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User's GuideSLOU276A–December 2009–Revised May 2010
TAS5616PHD2EVM
This user’s guide describes the operation of the evaluation module for the TAS5616 Digital AmplifierPower Output Stage using TAS5508 Digital Audio PWM Processor from Texas Instruments. The user’sguide also provides measurement data and design information like schematic, BOM, and PCB layout.
Contents1 Introduction .................................................................................................................. 3
1.1 TAS5616PHD2EVM Features .................................................................................... 41.2 PCB Key Map ...................................................................................................... 5
2 Quick Setup Guide .......................................................................................................... 52.1 Electrostatic Discharge Warning ................................................................................. 52.2 Unpacking the EVM ................................................................................................ 62.3 Power Supply Setup ............................................................................................... 62.4 Speaker Connection ............................................................................................... 62.5 Output Configuration BTL and PBTL ............................................................................ 62.6 GUI Software Installation .......................................................................................... 7
3 Protection .................................................................................................................... 83.1 Short Circuit Protection and Fault Reporting Circuitry ........................................................ 83.2 Fault Reporting ..................................................................................................... 8
4 TAS5616PHD2EVM Performance ........................................................................................ 94.1 THD+N vs. Power (BTL – 8Ω) .................................................................................. 104.2 THD+N vs Power (PBTL – 4 Ω) ................................................................................ 114.3 THD+N vs. Frequency (BTL – 8Ω) ............................................................................. 114.4 THD+N vs. Frequency (PBTL – 4Ω) ........................................................................... 124.5 FFT Spectrum with –60 dBFS Tone (BTL) .................................................................... 124.6 FFT Spectrum with -60 dBFS Tone (PBTL) .................................................................. 124.7 Idle Noise FFT Spectrum (BTL) ................................................................................ 134.8 Idle Noise FFT Spectrum (PBTL) .............................................................................. 134.9 Channel Separation .............................................................................................. 144.10 Frequency Response (BTL) ..................................................................................... 154.11 Frequency Response (PBTL) ................................................................................... 154.12 High Current Protection (BTL) .................................................................................. 164.13 High Current Protection (PBTL) ................................................................................ 164.14 Pop/Click (BTL) ................................................................................................... 174.15 Pop/Click (PBTL) ................................................................................................. 184.16 Output Stage Efficiency .......................................................................................... 19
5 Related Documentation from Texas Instruments ..................................................................... 205.1 Additional Documentation ....................................................................................... 20
Appendix A Design Documents ............................................................................................... 20
List of Figures
1 Integrated PurePath Digital™ Amplifier System ........................................................................ 4
2 Physical Structure for the TAS5616PHD2EVM (Approximate Layout) .............................................. 5
3 PBTL Mode Configuration ................................................................................................. 7
4 TAS5508 GUI Window ..................................................................................................... 8
PurePath, Equibit are trademarks of Texas Instruments.I2C is a trademark of NXP B.V. Corp Netherlands.
1SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
www.ti.com
5 THD+N vs. Power (BTL – 4 Ω) .......................................................................................... 10
6 THD+N vs. Power (BTL – 8 Ω) .......................................................................................... 11
7 THD+N vs. Frequency (BTL – 8 Ω) ..................................................................................... 11
8 THD+N vs. Frequency (BTL – 4 Ω) ..................................................................................... 12
9 FFT Spectrum with –60 dBFS Tone (BTL)............................................................................. 12
10 FFT Spectrum with -60 dBFS Tone (PBTL) ........................................................................... 13
11 Idle Noise FFT Spectrum (BTL) ......................................................................................... 13
12 Idle Noise FFT Spectrum (PBTL) ....................................................................................... 14
13 Channel Separation ....................................................................................................... 14
14 Frequency Response (BTL).............................................................................................. 15
15 Frequency Response (PBTL) ............................................................................................ 15
16 High Current Protection (BTL) ........................................................................................... 16
17 High Current Protection (PBTL) ......................................................................................... 16
18 Pop/Click (BTL) ............................................................................................................ 17
19 Pop/Click (PBTL) .......................................................................................................... 18
20 Output Stage Efficiency................................................................................................... 19
List of Tables
1 TAS5616PHD2EVM Specification ........................................................................................ 3
2 Recommended Supply Voltages ......................................................................................... 6
3 TAS5616 Warning/Error Signal Decoding ............................................................................... 9
4 General Test Conditions ................................................................................................... 9
5 TAS5508 Register Settings................................................................................................ 9
6 Electrical Data ............................................................................................................... 9
7 Audio Performance ......................................................................................................... 9
8 Thermal Specification ..................................................................................................... 10
9 Physical Specifications ................................................................................................... 10
10 Related Documentation from Texas Instruments ..................................................................... 20
2 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
www.ti.com Introduction
1 Introduction
The TAS5616PHD2EVM PurePath™ Premier Pro customer evaluation module demonstrates theintegrated circuits TAS5616PHD and TAS5508PAG from Texas Instruments (TI).
The PTAS5616PHD is a high-performance, integrated Stereo Feedback Digital Amplifier Power Stagedesigned to drive 8-Ω speakers at up to 160 W per channel. The device incorporates the TI Equibit™technology and is designed to be used with TI’s Equibit™ modulators. This system requires a passivedemodulation filter to deliver a efficiency, quality audio amplification.
TAS5508PAG is a high performance 32 bit (24 bit input) multi channel PurePath™ Digital Pulse WidthModulator (PWM) based on Equibit™ technology with fully symmetrical AD modulation scheme. Thedevice also has Digital Audio Processing (DAP) that provides 48 bit signal processing, advancedperformance and a high level of system integration. The device has interfaces for headphone output andPower Supply Volume Control (PSVC).
This EVM is configurable to 2 BTL channels for stereo evaluation or 1 PBTL (parallel BTL) channel forsubwoofer evaluation.
This EVM, together with a TI input-USB board 2, is a complete stereo digital audio amplifier system whichincludes digital input (S/PDIF), analog inputs, interface to PC and DAP features like digital volume control,input and output mixers, automute, tone controls, loudness, EQ filters and dynamic range compression(DRC). There are configuration options for power stage failure protection.
Table 1. TAS5616PHD2EVM Specification
Key Parameters Values
Output Stage Supply Voltage 25V – 50 V
Number of Channels 2 x BTL or 1 x PBTL
Load Impedance BTL 8 Ohm
Load Impedance PBTL 4 Ohm
Output power BTL 160 W / 8 Ω / 10% THD
Output power PBTL 300 W / 4 Ω / 10% THD
DNR >110 dB
PWM Processor TAS5508PAG
Output Stage TAS5616PHD
3SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
I2S
Bus
TAS5616PHD2EVM
MODULE
I2C Bus
ExampleTI Input-USB
board
8 ChannelAnalog
Input
USB
Interface
Optical
andCoaxia
lS/PDIF
Input
Control Interface
Power Supply
Stereo/Mono
Channel
Speaker Output
Introduction www.ti.com
This document covers EVM specifications, audio performance and power efficiency measurementsgraphs, and design documentation that includes schematics, parts list, layout, and mechanical design.
Gerber (layout) files are available at: www.ti.com.
The EVM is delivered with cables and Input-USB board 2 to connect to an input source, and be controlledfrom a PC.
1.1 TAS5616PHD2EVM Features• Stereo PurePath Digital™ evaluation module.• Self-contained protection system (short circuit and thermal).• Standard I2S and I2C™ / Control connector for TI input board• Double-sided plated-through PCB layout.
Figure 1. Integrated PurePath Digital™ Amplifier System
4 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
+50 V(J15)
LEFTSPEAKEROUTPUT
(J12)
RIGHTSPEAKEROUTPUT
(J14)
(SW1)
(SW2)
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PBTLBTL
BTLTAS5518
INPUT SIGNAL& CONTROLINTERFACE(J10)
+12V
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www.ti.com Quick Setup Guide
1.2 PCB Key Map
Physical structure for the TAS5616PHD2EVM is illustrated in Figure 2.
Figure 2. Physical Structure for the TAS5616PHD2EVM (Approximate Layout)
2 Quick Setup Guide
This section describes the TAS5616PHD2EVM board in regards to power supplies and system interfaces.The section provides information regarding handling and unpacking, absolute operating conditions, and adescription of the factory default switch and jumper configuration.
This section also provides a step-by-step guide to configuring the TAS5616PHD2EVM for deviceevaluation.
2.1 Electrostatic Discharge Warning
Many of the components on the TAS5616PHD2EVM are susceptible to damage by electrostatic discharge(ESD). Customers are advised to observe proper ESD handling precautions when unpacking and handlingthe EVM, including the use of a grounded wrist strap at an approved ESD workstation.
CAUTION
Failure to observe ESD handling procedures can result in damage to EVMcomponents.
5SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
Quick Setup Guide www.ti.com
2.2 Unpacking the EVM
Upon opening the TAS5616PHD2EVM package, check to make sure that the following items are included:
• 1 pc. TAS5616PHD2EVM board using one TAS5508PAG and one TAS5616PHD.• 1 pc. TI Input-USB board 2 for interfacing TAS5616PHD2EVM with SPDIF/analog sources and PC for
control.• 1 pc. Signal and Control Interface IDC cable for connection to an I2S front-end like the attached TI
Input-USB board 2.• 1 pc. Cable for connecting Input-USB board 2 to a USB port on a PC for TAS5508 control by software.• 1 pc. AC to DC External 15 V Power supply (System supply).• 4 pcs. AC Input Clips for External 15 V Power Supply (US, Europe, UK and Australia).
If any of these items are missing, contact the nearest Texas Instruments Product Information Center toinquire about a replacement.
Connect the Input-USB board 2 to the TAS5616PHD2EVM using the delivered IDC cable.
2.3 Power Supply Setup
To power up the EVM, two power supplies are needed. One for system power, logic and gate-drive, andone for output stage supply. H-bridge Power supply is connected to the EVM using banana cables.System Power Supply is supplied from the enclosed External 15 V wall plug adapter.
Table 2. Recommended Supply Voltages
Description Voltage Limitations Current Requirements Cable
Output stage power supply 25 – 50 V 16 A J15 (marked +50V)
CAUTION
Applying voltages above the specifications given in Table 2 can causepermenant damage to the hardware.
NOTE: The length of power supply cable must be minimized. Increasing length of PSU cable isequal to increasing the distortion for the amplifier at high output levels and low frequencies.
2.4 Speaker Connection
CAUTION
Both positive and negative speaker outputs are floating and cannot beconnected to ground (e.g. through an oscilloscope).
2.5 Output Configuration BTL and PBTL
When changing mode e.g. from BTL to PBTL, make sure that RESET is activated before changing thestate of mode switches SW1 and SW2. Switch SW1 and SW2 has to be synchronized in state BTL orPBTL.
In PBTL mode the load has to be connected according to Figure 3:
6 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
+50 V(J15)
LEFT BTLSPEAKEROUTPUT
(J11)
RIGHT BTLSPEAKEROUTPUT
(J13)
(SW1)
(SW2)
PBTL
PBTLBTL
BTL
INPUT SIGNAL& CONTROLINTERFACE(J10)
TAS5518O
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www.ti.com Quick Setup Guide
Figure 3. PBTL Mode Configuration
2.6 GUI Software Installation
The TAS5508 GUI provides control of all registers in the TAS5508. To install the GUI, download the GUIsetup file and the configuration file TAS5616PHD2EVM Configuration (1.00).cfg from theTAS5616PHD2EVM folder on www.ti.com
After installation turn on power supplies and connect the USB cable to the Input-USB board 2.
Start the GUI program from windows menu. Start up of the GUI will take a few seconds.
7SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
Protection www.ti.com
Figure 4. TAS5508 GUI Window
From the files menu load the configuration file:• TAS5616PHD2EVM Configuration (1.00).cfg
For easy access to the file, it is recommended that the user copy the files into the directory where the GUIis installed. The default is C:\Program Files\Texas Instruments Inc\TAS5508\
For more advanced use of the GUI, see the GUI User’s Guide and data manual for TAS5508.
3 Protection
This section describes the short-circuit protection and fault reporting circuitry of the TAS5616 device.
3.1 Short Circuit Protection and Fault Reporting Circuitry
The TAS5616 is a self-protecting device that provides fault reporting (including high-temperatureprotection and short circuit protection). TAS5616 is configured in back-end auto-recovery mode, andresets automatically after all errors (M1, M2 and M3 is set low), see the data sheet (sles221) for furtherexplanation. The device will re-start itself after an error occasion, and report through the SD error signal.
3.2 Fault Reporting
The OTW and SD outputs from TAS5616 indicate fault conditions. see the TAS5616 data sheet for adescription of these pins.
8 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
www.ti.com TAS5616PHD2EVM Performance
Table 3. TAS5616 Warning/Error Signal Decoding
SD OTW1 OTW2 Device Condition
0 0 0 High temperature error and/or high current error
0 0 1 Under voltage lockout or high current error. 100°C temperature warning
0 1 1 Under voltage lockout or high current error
1 0 0 125°C temperature warning
1 0 1 100°C temperature warning
1 1 1 Normal operation, no errors/warnings
The shutdown signals together with the temperature warning signal, give the chip state information asdescribed in Table 3. Device fault reporting outputs are open-drain outputs.
4 TAS5616PHD2EVM Performance
Table 4. General Test Conditions
General Test Conditions (1) Value Notes
Output Stage Supply Voltage 50 V Laboratory Power Supply (EA-PS 7065-10A)
Load Impedance BTL 8 Ohm
Load Impedance PBTL 4 Ohm
Input Signal 1kHz Sine
Sampling Frequency 48 kHz
Gain setting in TAS5508 0 dB
Measurement Filter AES17 and AUX0025
TI Input Board Input-USB 2 Rev 1
EVM configuration file Ver 1.00 TAS5616PHD2EVM Configuration (1.00).cfg
(1) These test conditions are used for all tests, unless otherwise specified.
Table 5. TAS5508 Register Settings
Register (1) Value Notes
System Control Register 2 0x04 0x60 PWM Automute Detection Disabled
Master Volume Register 0xD9 00 00 00 48 Master Volume set to 0 dB
(1) These test conditions are used for all tests, unless otherwise specified.
Table 6. Electrical Data
Electrical Data Notes/Conditions
Output Power, BTL, 8Ω 95 W 1 kHz, unclipped (0dBFS), TA = 25°C
Output Power, BTL, 8Ω 170 W 1 kHz, 10% THD+N, TA = 25°C
Output Power, BTL, 4Ω 190 W 1 kHz, unclipped (0dBFS), TA = 25°C
Output Power, BTL, 4Ω 340 W 1 kHz, 10% THD+N, TA = 25°C
Maximum Peak Current, BTL >7.5 A 1 kHz burst, 1 Ω, ROC = 22 kΩ
Maximum Peak Current, PBTL >15 A 1 kHz burst, 1 Ω, ROC = 22 kΩ
Output Stage Efficiency >92% 2 x channels, 8 Ω
Damping Factor BTL >22 1 kHz, relative to 4 Ω load
Damping Factor PBTL >21 1 kHz, relative to 2 Ω load
H-Bridge Supply Current <65 mA 1 kHz, –60dBFS signal
Idle Power Consumption 3.3 W H-Bridge supply, –60dBFS input signal
Table 7. Audio Performance
Audio Performance Value Notes/Conditions
THD+N, BTL, 8Ω 1 W <0.02% 1 kHz
THD+N, BTL, 8Ω 10 W <0.02% 1 kHz
THD+N, BTL, 8Ω 50 W <0.02% 1 kHz
9SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
0.006
10
0.01
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TAS5616PHD2EVM Performance www.ti.com
Table 7. Audio Performance (continued)
Audio Performance Value Notes/Conditions
THD+N, BTL, 8Ω 100 W <0.5% 1 kHz
THD+N, BTL, 4Ω 1 W <0.02% 1 kHz
THD+N, BTL, 4Ω 10 W <0.02% 1 kHz
THD+N, BTL, 4Ω 100 W <0.02% 1 kHz
THD+N, BTL, 4Ω 200 W <0.5% 1 kHz
Dynamic Range >102 dB Ref: rated power, A-weighted, AES17 filter
Noise Voltage <250 mVrms A-weighted, AES17 filter
Click/Pop, DC step BTL 30 mV Mute/Unmute, No signal, 6 Ohm
Click/Pop, DC step PBT 20 mV Mute/Unmute, No signal, 4 Ohm
Channel Separation >73 dB 1 kHz
Frequency Response +0.5 dB 100 W / 8 Ω
Table 8. Thermal Specification
Thermal Specification (1) THEATSINK(1) Notes/Conditions
Idle, All Channels Switching 30°C 1 kHz, 15 min, –60dBFS signal, TA = 25°C
4x12.5 W, 4Ω + 1x25 W, 2 Ω(1/8 power) 42°C 1 kHz, 1 hour, TA = 25°C
2x100 W, 4Ω 65°C 1 kHz, 5 min, TA = 25°C(1) Measured on surface of heat sink.
Table 9. Physical Specifications
Physical Specifications (1) Notes/Conditions
PCB Dimensions 94 x 140 x 55 Width x Length x Height (mm)
Total Weight 400 gr. Components + PCB + Heat-sink + Mechanics(1) All electrical and audio specifications are typical values.
4.1 THD+N vs. Power (BTL – 8Ω)
Gain: +2.5dB set in TAS5508
Figure 5. THD+N vs. Power (BTL – 4 Ω)
10 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
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www.ti.com TAS5616PHD2EVM Performance
4.2 THD+N vs Power (PBTL – 4 Ω)
Gain: +2.5dB set in TAS5508
Figure 6. THD+N vs. Power (BTL – 8 Ω)
4.3 THD+N vs. Frequency (BTL – 8Ω)
Figure 7. THD+N vs. Frequency (BTL – 8 Ω)
11SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
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TAS5616PHD2EVM Performance www.ti.com
4.4 THD+N vs. Frequency (PBTL – 4Ω)
Figure 8. THD+N vs. Frequency (BTL – 4 Ω)
4.5 FFT Spectrum with –60 dBFS Tone (BTL)
Reference voltage is 28.4V. FFT size 16k.
Figure 9. FFT Spectrum with –60 dBFS Tone (BTL)
4.6 FFT Spectrum with -60 dBFS Tone (PBTL)
Reference voltage is 28.1 V. FFT size 16k.
12 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
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www.ti.com TAS5616PHD2EVM Performance
Figure 10. FFT Spectrum with -60 dBFS Tone (PBTL)
4.7 Idle Noise FFT Spectrum (BTL)
Automute disabled – Register x04h set to x60h. Reference voltage is 28.4V. FFT size 16k.
Figure 11. Idle Noise FFT Spectrum (BTL)
4.8 Idle Noise FFT Spectrum (PBTL)
Automute disabled – Register x04h set to x60h. Reference voltage is 28.1 V. FFT size 16k.
13SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
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Channel 2
TAS5616PHD2EVM Performance www.ti.com
Figure 12. Idle Noise FFT Spectrum (PBTL)
4.9 Channel Separation
Channel 2 input signal is 100 W, channel 1 muted.
Figure 13. Channel Separation
14 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
20 20k50 100 200 500 1k 2k 5k 10k
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www.ti.com TAS5616PHD2EVM Performance
4.10 Frequency Response (BTL)
Figure 14. Frequency Response (BTL)
4.11 Frequency Response (PBTL)
Figure 15. Frequency Response (PBTL)
15SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
25.6m 27m25.8m 26m 26.2m 26.4m 26.6m 26.8m
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TAS5616PHD2EVM Performance www.ti.com
4.12 High Current Protection (BTL)
Input 1kHz bursted signal, Load 1Ω.
Figure 16. High Current Protection (BTL)
4.13 High Current Protection (PBTL)
Input 1kHz bursted signal, Load 1Ω.
Figure 17. High Current Protection (PBTL)
16 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
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4.14 Pop/Click (BTL)
No input signal applied. The measurement results are presented in time domain.Test with automute disabled – Register x04h set to x60h. No input signal applied. Load 4Ω.
Figure 18. Pop/Click (BTL)
17SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
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TAS5616PHD2EVM Performance www.ti.com
4.15 Pop/Click (PBTL)
No input signal applied. The measurement results are presented in time domain.Test with automute disabled – Register x04h set to x60h. No input signal applied. Load 2 Ω.
Figure 19. Pop/Click (PBTL)
18 TAS5616PHD2EVM SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
0
100
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
0 26020 40 60 80 100 120 140 160 180 200 220 240
2 CH Output Power - W
Eff
icie
ncy -
%
www.ti.com TAS5616PHD2EVM Performance
4.16 Output Stage Efficiency
Efficiency is tested with 2 channels loaded 8Ω.The heat sink has been ventilated with a fan during the test.
Figure 20. Output Stage Efficiency
19SLOU276A–December 2009–Revised May 2010 TAS5616PHD2EVM
Copyright © 2009–2010, Texas Instruments Incorporated
Related Documentation from Texas Instruments www.ti.com
5 Related Documentation from Texas Instruments
The following table contains a list of data manuals that have detailed descriptions of the integrated circuitsused in the design of the TAS5616PHD2EVM. The data manuals can be obtained at the URLhttp://www.ti.com.
Table 10. Related Documentation from TexasInstruments
Part Number Literature Number
TAS5508 SLES115
TAS5616 SLAS596A
TLV271 SLOS351
TPS3825-33 SLVS165
TLV1117-33C SLVS561
5.1 Additional Documentation
1. PC Configuration Tool for TAS5508 (TAS5508 GUI ver. 4.0 or later)2. System Design Considerations for True Digital Audio Power Amplifiers (SLAA117)3. Digital Audio Measurements (SLAA114)4. PSRR for PurePath Digital Audio Amplifiers (SLEA049)5. Power Rating in Audio Amplifier (SLEA047)6. PurePath Digital AM Interference Avoidance (SLEA040)7. Click & Pop Measurements Technique (SLEA044)8. Power Supply Recommendations for DVD-Receivers (SLEA027)9. Implementation of Power Supply Volume Control (SLEA038)
Appendix A Design Documents
This appendix comprises design documents pertaining to the TAS5616PHD2EVM evaluation module. Thedocuments are presented in the following order.
• Schematic (5 pages)• Parts List (2 pages)• PCB Specification (1 page)• PCB Layers (8 pages)• Heat Sink Drawing, TIC-HSINK-062 (1 page)• Power Stage Filter Inductor, TIC-INDC-032 (1 page)
20 Design Documents SLOU276A–December 2009–Revised May 2010
Copyright © 2009–2010, Texas Instruments Incorporated
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
3.00
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Disclaimer
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 1 5
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Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
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File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
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Disclaimer
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 1 5
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Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
3.00
Jonas L. Holm
Disclaimer
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 1 5
/ TAS5616 Parts list 3.00
TAS5616PHD2EVM
Page1/5: Front Page and Schematic Disclaimer
3/5: TAS5616 Amplifier
Design Name:
Version:Date:Design Engineer:
Audio Configuration:
Interfaces:
File Name: A848-SCH-001.DSN3.001.Oct.2009Jonas L. Holm
PurePath Premire Pro Digital Amplifier Design1 x TAS5616PHD, 1 x TAS5518
Setup:
Type: Mass Market EVM
8 Ohm (BTL) Speaker Loads
TI
Copyright 2009 Texas Instruments, Inc - All rights reserved - The TI and PurePath Digital logos are trademarks of Texas Instruments.
+50 V H-Bridge Supply Voltage
Performance: 2 x 160 W / 8 Ohm (BTL) 10% THD+N> 104 dB Dynamic Range
5/5: Mechanics
J10: 26 pin IDC Header
J12, J14: Banana binding posts for speaker connection.J15: Banana binding post for H-Bridge Supply
for I2S Audio, Control, I2C, +5V and +12V
2/5: Frontend overview
4/5: Power Supply
J22: 2 pins 2.54 mm Header for Supply & control of optional external Fan
SCHEMATIC DISCLAIMERThe schematic information and materials ("Materials") provided here are provided by Texas Instruments Incorporated ("TI") as a service to its customers and/or suppliers, and may be used for informational purposes only, and only subject to the following terms. By downloading or viewing these Materials, you are signifying your assent to these terms.
1.) These evaluation schematics are intended for use for ENGINEERING DEVELOPMENT AND EVALUATIONPURPOSES ONLY and are not considered by Texas Instruments to be fit as a basis for establishing productionproducts or systems. This information may be incomplete in several respects, including but not limited to informationrelating to required design, marketing, and/or manufacturing-related protective considerations and product safety measures typically found in the end-product incorporating the goods.
2.) Accordingly, neither TI nor its suppliers warrant the accuracy or completeness of the information, text, graphics, links or other items contained within the Materials. TI may make changes to the Materials, or to the products described therein, at any time without notice. TI makes no commitment to update the Materials.
3.) TI assumes no liability for applications assistance, customer product design, software performance, or services that may be described or referenced in the Materials. The user assumes all responsibility and liability for proper and safe design and handling of goods. Accordingly, the user indemnifies TI from all claims arising from its use of the Materials.
4.) TI currently deals with various customers for products, and therefore our arrangement with the user will not be exclusive. TI makes no representations regarding the commercial availability of non-TI components that may be referenced in the Materials.
5.) No license is granted under any patent right or other intellectual property right of TI covering or relating to anycombination, machine, or process in which such TI products or services might be or are used. Except as expressly provided herein, TI and its suppliers do not grant any express or implied right to you under any patents, copyrights, trademarks, or trade secret information. 6.) Performance tests and ratings, to the extent referenced in the Materials, are measured using specific computersystems and/or components and reflect the approximate performance of TI products as measured by those tests. Any difference in system hardware or software design or configuration may affect actual performance. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing.
7.) Resale of TI's products or services with statements different from or beyond the parameters stated by TI for that product or service in official TI data books or data sheets voids all express and any implied warranties for the associated TI product or service, and is an unfair and deceptive business practice, and TI is not responsible for any such use.
8.) The Materials are copyrighted and any unauthorized use may violate copyright, trademark, and other laws. Youmay only download one copy for your internal use only, unless you are specifically licensed to do otherwise by TI inwriting. This is a license, not a transfer of title, and is subject to the following restrictions: You may not: (a) modify the Materials (including any associated warranties, conditions, limitations or notices) or use them for any commercialpurpose, or any public display, performance, sale or rental; (b) decompile, reverse engineer, or disassemble softwareMaterials except and only to the extent permitted by applicable law; (c) remove any copyright or other proprietary notices from the Materials; (d) transfer the Materials to another person. You agree to prevent any unauthorized copying of the Materials. TI may terminate this license at any time if you are in breach of the terms of this Agreement. Upon termination, you will immediately destroy the Materials.
9.) THE MATERIALS ARE PROVIDED "AS IS" WITHOUT ANY EXPRESS OR IMPLIED WARRANTY OF ANY KIND INCLUDING WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT OF INTELLECTUAL PROPERTY, OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT SHALL TI OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGESWHATSOEVER (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESSINTERRUPTION, LOSS OF INFORMATION) ARISING OUT OF THE USE OF OR INABILITY TO USE THE MATERIALS, EVEN IF TI HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
NOTE1
Not Used
SCHEMATIC DISCLAIMERThe schematic information and materials ("Materials") provided here are provided by Texas Instruments Incorporated ("TI") as a service to its customers and/or suppliers, and may be used for informational purposes only, and only subject to the following terms. By downloading or viewing these Materials, you are signifying your assent to these terms.
1.) These evaluation schematics are intended for use for ENGINEERING DEVELOPMENT AND EVALUATIONPURPOSES ONLY and are not considered by Texas Instruments to be fit as a basis for establishing productionproducts or systems. This information may be incomplete in several respects, including but not limited to informationrelating to required design, marketing, and/or manufacturing-related protective considerations and product safety measures typically found in the end-product incorporating the goods.
2.) Accordingly, neither TI nor its suppliers warrant the accuracy or completeness of the information, text, graphics, links or other items contained within the Materials. TI may make changes to the Materials, or to the products described therein, at any time without notice. TI makes no commitment to update the Materials.
3.) TI assumes no liability for applications assistance, customer product design, software performance, or services that may be described or referenced in the Materials. The user assumes all responsibility and liability for proper and safe design and handling of goods. Accordingly, the user indemnifies TI from all claims arising from its use of the Materials.
4.) TI currently deals with various customers for products, and therefore our arrangement with the user will not be exclusive. TI makes no representations regarding the commercial availability of non-TI components that may be referenced in the Materials.
5.) No license is granted under any patent right or other intellectual property right of TI covering or relating to anycombination, machine, or process in which such TI products or services might be or are used. Except as expressly provided herein, TI and its suppliers do not grant any express or implied right to you under any patents, copyrights, trademarks, or trade secret information. 6.) Performance tests and ratings, to the extent referenced in the Materials, are measured using specific computersystems and/or components and reflect the approximate performance of TI products as measured by those tests. Any difference in system hardware or software design or configuration may affect actual performance. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing.
7.) Resale of TI's products or services with statements different from or beyond the parameters stated by TI for that product or service in official TI data books or data sheets voids all express and any implied warranties for the associated TI product or service, and is an unfair and deceptive business practice, and TI is not responsible for any such use.
8.) The Materials are copyrighted and any unauthorized use may violate copyright, trademark, and other laws. Youmay only download one copy for your internal use only, unless you are specifically licensed to do otherwise by TI inwriting. This is a license, not a transfer of title, and is subject to the following restrictions: You may not: (a) modify the Materials (including any associated warranties, conditions, limitations or notices) or use them for any commercialpurpose, or any public display, performance, sale or rental; (b) decompile, reverse engineer, or disassemble softwareMaterials except and only to the extent permitted by applicable law; (c) remove any copyright or other proprietary notices from the Materials; (d) transfer the Materials to another person. You agree to prevent any unauthorized copying of the Materials. TI may terminate this license at any time if you are in breach of the terms of this Agreement. Upon termination, you will immediately destroy the Materials.
9.) THE MATERIALS ARE PROVIDED "AS IS" WITHOUT ANY EXPRESS OR IMPLIED WARRANTY OF ANY KIND INCLUDING WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT OF INTELLECTUAL PROPERTY, OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT SHALL TI OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGESWHATSOEVER (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESSINTERRUPTION, LOSS OF INFORMATION) ARISING OUT OF THE USE OF OR INABILITY TO USE THE MATERIALS, EVEN IF TI HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
NOTE1
Not Used
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
OUT_C
OUT_D
OUT_A
OUT_B
/OTW2
/OTW1
/SD
READY
/CLIP
MCLK
SDIN1
SCLK
LRCLK
SDA-A
SCL-A
SDIN2
/RESET
SDA-ASCL-A
MCLK
SCLKLRCLK
SCL-BSDA-B
SDIN1SDIN2SDIN3SDIN4
/MUTE/SD/OTW2
PWM_C
PWM_D
PWM_A
PWM_B
SDIN3
SDIN4
VALID
/BKND_ERR
/BKND_ERR
/MUTE
/RESET_MODULATOR
PWM_A
PWM_B
PWM_C
PWM_D
READY
/SD
/CLIP
/OTW1
/OTW2
/RESET_MODULATOR
/RESET
SDA-B
SCL-B
/AMP_RESET
VALID
/AMP_RESET
+12V
GND
GND
GND
GND GND
GNDGND GND
+12V
GND GND
+3.3VAGND_M
AGND_M
AGND_M
GND
AGND_M
GND
AGND_M
GND
+3.3V
+3.3V
GND
GND
+3.3V
GND
+5V
GND
+3.3V
+12V
+3.3V
+5V
GND
PVDD
GND
GND+3.3V
GND
+3.3V
GND
GND
+12V
+12V
Rev:
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TIHome Audio Amplifiers
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AUDIO/IMAGING GROUP
A2
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Jonas L. Holm
Input Stage
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, January 07, 2010 2 5
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TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
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AUDIO/IMAGING GROUP
A2
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Input Stage
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, January 07, 2010 2 5
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Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A2
3.00
Jonas L. Holm
Input Stage
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, January 07, 2010 2 5
/ TAS5616 Parts list 3.00
+12VFAN
125 degCChip temp
100 degCChip temp
RE
AD
Y
CLI
P
SH
UTD
OW
N
Optional
Input and Output Interface: Control, I2C, +5V, +12V and for I2S Audio
STATUS MONITORS
4 OHM BTLSPEAKEROUTPUT
LEFT
4 OHM BTLSPEAKEROUTPUT
RIGHT
50V
GND
High Powersupply
PBTL OUTPUT:SHORT OUT_A & OUT_CSHORT OUT_B & OUT_DSET JUMPERS
3 SPEED FAN CONTROL & TEMPERATURE INDICATOR
RE
SE
T
ON/OFF CONTROL
C7682uFC7682uF
12
R434.7kR434.7k
12
R7010kR7010k
12
R6510kR6510k
12
R424.7kR424.7k
12
R6810kR6810k
12
D14Red
D14Red
R93 47RR93 47R1 2
J22
Header
J22
Header
12R69
10kR6910k
12
Q162N7002Q162N7002
1
32
R73 47RR73 47R1 2
C82220nFC82220nF
21
R9110kR9110k
12
J15
Red and black banana socket
J15
Red and black banana socket
1
2
R92 47RR92 47R1 2
U10
TAS5508B
U10
TAS5508B
VRA_PLL1
PLL_FLT_RET2
PLL_FLTM3
PLL_FLTP4
AVSS5
AVSS6
VRD_PLL7
AVSS_PLL8
AVDD_PLL9
VBGAP10
RESET11
HP_SEL12
PDN13
MUTE14
DVDD15
DVSS16
VR
_DP
LL17
OS
C_C
AP
18
XTL
_OU
T19
XTL
_IN
20
RE
SE
RV
ED
21
RE
SE
RV
ED
22
RE
SE
RV
ED
23
SD
A24
SC
L25
LRC
LK26
SC
LK27
SD
IN4
28
SD
IN3
29
SD
IN2
30
SD
IN1
31
PS
VC
32
VR_PWM 48
PWM_P_4 47
PWM_M_4 46
PWM_P_3 45
PWM_M_3 44
PWM_P_2 43
PWM_M_2 42
PWM_P_1 41
PWM_M_1 40
VALID 39
DVSS 38
BKND_ERR 37
DVDD 36
DVSS 35
DVSS 34
VR_DIG 33
RE
SE
RV
ED
64
MC
LK63
PW
M_H
PP
_R62
PW
M_H
PM
_R61
PW
M_H
PP
_L60
PW
M_H
PM
_L59
PW
M_P
_658
PW
M_M
_657
PW
M_P
_556
PW
M_M
_555
DV
DD
_PW
M54
DV
SS
_PW
M53
PW
M_P
_852
PW
M_M
_851
PW
M_P
_750
PW
M_M
_749
R47560RR47560R
12
C87100nFC87100nF
21
D16Red
D16Red
C86100nFC86100nF
21
C56100nFC56100nF
21
C54100nFC54100nF
21
X1013.5MHz
X1013.5MHz
1 2
C1010nFC1010nF
21
R9010kR9010k
12
D11GreenD11Green
C6810nFC68
10nF2
1
C91Not UsedC91Not Used
21
R51 47RR51 47R1 2
C8947uFC8947uF
12
C5510uF
C5510uF
12
C5310uF
C5310uF
12
Power Supplies
Page 4
/RESET
/RESET_MODULATOR
+3.3V
+5V
SCL-B
SDA-B
C7815pFC7815pF
21
C67100nF
C67100nF
21
Q122N7002Q122N7002
1
32
R8910kR8910k
12
J14
Red and black banana socket
J14
Red and black banana socket
1
2
C83220nFC83220nF 2
1
J10
26 p
ins
IDC
Box
hea
der
J10
26 p
ins
IDC
Box
hea
der
1234567891011
13141516
12
17181920212223242526
R55 1MR55 1M
12
C64100nFC64100nF
21
R481.2kR481.2k
12
R8810kR8810k
12
R67 47RR67 47R1 2
R95 47RR95 47R1 2
R8710kR8710k
12
C88100nFC88100nF
21
R624.7RR624.7R
1 2
D12Yellow
D12Yellow
SW3
Switch
SW3
Switch
1
3
6
45
2
R50820R
R50820R
12
C8082uFC8082uF
12
C7715pFC7715pF
21
R491.00k
R491.00k
12
R94 47RR94 47R1 2
R8610kR8610k
12
Q152N7002Q152N7002
1
32
TAS5631 Output Stage
Page 3
/SD
/OTW1
/OTW2
/CLIP
READY
INPUT_C
INPUT_D
INPUT_A
INPUT_B
OUT_D
OUT_A
OUT_B
OUT_C
PVDD
/RESET
R74 47RR74 47R1 2
R81 47RR81 47R1 2
R7610kR7610k
12
C84220nFC84220nF
21
C69100nFC69100nF
21
R8510kR8510k
12
C65100nFC65100nF
21
AN
D
U15
SN74LVC1G08
AN
D
U15
SN74LVC1G08
A1
B2
GND3 Y 4
VCC 5
R75 47RR75 47R1 2
C7582uFC7582uF
12
C85220nFC85220nF2
1
C70220nFC70220nF
21
R64 47RR64 47R1 2
Q112N7002Q112N7002
1
32
R80 47RR80 47R1 2D15
YellowD15
Yellow
R83 47RR83 47R1 2
R40 47RR40 47R1 2
D13Red
D13Red
R82 47RR82 47R1 2
R7810kR7810k
12
R59 47RR59 47R1 2
R444.7kR444.7k
12
C811nFC811nF
21
R410RR410R
1 2
R52 47RR52 47R1 2
R7110kR7110k
12
J12
Red and black banana socket
J12
Red and black banana socket
1
2
R454.7kR454.7k
12
R54200RR54200R
12
R72 47RR72 47R1 2
R10200RR10200R
12
C79220nFC79220nF
21
Q132N7002Q132N7002
1
32R84 47RR84 47R1 2
R7910kR7910k
12
R77 47RR77 47R1 2
C74220nFC74220nF
21
C71220nFC71220nF 2
1
C6682uFC6682uF
12
U13
LM317
U13
LM317
IN3 OUT 2
AD
J1
OUT 4
R6610kR6610k
12
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
READY
/OTW1
/CLIP
/OTW2
/SD
INPUT_B
/SD
/OTW1
/OTW2
/CLIP
INPUT_A
READY
/RESET
INPUT_C
INPUT_D
OUT_A
OUT_B
OUT_C
OUT_D
PVDD
GND
GND
VREG
PVDD
GND
GND
GND
GND
GND
PVDD
GND
GND
GND
GND
PVDD
PVDD
+12V
VREG
GND
GND
GND
GND
+12V
GND
PVDD
GND
GND
+12V
GND
GND
GND
GND
GND
GND
VREG
GND
GND
GND
GND
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
3.00
Jonas L. Holm
Main Schematic
A845-SCH-001.DSN
TAS5631PHD2EVM
Monday, October 05, 2009 3 5
/Output Stage TAS5616 Parts list 3.00
Rev:
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TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
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Jonas L. Holm
Main Schematic
A845-SCH-001.DSN
TAS5631PHD2EVM
Monday, October 05, 2009 3 5
/Output Stage TAS5616 Parts list 3.00
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
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AUDIO/IMAGING GROUP
A3
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Jonas L. Holm
Main Schematic
A845-SCH-001.DSN
TAS5631PHD2EVM
Monday, October 05, 2009 3 5
/Output Stage TAS5616 Parts list 3.00
MODESELECTION(DEFAULT: BTL)
C1042.2uFC1042.2uF
21
L1515uHL1515uH
1 2
C72680nF250V
C72680nF250V 2
1
C73680nF250V
C73680nF250V 2
1
C11033nFC11033nF
21
C102100nFC102100nF
21
R1143.3RR1143.3R
12
C114680nFC114680nF
21
C1151nFC1151nF
21
C931nFC931nF
21
C1091000uFC1091000uF
12
R112
100R
R112
100R
12
R102
3.3R
R102
3.3R12
C15
4.7nF
C15
4.7nF
2 1
C961nFC961nF
21
C1112.2uF100V
C1112.2uF100V 2
1
C5933nFC5933nF
21
R16
22.0k
R16
22.0k
12
C9510nFC9510nF
21
C100
4.7uF
C100
4.7uF
2 1
C511000uFC511000uF
12
C1171nFC1171nF
21
R46
3.3R
R46
3.3R1 2
R100
100R
R100
100R12
C10147uFC10147uF
12
C10710nFC10710nF
21
C9433nFC9433nF
21
C14
4.7uF
C14
4.7uF
2 1
C113680nFC113680nF
21
C90100pF
C90100pF
21
L1815uHL1815uH
1 2
R11647kR11647k
12
C108
47uF
C108
47uF
12
C11210nFC11210nF
21
C1051000uFC1051000uF
12
C1061000uFC1061000uF
12
C1182.2uFC1182.2uF
21
R983.3RR983.3R
12
C16
100nF
C16
100nF
21
R613.3RR613.3R
12
U14
TAS5616PHD
U14
TAS5616PHD
OC_ADJ1
/RESET2
C_STARTUP3
INPUT_A4
INPUT_B5
VI_CM6
GND7
AGND8
VREG9
INPUT_C10
INPUT_D11
TEST12
NC13
NC14
/SD15
/OTW116
/OTW
217
/CLI
P18
RE
AD
Y19
M1
20
M2
21
M3
22
GN
D23
GN
D24
GV
DD
_C25
GV
DD
_D26
BS
T_D
27
OU
T_D
28
OU
T_D
29
PV
DD
_D30
PV
DD
_D31
GN
D_D
32
GND_A 48
GND_B 47
GND_B 46
OUT_B 45
OUT_B 44
PVDD_B 43
PVDD_B 42
BST_B 41
BST_C 40
PVDD_C 39
PVDD_C 38
OUT_C 37
OUT_C 36
GND_C 35
GND_C 34
GND_D 33
VD
D64
PS
U_R
EF
63
NC
62
NC
61
NC
60
NC
59
GN
D58
GN
D57
GV
DD
_B56
GV
DD
_A55
BS
T_A
54
OU
T_A
53
OU
T_A
52
PV
DD
_A51
PV
DD
_A50
GN
D_A
49
L1615uHL1615uH
1 2
SW2
Switch
SW2
Switch
1
3
6
45
2
R113
100R
R113
100R12
C11610nFC11610nF
21
R104
100R
R104
100R12
C98100nFC98100nF
21
C1032.2uFC1032.2uF
21
R1153.3RR1153.3R
12
R103
3.3R
R103
3.3R1 2
C99100nFC99
100nF
21
R101
100R
R101
100R
12
R107
100R
R107
100R
12
C6010nFC6010nF
21
R110
3.3R
R110
3.3R1 2
C92100nFC92100nF
21
C97100nFC97100nF
21 L17
15uHL1715uH
1 2
C5833nFC5833nF
21
C502.2uFC502.2uF
21
SW1
Switch
SW1
Switch
1
3
6
45
2
R1113.3RR1113.3R
12
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
/RESET_MODULATOR
/RESET
+3.3V+5V
SCL-B
SDA-B
GND
+3.3V
GND GND GND GND
+3.3V
GND
+5V
GND
+3.3V
GND
+3.3V
GND
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A3
3.00
Jonas L. Holm
Power Supplies
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 4 5
/Power Supplies TAS5616 Parts list 3.00
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A3
3.00
Jonas L. Holm
Power Supplies
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 4 5
/Power Supplies TAS5616 Parts list 3.00
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A3
3.00
Jonas L. Holm
Power Supplies
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 4 5
/Power Supplies TAS5616 Parts list 3.00
POWER SUPPLIES+3.3 V POWER SUPPLY
EEPROM FOR INPUT MICRO BOARD
POWER ON RESET
R150Not UsedR150Not Used
12
C15347uFC15347uF
12
U152
Not Used
U152
Not Used
A01
A12
A23
VSS4 SDA 5
SCL 6
WP 7
VCC 8
C152100nFC152100nF
21
R152
Not Used
R152
Not Used1 2
C151100nFC151100nF
21
C15047uFC15047uF
12
C154
Not Used
C154
Not Used
21
U150
TPS3825-33
U150
TPS3825-33
RESET1
GND2
RESET3 MR 4
VDD 5
U151
TLV1117-33C
U151
TLV1117-33C
IN3 OUT 2
GN
D1
OUT 4
R151Not UsedR151Not Used
12
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
GND
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A4
3.00
Jonas L. Holm
Mechanics
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 5 5
/ TAS5616 Parts list 3
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A4
3.00
Jonas L. Holm
Mechanics
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 5 5
/ TAS5616 Parts list 3
Rev:
Page Title:
TIHome Audio Amplifiers
ALL RIGHTS RESERVEDTEXAS INSTRUMENTS INCORPORATED
Project:
File Name:
Date:
Engineer:
Page: of
Size:
AUDIO/IMAGING GROUP
A4
3.00
Jonas L. Holm
Mechanics
A845-SCH-001.DSN
TAS5631PHD2EVM
Thursday, October 01, 2009 5 5
/ TAS5616 Parts list 3
MECHANICSSCREW14
M3x6
SCREW14
M3x6
STANDOFF14
M3x16
STANDOFF14
M3x16
F11
Not Used
F11
Not Used
1 1
WASHER12
M3
WASHER12
M3
WASHER16
M3
WASHER16
M3
PCB
PCB11
A848-PCB-001_3.00
PCB
PCB11
A848-PCB-001_3.00
MH13
Mounting Hole
MH13
Mounting Hole
1MH16
Mounting Hole
MH16
Mounting Hole
1WASHER14
M3
WASHER14
M3
MH15
Mounting Hole
MH15
Mounting Hole
1
STANDOFF13
M3x16
STANDOFF13
M3x16
MH14
Mounting Hole
MH14
Mounting Hole
1
WASHER15
M3
WASHER15
M3
WASHER13
M3
WASHER13
M3
SCREW16
M3x6
SCREW16
M3x6
SCREW13
M3x6
SCREW13
M3x6
F14
Not Used
F14
Not Used
1 1
MH11
Mounting Hole
MH11
Mounting Hole
1
STANDOFF12
M3x16
STANDOFF12
M3x16
HEAT SINK
HEATSINK11
TIC-HSINK-062_1.00HEAT SINK
HEATSINK11
TIC-HSINK-062_1.00
SCREW12
M3x6
SCREW12
M3x6
F13
Not Used
F13
Not Used
1 1
SCREW15
M3x6
SCREW15
M3x6
MH12
Mounting Hole
MH12
Mounting Hole
1
WASHER11
M3
WASHER11
M3
SCREW11
M3x6
SCREW11
M3x6
STANDOFF11
M3x16
STANDOFF11
M3x16
F12
Not Used
F12
Not Used
1 1
TAS5616PHD2EVM Parts List (3.00).xls
TIQty Part Reference Description Manufacture First Mfr P/N
1 R41 0R / 5% / 0603 Thick Film Resistor Yageo RC0603JR-070RL6 R100 R101 R104 R107 R112 R113 100R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-07100RL1 R49 1.00k / 100mW / 1% / 0603 Thick Film Resistor Yageo RC0603FR-071KL16 R65 R66 R68 R69 R70 R71 R76 R78 10k / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-0710KL1 R55 1M / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-071ML1 R48 1.2k / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-071K2L
2 R10 R54 200R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-07200RL1 R16 22.0k / 100mW / 1% / 0603 Thick Film Resistor Yageo RC0603FR-0722KL9 R114 R115 3.3R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-073R3L4 R42 R43 R44 R45 4.7k / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-074K7L1 R116 47k / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-0747KL
1 R62 4.7R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-074R7L20 R74 R75 R77 R80 R81 R82 R83 R84 47R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-0747RL1 R47 560R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-07560RL1 R50 820R / 100mW / 5% / 0603 Thick Film Resistor Yageo RC0603JR-07820RL
5 C60 C95 C107 C112 C116 Ceramic 10nF / 100V / 20% X7R 0805 Capacitor BC Components 0805B103M101NT1 C15 Ceramic 4.7nF / 50V / 10% X7R 0805 Capacitor BC Components 0805B472K500NT
4 C93 C96 C115 C117 Ceramic 1nF / 100V / 10% NP0 1206 Capacitor BC Components 1206N102K101NT5 C50 C103 C104 C111 C118 Ceramic 2.2uF / 100V / 20% X7R 1210 Murata GRM32ER72A225KA35L
2 C10 C68 Ceramic 10nF / 50V / 20% X7R 0603 Capacitor Vishay VJ0603Y103MXA
17
C16 C54 C56 C64 C65 C67 C69 C86 C87 C88 C92 C97 C98 C99 C102 C151 C152 Ceramic 100nF / 16V / 20% X7R 0603 Capacitor Vishay VJ0603Y104MXJ
8 C70 C71 C74 C79 C82 C83 C84 C85 Ceramic 220nF / 16V / 20% X7R 0603 Capacitor BC Components VJ0603Y224MXJ
4 C58 C59 C94 C110 Ceramic 33nF / 25V / 20% X7R 0603 Capacitor BC Components 0603B333M250NT
2 C14 C100 Ceramic 4.7uF / 6.3V / 20% X5R 0603 Capacitor Panasonic ECJ-1V50J475M
1 C90 Ceramic 100pF / 50V / 10% NP0 0603 Capacitor BC Components 0603N101K500NT1 C81 Ceramic 1nF / 50V / 10% NP0 0603 Capacitor BC Components 0603N102K500NT2 C77 C78 Ceramic 15pF / 50V / 10% NP0 0603 Capacitor BC Components 0603N150K500NT4 C72 C73 C113 C114 Metal Film 680nF / 250V / 20% Polypropylene Wima MKP 4 0.68uF/20%/250Vdc PCM152 C53 C55 Electrolytic 10uF / 16V / 20% Aluminium 2mm Panasonic ECA1CM100
4 C51 C105 C106 C109
Electrolytic 1000uF / 63V / 20% Aluminium 7.5mm ø16mm FC Series - Low Impedance Capacitor Panasonic EEUFC1J102
1 C108Electrolytic 47uF / 63V / 20% Aluminium 5mm ø10mm Capacitor BC Components 2222 136 68479
4 C89 C101 C150 C153Electrolytic 47uF / 16V / 20% Aluminium 2mm ø5mm FC Series - Low Impedance Capacitor Panasonic EEUFC1C470
4 C66 C75 C76 C80Electrolytic 82uF / 16V / 20% Aluminium 2mm ø5mm FC Series - Low Impedance Capacitor Panasonic EEUFC1C820
4 L15 L16 L17 L18 15uH / 5A (30mR) Low THD+N Ferrite Inductor Fe-Tronic TIC-INDC-032 (1.00)3 D13 D14 D16 Light Emitting Red Red LED (0603) Toshiba TLSU10081 D11 Light Emitting Green Green LED (0603) Toshiba TLGU10082 D12 D15 Light Emitting Yellow Yellow LED (0603) Toshiba TLYU1008
5 Q11 Q12 Q13 Q15 Q160.115A / 60V N-ch Power 2N7002 Mosfet (SOT-23) Fairchild 2N7002
1 U10TAS5508B / 8 ch PWM processor (AD, DAP, 192kHz, PWM-VOL) (TQFP64) Texas Instruments TAS5508BPAG
1 U14 TAS5616PHD / 160 W STEREO FEEDBACK Texas Instruments TAS5616PHD
1 U15SN74LVC1G08 / Single AND gate, LVC (SOT23-5) Texas Instruments SN74LVC1G08DBVR
1 U150TPS3825-33 / 3.3V Supply Voltage Supervisor (SOP5-DBV) Texas Instruments TPS3825-33DBVT
1 U13LM317 / 0.5A Positive Adjustable Regulator (DCY) Texas Instruments LM317MDCY
1 U151TLV1117-33C / 3.3V/800mA Positive Voltage Regulator (SOT4-DCY) Texas Instruments TLV1117-33CDCYR
6SCREW11 SCREW12 SCREW13 SCREW14 SCREW15 SCREW16 M3x6 Pan Head, Pozidriv, A2 Screw Bossard BN 81882 M3x6
6WASHER11 WASHER12 WASHER13 WASHER14 WASHER15 WASHER16 M3 Stainless Steel Spring Washer Bossard BN 760 M3
4STANDOFF11 STANDOFF12 STANDOFF13 STANDOFF14 M3x16 nickel plated brass Stand-off Bossard BN 3320 M3x16
1 J222 pins / 1 row / 2.54mm Pitch Vertical Male Friction lock Pin header Header Molex 22-27-2021
1 of 2 6.Oct.2009
TAS5616PHD2EVM Parts List (3.00).xls
TI
1 J1026 pins / 2 rows / 2.54mm Pitch Vertical Male Low profile IDC 26 pins IDC Box header Molex 87834-2611
3 J12 J14 J152 pins / Vertical Female Banana Red and black banana socket Cliff TPP-3CT
1 X10 13.5MHz 13.5MHz SMD Crystal (HCM49) Citizen HCM49-13.500MABJT3 SW1 SW2 SW3 Switch DPDT PCB Mount Switch NKK-Nikkai G-22-AP
1 PCB11A848-PCB-001_3.00 / TAS5616PHD2EVM Printed Circuit Board (ver. 3.00) Printline A848-PCB-001(3.00)
1 HEATSINK11TIC-HSINK-062_1.00 / Heatsink for 1 PHD package, length 78 mm Phonotech TIC-HSINK-062(1.00)
2 of 2 6.Oct.2009
TI A848-PCBSPEC-001(3.00).doc
Jonas Holm
Page 1 of 1
TAS5616PHD2EVM PCB SPECIFICATION
Version 3.00
BOARD IDENTIFICATION: A848-PCB-001(3.00)
BOARD TYPE: DOUBLE-SIDED PLATED-THROUGH BOARD
LAMINATE TYPE: FR4
LAMINATE THICKNESS: 1.6mm
TOP LAYER COPPER THICKNESS: 70μm (INCL. PLATING EXTERIOR LAYER)
BOTTOM LAYER 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: 95 x 140 mm
Aprox. Number of holes 410
COMMENTS: SEE DRILL INFORMATION FILE (A848-PCB-001(3.00).pdf)
Company Confidential
Inductor Specification
Texas Instruments Denmark A/S VAT-no. 20 53 16 73 Lyngby Hovedgade 4 Phone: +45 96 34 68 68 DK-2800 Kgs. Lyngby Fax: +45 38 88 78 99 Denmark Web: http:\\www.ti.com
DWG no.: TIC-INDC-032(1.00) Text: 15μH / 5A / 30mΩ Diagram: Material: Core: Micrometals T94-2 Wire: ø0.80mm Cu, one layer lacquer, 155°C Foot-print top view Mechanical:
Lead length: 8mm-12mm, stripped and pre-tinned. Production: Step 1: N1, 42 turns ø0.80mm cu 1L, start 1, end 2 Step 2: bend and strip/pre-tin leads. Test: Inductance: pin 1 –2 14 – 16 μH @ 0.1Vrms/10kHz Release date: 26.March 2009, Jonas Holm
1 2
Evaluation Board/Kit Important Notice
Texas Instruments (TI) provides the enclosed product(s) under the following conditions:
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATIONPURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling theproduct(s) must have electronics training and observe good engineering practice standards. As such, the goods being provided arenot intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations,including product safety and environmental measures typically found in end products that incorporate such semiconductorcomponents or circuit boards. This evaluation board/kit does not fall within the scope of the European Union directives regardingelectromagnetic compatibility, restricted substances (RoHS), recycling (WEEE), FCC, CE or UL, and therefore may not meet thetechnical requirements of these directives or other related directives.
Should this evaluation board/kit not meet the specifications indicated in the User’s Guide, the board/kit may be returned within 30days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BYSELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDINGANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE.
The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user indemnifies TI from allclaims arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility totake any and all appropriate precautions with regard to electrostatic discharge.
EXCEPT TO THE EXTENT OF THE INDEMNITY SET FORTH ABOVE, NEITHER PARTY SHALL BE LIABLE TO THE OTHERFOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.
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TI assumes no liability for applications assistance, customer product design, software performance, or infringement ofpatents or services described herein.
Please read the User’s Guide and, specifically, the Warnings and Restrictions notice in the User’s Guide prior to handling theproduct. This notice contains important safety information about temperatures and voltages. For additional information on TI’senvironmental and/or safety programs, please contact the TI application engineer or visit www.ti.com/esh.
No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine, process, orcombination in which such TI products or services might be or are used.
FCC Warning
This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATIONPURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. It generates, uses, andcan radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15of FCC rules, which are designed to provide reasonable protection against radio frequency interference. Operation of thisequipment in other environments may cause interference with radio communications, in which case the user at his own expensewill be required to take whatever measures may be required to correct this interference.
EVM Warnings and Restrictions
It is important to operate this EVM within the input voltage range of 0 V to 50 V and the output voltage range of 0 V to 50 V .
Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there arequestions concerning the input range, please contact a TI field representative prior to connecting the input power.
Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to theEVM. Please consult the EVM User's Guide prior to connecting any load to the EVM output. If there is uncertainty as to the loadspecification, please contact a TI field representative.
During normal operation, some circuit components may have case temperatures greater than 90°C. The EVM is designed tooperate properly with certain components above 125°C as long as the input and output ranges are maintained. These componentsinclude but are not limited to linear regulators, switching transistors, pass transistors, and current sense resistors. These types ofdevices can be identified using the EVM schematic located in the EVM User's Guide. When placing measurement probes nearthese devices during operation, please be aware that these devices may be very warm to the touch.
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DSP dsp.ti.com Computers and www.ti.com/computersPeripherals
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Interface interface.ti.com Energy www.ti.com/energy
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