TI1 C1206C102K1RACTU Tas5622-tas5624ddvevm Datasheet

User's Guide
SLAU376 – May 2012
TAS5622-TAS5624DDVEVM
This user’s guide provides specifications for the evaluation module (EVM) for TAS5622 and TAS5624
Digital Input Class-D Power Stages with the TAS5538 Digital Audio Processor with PWM Output from
Texas Instruments. The user’s guide also describes operation of the EVM and provides design information
including schematic, bill of materials, and PCB layout.
Contents
Introduction .................................................................................................................. 2
1.1
TAS5622-TAS5624DDVEVM Features ......................................................................... 5
1.2
EVM Physical Structure ........................................................................................... 5
2
Quick Setup Guide .......................................................................................................... 6
2.1
Electrostatic Discharge Warning ................................................................................. 6
2.2
Unpacking the EVM ................................................................................................ 7
2.3
Power Supply Setup ............................................................................................... 7
2.4
Speaker Connection ............................................................................................... 7
2.5
Output Configuration BTL and PBTL ............................................................................ 8
2.6
GUI Software Installation and EVM Startup .................................................................... 9
2.7
Self-Protection and Fault Reporting ............................................................................ 11
3
Related Documentation from Texas Instruments ..................................................................... 11
3.1
Additional Documentation ....................................................................................... 11
Appendix A
Design Information ............................................................................................... 12
1
List of Figures
.............................................................................................
1
TAS5622-TAS5624DDVEVM
2
Input-USB Board3........................................................................................................... 4
3
3
Integrated PurePath Digital™ Amplifier System ........................................................................ 5
4
Physical Structure of the TAS5622-TAS5624DDVEVM (Approximate Layout) ..................................... 6
5
PBTL Mode Configuration ................................................................................................. 8
6
TAS5538 GUI Window ..................................................................................................... 9
7
Channel and Master Volume GUI ....................................................................................... 10
8
Top Composite PCB Layer ............................................................................................... 15
9
Bottom Composite PCB Layer ........................................................................................... 16
1
TAS5622-TAS5624DDVEVM Specification
List of Tables
2
3
4
.............................................................................
Recommended PVDD Power Supply Voltages ........................................................................
Related Documentation from Texas Instruments .....................................................................
Bill of Materials for TAS5624DDVEVM .................................................................................
2
7
11
12
PurePath is a trademark of Texas Instruments.
I2C is a trademark of NXP B.V. Corp Netherlands.
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Introduction
1
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Introduction
The TAS5622-TAS5624DDVEVM PurePath™ EVM demonstrates the current version of TAS5622DDV or
TAS5624DDV integrated circuit power stage with TAS5538DGG from Texas Instruments (TI).
The TAS5622 and TAS5624 are high-performance, integrated Stereo Feedback Digital Amplifier Power
Stages designed to drive 3Ω speakers at up to 200W per channel for TAS5624DDV and 165W per
channel for TAS5622DDV. They require only a passive demodulation filter to deliver efficient high quality
audio amplification.
TAS5538DGG is a high performance 32 bit (24 bit input) multi channel PurePath™ Digital Pulse Width
Modulator (PWM) with fully symmetrical AD modulation scheme. The device also has Digital Audio
Processing (DAP) that provides 48 bit signal processing, advanced performance and a high level of
system integration.
This EVM can be configured as 2 BTL channels for stereo evaluation or 1 PBTL (parallel BTL) channel for
subwoofer evaluation. Together with a TI Input-USB Board 3, it provides a complete stereo digital audio
amplifier system which includes 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.
NOTE: TAS5622-TAS5624DDVEVM IS SHIPPED WITH THE CURRENT VERSION OF TAS5624
INSTALLED. TO EVALUATE THE CURRENT VERSION OF TAS5622 PLEASE VISIT THE
PRODUCT FOLDER AT www.ti.com AND REQUEST A FREE SAMPLE, AND REPLACE
TAS5624 WITH TAS5622.
Table 1. TAS5622-TAS5624DDVEVM Specification
Key Parameters
Values
TAS5624 Power Supply Voltage
12 - 38 Vdc
TAS5622 Power Supply Voltage
12 - 34 Vdc
Number of Channels
2 x BTL or 1 x PBTL
Load Impedance BTL
3-8 Ohm
Load Impedance PBTL
1.5-4 Ohm
TAS5624 Output power BTL
200W / 3Ohm / 10%THD+N
TAS5624 Output power PBTL
400W / 1.5Ohm / 10%THD+N
TAS5622 Output power BTL
165W / 3Ohm / 10%THD+N
TAS5622 Output power PBTL
325W / 1.5Ohm / 10%THD+N
Dynamic Range (DNR)
>105 dB
PWM Processor
TAS5538DGG
Output Stage
TAS5624DDV or TAS5622DDV
NOTE: The heatsink in TAS5622-TAS5624DDVEVM is designed to comply with time requirements
of the “Amplifier Rule”, US Federal Trade Commission 16 CFR 432, when the EVM is
operated at power levels specified above. If continuous operation at specified output power
is required it is necessary to provide forced air flow through the heatsink.
(The FTC regulation specifies operation in 25°C ambient temperature for one hour at 1/8
specified output power (25.0W per channel for TAS5624DDVEVM, 20.63W per channel for
TAS5622DDVEVM) and then for 5 minutes at specified output power (200W per channel for
TAS5624DDVEVM, 165W per channel for TAS5622DDVEVM). Then distortion vs. output
power can be measured. TAS5622-TAS5624DDVEVM provides specified output power for
several minutes or more without thermal shutdown. THD is not specified for this test but is
typically near 10%.)
2
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Introduction
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√
Figure 1. TAS5622-TAS5624DDVEVM
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Introduction
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Figure 2. Input-USB Board3
Gerber (layout) files are available at: http://www.ti.com.
The EVM is delivered with cables and a TI Input-USB Board 3 to connect to an input source and to a PC
for control. Refer to the section "Unpacking the EVM" below.
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Introduction
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1.1
TAS5622-TAS5624DDVEVM Features
•
•
•
•
Stereo PurePath Digital™ evaluation module.
Self-contained protection system (overcurrent, overtemperature, undervoltage and missing PWM
input).
Standard I2S and I2C™ / Control connector for TI input board
Double-sided plated-through PCB layout.
8
Channel
Analog
Input
Control Interface
TAS5622-TAS5624DDVEVM
USB
Interface
Optical
and
Coaxial
S/PDIF
Input
Stereo/Mono
Channel
Speaker Output
I2C Bus
I2S Bus
Example:
TI Input - USB Board 3
Power Supply
Figure 3. Integrated PurePath Digital™ Amplifier System
1.2
EVM Physical Structure
Physical structure of the TAS5622-TAS5624DDVEVM is illustrated in Figure 4.
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Quick Setup Guide
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+ LEFT SPEAKER OUTPUTS –
LOUT+
+ RIGHT SPEAKER OUTPUTS –
LOUT–
ROUT+
LEFT CHANNEL
OUTPUT FILTE RS
ROUT–
RIGHT CHANNEL
OUTPUT FILTERS
HEATSINK
MODE
PINS
TAS5538
PBTL – BTL
(+12 to
+36 Vdc)
+3.3Vdc
REGULATOR
PVDD
TAS5622DDVEVM 6524656
TAS5624DDVEVM 6524657
TAS5622
TAS5624
NORMAL
S1
GND
RESET INPUT SIGNAL & CONTROL
Reset
INTERFACE (J1)
LED
STATUS
LEDs
Figure 4. Physical Structure of the TAS5622-TAS5624DDVEVM (Approximate Layout)
2
Quick Setup Guide
This section describes the TAS5622-TAS5624DDVEVM power supplies and system interfaces. It provides
information regarding handling and unpacking, absolute operating conditions, and switch and jumper
positions. It also provides a step-by-step guide to setting up the TAS5622-TAS5624DDVEVM for device
evaluation.
2.1
Electrostatic Discharge Warning
Many of the components of the TAS5622-TAS5624DDVEVM are susceptible to damage by electrostatic
discharge (ESD). Customers are advised to observe proper ESD handling precautions when unpacking
and handling the EVM, including the use of a grounded wrist strap at an approved ESD workstation.
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Quick Setup Guide
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CAUTION
Failure to observe ESD handling procedures can result in damage to EVM
components.
2.2
Unpacking the EVM
Upon opening the TAS5622-TAS5624DDVEVM package, check to make sure that the following items are
included:
• 1 pc. TAS5622-TAS5624DDVEVM using 1 TAS5538DGG and 1 TAS5622DDV or TAS5624DDV.
• 1 pc. TI Input-USB Board 3 for interfacing TAS5622-TAS5624DDVEVM to SPDIF/analog sources and
PC for control.
• 1 pc. Signal and Control Interface IDC cable for connection to an I2S front-end like the Input-USB
Board 3.
• 1 pc. Cable for connecting Input-USB Board 3 to a USB port on a PC for TAS5538 control by software.
• If any of these items are missing, contact the nearest Texas Instruments Product Information Center to
inquire about a replacement.
Connect the Input-USB Board 3 to the TAS5622/14LDDVEVM using the delivered IDC cable.
2.3
Power Supply Setup
2 power supplies are needed to power the TAS5622-TAS5624DDVEVM. Voltage and current
requirements for the PVDD power supply are shown in the table below. Connect this power supply to the
EVM using banana cables or wires secured to the power supply binding posts PVDD and GND. A second
power supply, 12Vdc at 500mA, is required to power Input-USB Board 3. Connect the 12V power supply
to the Input-USB Board 3 using banana cables or wires secured to the power supply binding posts +12V
and GND.
Table 2. Recommended PVDD Power Supply Voltages
Description
Voltage Range
Current Requirements
Binding Post
TAS5624 Power Supply Voltage
12 - 38 Vdc
20 A
PVDD
TAS5622 Power Supply Voltage
12 - 34 Vdc
18 A
PVDD
CAUTION
NOTE: Applying voltages above specifications in Table 2 can cause permanent
damage to the hardware. Verify polarity of power supply connections before
powering the EVM.
NOTE: The length of the power supply cable must be minimized. Increasing length of PSU cable is
likely to increase 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 be
connected to ground (e.g. through an oscilloscope). To measure a BTL output
connect an oscilloscope probe to each side of the output, connect both ground
clips to EVM ground and use the oscilloscope math functions to show the
difference between the 2 probe signals.
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Quick Setup Guide
2.5
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Output Configuration BTL and PBTL
When changing mode from BTL to PBTL, make sure that the AMP_RESET switch is set to RESET before
changing shunts on Mode headers M3, D and C.
- For BTL mode place a shunt on pins 1 and 2 of each header, at the positions marked BTL.
- For PBTL mode place a shunt on pins 3 and 2 of each header, at the positions marked PBTL.
In PBTL mode the load must be connected according to Figure 5:
+ LEFT SPEAKER OUTPUTS –
+ RIGHT SPEAKER OUTPUTS –
LEFT CHANNEL
OUTPUT FILTERS
RIGHT CHANNEL
OUTPUT FILTERS
HEATSINK
TAS5622
MODE
PINS
TAS5538
PBTL – BTL
(+12 to
+36 Vdc)
+3.3Vdc
REGULATOR
PVDD
TAS5622DDVEVM 6524656
TAS5624DDVEVM 6524657
TAS5624
NORMAL
S1
GND
RESET INPUT SIGNAL & CONTROL
Reset
INTERFACE (J1)
LED
STATUS
LEDs
Figure 5. PBTL Mode Configuration
8
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Quick Setup Guide
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2.6
GUI Software Installation and EVM Startup
The TAS5622-TAS5624DDVEVM is controlled by the Input-USB Board 3 with the TAS5538 GUI. The
TAS5538 GUI provides control of all registers in TAS5538. Download the current version of the GUI zip
file "TAS5538_xxxx.zip" from the TAS5622DDVEVM folder or the TAS5624DDVEVM folder on
http://www.ti.com to a convenient location on the host PC. Create a new folder at a convenient location
and extract the files from the zip file to the new folder. Be sure to check the box labeled “Use folder
names” during extraction. Then connect the USB cable between the host PC and jack USB-IN on the
Input-USB Board 3. Then turn on the 12V power supply and the PVDD power supply in that order.
Start the GUI by opening "TAS55XX_GUI.exe" in the new folder. Startup will take a few seconds and the
following window will open.
Click CONNECT and then READ, to verify that the data in register 0x00 read 6C.
0x00 6C
Figure 6. TAS5538 GUI Window
NOTE: If the address that is read is not 6C, make sure the USB is connected to the PC and check
for HID enumeration.
– Open the PC device manager. Right-click My Computer on desktop and open Properties,
then Hardware, then Device Manager.
– Expand "Human Interface Devices".
– Plug and unplug the USB cable from Input-USB Board 3 and confirm that an HID icon
appears.
Uncheck "ShutDown" and click the "Master Volume" icon to open the following window.
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Quick Setup Guide
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Figure 7. Channel and Master Volume GUI
Uncheck mute and increase volume to the desired level, and close the window. Then press the MUTE
switch on Input-USB Board 3 to extinguish the MUTE LED. The EVM should now operate.
NOTE: In some cases when power is cycled on the DUT or Input-USB Board 3 but the GUI is not
closed, it will be necessary to take an action like checking and unchecking mute to force I2C
communication to refresh TAS5538. In some cases the startup process must be repeated.
An SPDIF input may be provided to Input-USB Board 3 by coax to jack COAX or by optical connection to
jack OPTO. Alternatively an analog input may be connected to jack ADC1_IN. An analog input will
override an SPDIF input.
10
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Related Documentation from Texas Instruments
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2.7
Self-Protection and Fault Reporting
The TAS5622 and TAS5624 are self-protecting devices that provide overtemperature, overcurrent,
undervoltage and missing-PWM-input protection, with extensive fault reporting. For full descriptions of
these functions consult data sheet SLAS845 for TAS5622A and data sheet SLAS844 for TAS5624A.
3
Related Documentation from Texas Instruments
The following table lists data sheets that provide detailed descriptions of integrated circuits from TI that are
used in the TAS5622-TAS5624DDVEVM. These data sheets can be obtained at http://www.ti.com.
Table 3. Related Documentation from Texas
Instruments
3.1
Part Number
Literature Number
TAS5538
SLES255
TAS5622A
SLAS845
TAS5624A
SLAS844
TPS3825-33
SLVS165
TLV1117-33C
SLVS561
Additional Documentation
1.
2.
3.
4.
5.
6.
7.
8.
System Design Considerations for True Digital Audio Power Amplifiers (SLAA117)
Digital Audio Measurements (SLAA114)
PSRR for PurePath Digital Audio Amplifiers (SLEA049)
Power Rating in Audio Amplifier (SLEA047)
PurePath Digital AM Interference Avoidance (SLEA040)
Click & Pop Measurements Technique (SLEA044)
Power Supply Recommendations for DVD-Receivers (SLEA027)
Implementation of Power Supply Volume Control (SLEA038)
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Appendix A Design Information
This appendix includes design information for the TAS5622-TAS5624DDVEVM. This information is
presented in the following order.
• Table 4 EVM Bill of Materials
• Section A.1 EVM Custom Component Vendors
• Section A.2 TAS5622-TAS5624LDDVEVM PCB Specification
• Section A.3 EVM PCB Layers
• Section A.4 EVM and Input-USB Board 3 Schematics
Table 4. Bill of Materials for TAS5624DDVEVM
Manu Part No.
Qty
Ref Des
Vendor Part No.
Description
Vendor
Manu
TI-SEMICONDUCTORS
TAS5624DDV
1
U1
TAS5624DDV
150W-STEREO/300W-MONO PUREPATH
DIGITAL AMP HTSSOP44-DDV ROHS
Texas
Instruments
Texas
Instruments
TAS5538DGG
1
U2
TAS5538DGG
8 CHANNEL HD COMPATIBLE AUDIO
PROCESSOR TSSOP56-DGG ROHS
Texas
Instruments
Texas
Instruments
TPS3825-33DBVT
1
U3
296-2636-1
PROCESSOR SUPERVISORY CIRCUITS
2.93V 200ms SOT23-DBV5 ROHS
Digi-Key
Texas
Instruments
TLV1117-33CDCYR
1
VR1
296-21112-1-ND
VOLT REG LDO 3.3V 800mA SOT223-DCY
ROHS
Digi-Key
Texas
Instruments
2N7002
4
Q1, Q2, Q3,
Q4
2N7002NCT
N-FET 60V 115mA 200mW 7.5 OHM@10V
SOT23-DBV3 ROHS
Digi-Key
Fairchild
SML-LXT0805SRW-TR
3
125C,
FAULT,
AMP_RESET
67-1555-1
LED, RED 2.0V SMD0805 ROHS
Digi-Key
Lumex Opto
SML-LXT0805YW-TR
1
CLIP
67-1554-1
LED, YELLOW 2.0V SMD0805 ROHS
Digi-Key
Lumex Opto
SEMICONDUCTORS
CAPACITORS
C1206C102K1RACTU
4
C21, C24,
C27, C30
399-1222-1
CAP SMD1206 CERM 1000PFD 100V 1%
C0G ROHS
Digi-Key
Kemet
GRM188R71H472KA01D
2
C54, C55
490-1506-1
CAP SMD0603 CERM 4700PFD 50V 10% X7R Digi-Key
ROHS
Murata
GRM21BR72A103KA01L
5
C22, C25,
C28, C31,
C70
490-1652-1
CAP SMD0805 CERM 0.01UFD 100V 10%
X7R ROHS
Digi-Key
Murata
GRM188R71H333KA61D
4
C16, C17,
C18, C19
490-3286-1-ND
CAP SMD0603 CERM 0.033UFD 50V 10%
X7R ROHS
Digi-Key
Murata
GRM188R71C473KA01D
2
C56, C57
490-1529-1
CAP SMD0603 CERM 0.047UFD 16V 10%
ROHS
Digi-Key
Murata
GRM188R71C104KA01D
17
C2, C3, C4,
C7, C32,
C50, C52,
C53, C59,
C60, C62,
C63, C64,
C65, C74,
C76, C77
490-1532-1-ND
CAP SMD0603 CERM 0.1UFD 16V 10% X7R
ROHS
Digi-Key
Murata
MKP4 -.68/250/20
4
C20, C23,
C26, C29
MKP4 -0.68/250/20
CAP POLYPRO FILM MKP4 0.68UFD 250V
20% ROHS
WIMA
WIMA
C1608X7R1C105K
2
C5, C6
445-1604-1
CAP SMD0603 CERM 1.0UFD 16V 10% X7R
ROHS
Digi-Key
TDK
GRM21BR71H105KA12L
5
C8, C9, C10,
C11, C71
490-4736-1-ND
CAP SMD0805 CERM 1.0UFD 50V 10% X7R
ROHS
Digi-Key
Murata
GRM21BR61C106KE15L
3
C58, C61,
C66
490-3886-1
CAP SMD0805 CERM 10UFD 16V 10% X5R
ROHS
Digi-Key
Murata
EEU-FC1C470
4
C1, C51,
C73, C75
P11196
Digi-Key
Panasonic
CAPACITORS
12
CAP 47UFD 16V RAD ALUM ELEC FC ROHS
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Table 4. Bill of Materials for TAS5624DDVEVM (continued)
Manu Part No.
Qty
Ref Des
Vendor Part No.
Description
Vendor
Manu
UKZ1H470MPM
1
C72
493-3194
CAP ALUM ELEC KZ RADIAL 47UFD 50V
20% ROHS
Digi-Key
Nichicon
EEU-FC1H102
2
C12, C14
P10333-ND
CAP ALUM ELEC FC RADIAL 1000UFD 50V
20% ROHS
Digi-Key
Panasonic
RMCF0402ZT0R00
2
R12, R13
RMCF0402ZT0R00CT
ZERO OHM JUMPER SMT 0402 0 OHM
1/16W,5% ROHS
Digi-Key
Stackpole
Electronics
ERJ-3GEY0R00V
1
R51
P0.0GCT
RESISTOR SMD0603 0.0 OHM 5% THICK
FILM 1/10W ROHS
Digi-Key
Panasonic
ERJ-3GEYJ1R0V
1
R50
P1.0GCT
RESISTOR SMD0603 1.0 OHMS 1% THICK
FILM 1/10W ROHS
Digi-Key
Panasonic
ERJ-3GEYJ3R3V
8
R1, R7, R8,
R9, R10,
R11, R14,
R60
P3.3GCT
RESISTOR SMD0603 3.3 OHMS 5% 1/10W
ROHS
Digi-Key
Panasonic
ERJ-3GEYJ470V
19
R27, R28,
R29, R30,
R31, R32,
R33, R34,
R35, R36,
R37, R38,
R39, R40,
R54, R55,
R56, R57,
R58
P47GCT
RESISTOR SMD0603 47 OHMS 5% 1/10W
ROHS
Digi-Key
Panasonic
CRCW0603100RFKEA
3
R4, R5, R6
541-100HCT
RESISTOR SMD0603 100 OHM 1/10W 1%
ROHS
Digi-Key
Vishay
ERJ-3GEYJ471V
2
R48, R49
P470GCT
RESISTOR SMD0603 470 OHMS 5% 1/10W
ROHS
Digi-Key
Panasonic
ERJ-3GEYJ472V
4
R61, R62,
R63, R65
P4.7KGCT
RESISTOR SMD0603 4.7K OHMS 5% 1/10W
ROHS
Digi-Key
Panasonic
ERJ-3EKF1002V
14
R20, R21,
R22, R23,
R24, R25,
R26, R41,
R42, R43,
R44, R45,
R46, R47
P10.0KHCT
RESISTOR SMD0603 10.0K 1% THICK FILM
1/10W ROHS
Digi-Key
Panasonic
RMCF0603FT15K0
1
R52
RMCF0603FT15K0CT
RESISTOR SMD0603 15.0K OHMS 1% 1/10W
ROHS
Digi-Key
Stackpole
Electronics
RC0603FR-0718KL
1
R53
311-18.0KHRCT
RESISTOR SMD0603 THICK FILM 18.0K
OHMS 1% 1/10W ROHS
Digi-Key
Yageo
RC0603FR-0730KL
1
R2
311-30.0KHRCT
RESISTOR SMD0603 THICK FILM 30.0K 1%
1/10W ROHS
Digi-Key
Yageo
ERJ-3GEYJ473V
1
R3
P47KGCT
RESISTOR SMD0603 47K OHMS 5% 1/10W
ROHS
Digi-Key
Panasonic
MA5173-AE
4
L1, L2, L3, L4 MA5173-AE
Coil Craft
Coil Craft
N2526-6002-RB
1
J1
MHC26K-ND
HEADER SHROUDED 100LS MALE GOLD
2X13 PINS ROHS
Digi-Key
3M
PBC02SAAN
1
JP1
S1011E-02-ND
HEADER THRU MALE 2 PIN 100LS GOLD
ROHS
Digi-Key
Sullins
PBC03SAAN
3
C, D, M3
S1011E-03-ND
HEADER THRU MALE 3 PIN 100LS GOLD
ROHS
Digi-Key
Sullins
5003
1
ET2
5003K
PC TESTPOINT, ORANGE, ROHS
Digi-Key
Keystone
Electronics
G12AP-RO
1
S1
360-1758
SWITCH THRU SPDT STRAIGHT ULTRA
MINIATURE ROHS
Digi-Key
NKK
5018-0
3
GND, LOUT-,
ROUT-
565-5018-0
Mouser
Pomona
RESISTORS
INDUCTORS
SHIELDED POWER INDUCTOR 7uH 12A
ROHS
HEADERS
TESTPOINTS AND SWITCHES
BINDING POSTS
BINDING POST, BLACK 60V 30A GOLD
ROHS
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13
EVM Custom Component Vendors
www.ti.com
Table 4. Bill of Materials for TAS5624DDVEVM (continued)
Manu Part No.
Qty
Ref Des
Vendor Part No.
Description
Vendor
Manu
5018-2
3
PVDD,
LOUT+,
ROUT+
565-5018-2
BINDING POST, RED 60V 30A GOLD ROHS
Mouser
Pomona
SPC02SYAN
4
JP1, C(1-2),
D(1-2),
M3(1-2)
S9001
DigI-Key
Sullins
ATSTI1OP-519-C1-R3
1
HS1
ATSTI1OP-519-C1-R3
HEATSINK ALUMINUM ATS 36x78mm
36.8mm PITCH ROHS
ATS
ATS
92000A118
2
HS1
92000A118
PHILIPS PANHEAD SCREW M3x8mm
STAINLESS STEEL ROHS
McMasterCarr
McMasterCarr
92148A150
2
HS1
92148A150
SPLIT WASHER M3 STAINLESS STEEL
ROHS
McMasterCarr
McMasterCarr
94868A178
4
NA
94868A178
STANDOFF M3x25mm 4.5mm DIA HEX
STAINLESS STEEL F-F ROHS
McMasterCarr
McMasterCarr
92000A118
4
NA
92000A118
PHILIPS PANHEAD SCREW M3x8mm
STAINLESS STEEL ROHS
McMasterCarr
McMasterCarr
92148A150
4
NA
92148A150
SPLIT WASHER M3 STAINLESS STEEL
ROHS
McMasterCarr
McMasterCarr
SHUNTS
SHUNT, BLACK AU FLASH 0.100LS
HEAT SINKS AND HARDWARE
Component Count:
163
COMPONENTS NOT ASSEMBLED
CR1, CR2, CR3, CR4, L+, L-, OA, OB, OC, OD, R+, R-, PVDD_AB, PVDD_CD, M1, M2, GNDx2, PSVC
A.1
EVM Custom Component Vendors
TAS5622DDVEVM and TAS5624DDVEVM include inductors and heatsinks from 2 custom component
vendors designed specifically for the EVMs. These vendors carry stock for small orders on their shelves..
Advanced Thermal Solutions (ATS), in Norwood, MA, USA, provide a heatsink optimized for these EVMs,
ATS-TI1OP-519-C1. Information on this heatsink can be obtained from Leonard Alter at [email protected].
ATS design and manufacture a large line of off-the-shelf and patented high performance heatsinks. They
also design and manufacture research quality thermal test and measurement equipment and offer thermal
evaluation and design services. Information about their products and services is available at
www.qats.com.
Coilcraft, in Cary, IL, USA, provide a 7µH inductor optimized for these EVMs, MA5173-AE. Information on
this component can be found in the data sheet for the MA5172 inductor family at www.coilcraft.com.
Coilcraft make a variety of other inductors for Class D amplifiers, most of which are AEC-Q200 Grade 1
certified for automotive applications. Free evaluation samples and on-line ordering are available at
www.coilcraft.com.
14
Design Information
SLAU376 – May 2012
Submit Documentation Feedback
Copyright © 2012, Texas Instruments Incorporated
TAS5622-TAS5624LDDVEVM PCB Specification
www.ti.com
A.2
TAS5622-TAS5624LDDVEVM PCB Specification
PCB IDENTIFICATION:
PCB TYPE:
PCB SIZE:
LAMINATE TYPE:
LAMINATE THICKNESS:
COPPER THICKNESS:
COPPER PLATING IN HOLES:
MINIMUM HOLE DIAMETER:
SILKSCREEN:
SOLDER MASK:
APPROX. HOLE COUNT:
PROTECTIVE COATING:
ELECTRICAL TEST:
COMMENTS:
A.3
TAS5622-TAS5624DDVEVM_RevA
DOUBLE-SIDED PLATED-THROUGH
142 x 96 mm
FR4
1.6mm
70 μm (2 ounce) (INCLUDING PLATING EXTERIOR LAYER)
70 μm (2 ounce)
0.3 mm (12 mils)
WHITE - REMOVE SILKSCREEN FROM SOLDER & PRE-TINNED
AREAS
BLUE
570
ENIG (ELECTROLESS NICKEL / IMMERSION GOLD)
PCB MUST BE ELECTRICAL TESTED
FAB NOTES ARE IN THE DRILL DRAWING FILE
EVM PCB Layers
Figure 8. Top Composite PCB Layer
SLAU376 – May 2012
Submit Documentation Feedback
Design Information
Copyright © 2012, Texas Instruments Incorporated
15
EVM and Input-USB Board 3 Schematics
www.ti.com
Figure 9. Bottom Composite PCB Layer
A.4
EVM and Input-USB Board 3 Schematics
The EVM and Input-USB Board 3 Schematics are appended to this User's Guide PDF.
16
Design Information
SLAU376 – May 2012
Submit Documentation Feedback
Copyright © 2012, Texas Instruments Incorporated
TAS5622DDV/TAS5624DDV EVALUATION BOARD
C54
C55
4700pfd/50V
0603
4700pfd/50V
0603
C56
AVDD
0.047ufd/16V
0603
C57
R48
470
0603
U2
1.0
0603
+3.3V
R51
C32
0.047ufd/16V
0603
470
0603
GND
GND
5
R27
4
53
10ufd/16V
0805
0.1ufd/16V
0603
5
52
6
51
7
50
8
49
C63
R24
R26
10.0K
0603
10.0K
0603
10.0K
0603
J1
R21
R23
R25
1
10.0K
0603
10.0K
0603
10.0K
0603
R29
47
0603
AVSS
1
2
SOT23-DBV5
200ms
Orange
18.0K
0603
GND
+3.3V
C60
GND
+3.3V
10
47
11
46
12
45
13
44
14
43
15
42
0.1ufd/16V
0603
TO
TAS5622
TAS5624
GND
INPUT_C
GND
0.1ufd/16V
0603
GND
5
48
ET2
R53
JP1
4
15.0K
0603
GND
47
0603
3
9
3
47
0603
R30
0603
0.1ufd/16V
R52
R28
R22
54
C59
TPS3825-33DBVT
10.0K
0603
3
C64
2
GND
R20
55
4
47
0603
+3.3V
U3
2
C58
0.0
0603
0.1ufd/16V
0603
A842
INPUT-USB
BOARD 2
56
R49
R50
+3.3V
1
R31
INPUT_D
16
41
PWM_P_2
17
40
PWM_M_2
R54
6
47
0603
7
8
R33
R32
47
0603
18
39
PWM_P_1
19
38
PWM_M_1
20
37
9
47
0603
10
R34
11
12
R35
47
0603
47
0603
R36
13
14
15
47
0603
21
36
22
35
23
34
16
R37
17
47
0603
R38
24
33
19
R39
47
0603
25
32
20
47
0603
R40
26
31
47
0603
27
30
47
0603
R55
R56
47
0603
47
0603
R57
R58
47
0603
INPUT_A
INPUT_B
VALID
47
0603
+3.3V
1
18
2
GND
C65
C66
0.1ufd/16V
0603
10ufd/16V
0805
PSVC
GND
GND
100LS
120TAIL
DNP
21
22
R41
R42
R43
R44
R45
R46
R47
23
10.0K
0603
10.0K
0603
10.0K
0603
10.0K
0603
10.0K
0603
10.0K
0603
10.0K
0603
28
24
C61
C62
10ufd/16V
0805
0.1ufd/16V
0603
25
26
GND
+5V
GND
GND
C50
29
TAS5538DGG
TSSOP56-DGG
GND
0.1ufd/16V
0603
GND
+12V
+
C51
C52
C53
47ufd/16V
FC
0.1ufd/16V
0603
0.1ufd/16V
0603
GND
TI
GND
GND
DIGITAL AUDIO PROCESSOR I/O
PAGE INFO:
DESIGN LEAD STEPHEN CRUMP
EDGE # TAS5622-6524656 / TAS5624-6524657
DATE
MARCH 7, 2012
FILENAME TAS5622-TAS5624DDVEVM_RevA.sbk
SCH REV
A
PCB REV
A
SHEET 1 OF 5
DRAWN BY
LDN
TAS5622DDV/TAS5624DDV EVALUATION BOARD
R1
+12V
3.3
0603
C3
0.1ufd/16V
0603
GND
R14
+12V
1
3.3
0603
FROM ON/RESET
CONTROL
U1
44
C2
43
0.1ufd/16V
0603
42
41
GND
GND
R3
R2
3
30.0K
0603
4
+3.3V
40
GND
37
6
36
PVDD_AB
+
C4
35
GND
INPUT_C
INPUT_D
1-2 = BTL
2-3 = PBTL
1
0.1ufd/16V
0603
C9
C5
9
1.0ufd/50V
0805
1.0ufd/16V
0603
10
GND
C
1
32
3
+
30
GND
14
100
0603
100
R6
100
R5
0603
28
17
27
C11
18
0603
1.0ufd/50V
0805
R12
0.0
GND
1
GND
+3.3V
M3
0.0
M1
0402
26
C27
C28
0.68ufd/250V
MKP4-15
1000pfd/100V
1206
0.01ufd/100V
0805
GND
21
25
RIGHT
Output
ROUT+
R10
3.3
0603
L4
OD
1
C19
Red
ROUT-
GND
Black
R-
2
7uH/12A
MA5173-AE
0.033ufd/50V
0603
C29
C30
C31
0.68ufd/250V
MKP4-15
1000pfd/100V
1206
0.01ufd/100V
0805
GND
R11
GND
GND
24
R7
+12V
3.3
0603
22
C7
23
TAS5622DDV/TAS5624DDV
HTSSOP44-DDV
OUT_D
OUT_C
OUT_B
OUT_A
+12V
GND
+
C1
47ufd/16V
FC
HS1
2
CR1
CR2
CR3
CR4
30BQ060
30BQ060
30BQ060
30BQ060
60V/580mV@3A
SMC
60V/580mV@3A
SMC
60V/580mV@3A
SMC
60V/580mV@3A
SMC
GND
GND
GND
GND
1
3 OHM LOAD OPERATION:
GND
GND
POWER AMPLIFIER
PAGE INFO:
DESIGN LEAD STEPHEN CRUMP
PVDD
GND
R+
C26
GND
OUT_D
GND
3.3
0603
0.1ufd/16V
0603
TI
R9
GND
GND
20
100LS
120TAIL
1-2 = BTL
2-3 = PBTL
GND
2
19
M2
R13
2
3
0402
0.01ufd/100V
0805
7uH/12A
MA5173-AE
C14
GND
L-
C25
1000pfd/100V
1206
1000ufd/50V
FC
16
Black
C24
29
15
LOUT-
GND
3.3
0603
0.033ufd/50V
0603
PVDD_CD
Red
0.68ufd/250V
MKP4-15
L3
C18
31
LOUT+
R8
C23
GND
1
C10
LEFT
Output
2
GND
1.0ufd/50V
0805
R4
GND
L2
1
OC
1.0ufd/16V
0603
GND
TO
STATUS
MONITOR
OB
OUT_B
OUT_C
GND
C6
100LS
120TAIL
0.01ufd/100V
0805
3.3
0603
0.033ufd/50V
0603
GND
13
2
C22
1000pfd/100V
1206
GND
GND
D
C21
0.68ufd/250V
MKP4-15
C17
33
12
100LS
120TAIL
C20
11
2
3
PVDD
7uH/12A
MA5173-AE
8
34
7uH/12A
MA5173-AE
C12
GND
7
2
1
OA
1000ufd/50V
FC
INPUT_A
INPUT_B
L1
OUT_A
39
5
L+
0.033ufd/50V
0603
1.0ufd/50V
0805
38
47K
0603
FROM
MODULATOR
C16
C8
2
EDGE # TAS5622-6524656 / TAS5624-6524657
1. MOUNT CR1-CR4
2. CHANGE ROC = 22K Ohms (R2)
DATE
MARCH 7, 2012
FILENAME TAS5622-TAS5624DDVEVM_RevA.sbk
SCH REV
A
PCB REV
A
SHEET 2 OF 5
DRAWN BY
LDN
TAS5622DDV/TAS5624DDV EVALUATION BOARD
5V TO 3.3V DC-DC CONVERTER
MAIN POWER IN
PVDD
VR1
HARDWARE
+3.3V
STAND
OFFS
M3
M3
M3
M3
M3
M3
TLV1117-33
PVDD
Red
GND
Black
GND
+
C70
C71
0.01ufd/100V
0805
1.0ufd/50V
0805
3
+5V
C72
+
47ufd/50V
KZ
R60
GND
3.3
0603
PVDD RANGE= xxV-38V
GND
C73
C74
47ufd/16V
FC
0.1ufd/16V
0603
GND
GND
VIN
M3x8
M3x8
M3x8
M3x8
M3x8
M3x8
2
VOUT
GND
1 3.3V 800mA
SOT223-DCY
GND
+
C75
C76
47ufd/16V
M
0.1ufd/16V
0603
GND
GND
GND
GND
GND
M3x25
M3x25
M3x25
M3x25
HEAT
SINK
STANDOFFS
GND
WASHERS
SCREWS
GND
+12V
OTW
Q1
FROM U1
G
D
2N7002
60V/115mA
S SOT23-DBV3
GND
+12V
CLIP
R61
4.7K
0603
125C
Red
0805
GND
Q2
G
D
2N7002
60V/115mA
S SOT23-DBV3
GND
+12V
FAULT
R62
4.7K
0603
CLIP
Yellow
0805
STATUS
MONITORS
D
Q3
G
GND
2N7002
60V/115mA
S SOT23-DBV3
GND
+12V
AMP
RESET
R63
4.7K
0603
FAULT
Red
0805
GND
Q4
G
D
2N7002
60V/115mA
S SOT23-DBV3
GND
R65
4.7K
0603
AMP_RESET
Red
0805
GND
ON/RESET CONTROL
FROM
MODULATOR
1
VALID
2
3 G12AP
S3 SETTINGS
1-2/6-5
ON
3-2/4-5 RESET
TI
PAGE INFO:
DESIGN LEAD
POWER SUPPLY, STATUS MONITORS, ON/OFF CONTROL
STEPHEN CRUMP
EDGE #
GND
TO U1
S1
C77
0.1ufd/16V
0603
GND
TAS5622-6524656 / TAS5624-6524657
DATE
FILENAME
MARCH 7, 2012
TAS5622-TAS5624DDVEVM_RevA.sbk
SCH REV
A
PCB REV
A
SHEET 3 OF 5
DRAWN BY LDN
TAS5622DDV/TAS5624DDV EVALUATION BOARD
REVISION HISTORY
REVISION DESCRIPTION
A
TI
DATE
INITIAL RELEASE
REVISION HISTORY
PAGE INFO:
DESIGN LEAD STEPHEN CRUMP
MARCH 7, 2012
EDGE # TAS5622-6524656 / TAS5624-6524657
APPROVAL
SC
DATE
MARCH 7, 2012
FILENAME TAS5622-TAS5624DDVEVM_RevA.sbk
SCH REV
A
PCB REV
A
SHEET 4 OF 5
DRAWN BY LDN
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TI
INPUT-USB BOARD #3
+3.3VD4
E
4.7K
FROM EVMs
+3.3V-USB
+3.3V-USB
SDIN
C100
R100
10.0K
0603
A0
0.1ufd/16V
0603
EPROM
1
8
2
2
7
1
3
6
2
4
5
GND
WE
7
8
9
10
11
Case
Case
GND
Case
ID_NC
NC
Data-
NC
5v
R103
5
4
R113
FB1
C106
47pfd/50V
0603
3.09K
0603
47pfd/50V
0603
GND
+3.3V-USB
VR1
FB2
1
600 Ohms/2A
0805
C107
C108
10ufd/10V
0805
0.1ufd/16V
0603
C109
3
4
TPS73633DBVT
GND
GND
+3.3V-USB
5
2
SOT230DBV5
3.3V/400mA
GND
GND
47
46
45
44
+3.3V-USB
+3.3V-USB
C110
10ufd/10V
0805
GND
43
42
41
39
40
C121
C120
0.1ufd/16V
0603
10ufd/10V
0805
GND
C111
5
35
R119
3
34
4
33
S1
GND
TAS1020BPFB
30
TQFP48-PFB
29
9
28
10
27
11
26
12
25
14
R109
15
16 17
18
+3.3V-USB
0.1ufd/16V
0603
TI
1
3
GND
GND
R114
+3.3VD
10.0K
0603
19
20
21 22
23
24
+3.3V-USB
+3.3V-USB
0.1ufd/16V
0603
C116
C117
C118
C119
0.1ufd/16V
0603
0.1ufd/16V
0603
0.1ufd/16V
0603
0.1ufd/16V
0603
C123
2
SOT23-DBV5
200ms
Orange
+3.3V-USB
GND
10.0K
0603
1
C122
LRCLK1
TO I2S
SELECT
GND
+3.3V
A
VCC
5
GND
GND
GND
GND
S5
RESET
Orange
B
GND
GND
S4
0.1ufd/16V
0603
AND1
GND
LRCLK-USB
47
0603
31
8
S3
TPS3825-33DBV
LRCLK-USB
32
U6
7
GND
3
SCLK-USB
Orange
C112
4
2
SDOUT-USB
Orange
GND
0.1ufd/16V
0603
GND
U1
37
36
13
4.7 1/4W
0805
38
2
R10
4.99K
0603
SCLK1
1
+3.3VD
R108
SCLK-USB
0603
47
0603
6
10.0K
0603
DOUT1
MCLK-USB
Orange
R118 SDIN
47
GND
SYSTEM RESET
0603
5
1.0ufd/25V
0603
R107
MCLK1
SDOUT-USB
R117
48
GND
MCLK-USB
R116
C104
SCL
2
GND
0603
1000pfd/50V
0603
600 Ohms/2A
0805
GND
R115
47
C103
C105
SDA
GND
47
0603
100pfd/50V
R106 0603
1
2
47
27.4
0603
1
USB MINIB
SDA
1
47
0603
GND
27pfd/50V
0603
27.4
0603
R105
2
GND
1.50K
0603
R104
3
Data+
Case
SCL
+3.3V-USB
4.99K
0603
27pfd/50V
Y1
0603
6.0 MHz
ABMM
C102
USB
SOT23-DBV3
40V,1A
15.0K
0603
GND
TO EVMs
R111
SCL-USB
GND
R102
USB-IN
6
+3.3V-USB
4.99K
0603
GND
R112
Q1
MMBT2222A
357
0603
R110
SDA-USB
C101
MiniB USB INPUT
R404
Yellow
GND
64K
SOP8-D(SOIC)
GND
I2C
0805
10.0K
0603
1
SOT23-DBV3
C
R101
I2C
ACTIVITY
Q3
B
Y
GND
4
74LVC1G08
SOT23-DBV5
C114
C115
0.1ufd/16V
0603
0.1ufd/16V
0603
0.1ufd/16V
0603
GND
GND
PAGE INFO:
USB INTERFACE, RESET
DESIGN LEAD TUAN LUU
C113
EDGE # 6527708
GND
GND
DATE
JULY 12, 2011
FILENAME InputUsbBoard3.sbk
SCH REV
A
PCB REV
A
SHEET 1 OF 7
DRAWN BY
LDN
INPUT-USB BOARD #3
R202
COAX
SPDIF
1.0M
0603
INV1
C200 R201
2
3
R200
1
J3
75
0603
0.047ufd/16V
0603
100
0603
1
C201
3
4
GND
7.50K
0603
C202
0.047ufd/16V
0603
OPTICAL SPDIF
2
C204
0.1ufd/16V
0603
5
GND
VCC
4
8
GND
SPDIF LOCK
GND
1
2
SN74LVC1GU04DBV
SOT23-DBV5
7
3
GND
6
GND
OUT
0.1ufd/16V
0603
MUX1
5
2.00K
0603
GND
392
0603
C205
GND
3
R203
R211
+3.3VD1
1.0ufd/10V
0603
1
GND
4
74LVC2G157DCT
SSOP8-DCT
TORX147PL(F,T)
GND
GND
INV2
1
Vcc
SHIELD
0805
Blue
C203
2
J4
+3.3VD1
SPDIF-LOCK
+3.3VD1
R204
GND
20
U7
28
100
0603
1
GND
R212
2
27
3
R205
+3.3VD1
49.9
0603
1
4.7K
2
3
GND
+3.3VD1
E
S2
2-3 = COAX
1-2 = OPTO
C206
0.1ufd/16V
0603
C207
5
0.1ufd/16V
0603
6
GND
R206
SOT23-DBV3
C
COAX
0805
R220
Green
GND
GND
OPTO
0805
Y2
357
0603
GND
GND
R218
GND
PSK Select
+3.3VD1
TI
PAGE INFO:
DESIGN LEAD
SPDIF INTERFACE
TUAN LUU
+3.3VD1
R207
R209
10.0K
0603
DNP
0603
R208
R210
DNP
0603
10.0K
0603
GND
0.1ufd/16V
0603
10ufd/10V
0805
4
SCKO
10
BCKO
11
LRCKO
12
DOUT
C208
C209
18pfd/50V
0603
18pfd/50V
0603
GND
8
19
9
18
26
17
0.0
0603
25
16
R219
13
15
14
22
+3.3VD1
FROM
SYSTEM
RESET
23
GND
0.0
0603
R213
R214
MCLK2
SCLK2
R216
47
0603
R217
SCLK-SPDIF
Orange
LRCLK-SPDIF
LRCLK2
47
0603
GND
MCLK-SPDIF
Orange
SCLK-SPDIF
47
0603
R215
LRCLK-SPDIF
Orange
DOUT-SPDIF
DOUT2
Orange
DOUT-SPDIF
680
0603
TSSOP28-PW
C212
C213
4700pfd/50V
0603
0.068ufd/16V
0603
GND
MCLK-SPDIF
47
0603
DIR9001PW
GND
TO ADCs /
I2S SELECT
GND
12.288 MHz
ABM8G
R221
Green
C210
7
470
0603
357
0603
24
C211
GND
GND
Q8
B
+3.3VD1
21
+3.3VD1
SPDIF SELECT LEDs
SPDIF SELECT
SOT23-DBV3
C
1.0ufd/10V
0603
GND
3
Q2
B
SN74LVC1GU04DBV
SOT23-DBV5
GND
4.7K
5
2
+3.3VD1
E
+3.3VD1
TO
ADC MUXES
GND
GND
EDGE #
6527708
DATE
FILENAME
JULY 12, 2011
InputUsbBoard3.sbk
SCH REV
A
PCB REV
A
SHEET 2 OF 7
DRAWN BY LDN
INPUT-USB BOARD #3
JP300
C301
R305
ANALOG
INPUTS
C300
4.99K
0603
R306
4.99K
0603
470pfd/50V
0603
1.0ufd/16V
0603
U2
R307
100
0603
0.022ufd/25V
0603
AGND
4
L
Shield
C303
5
R
AGND
R308
3
4.99K
0603
R309
4.99K
0603
470pfd/50V
0603
2
C304
1.0ufd/16V
0603
R310
100
0603
R312
C305
0.022ufd/25V
0603
C306
C307
10ufd/10V
0805
0.1ufd/16V
0603
AGND
AGND
AGND
ADC2-IN
C309
10ufd/10V
0805
0.1ufd/16V
0603
6
Shield
C313
R314
C312
4.99K
0603
R315
4.99K
0603
470pfd/50V
0603
AGND
AGND
R301
7
1.0ufd/16V
0603
R316
100
0603
0.022ufd/25V
0603
AGND
AGND
C315
4.99K
0603
R318
4.99K
0603
470pfd/50V
0603
Shield
R320
C316
1.0ufd/16V
0603
1.0
0603
AGND
R319
100
0603
R321
C317
0.022ufd/25V
0603
AGND
5
AGND
6
8
3
GND
9
DOUT-ADC2
1
DOUT-SPDIF
2
R13
4
2
10ufd/10V
0805
0.1ufd/16V
0603
4.7 1/4W
0805
C323
C322
0.1ufd/16V
0603
10ufd/10V
0805
R322
+3.3V
ADC-EN
GND
3
GND
C324
3
R324
4.99K
0603
470pfd/50V
0603
5
1.0ufd/16V
0603
100
0603
VCC
AGND
AGND
6
11
8
10
7
DOUT-ADC3
1
DOUT-SPDIF
2
1
R326
6
C327
7
R303
0.0
0603
4.99K
0603
R327
4.99K
0603
470pfd/50V
0603
R329
C328
1.0ufd/16V
0603
1.0
0603
R328
100
0603
R330
C329
0.022ufd/25V
0603
GND
C331
10ufd/10V
0805
0.1ufd/16V
0603
3
GND
AGND
AGND
GND
AGND
DOUT-ADC4
1
DOUT-SPDIF
2
R14
4.7 1/4W
0805
C335
C334
0.1ufd/16V
0603
10ufd/10V
0805
GND
9
4
+3.3VD2
C351
GND
0.1ufd/16V
0603
MUX5
4
2
GND
AGND
SDOUT3
Orange
6
74LVC2G157DCT
SSOP8-DCT
(ADC3)
3
C330
0.0
0603
SDOUT3
VCC
14
C326
AGND
GND
5
5
U4
+5V
AGND
0.1ufd/16V
0603
8
7
13
0.022ufd/25V
0603
+3.3VD2
C350
GND
12
R325
JP305
2
8
4.99K
0603
4
MUX4
DOUT-ADC2
SDOUT2
Orange
6
GND
1
TSSOP14-PW
4
GND
SDOUT2
74LVC2G157DCT
SSOP8-DCT
100
0603
JP304
C325
0.1ufd/16V
0603
8
5
PCM1808PW
R323
+3.3VD2
C349
GND
7
ADC-EN
C321
4
MUX3
GND
R302
AGND
SDOUT1
Orange
6
7
ADC4-IN
Shield
0.1ufd/16V
0603
AGND
AGND
0.0
0603
NO
C319
10ufd/10V
0805
C320
1
NC
GND
GND
AGND
2
R
C318
GND
SDOUT1
74LVC2G157DCT
SSOP8-DCT
(ADC2)
3
0.0
0603
GND
5
VCC
14
C314
3
L
2
5
13
+5V
R317
4
NC
1
10
U3
JP303
7
ADC3-IN
NO
DOUT-ADC1
DOUT-SPDIF
11
JP302
0.0
0603
R
DOUT-ADC1
8
7
TSSOP14-PW
6
L
VCC
R331
8
GND
5
SDOUT4
7
+3.3V
ADC-EN
GND
SDOUT4
Orange
TO
PSIA
DATA
SELECT
3
6
GND
4
74LVC2G157DCT
SSOP8-DCT
GND
GND
DOUT-ADC3
100
0603
1
AGND
R304
C332
C333
10ufd/10V
0805
0.1ufd/16V
0603
AGND
12
AGND
6
11
8
10
7
0.0
0603
ADC/SPDIF
SELECT LEDs
5
PCM1808PW
TSSOP14-PW
JP306
C337
R332
C336
4.99K
0603
R333
4.99K
0603
470pfd/50V
0603
1.0ufd/16V
0603
U5
R334
100
0603
0.022ufd/25V
0603
C339
AGND
MCLK-SPDIF
470pfd/50V
0603
4.99K
0603
3
+5V
R335
FROM SPDIF
R338
R336
4.99K
0603
C340
1.0ufd/16V
0603
1.0
0603
AGND
R337
100
0603
R339
C341
0.022ufd/25V
0603
C342
C343
10ufd/10V
0805
0.1ufd/16V
0603
AGND
GND
SCLK-SPDIF
AGND
AGND
4.7 1/4W
0805
C347
C346
0.1ufd/16V
0603
10ufd/10V
0805
R340
SOT23-DBV3
C
+3.3V
+3.3VD2
R341
1.00K
0603
9
Q9
B
R15
GND
2
0.0
0603
4.7K
4
14
C338
+3.3VD2
E
GND
(ADC4)
13
JP307
AGND
TO I2S
SELECT
0.1ufd/16V
0603
MUX2
PCM1808PW
1
8
GND
+3.3VD2
C348
12
AGND
2
NO
R313
ADC MUXES
1
8
5
NC
10ufd/10V
0805
ADC-EN
C308
AGND
3
R
0.1ufd/16V
0603
+3.3V
100
0603
4
L
C310
AGND
R300
0.0
0603
9
4.7 1/4W
0805
C311
GND
2
0.0
0603
7
8
3
GND
6
NO
1.0
0603
AGND
1
NC
R311
+5V
R12
4
14
C302
JP301
ADC1-IN
(ADC1)
13
GND
ANALOG
0805
Green
DIGITAL
0805
Green
R342
357
0603
GND
R343
+3.3VD2
357
0603
C352
DOUT-ADC4
0.1ufd/16V
0603
100
0603
GND
1
AGND
C344
C345
10ufd/10V
0805
0.1ufd/16V
0603
12
LRCLK-SPDIF
DOUT-SPDIF
AGND
AGND
6
11
8
10
7
5
PCM1808PW
TSSOP14-PW
TI
PAGE INFO:
ADC INPUTS
DESIGN LEAD TUAN LUU
EDGE # 6527708
GND
DATE
JULY 12, 2011
FILENAME InputUsbBoard3.sbk
SCH REV
A
PCB REV
A
SHEET 3 OF 7
DRAWN BY
LDN
INPUT-USB BOARD #3
+3.3VD4
+3.3VD4
R400
S6
FROM
SYSTEM
RESET
INV3
10.0K
0603
1
5
2
GND
3
C401
C400
4.7ufd/16V
0805
0.1ufd/16V
0603
GND
4
+3.3VD4
C402
C404
0.1ufd/16V
0603
0.1ufd/16V
0603
FF1
GND
74LVC1G14DBV
GND
SOT23-DBV5
C403
GND
R401
10.0K
0603
0.1ufd/16V
0603
1
8
2
7
3
6
4
5
R412
0805
0805
357
0603
GND
R413
FAULT
C
R406
Red
FAULT
SOT23-DBV3
R407
Red
357
0603
GND
MCLK-SPDIF
1
MCLK-USB
2
I2S-SEL GND
LRCLK-SPDIF
R414
+3.3VD4
+3.3VD4
100K
0603
100K
0603
R411
1
0.0
0603
2
8
PSIA CLOCK SELECT
+3.3VD3
49.9
0603
+3.3VD3
3
SCLK-SPDIF
0.1ufd/16V
0603
Q10
SOT23-DBV3
SPDIF
USB
357
0603
GND
GND
1
LRCLK-USB
2
GND
8
15
LRCLK-OUT
Orange
1
SDATA1
LRCLK
16
LRCLK-OUT
LRCLKO
Orange
C407
C408
4
0.1ufd/16V
0603
0.1ufd/16V
0603
SDOUT1-MUX
GND
GND
GND
8
+3.3VD3
1
2
SDATA1
3
SDATA1
Orange
4
1
23
26
C411
PDN
POWER
DOWN
25
+12V
SOT23-DBV3
C
24
GND
GND
Q7
B
22
C410
0.1ufd/16V
0603
+3.3VD4
0805
ADC1
S8
10.0K
0603
E
21
+5V
R408
+3.3VD4
PSIA DATA SELECT
20
SDATA4
PSIA OUT = 1/2, PSIA IN = 3/4
JUMPER 2-3 FOR PASS-THRU
3
19
SDATA3
+3.3VD3
6
18
SDATA2
4.7K
0.1ufd/16V
0603
R409
Yellow
GND
2
3
6
4
74LVC2G157DCT
SSOP8-DCT
GND
I2S
SELECT
SDOUT2
1
+3.3V
GND
GND
4
5
ADC2
6
2
SDATA2
3
SDATA2
SDOUT1
1
7
SDOUT4
SDOUT3
SDOUT4
9
10
ADC3
11
2
SDATA3
3
SDATA3
12
Orange
1
13
PVDD
15
2
SDATA4
3
SDATA4
Red
16
17
Orange
+3.3V
4
SDIN
PSIA OUT = 1/2, PSIA IN = 3/4
JUMPER 2-3 FOR PASS-THRU
EDGE # 6527708
14
ADC4
GND
PAGE INFO:
PSIA INPUT, DATA SELECT, EVM CONNECTOR
DESIGN LEAD TUAN LUU
8
Orange
4
SDOUT2
2
3
4
SDOUT3
J1
J2
1
357
0603
5
GND
FROM ADC MUXES
SCLKO
GND
+3.3VD3
7
SDOUT-USB
3
SCLK-OUT
5
VCC
LRCLK-USB
SCLK-OUT
4
MUX9
I2S-SEL GND
13
14
2
2
4
74LVC2G157DCT
SSOP8-DCT
SCLK-USB
SCLK
3
GND
SDOUT-USB
1
17
LRCLK-MUX
3
GND
MCLK-USB
12
+3.3VD3
6
LRCLK-SPDIF
SDOUT1
11
Orange
MCLK-OUT
SCLK-MUX
GND
2
7
FROM USB
10
4
VCC
I2S-SEL GND
MCLKO
7
9
MCLK-OUT
0.1ufd/16V
0603
MUX8
R416
Green
8
74LVC2G157DCT
SSOP8-DCT
GND
MCLK
6
8
SDA
5
GND
2-3 = SPDIF
1-2 = USB
357
0603
0.1ufd/16V
0603
4
1
R415
Green
C406
7
I2S-SEL GND
GND
+3.3VD3
SCLK-USB
SCL
4
VCC
C409
1
3
MUX7
2
GND
C405
6
S7
3
MCLK-MUX
2
74LVC2G157DCT
SSOP8-DCT
1
To EVMs
+3.3VD3
5
GND
R402
GND
5
7
TI
SHUTDOWN
Q6
B
4
VCC
0805
357
0603
100K
0603
MUX6
0805
GND
C
R405
Red
+3.3VD4
E
4.7K
SDA
SCLK-SPDIF
C
0805
SOT23-DBV3
SHUT
DOWN
3
MCLK-SPDIF
B
OTW
C
357
0603
Q5
B
SOT23-DBV3
+3.3VD4
GND
FROM SPDIF
E
OTW
Q4
B
+3.3VD4
E
4.7K
SCL
FROM USB
4.7K
Yellow
4.7K
R403
10.0K
0603
SSOP8-DCT
I2S-SEL
CTRL
0805
GND +3.3VD4
R410
SN74LVC2G74DCT
GND
MUTE
+3.3VD4
E
MUTE
DATE
JULY 12, 2011
FILENAME InputUsbBoard3.sbk
Orange
TO USB
18
GND
SDIN
SCH REV
A
PCB REV
A
SHEET 4 OF 7
DRAWN BY
LDN
INPUT-USB BOARD #3
MAIN POWER IN
+12V
+12V
+5V
+12V
CR1
Green
12V
ES2AA
Red
+
SMA
50V 2A
GND
Black
GND
+3.3V
Green
5V
Green
3.3V
C1
0805
0805
0805
220ufd/16V
M
R1
R2
R3
13.0K
0603
560
0603
374
0603
GND
GND
GND
GND
+3.3VD1
PVDD TO 5V SWITCHER
VR2
7
+12V
VIN
5
C2
BOOT
NC
3
+3.3V
PH
1
8
CR2
0.01ufd/50V
0603
B240A-13-F
2A 40V
SMA
15uH
DG6045C
+
6
GND
VSENSE
C4
10.0K
0603
GND
+3.3VD2
R5
GND
3.16K
0603
TPS5410D
SOP8-D
GND
SPDIF
R4
4
GND
C11
10ufd/10V
0805
47ufd/16V
FC
NC
GND
4.7 1/4W
0805
+5V
L1
C3
ENA
2
4.7ufd/16V
0805
R11
R16
+3.3V
4.7 1/4W
0805
GND
C12
10ufd/10V
0805
ADC
MUXES
GND
+3.3VD3
R17
+3.3V
4.7 1/4W
0805
5V TO 3.3V DC-DC CONVERTER
1
GND
+
3
0.1ufd/10V
0603
GND
GND
5
2
C5
10ufd/10V
0805
+3.3V
VR3
+5V
C6
C7
C8
47ufd/16V
FC
2.2ufd/10V
0603
0.1ufd/10V
0603
4
TPS73633DBVT
SOT230DBV5
3.3V/400mA
C13
GND
R18
+3.3V
GND
C14
TI
PAGE INFO:
POWER INPUTS AND SUPPLIES
DESIGN LEAD TUAN LUU
SWITCHES
AND
LEDs
10ufd/10V
0805
GND
EDGE # 6527708
BOM ONLY
STANDOFFS
+3.3VD4
4.7 1/4W
0805
GND
I2S
SELECT
MUXES
DATE
JULY 12, 2011
FILENAME InputUsbBoard3.sbk
0.5in
0.5in
0.5in
0.5in
GND
SCH REV
A
PCB REV
A
SHEET 5 OF 7
DRAWN BY LDN
INPUT-USB BOARD #3
REVISION HISTORY
REVISION DESCRIPTION
A
TI
DATE
INITIAL RELEASE
REVISION HISTORY
PAGE INFO:
DESIGN LEAD TUAN LUU
APPROVAL
JULY 12, 2011
EDGE # 6527708
JULY 12, 2011
DATE
FILENAME InputUsbBoard3.sbk
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For EVMs annotated as FCC – FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant
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Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the
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FCC Interference Statement for Class A EVM devices
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
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FCC Interference Statement for Class B EVM devices
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment
generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause
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this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
For EVMs annotated as IC – INDUSTRY CANADA Compliant
This Class A or B digital apparatus complies with Canadian ICES-003.
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the
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Concerning EVMs including radio transmitters
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this
device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired
operation of the device.
Concerning EVMs including detachable antennas
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain
approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should
be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
This radio transmitter has been approved by Industry Canada to operate with the antenna types listed in the user guide with the maximum
permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain
greater than the maximum gain indicated for that type, are strictly prohibited for use with this device.
Cet appareil numérique de la classe A ou B est conforme à la norme NMB-003 du Canada.
Les changements ou les modifications pas expressément approuvés par la partie responsable de la conformité ont pu vider l’autorité de
l'utilisateur pour actionner l'équipement.
Concernant les EVMs avec appareils radio
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est
autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
Concernant les EVMs avec antennes détachables
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et d'un gain
maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à
l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonnée équivalente
(p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante.
Le présent émetteur radio a été approuvé par Industrie Canada pour fonctionner avec les types d'antenne énumérés dans le manuel
d’usage et ayant un gain admissible maximal et l'impédance requise pour chaque type d'antenne. Les types d'antenne non inclus dans
cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de l'émetteur.
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【Important Notice for Users of this Product in Japan】
】
This development kit is NOT certified as Confirming to Technical Regulations of Radio Law of Japan
If you use this product in Japan, you are required by Radio Law of Japan to follow the instructions below with respect to this product:
1.
2.
3.
Use this product in a shielded room or any other test facility as defined in the notification #173 issued by Ministry of Internal Affairs and
Communications on March 28, 2006, based on Sub-section 1.1 of Article 6 of the Ministry’s Rule for Enforcement of Radio Law of
Japan,
Use this product only after you obtained the license of Test Radio Station as provided in Radio Law of Japan with respect to this
product, or
Use of this product only after you obtained the Technical Regulations Conformity Certification as provided in Radio Law of Japan with
respect to this product. Also, please do not transfer this product, unless you give the same notice above to the transferee. Please note
that if you could not follow the instructions above, you will be subject to penalties of Radio Law of Japan.
Texas Instruments Japan Limited
(address) 24-1, Nishi-Shinjuku 6 chome, Shinjuku-ku, Tokyo, Japan
http://www.tij.co.jp
【ご使用にあたっての注】
本開発キットは技術基準適合証明を受けておりません。
本製品のご使用に際しては、電波法遵守のため、以下のいずれかの措置を取っていただく必要がありますのでご注意ください。
1.
2.
3.
電波法施行規則第6条第1項第1号に基づく平成18年3月28日総務省告示第173号で定められた電波暗室等の試験設備でご使用いただく。
実験局の免許を取得後ご使用いただく。
技術基準適合証明を取得後ご使用いただく。
なお、本製品は、上記の「ご使用にあたっての注意」を譲渡先、移転先に通知しない限り、譲渡、移転できないものとします。
上記を遵守頂けない場合は、電波法の罰則が適用される可能性があることをご留意ください。
日本テキサス・インスツルメンツ株式会社
東京都新宿区西新宿6丁目24番1号
西新宿三井ビル
http://www.tij.co.jp
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EVALUATION BOARD/KIT/MODULE (EVM)
WARNINGS, RESTRICTIONS AND DISCLAIMERS
For Feasibility Evaluation Only, in Laboratory/Development Environments. Unless otherwise indicated, this EVM is not a finished
electrical equipment and not intended for consumer use. It is intended solely for use for preliminary feasibility evaluation in
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Your Sole Responsibility and Risk. You acknowledge, represent and agree that:
1.
2.
3.
4.
You have unique knowledge concerning Federal, State and local regulatory requirements (including but not limited to Food and Drug
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You have full and exclusive responsibility to assure the safety and compliance of your products with all such laws and other applicable
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