ 19 1.15 Pop/Click (Ch 1) ...................................................................................................................................................... 20 1.16 Pop/Click (Ch 6) ...................................................................................................................................................... 21 1.17 Output Power vs Time (15 min) (Ch1)..................................................................................................................... 22 1.18 Output Power vs Time (15 min) (Ch 6).................................................................................................................... 23 1.19 Output Stage Efficiency........................................................................................................................................... 24

2 References ...................................................................................................................................................................... 25 Appendix A. Design Documents............................................................................................................................................. 26

A.1 TAS5086-5186V6EVM Schematic .......................................................................................................................... 27 A.2 TAS5086-5186V6EVM Parts List ............................................................................................................................ 32 A.3 TAS5086-5186V6EVM PCB Specification .............................................................................................................. 33 A.4 TAS5086-5186V6EVM PCB Layers........................................................................................................................ 34 A.5 TAS5086-5186V6EVM Mechanical Design............................................................................................................. 39

Figures

Figure 1. THD+N vs Power (Ch 1-5) .................................................................................................................................. 6 Figure 2. THD+N vs Power (Ch 6) ..................................................................................................................................... 7 Figure 3. THD+N vs Frequency (Ch 1) .............................................................................................................................. 8 Figure 4. THD+N vs Frequency (Ch 6) .............................................................................................................................. 9 Figure 5. FFT Spectrum With Dithered –60-dB FS Tone (Ch 1) ...................................................................................... 10 Figure 6. FFT Spectrum With Dithered –60-dB FS Tone (Ch 6) ...................................................................................... 11 Figure 7. Idle Channel Noise FFT Spectrum (Ch 1) ......................................................................................................... 12 Figure 8. Idle Channel Noise FFT Spectrum (Ch 6) ......................................................................................................... 13 Figure 9. Channel Separation (Ch 1) ............................................................................................................................... 14 Figure 10. Channel Separation (Ch 6) ............................................................................................................................... 15 Figure 11. Frequency Response (Ch 1) ............................................................................................................................. 16 Figure 12. Frequency Response (Ch 6) ............................................................................................................................. 17 Figure 13. High Current Protection (Ch 1).......................................................................................................................... 18 Figure 14. High Current Protection (Ch 6).......................................................................................................................... 19 Figure 15. Pop/Click (Ch 1)................................................................................................................................................ 20 Figure 16. Pop/Click (Ch 6)................................................................................................................................................ 21 Figure 17. Output Power vs Time (15 min) (Ch 1) ............................................................................................................. 22 Figure 18. Output Power vs Time (15 min) (Ch 6) ............................................................................................................. 23 Figure 19. Output Stage Efficiency .................................................................................................................................... 24

2 TAS5086-5186V6EVM Application Report

SLEA054

Tables Table 1. General Test Conditions......................................................................................................................................4 Table 2. TAS5086 Register Settings .................................................................................................................................4 Table 3. Electrical Data .....................................................................................................................................................4 Table 4. Audio Performance..............................................................................................................................................4 Table 5. Thermal Specification ..........................................................................................................................................5 Table 6. Physical Specifications ........................................................................................................................................5

TAS5086-5186V6EVM Application Report 3

SLEA054

1 TAS5086-5186V6EVM Specification Table 1. General Test Conditions

General Test Conditions Notes Output Stage Supply Voltage: 39 V Laboratory Power Supply (EA-PS 7065-10A) System Supply Voltage: 15 V Load Impedance: 4 ohm 4 ohm for BTL channels (1-6), 3 ohm for PBTL channel (7) Sampling Frequency 48 kHz PWM Processor TAS5086DBT Output Stage TAS5186ADDV TI Input Board Input-USB Rev 5 EVM configuration file ver 2.00 TAS5086-5186V6EVM(2.00).cfg

Table 2. TAS5086 Register Settings Register I2C Address Value Notes Clock Control Register 0x00 6D Input sample rate 48kHz Oscillator Trim Register 0x1B 03 Initiate field trim Split Cap Register 0x1A 1F Set split-cap charge period to 9620ms Master Volume Register 0x07 4E Master volume set to -15dB Modulation Limit Register 0x10 04 Modulation Index set to 96.1%

PWM Start Register 0x18

30 Channel 1-4 set to start part 2 Channel 5-6 set to start part 1

System Control Register 0x05 20 PWM start Note: These register settings are used for all tests, unless otherwise specified. Settings must be applied after each reset.

Table 3. Electrical Data Electrical Data Notes/Conditions Ch 1-5 Output Power, 6 ohm: 24 W / Channel 1 kHz, unclipped (0dBFS), TA = 25°C Ch 1-5 Output Power, 6 ohm: (10% THD+N) 30 W / Channel 1 kHz, TA = 25°C Ch 6 Output Power, 3 ohm: 46 W / Channel 1 kHz, unclipped (0dBFS), TA = 25°C Ch 6 Output Power, 3 ohm: (10% THD+N) 60 W / Channel 1 kHz, TA = 25°C Ch 1-5 Rated Load Impedance: 6 Ohm Ch 6 Rated Load Impedance: 3 Ohm Ch 1-5 Maximum Peak Current: > 5 A 1 kHz burst, 1 ohm, ROC = 18k Ch 6 Maximum Peak Current: > 7 A 1 kHz burst, 1 ohm, ROC = 18k Ch 1-5 Damping Factor: 14 1 kHz, relative to 8 ohm load Ch 6 Damping Factor: 25 1 kHz, relative to 8 ohm load Output Stage Efficiency: 86 % 1 kHz, 2 x 30 W, 6 ohm, 1 x 60 W, 3 ohmSystem Supply Current: <150 mA 1 kHz, -60dBFS signal H-Bridge Supply Current: <120 mA 1 kHz, -60dBFS signal Total Board Idle Power Consumption: 7 W H-Bridge supply + System supply, -60dBFS signal

Table 4. Audio Performance Audio Performance Notes/Conditions Ch 1-5 THD+N, 1 W, 6 ohm: <0.08 % 1 kHz Ch 1-5 THD+N, 10 W, 6 ohm: < 0.15 % 1 kHz Ch 6 THD+N, 1 W, 3 ohm: < 0.05 % 1 kHz Ch 6 THD+N, 10 W, 3 ohm: < 0.05 % 1 kHz Ch 1-5 Dynamic Range: > 105 dB Ref: rated power, A-weighted, AES17 filter Ch 1-5 Noise Voltage < 60 μVrms A-weighted, AES17 filter Ch 6 Dynamic Range: > 105 dB Ref: rated power, A-weighted, AES17 filter Ch 6 Noise Voltage < 50 μVrms A-weighted, AES17 filter Ch 1-5 Click/Pop < 10 mV Mute/Unmute, No signal, 6 ohm Ch 5 Click/Pop < 20 mV Mute/Unmute, No signal, 3 ohm Ch 1-6 Channel Separation > 60 dB 1 kHz, unclipped (0dBFS)Ch 1-5 Frequency Response 200Hz – 20kHz ± 0.5 dB 24 W / 6 ohm, unclipped (0dBFS)Ch 6 Frequency Response 50 – 1kHz - 1 dB 46 W / 3 ohm, unclipped (0dBFS)


SLEA054

Table 5. Thermal Specification

Thermal Specification TPCB* Notes/Conditions Idle, All Channels Switching 37 °C 1 kHz, 15min, -60dBFS signal, TA = 25°C 5x30 W, 6 ohm + 1x60 W, 3 ohm (1/8 power) 53 °C 1 kHz, 1 hour, TA = 25°C 2x30 W, 6 ohm 60 °C 1 kHz, 5min, TA = 25°C * Measured on component side of PCB next to output stage.

Table 6. Physical Specifications

Physical Specifications Notes/Conditions PCB Dimensions: 112 mm x 154 mm Width x Length Total Weight: 250 g Components + PCB + Mechanics Note: All electrical and audio specifications are typical values.


SLEA054

1.1 THD+N vs Power (Ch 1–5) Channels 1 to 5

0.002

20

0.005

0.01

0.02

0.05

0.1

0.2

0.5

1

2

5

10

%

4m 405m 10m 20m 50m 100m 200m 500m 1 2 5 10 20W

Comments: Power supply: 39 Vdc Load: 6 ohm Filter: AES17

Input signal: 1kHz +2.5 dB gain in TAS5086 Sample frequency: 48kHz

5 channels, one trace for each channel, one channel running, rest muted

Figure 1. THD+N vs Power (Ch 1–5)


SLEA054

1.2 THD+N vs Power (Ch 6) Channel 6

0.002

20

0.005

0.01

0.02

0.05

0.1

0.2

0.5

1

2

5

10

%

4m 8010m 20m 50m 100m 200m 500m 1 2 5 10 20 50W


Input signal: 1kHz +2.5 dB gain in TAS5086 Sample frequency: 48kHz

Channel Ch 6 running, rest muted

Figure 2. THD+N vs Power (Ch 6)


SLEA054

1.3 THD+N vs Frequency (Ch 1) Channel 1

0.01

5

0.02

0.05

0.1

0.2

0.5

1

2

%

100 20k200 500 1k 2k 5k 10kHz

Comments: Blue: 1W Green: 10W Red: 23.1W (-0.2dBFS) Sample frequency: 48kHz

Power supply: 39 Vdc Load: 6 ohm Filter: AES17 Note: THD+N at high frequencies depend on the output-filter coil material.

Figure 3. THD+N vs Frequency (Ch 1)


SLEA054

1.4 THD+N vs Frequency (Ch 6) Channel Ch 6

0.006

5

0.01

0.02

0.05

0.1

0.2

0.5

1

2

%

20 20k50 100 200 500 1k 2k 5k 10kHz

Comments: Blue: 1W Green: 10W Red: 44.4W (-0.2dBFS) Sample frequency: 48kHz

Power supply: 39 Vdc Load: 3 ohm Filter: AES17 Note: THD+N at high frequencies depend on the output-filter coil material.

Figure 4. THD+N vs Frequency (Ch 6)


SLEA054

1.5 FFT Spectrum With Dithered –60-dB FS Tone (Ch 1) Channel 1

-150

+0

-140

-130

-120

-110

-100

-90

-80

-70

-60

-50

-40

-30

-20

-10

dBr A

0 22k2k 4k 6k 8k 10k 12k 14k 16k 18k 20kHz


Input signal: 1kHz Sample frequency: 48kHz FFT size: 16k Reference: 12.03 volt = full scale

Figure 5. FFT Spectrum With Dithered –60-dB FS Tone (Ch 1)


SLEA054

1.6 FFT Spectrum With Dithered –60-dB FS Tone (Ch 6) Channel 6

-150

+0

-140

-130

-120

-110

-100

-90

-80

-70

-60

-50

-40

-30

-20

-10

dBr A

0 22k2k 4k 6k 8k 10k 12k 14k 16k 18k 20kHz


Input signal: 1kHz Sample frequency: 48kHz FFT size: 16k Reference: 11.81 volt = full scale

Figure 6. FFT Spectrum With Dithered –60-dB FS Tone (Ch 6)


SLEA054

1.7 Idle Channel Noise FFT Spectrum (Ch 1) Channel 1

-150

+0

-140

-130

-120

-110

-100

-90

-80

-70

-60

-50

-40

-30

-20

-10

dBr A

0 85k5k 10k 15k 20k 25k 30k 35k 40k 45k 50k 55k 60k 65k 70k 75k 80kHz

Comments: Power supply: 39 Vdc Load: 6 ohm FFT size: 16k Reference: 12.03 volt = full scale

Input signal: Mute Sample frequency: 48kHz

Figure 7. Idle Channel Noise FFT Spectrum (Ch 1)


SLEA054

1.8 Idle Channel Noise FFT Spectrum (Ch 6) Channel 6

-150

+0

-140

-130

-120

-110

-100

-90

-80

-70

-60

-50

-40

-30

-20

-10

dBr A

0 85k5k 10k 15k 20k 25k 30k 35k 40k 45k 50k 55k 60k 65k 70k 75k 80kHz

Comments: Power supply: 39 Vdc Load: 3 ohm FFT size: 16k Reference: 11.81 volt = full scale

Input signal: Mute Sample frequency: 48kHz

Figure 8. Idle Channel Noise FFT Spectrum (Ch 6)


SLEA054

1.9 Channel Separation (Ch 1) Channel 1, 2 and 6

-100

+20

-90

-80

-70

-60

-50

-40

-30

-20

-10

+0

+10

dBr A

100 20k200 500 1k 2k 5k 10kHz

Comments: Blue: Channel 1 Green: Channel 2 Red: Channel 6

Input channel 1: 0dBFS Load: (6/3) ohm Sample frequency: 48kHz Reference:12.00 volt

Input channel 2 & 6: Mute Filter: AES17 Power supply: 39 Vdc

Figure 9. Channel Separation (Ch 1)


SLEA054

1.10 Channel Separation (Ch 6) Channel 6, 1, and 2

-100

+20

-90

-80

-70

-60

-50

-40

-30

-20

-10

+0

+10

dBr A

20 20k50 100 200 500 1k 2k 5k 10kHz

Comments: Blue: Channel 1 Green: Channel 2 Red: Channel 6

Input channel 6: 0dBFS Load: (6/3) ohm Sample frequency: 48kHz Reference:12.00 volt

Input channel 1 & 2: Mute Filter: AES17 Power supply: 39 Vdc

Figure 10. Channel Separation (Ch 6)


SLEA054

1.11 Frequency Response (Ch 1) Channel 1

-10

+10

-9

-8

-7

-6

-5

-4

-3

-2

-1

+0

+1

+2

+3

+4

+5

+6

+7

+8

+9

-2.765

+0dB

20 20k50 100 200 500 1k 2k 5k 10k50.2367 1.00237k

FREQUENCY Hz

dx=.952137 kHz dy=-2.765 dB

Comments: Blue: 3 ohm Red: 6 ohm Power supply: 39 Vdc

Input signal: 1kHz Sample frequency: 48kHz Filter: 80 kHz

Figure 11. Frequency Response (Ch 1)


SLEA054

1.12 Frequency Response (Ch 6) Channel 6

-10

+10

-9

-8

-7

-6

-5

-4

-3

-2

-1

+0

+1

+2

+3

+4

+5

+6

+7

+8

+9

-3.269

+0dB

20 20k50 100 200 500 1k 2k 5k 10k20.0014 1.00237k

FREQUENCY Hz

dx=.982372 kHz dy=-3.269 dB

Comments: Blue: 3 ohm Red: 6 ohm Power supply: 39 Vdc

Input signal: 1kHz Sample frequency: 48kHz Filter: 80 kHz

Figure 12. Frequency Response (Ch 6)


SLEA054

1.13 High Current Protection (Ch 1) Channel 1

-20

20

-17.5

-15

-12.5

-10

-7.5

-5

-2.5

0

2.5

5

7.5

10

12.5

15

17.5

5.558

-5.542

PEAKCURRENT A

0 3m500u 1m 1.5m 2m 2.5m1.412m.953m

TIME (sec)

dx=-458.8 usec dy=-11.10 V

Comments: Blue: 1 ohm

Input signal: 1kHz Sample frequency: 48kHz Power supply: 39 Vdc

Figure 13. High Current Protection (Ch 1)


SLEA054

1.14 High Current Protection (Ch 6) Channel 6

-20

20

-17.5

-15

-12.5

-10

-7.5

-5

-2.5

0

2.5

5

7.5

10

12.5

15

17.5

-8.298

7.94PEAKCURRENT A

0 3m500u 1m 1.5m 2m 2.5m1.447m.9647m

TIME (sec)

dx=-482.4 usec dy=16.24 V

Comments: Blue: 1 ohm

Input signal: 1kHz Sample frequency: 48kHz Power supply: 39 Vdc

Figure 14. High Current Protection (Ch 6)


SLEA054

1.15 Pop/Click (Ch 1) Channel 1

-50m

50m

-40m

-30m

-20m

-10m

0

10m

20m

30m

40m

V

0 4m500u 1m 1.5m 2m 2.5m 3m 3.5msec

Comments: Blue: 4.1s startup delay (1C) Red: 7.2s startup delay (1E) Filter: AES17

Load: 6 ohm Input signal: 1kHz Sample frequency: 48kHz Power supply: 39 Vdc

Figure 15. Pop/Click (Ch 1)


SLEA054

1.16 Pop/Click (Ch 6) Channel 6

-50m

50m

-40m

-30m

-20m

-10m

0

10m

20m

30m

40m

V

0 4m500u 1m 1.5m 2m 2.5m 3m 3.5msec

Comments: Blue: 4.1s startup delay (1C) Red: 7.2s startup delay (1E) Filter: AES17

Load: 3 ohm Input signal: 1kHz Sample frequency: 48kHz Power supply: 39 Vdc

Figure 16. Pop/Click (Ch 6)


SLEA054

1.17 Output Power vs Time (15 min) (Ch 1) Channel 1

0

30

2

4

6

8

10

12

14

16

18

20

22

24

26

28

24.0224.12

W

0 .9k50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850847.254.09

sec

dx=-793.1 sec dy=96.14 mW

Comments: Ch 1 Ouput Power: 24 W Power supply: 39 Vdc

Ch 1 Load: 6 ohm Input signal: 1kHz

Sample frequency: 48kHz

All channels preheated 1 hour at 1/8 output power.

Figure 17. Output Power vs Time (15 min) (Ch 1)


SLEA054

1.18 Output Power vs Time (15 min) (Ch 6) Channel 6

0

60

2.5

5

7.5

10

12.5

15

17.5

20

22.5

25

27.5

30

32.5

35

37.5

40

42.5

45

47.5

50

52.5

55

57.5

45.7545.86

W

0 .9k50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850847.754.01

sec

dx=-793.7 sec dy=109.4 mW

Comments: Ch 6 Ouput Power: 45 W Power supply: 39 Vdc

Ch 6 Load: 3 ohm Input signal: 1kHz

Sample frequency: 48kHz

All channels preheated 1 hour at 1/8 output power.

Figure 18. Output Power vs Time (15 min) (Ch 6)


SLEA054

1.19 Output Stage Efficiency All Channels (Ch 1, Ch 2, and Ch 6)

0

100

5

10

15

20

25

30

35

40

45

50

55

60

65

70

75

80

85

90

95

79.9

86.71

EFFICIENCY

%

0 12010 20 30 40 50 60 70 80 90 100 11032.76 118.8

3 CH OUTPUT POWER W

dx=86.09 FFS dy=6.805 V

Comments: Blue: All ch output power Power supply: 39 Vdc Loads: 3 and 6 ohm

Input signal: 1kHz Sample frequency: 48kHz

Figure 19. Output Stage Efficiency


SLEA054

2 References

1. System Design Considerations for True Digital Audio Power Amplifiers (SLAA117) 2. Digital Audio Measurements (SLAA114) 3. Using the TAS5086 PurePath Digital™ PWM Processor (SLEA046) 4. PSRR for PurePath Digital™ Audio Amplifiers (SLEA049) 5. TAS5086, PurePath Digital™ Audio Six-Channel PWM Processor (SLES131) 6. Power Rating in Audio Amplifiers (SLEA047) 7. TAS5186A, 6-Channel 210-W Digital Amplifier Power Stage (SLES156) 8. PurePath Digital™ AM Interference Avoidance (SLEA040) 9. Click & Pop Measurements Technique (SLEA044) 10. Power-Supply Recommendations for DVD Receivers (SLEA027)


SLEA054

Appendix A. Design Documents

A.1 TAS5086-5186V6EVM Schematics

A.2 TAS5086-5186V6EVM Parts List

A.3 TAS5086-5186V6EVM PCB Specification

A.4 TAS5086-5186V6EVM PCB Layers

A.5 TAS5086-5186V6EVM Heatsink Drawing

Version 6.00

Version 4.00

Version 3.00

Version 3.00

Version 3.00

5 pages

1 page

1 page

5 pages

1 page


5

5

4

4

3

3

2

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D D

C C

B B

A A

Rev:

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TIDIGITAL AUDIO & VIDEO DIVISION

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Schematic Disclaimer

A758-SCH-001.DSN

TAS5086-5186V6EVM

1 5Tuesday, June 06, 2006

Parts List No.3

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A758-SCH-001.DSN

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Parts List No.3

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A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

SCHEMATIC DISCLAIMER

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TAS5086-5186V6EVM

Page1/5: Front Page and Schematic Disclaimer2/5: Overview - Modulator, Input/Output Connectors3/5: 6 Channel SE Power Stage4/5: Power Supplies

Design Name:

Version:Date:Design Engineer:

Audio Configuration:

Interfaces:

File Name: A758-SCH-001(6.00).DSN6.0006-06-2006Tomas Bruunshuus

5.1 PurePath Digital Amplifier Design

1 x TAS5086, 1 x TAS5186ADDV

Setup:

Type: Mass Market Evaluation Module

J40: 34 pin IDC Header for Control, I2C and +5VJ60: 16 pin IDC Header for I2S AudioJ101-J106: 2 pin 3.96mm Headers for SpeakersJ901: 4 pin 3.96mm Header for H-Bridge and System Power Supply

5 x 6 ohm and 1 x 3 ohm Speaker Loads

TI

Copyright 2006 Texas Instruments, Inc - All rights reserved - The TI and PurePath Digital logos are trademarks of Texas Instruments.

+39V H-Bridge and +15V System Power Supplies

Performance: 5 x 30W/6ohm + 1 x 60W/3ohm - all 10% THD+N>100dB Dynamic Range

with Stereo Headphone and Stereo Line Output

5/5: Mechanics

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

/PDN/MUTE/BKND_ERR

/TW

/SD

/RESET

SCL

SDA

SDIN1

SDIN2

SDIN3

SCLKLRCLK

SDA

SCL

SDIN4

/RESET_MODULATOR

/MUTE

/PDN

MCLK

/BKND_ERR

SDIN1

MCLK

SDIN2

SDIN3

SCLK

LRCLK

SDIN4

/TW

/SD

/RESET_MODULATOR

/RESET

PROTECT

/RESET

/SD

/VALID2

PROTECT

GND

GND

PVDD

+5V

GND

+5V

GND

GND

GVDD

+3.3V

+3.3V

+3.3V

GVDD

PVDD

+3.3V

GND

GND

+3.3V

GND

+3.3V

GND Rev:

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Tomas Bruunshuus

Overview

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Tomas Bruunshuus

Overview

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Overview

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

SPEAKER OUTPUTCH 5

CENTER

SPEAKER OUTPUTCH 6

LFE SUBWOOFER

TAS5086-5186V6EVM

SPEAKER OUTPUTCH 2

FRONT RIGHT

SPEAKER OUTPUTFRONT LEFT

CH 1

SPEAKER OUTPUTCH 3

REAR LEFT

SPEAKER OUTPUTCH 4

REAR RIGHT

ERROR LATCH

R23 10kR23 10k1 2

R4410kR4410k

12

C26100nFC26100nF

21

C21100nFC21100nF

21

R4110kR4110k

12

J102J1021

2

U10

TAS5086DBT

U10

TAS5086DBT

VR_ANA1

AVDD2

AVSS3

AVSS4

PLL_FLTM5

PLL_FLTP6

AVSS7

MCLK8

RESET9

PDN10

DVDD11

DVSS12

DVSS_OSC13

OSC_RES14

VR_OSC15

MUTE16

SDA17

SCL18

LRCLK19 SCLK 20

RESERVED 21

SDOUT 22

SDIN4 23

SDIN3 24

SDIN2 25

SDIN1 26

BKND_ERR 27

DVSS 28

DVSS 29

VR_DIG 30

VALID1 31

VALID2 32

PWM_1 38

PWM_2 37

PWM_3 36

PWM_4 35

PWM_5 34

PWM_6 33

R531.0kR531.0k

1 2

C2010uFC2010uF

12

J40

34 p

ins

IDC

Box

hea

der

J40

34 p

ins

IDC

Box

hea

der

1234567891011

13141516

12

171819202122232425262728293031323334

R56 200RR56 200R

1 2

R4610kR4610k

12

C8010nFC8010nF

21

C11100nFC11100nF

21

R62 47RR62 47R1 2

R501.0kR501.0k

1 2

R7110kR7110k

12

Q82MMBT2907AQ82MMBT2907A

2

1

3

C14100nFC14100nF

21

R8110kR8110k

12

R65 47RR65 47R1 2

R541.0kR541.0k

1 2

J105J1051

2

R8010kR8010k

12

R8310kR8310k

12

Q81PMBT2222Q81PMBT2222

13

2

C25100nFC25100nF

21

R4010kR4010k

12

R24 Not UsedR24 Not Used1 2

R7010kR7010k

12

C17100nFC17100nF

21

CHANNEL 1-6

Output Stage (SE)

PWM_A

PWM_B

PWM_C

PWM_D

OUT_A

OUT_B

GVDD

/TW

OUT_C

OUT_D

/SD

PVDD

GND_D

GND_C

GND_B

GND_A

PWM_E

PWM_F

/VALID2

/VALID1

GND_E

OUT_E

OUT_F

GND_F

PROTECT

R66 47RR66 47R1 2

R4710kR4710k

12

R58 1.0kR58 1.0k

1 2

J106J1061

2

R55 200RR55 200R1 2

U908

TPS3801K33

U908

TPS3801K33

GND1

GND2

RESET3 VDD 4

MR 5

R60 47RR60 47R1 2

R63 47RR63 47R1 2

C1010nFC1010nF

21

R6710kR6710k

12

R57 1.0kR57 1.0k1 2

J104J1041

2

C22100nFC22100nF

21

R82

10k

R82

10k

1 2

C8110nFC8110nF

21

R6910kR6910k

12

C60100nFC60100nF

21

J103J1031

2

R7310kR7310k

12

C1310nFC1310nF

21

C12100nFC12100nF

21

R74 Not UsedR74 Not Used1 2

J60

16 p

ins

IDC

Box

hea

der

J60

16 p

ins

IDC

Box

hea

der

1234567891011

13141516

12

R10200RR10200R

12

R521.0kR521.0k

1 2

R4510kR4510k

12

R61 47RR61 47R1 2

R1818.0kR1818.0k

1 2

Q80MMBT2907AQ80MMBT2907A

2

1

3

R64 47RR64 47R1 2

Power Supplies

GVDD

PVDD

+5V

+3.3V

J101J1011

2

R11200RR11200R

12

R6810kR6810k

12

R4210kR4210k

12

R7210kR7210k

12

R4310kR4310k

12

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

GND_B

GVDD

/SD

/TW

PWM_E

PWM_F

/VALID1

PWM_A

PWM_C

PWM_B

PWM_D

GVDD

/VALID2

GND_D

GND_C

GND_F

GND_E

OUT_F

OUT_E

OUT_D

OUT_C

OUT_B

GND_A

OUT_A

PVDD

PVDD

Split_Cap

PROTECT

Split_Cap

Split_Cap

Split_Cap

Split_Cap

Split_Cap

Split_Cap

GND

GND

GND

GND

GND

GND

GND

GND GND

GND GND

GND GND

GND GND

GND GND

GND

GND

GND

Rev:

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Tomas Bruunshuus

Power Stage

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

Engineer:

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Size: A2

6.00

Tomas Bruunshuus

Power Stage

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

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Tomas Bruunshuus

Power Stage

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Patents pending in circuitry design and layout (WO99/59241 & WO99/59242). This circuitry may only be used together with the integrated circuit TAS5186 from Texas Instruments Incorporated.

POWER OUTPUT STAGE (SE)

LAYOUT NOTE:PLACE NEARSPEAKER PINS

DESIGN NOTE:SPLIT CAPS

DESIGN NOTE:DEMODULATIONFILTER

DESIGN NOTE:FILTER DISCHARGE

DESIGN NOTE:EMI/ESD SNUBBERS

LAYOUT NOTE:PLACE AFTERFILTER CAPS

LAYOUT NOTE:PLACE AFTERSPLIT CAPS

LAYOUT NOTE:PLACE AFTERHEATSINK

C1021uF0805

C1021uF0805 2

1

R1611.00R0805

R1611.00R0805

12

C105100nF

080550V

C105100nF

080550V

21

R1211k8SFR16

R1211k8SFR16

12

R1231k8SFR16

R1231k8SFR16

12

U100

TAS5186A

U100

TAS5186A

PGND1

PWM_F2

GVDD_DEF3

VDD4

PWM_E5

PWM_D6

RESET7

M38

M29

M110

GND11

AGND12

VREG13

OC_ADJ14

SD15

OTW16

PWM_B18

PWM_A19

GVDD_ABC20

BST_BIAS21

OUT_BIAS22 BST_A 23

PVDD_A 24

OUT_A 25

PGND 26

OUT_B 27

PVDD_B 28

BST_B 29

BST_C 30

PVDD_C 31

OUT_C 32

PWM_C17

PVDD_D 36

OUT_D 35

PGND 34

PGND 33

BST_D 37

BST_E 38

PVDD_E 39

OUT_E 40

PGND 41

OUT_F 42

PVDD_F 43

BST_F 44

R1711.00R0805

R1711.00R0805

12

C17010nF50V0805

C17010nF50V0805 2

1 C17110nF50V0805

C17110nF50V08052

1

C107100nF

080550V

C107100nF

080550V

21

C11410nF

1206200V

C11410nF

1206200V

21

R158100k0603

R158100k0603

1 2

R11715RSFR16

R11715RSFR16

12

L14210uH

8020P-02-100LKwang Sung

L14210uH


1 2

C129270uF50V

C129270uF50V

12

C144470nF63V

C144470nF63V

21

R1701.00R0805

R1701.00R0805

12

R159100k0603

R159100k0603

1 2

R11310k0603

R11310k0603

1 2

C17810nF50V0805

C17810nF50V08052

1

C17610nF50V0805

C17610nF50V08052

1

R11610.0k0805

R11610.0k0805

1 2

R1542.70k1206

R1542.70k1206

12

C128270uF50V

C128270uF50V

12

C1001uF0805

C1001uF0805 2

1

C11310nF

1206200V

C11310nF

1206200V

21

R1691.00R0805

R1691.00R0805

12

C16810nF50V0805

C16810nF50V0805 2

1

R172100k0603

R172100k0603

1 2

C11010nF

1206200V

C11010nF

1206200V

21

C1251200uF50V

C1251200uF50V

12

L14120uH


L14120uH


1 2

L14320uH


L14320uH


1 2

C17910nF50V0805

C17910nF50V0805 2

1

C17710nF50V0805

C17710nF50V0805 2

1

C16110nF50V0805

C16110nF50V08052

1

R1201k8SFR16

R1201k8SFR16

12

C1421uF63V

C1421uF63V

21

R173100k0603

R173100k0603

1 2

Q102

MMBT2907A

Q102

MMBT2907A

2

1

3

C18010nF50V0805

C18010nF50V08052

1

R1251k8SFR16

R1251k8SFR16

12

R114

100k0603

R114

100k0603

12

R1681.00R0805

R1681.00R0805

12

R1522.70k1206

R1522.70k1206

12

C1241200uF50V

C1241200uF50V

12

C108100nF

080550V

C108100nF

080550V

21

C140470nF63V

C140470nF63V

21

C17210nF50V0805

C17210nF50V08052

1

R1241k8SFR16

R1241k8SFR16

12

R1651.00R0805

R1651.00R0805

12

C16410nF50V0805

C16410nF50V0805 2

1 C16510nF50V0805

C16510nF50V08052

1

L14520uH


L14520uH


1 2

C123270uF50V

C123270uF50V

12

C16910nF50V0805

C16910nF50V08052

1

C127270uF50V

C127270uF50V

12

C17410nF50V0805

C17410nF50V08052

1

C106100nF

080550V

C106100nF

080550V

21

C121270uF50V

C121270uF50V

12

C16010nF50V0805

C16010nF50V0805 2

1

C10310nF0805

C10310nF0805 2

1

C18110nF50V0805

C18110nF50V0805 2

1

C101100nF 0603

C101100nF 0603

21

C141470nF63V

C141470nF63V

21

C143470nF63V

C143470nF63V

21 R153

2.70k1206

R1532.70k1206

12

C126270uF50V

C126270uF50V

12

C104100nF

080550V

C104100nF

080550V

21

R1641.00R0805

R1641.00R0805

12

C120270uF50V

C120270uF50V

12

C11510nF

1206200V

C11510nF

1206200V

21

R1512.70k1206

R1512.70k1206

12

C122270uF50V

C122270uF50V

12

R1631.00R0805

R1631.00R0805

12

C16210nF50V0805

C16210nF50V0805 2

1

R1601.00R0805

R1601.00R0805

12

R1671.00R0805

R1671.00R0805

12

C16610nF50V0805

C16610nF50V0805 2

1

Q103

MMBT2907A

Q103

MMBT2907A

2

1

3

R122470RSFR16

R122470RSFR16

12

C11110nF

1206200V

C11110nF

1206200V

21

C18210nF50V0805

C18210nF50V08052

1

C17510nF50V0805

C17510nF50V0805 2

1 C16310nF50V0805

C16310nF50V08052

1

R156100k0603

R156100k0603

1 2

C131270uF50V

C131270uF50V

12

C16710nF50V0805

C16710nF50V08052

1

C18410uF16V

C18410uF16V

1 2

R1502.70k1206

R1502.70k1206

12

C11210nF

1206200V

C11210nF

1206200V

21

C145470nF63V

C145470nF63V

21

R10318.2k 0603

R10318.2k 0603

1 2

L14420uH


L14420uH


1 2

C18310nF50V0805

C18310nF50V0805 2

1

C17310nF50V0805

C17310nF50V0805 2

1

R1621.00R0805

R1621.00R0805

12

C109100nF

080550V

C109100nF

080550V

21

R1661.00R0805

R1661.00R0805

12

L14020uH


L14020uH


1 2

R157100k0603

R157100k0603

1 2

R1552.70k1206

R1552.70k1206

12

C130270uF50V

C130270uF50V

12

R11510.0k0805

R11510.0k0805

1 2

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

PVDD

+3.3V

+5V

GVDD

GND

GND GND GND

GND

GNDGND

GND

GND

GND

GNDGND

GND

GND

Rev:

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File Name:

Date:

Engineer:

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6.00

Tomas Bruunshuus

Power Supply

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

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6.00

Tomas Bruunshuus

Power Supply

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

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Tomas Bruunshuus

Power Supply

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

POWER SUPPLIES

LAYOUT NOTE:EMI SNUBBERPLACE TO THE RIGHT OF U100

LAYOUT NOTE:EMI SNUBBERPLACE TO THE LEFT OF U100

LAYOUT NOTE:EMI SNUBBERPLACE NEARJ901 PIN 1

LAYOUT NOTE:EMI SNUBBERPLACE NEARJ901 PIN 2

U902 TPS73033U902 TPS73033

IN1

GND2

EN3 NR 4

OUT 5

C913150uF35V

C913150uF35V

12

R9511.00R0805

R9511.00R0805

12

C912150uF35V

C912150uF35V

12

C910100nF0603

C910100nF06032

1

R9001.00R0805

R9001.00R0805

12

C923100nF0603

C923100nF06032

1

C909100nF0805

C909100nF08052

1

C915100nF0805

C915100nF08052

1

C95310nF080550V

C95310nF080550V

21

C922100nF0603

C922100nF06032

1

C90110nF080550V

C90110nF080550V

21

C925 10nF0603

C925 10nF0603

21

C91110uF16V

C91110uF16V

12

C954100nF080550V

C954100nF080550V

21

C905100nF080550V

C905100nF080550V 2

1

J901

Header

J901

Header

1

2

3

4

C92410uF16V

C92410uF16V

12

C92110uF16V

C92110uF16V

12

C900100nF080550V

C900100nF080550V

21

C908100nF0805

C908100nF08052

1

R9031.00R0805

R9031.00R0805

12

C907150uF35V

C907150uF35V

12

C90610nF080550V

C90610nF080550V2

1

U903

UA78L12A

U903

UA78L12A

IN3 OUT 1

GN

D2

U901

LM2594M-5VSO8

U901

LM2594M-5VSO8

NC1

NC2

NC3

FB4 ON/OFF 5

GND 6

VIN 7

OUTPUT 8

R9521.00R0805

R9521.00R0805

12

C952100nF080550V

C952100nF080550V

21

C95510nF080550V

C95510nF080550V

21

D90110MQ040NSMA

D90110MQ040NSMA

L900220uHL900220uH

1 2

R90110.0k1206

R90110.0k1206

12

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

GND

Rev:

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Project:

File Name:

Date:

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Tomas Bruunshuus

Mechanics

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

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Tomas Bruunshuus

Mechanics

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

Rev:

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Project:

File Name:

Date:

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Tomas Bruunshuus

Mechanics

A758-SCH-001.DSN

TAS5086-5186V6EVM


Parts List No.3

MECHANICS

HEAT SINK

HEATSINK630

TIC-HSINK-020(3.00)HEAT SINK

HEATSINK630

TIC-HSINK-020(3.00)

STANDOFF622

M3x10

STANDOFF622

M3x10

MH605MH6051

STANDOFF621

M3x10

STANDOFF621

M3x10

MH600MH6001

STANDOFF620

M3x10

STANDOFF620

M3x10

WASHER623

M3

WASHER623

M3

SCREW630

M3x6

SCREW630

M3x6

MH602MH6021

SCREW622

M3x6

SCREW622

M3x6

SCREW631

M3x6

SCREW631

M3x6

WASHER631

M3

WASHER631

M3

STANDOFF623

M3x10

STANDOFF623

M3x10

MH601MH6011

WASHER630

M3

WASHER630

M3

SCREW621

M3x6

SCREW621

M3x6

WASHER620

M3

WASHER620

M3

MH604MH6041

SCREW623

M3x6

SCREW623

M3x6

WASHER621

M3

WASHER621

M3

WASHER622

M3

WASHER622

M3

SCREW620

M3x6

SCREW620

M3x6

MH603MH6031

PCB

PCB610

A758-PCB-001(3.00)

PCB

PCB610

A758-PCB-001(3.00)

TAS5086-5186V6EVM Parts List (4.00)

tiQty Part Reference Description Manufacture First Mfr P/N

1 R901 10.0k/250mW 1% 1206 Metal Film Resistor BC Components DCA 1206 1% 10k06 R150 R151 R152 R153 R154 R155 2.70k/250mW 1% 1206 Metal Film Resistor BC Components DCA 1206 1% 2k702 R115 R116 10.0k/125mW 1% 0805 Metal Film Resistor BC Components DCU 0805 1% 10k0

16

R160 R161 R162 R163 R164 R165 R166 R167 R168 R169 R170 R171 R900 R903 R951 R952 1.00R/125mW 1% 0805 Metal Film Resistor BC Components DCU 0805 1% 1R00

6 R50 R52 R53 R54 R57 R58 1.0k/100mW 5% 0603 Metal Film Resistor BC Components DCT 0603 5% 1k00

21

R23 R40 R41 R42 R43 R44 R45 R46 R47 R67 R68 R69 R70 R71 R72 R73 R80 R81 R82 R83 R113 10k/100mW 5% 0603 Metal Film Resistor BC Components DCT 0603 5% 10k0

7R114 R156 R157 R158 R159 R172 R173 100k/100mW 5% 0603 Metal Film Resistor BC Components DCT 0603 5% 100k

1 R18 18.0k/100mW 1% 0603 Metal Film Resistor BC Components DCT 0603 1% 18k01 R103 18.2k/100mW 1% 0603 Metal Film Resistor BC Components DCT 0603 1% 18k24 R10 R11 R55 R56 200R/100mW 5% 0603 Metal Film Resistor BC Components DCT 0603 5% 200R7 R60 R61 R62 R63 R64 R65 R66 47R/100mW 5% 0603 Metal Film Resistor BC Components DCT 0603 5% 47R01 R117 15R/500mW 5% SFR16 Metal Film Resistor BC Components SFR16S-15R-55 R120 R121 R123 R124 R125 1k8/500mW 5% SFR16 Metal Film Resistor BC Components SFR16S-1k80-51 R122 470R/500mW 5% SFR16 Metal Film Resistor BC Components SFR16S-470R-5

29

C103 C160 C161 C162 C163 C164 C165 C166 C167 C168 C169 C170 C171 C172 C173 C174 C175 C176 C177 C178 C179 C180 C181 C182 C183 C901 C906 C953 C955 Ceramic 10nF/50V 20% X7R 0805 Capacitor BC Components 0805B103M500NT

13

C104 C105 C106 C107 C108 C109 C900 C905 C908 C909 C915 C952 C954 Ceramic 100nF/50V 20% X7R 0805 Capacitor BC Components 0805B104M500NT

2 C100 C102 Ceramic 1uF/16V 20% X7R 0805 Capacitor BC Components 0805B105M160NT6 C110 C111 C112 C113 C114 C115 Ceramic 10nF/200V 10% X7R 1206 Capacitor BC Components 1206B103K201NT5 C10 C13 C80 C81 C925 Ceramic 10nF/50V 20% X7R 0603 Capacitor BC Components 0603B103M500NT

13C11 C12 C14 C17 C21 C22 C25 C26 C60 C101 C910 C922 C923 Ceramic 100nF/16V 20% X7R 0603 Capacitor BC Components 0603B104M160NT

5 C20 C184 C911 C921 C924Electrolytic 10uF/16V 20% Aluminium 1.5mm ø4mm Ultra-Mini Series Capacitor

Sang Jing Electronics UMR16V106M4X5

2 C124 C125Electrolytic 1200uF/50V 20% Aluminium 7.5mm ø16mm FC Series - Low Impedance Capacitor Panasonic EEUFC1H102

3 C907 C912 C913Electrolytic 150uF/35V 20% Aluminium 3.5mm ø8mm FC Series - Low Impedance Capacitor Panasonic EEUFC1V151

10C120 C121 C122 C123 C126 C127 C128 C129 C130 C131

Electrolytic 270uF/50V 20% Aluminium 5mm ø10mm FC Series - Low Impedance Capacitor Panasonic EEUFC1H271

1 C142Metal Film 1uF/63V 10% Polyester 5mm (W:5.0mm L:7.2mm) Capacitor Wima

MKS 2 1uF/10%/63Vdc PCM5

5 C140 C141 C143 C144 C145Metal Film 470nF/63V 10% Polyester 5mm (W:4.5mm L:7.2mm) Capacitor Wima

MKS 2 0.47uF/10%/63Vdc PCM5

1 L900220uH/0.5A 20% (390mR) Magnetically shielded FerriteInductor CoilCraft DT3316P-224

1 L142 10uH/Ferrite Inductor Kwang Sung 8020P-02-100L5 L140 L141 L143 L144 L145 20uH/Ferrite Inductor Kwang Sung 8020P-01-200L1 D901 1A/40V Schottky Diode (SMA) Int. Rectifier 10MQ040N1 Q81 600mA/40V NPN Small signal Transistor (SOT-23) Philips PMBT22224 Q80 Q82 Q102 Q103 800mA/40V PNP Small signal Transistor (SOT-23) Fairchild MMBT2907A

1 U106 ch PWM processor (SE, VOL, 192kHz, I2S out) (TSSOP38) Texas Instruments TAS5086DBT

1 U1006 ch (SE) or 3 ch (BTL) Digital Audio PWM Power Output Stage (DDV44) Texas Instruments TAS5186ADDV

1 U908 3.3V Supply Voltage Supervisor (SOT323-5) Texas Instruments TPS3801K33DCK1 U903 12V, 100mA Fixed Positive Voltage Regulator (SOT89) Texas Instruments UA78L12ACPK1 U901 5V/0.5A Buck Converter (SO8) National Semi. LM2594M-5.0V

1 U902 Low-Noise, High PSRR, 200-mA Low-Dropout (SOT23-5) Texas Instruments TPS73033DBVR

6SCREW620 SCREW621 SCREW622 SCREW623 SCREW630 SCREW631 M3x6, Pan Head, Pozidriv, A2 Screw Bossard BN 81882 M3x6

6 WASHER620 WASHER621 WASHER6M3 Stainless Steel Washer Bossard BN 670 M3

4STANDOFF620 STANDOFF621 STANDOFF622 STANDOFF623 M3x10 Aluminium Stand-off Ettinger 05.03.108

6 J101 J102 J103 J104 J105 J106 2 pins/1 row/3.96mm Pitch Vertical Male Pin header JST B2P-VH1 J901 4 pins/1 row/3.96mm Pitch Vertical Male Pin header JST B4P-VH1 J60 16 pins/2 rows/2.54mm Pitch Vertical Male IDC Molex 87256-16111 J40 34 pins/2 rows/2.54mm Pitch Vertical Male IDC Molex 87256-34111 PCB610 TAS5086-5186V6EVM Printed Circuit Board (ver. 3.00) Printline A758-PCB-001(3.00)1 HEATSINK630 Heatsink for 1 DDV device A.K.S. TIC-HSINK-020(3.00)

1 of 1 24-1-2006 / TBS

TI TAS5086-5186V6EVM (A758)

Jonas Svendsen

Page 1 of 1

TAS5086-5186V6EVM (A758) PCB SPECIFICATION

Version 3.00

BOARD IDENTIFICATION: A758-PCB-001(3.00)

BOARD TYPE: DOUBLE-SIDED PLATED-THROUGH BOARD

LAMINATE TYPE: FR4

LAMINATE THICKNESS: 1.6mm

COPPER THICKNESS: 70μm (INCL. PLATING EXTERIOR LAYER)

COPPER PLATING OF HOLES: >25μm

MINIMUM HOLE DIAMETER 0.3 mm

SILKSCREEN COMPONENT SIDE: WHITE - REMOVE SILKSCREEN FROM SOLDER AREA & PRE-TINNED AREAS

SILKSCREEN SOLDER SIDE: None

SOLDER MASK COMPONENT SIDE: GREEN

SOLDER MASK SOLDER SIDE: GREEN

PROTECTIVE COATING: SOLDER COATING AND CHEMICAL SILVER ON FREE COPPER

ELECTRICAL TEST: PCB MUST BE ELECTRICAL TESTED

MANUFACTURED TO: PERFAG 2E (www.perfag.dk)

APERTURE TABLE: PERFAG 10A (www.perfag.dk)

BOARD SIZE: 112 x 154 mm

COMMENTS: SEE DRILL INFORMATION FILE (5012pcb.PDF).

MATERIAL: ALUMINIUM

INTERNAL SCREW THREADS: M3

SURFACE: GLASS BLOWED, FREE OF SHARP EDGES

SURFACE TREATMENT: BLACK ANODIZED

TOLERANCES: +/- 0.1mm.

TIC-HSINK-020 (3.00)Heat Sink for 1 DDV deviceTI

Jonas Svendsen

10. February 2005TIC-HSINK-020(3.00).vsd

MACHINE THIS EDGE AFTER ANODIZING

M3 - 5mm deep (2)

14mm (2)

8mm

19mm

47mm

6.5mm (4)

2mm (5)

0.5mm

3.0mm

27.0mm

0mm

0mm

7.0mm

66mm