User's Guide
SLOU280A – January 2009 – Revised September 2014
TAS5711EVM Evaluation Module
This manual describes the operation of the TAS5711EVM to evaluate the performance of the TAS5711
integrated digital audio power amplifier. The main contents of this document are:
• Details on how to properly connect a TAS5711 Evaluation Module (EVM) and the details of the EVM
• Details on how to install and use the GUI to program the TAS5711EVM
• Quick-Start Guide for the common modes in which the TAS5711EVM can be used
• Details on how to use the audio processing features like EQ and DRC
1
2
3
4
5
6
7
Contents
Overview ...................................................................................................................... 3
1.1
TAS5711EVM and MC57xxPSIA Features...................................................................... 4
Installation .................................................................................................................... 4
2.1
EVM Installation ..................................................................................................... 4
2.2
Software Installation ................................................................................................ 7
Software Quick-Start Guide ............................................................................................... 10
Using the EVM Software .................................................................................................. 10
4.1
Initial Steps ......................................................................................................... 10
4.2
Connect the GUI to the EVM .................................................................................... 10
4.3
I2C Memory Tool .................................................................................................. 10
4.4
Volume Function .................................................................................................. 11
4.5
Biquad GUI ......................................................................................................... 12
4.6
DRC GUI ........................................................................................................... 13
Advanced Audio Processing Features in TAS5711 ................................................................... 15
Jumpers and Control Utilities on MC57xxPSIA board ................................................................. 16
6.1
RCA/OPTICAL Jumpers .......................................................................................... 16
6.2
Switches ............................................................................................................ 16
6.3
LED Indicators ..................................................................................................... 16
Board Layouts, Bill of Materials, and Schematic ...................................................................... 16
7.1
TAS5711EVM Board Layouts ................................................................................... 16
7.2
Bill of Materials .................................................................................................... 18
7.3
Schematic .......................................................................................................... 19
List of Figures
1
TAS5711EVM Printed-Circuit Board ...................................................................................... 3
2
Complete System and EVM Signal Path Overview ..................................................................... 4
3
General Connection Picture ................................................................................................ 4
4
Connecting TAS5711EVM to MC57xxPSIA .............................................................................. 5
5
BTL Connection .............................................................................................................. 6
6
SE Connection ............................................................................................................... 6
7
Process Flow for TAS5711 UG ............................................................................................ 8
8
GUI Main Window
9
Memory Tool Window...................................................................................................... 11
10
Volume Control ............................................................................................................. 11
...........................................................................................................
9
Equibit is a trademark of Texas Instruments.
I2C is a trademark of Philips Corporation.
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11
Selecting Biquad GUI ...................................................................................................... 12
12
Filter Creation Tool Window .............................................................................................. 12
13
DRC Parameters ........................................................................................................... 13
14
Activating the DRC GUI ................................................................................................... 13
15
Time Constants Button .................................................................................................... 14
16
TAS5711EVM Top Composite Assembly ............................................................................... 16
17
TAS5711EVM Top Copper Assembly ................................................................................... 17
18
MC57xxPSIA Top Assembly .............................................................................................. 17
List of Tables
2
........................................................................................... 6
....................................................................................... 18
1
Recommended Power Supplies
2
Bill of Materials for TAS5711EVM
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Overview
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1
Overview
The TAS5711 evaluation module demonstrates the TAS5711 device from Texas Instruments. The
TAS5711 combines a high-performance PWM processor with a class-D audio power amplifier. This EVM
can be configured with two single-ended speakers with a BTL subwoofers (2.1) or two bridge-tied
speakers (BTL) (2.0). For detailed information about the TAS5711 device, review the device data sheet
(SLOS600). The pulse width modulator (PWM) is based on TI's Equibit™ technology. The TAS5711 has
additional audio processing features such as surround sound (3D).
The EVM software with its graphic user interface (GUI) facilitates evaluation by providing access to the
TAS5711 registers through a USB port. See the Using the EVM Software section for further details.
Figure 1. TAS5711EVM Printed-Circuit Board
The EVM, together with other TI components on this board, is a complete 2.1-channel digital audio
amplifier system. The MC57XXPSIA Controller board includes a USB interface, a digital input (SPDIF),
analog inputs via the ADC, power inputs, and other features like a mute function and power down.
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Overview
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Figure 2. Complete System and EVM Signal Path Overview
1.1
TAS5711EVM and MC57xxPSIA Features
•
•
•
•
•
•
•
2
Channel evaluation module design
Self-contained protection systems and control pins
USB interface
Standard I2S data input using optical or coaxial inputs
Analog input through analog-to-digital converter
Double-sided, plated-through PCB, 1-oz copper, 2 mm
Access to control signal gain and data format through EVM-software GUI
Installation
This section describes the EVM and software installation.
2.1
EVM Installation
Figure 3. General Connection Picture
4
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The following are the basic tools for the initial EVM power up.
• 5-V, 1-A power supply (VIN)
• 8–26-V, 4-A power supply (PVDD)
• Banana-style test leads for power supplies and speakers
• Optical or coaxial cable for SPDIF interface based on signal source
• USB cable
• EVM software
• Two 4-Ω, one 8-Ω speakers or loads (for 2.1); two 8-Ω speakers or loads (for BTL)
The following sections describe the TAS5711EVM board in regards to power supply (PSU) and system
interfaces.
2.1.1
Connecting the TAS5711EVM to MC57xxPSIA
On the right side of the MC57xxPSIA is a terminal block and another is located on the left of the
TAS5711EVM (labeled J1). Carefully place the MC57xxPSIA block above the TAS5711EVM block and
gently push down.
Figure 4. Connecting TAS5711EVM to MC57xxPSIA
2.1.2
PSU Interface
The TAS5711EVM is powered by two power supplies connected to the MC57xx controller board: a 5-V
power supply (VIN), and a 8-V to 26-V (PVDD) power supply. The 3.3-V level is generated on the board
by a voltage regulator from the 5-V supply.
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NOTE: The power-supply cable length must be minimized. Increasing the length of the PSU cable
increases the distortion of the amplifier at high output levels and low frequencies
The maximum output-stage supply voltage depends on the speaker load resistance. Check the
recommended maximum supply voltage in the TAS5711 data sheet.
Table 1. Recommended Power Supplies
Description
Voltage Limitations
Current Recommendations
System power supply
5V
1A
Output power stage supply
8–26 V
4 A (1)
(1)
2.1.3
The rated current corresponds to three channels, full scale.
Loudspeaker Connectors
CAUTION
All BTL speaker outputs are biased at Vcc/2 and must not be connected to
ground (e.g., through an oscilloscope ground).
Loudspeaker connections vary by device setup. When connecting a speaker in single-ended mode,
connect the positive terminal to one output on the TAS5711EVM (A, B, C, or D), and connect the negative
terminal to ground. When connecting a speaker in BTL mode, connect the speaker’s two terminals across
two outputs on the TAS5711EVM (A and B or C and D).
Speakers or loads can be connected to the outputs A-D with clip leads, or cables can be made
with female connectors (JST VHR-2N) that can mate to male connectors on the EVM board.
+
OUT A
–
OUT B
Figure 5. BTL Connection
+
OUT A
–
Figure 6. SE Connection
6
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2.1.4
USB Interface
The TAS5711 registers are accessed through I2C™ bus lines SDA and SCL. The USB circuit and USB
connector on the MC57xxPSIA board facilitates the connection between a host computer and the device.
The EVM USB circuit is powered by the 5-V USB line of the host PC and is independent of the power
supplies available on the board. The USB device that is used is a TAS1020B from Texas Instruments.
2.1.5
Digital Audio Interface SPDIF
The Digital Audio Interface SPDIF (RCA/OPTO) accepts digital audio data using the I2S protocol. See the
TAS5711 data sheet for more information.
The RCA connector and the OPTO connector are the two SPDIF interfaces on the MC57xxPSIA board.
The switch S3 toggles between the OPTO and RCA connector to accommodate the signal source. When
the RCA cable or optical cable is connected and the signal source is powered up, verify that the SPDIF
lock indicator (blue LED5) illuminates, confirming that a viable signal is available to the device. Install a
jumper on JP4 across the middle pin and the pin marked SPDIF to connect the digital source to SDIN1.
Install a jumper on JP5 to connect the digital source to SDIN2.
For detailed information on how the data and clocks are provided to the TAS5711, see the schematic
appearing at the end of this document and the DIR9001 device data sheet (SLES198).
2.1.6
ADC Interface
In the absence of a digital signal source, the PCM1808 ADC can be used to convert an analog audio
signal to a digital signal to the TAS5711. The DIR9001 still provides clock signals to the ADC in this
process. A 12-MHz crystal is installed on the MC57xxPSIA board. The ADC is an additional feature of this
board to provide flexibility in sourcing an audio signal to the TAS5711. Review the PCM1808 data sheet
(SLES177) for a detailed description of the ADC on this EVM. Install the jumper on JP4 and J5 across the
middle pin and the pin marked ADC to select ADC as the source for SDIN1 and SDIN2.
2.1.7
Board Power-Up General Guidelines
Connect the MC-57xx and the TAS5711EVM boards by locating pin 1 on each board, indicated by a small
white triangle. The MC-57xx plugs down onto the TAS5711EVM board (i.e., the TAS5711EVM board fits
underneath the MC57xxPSIA board). Pin 1 on each board must be connected to each other.
Install the EVM software on the PC before powering up the board. After connecting the loudspeakers or
other loads, power supplies, and the data line, power up the 5-V power supply first; then power up the
PVDD power supply. It is recommended initially to set the PVDD level to 10 V, then ramp it up to 20 V to
verify cable connections.
2.2
Software Installation
Download the TAS570x GDE from the TI Web site, located on the TAS5711EVM product page. The TI
Web site always has the latest release and any updates to versions of the GUI.
Execute the GUI install program, Setup.exe. Once the program is installed, the program group and
shortcut icon is created in Start → Program → Texas Instruments Inc → TAS570X GDE. THE GUI comes
up as shown in Figure 7.
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Figure 7. Process Flow for TAS5711 UG
8
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Figure 8. GUI Main Window
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Software Quick-Start Guide
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Software Quick-Start Guide
To initialize the TAS5711EVM in its default state of 2.1, AD mode operation, perform the following steps.
1. Open the TAS570X GDE by clicking Start → All Programs → Texas Instruments Inc → TAS570x GDE
→ TAS570X GDE.
2. Select the TAS5711 tab.
3. If the mode is 2.0 or PBTL, select accordingly on the mode menu in the properties window.
4. If the modulation scheme is not AD, select that also. In 2.1 mode, the SE channels are always AD.
5. Jumper JP1 must be left IN when used in SE or BTL mode. Jumper JP1 must be LEFT OPEN for
PBTL mode.
See Section 4 for information on how to manipulate the more advanced features of the TAS570x GDE,
such as the I2C Memory Tool, the Biquad GUI, and the DRC GUI.
4
Using the EVM Software
4.1
Initial Steps
Select the appropriate tab; in this case, select the TAS5711_10 tab. It has two subwindows. One shows
the Process Flow window. From the Process Flow window, each of the signal processing function tools
can be selected by clicking on it. The Biquad GUI (labeled as BQ1, BQ2, etc.) and the DRC GUI (labeled
as DRC1, DRC2, etc.) can be opened by using the right mouse button. This window also shows Input
select, Mode select, Channel, and Master Volume. All functions are arranged visually in the order that they
are in the device.
The other subwindow, Properties, has the properties that a user can view or update by selecting from the
available options. The properties available change with the device selected. From the main window, the
user must set three properties before connecting to the EVM.
Set the Current Device field to TAS5711, adjust the sampling rate (in the Current Rate Field) and enable
or disable the autobank switch function (in the Coef Banking Field). The TAS5711 automatically detects
sample rates; however, setting the sample rate in the GUI allows optimal synchronization with the device.
4.2
Connect the GUI to the EVM
Once the properties window selections have been made, go to the menu Target → Connect.
This sends the initialization commands to the device. Master volume is in mute by default. Select the
master volume function. Type the required volume in the properties window. At this time, audio, if
connected properly, plays through the device. If no audio is heard, ensure that the All channel shutdown is
unchecked. When the Connect command is issued, if an error appears indicating a USB problem, check
the connections, and press the USB RESET button on the controller board. Then disconnect and reconnect the EVM from the Target menu.
4.3
I2C Memory Tool
This tool can be opened from GDE (Tools → I2C Memory Tool) or independent of GDE from Start →
Program → Texas Instruments Inc → Memory Tool.
Select I2C as show in Figure 9.
10
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Figure 9. Memory Tool Window
I2C registers can be written or read using this tool. The I2C command file can be sent by selecting the
command file and Execute command.
4.4
Volume Function
The Individual channel volume and Master volume can be selected, and the required volume value can be
typed into the property Window after selecting the function with the mouse (see Figure 10).
Figure 10. Volume Control
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Biquad GUI
Using the right button of mouse, select Biquad GUI (Figure 11).
Figure 11. Selecting Biquad GUI
Figure 12. Filter Creation Tool Window
A check mark selects the Biquad. If not selected, the Biquad is in ALL PASS Mode.
The frequency response for the current settings can be viewed and adjusted in Frequency Response
Window Tab (Figure 12). The Individual Biquad Gains must be within ±12 db.
Clicking Apply from the filter data window sends all the three banks of coefficients (providing auto bank is
enabled).
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4.6
DRC GUI
The DRC GUI has two DRC blocks. One is for L, R channels, and the other one is for a subchannel. To
set DRC, open the window and change the thresholds to match the required power output. The other
parameters can be changed if necessary as explained in the following section.
Clicking on the function selects DRC GUI (Figure 13). Click on the DRC function, and check to see if DRC
is enabled in the property window.
Figure 13. DRC Parameters
Next, using the right mouse button, select Activate DRC GUI (Figure 14).
Figure 14. Activating the DRC GUI
Set the compression ratio to a value between 1 and 50.
The offset has a range at ±6 dB. If no offset is required, set the offset to 0. Offset is generally not required
in a DRC application because is just provides a gain.
Threshold is selected with a value of 0 to –72 dB.
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Figure 15. Time Constants Button
Time constants: Select the time constants to adjust the energy, attack, and decay filters (Figure 15).
4.6.1
MODULATION SCHEMES
Common Configurations:
1. 2.1 SE AD + BTL AD
2. 2.1 SE AD + BTL BD
Note:
AD : AD Modulation-Outputs are 180° out of phase
BD : BD Modulation
BTL : Bridge-Tied Load
4.6.1.1
1.
2.
3.
4.
14
2 .1 AD (Default)
Set up the hardware, and select the TAS5711 tab.
GDE: Target > Connect.
Check the 2.1 box in GUI.
Finally, uncheck the shutdown box to bring the device out of Shutdown mode, and adjust the Master
Volume as desired.
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4.6.1.2
1.
2.
3.
4.
5
2.1 SE AD + BTL BD
Set up the hardware, and select the TAS5711 tab .
Select the Input MUX from GDE. In the properties window, select BD Mode
GDE: Target > Connect.
Finally, uncheck the shutdown box to bring the device out of Shutdown mode, and adjust the Master
Volume as desired.
Advanced Audio Processing Features in TAS5711
TAS5711 Process Structure as shown in GDE:
1. Surround (3D): ON/OFF
Turn it ON. Then L-R terms gets mixed with raw L and R after band-pass filtering. L-signal is RED, Rsignal is BLUE and L-R-signal is BLACK.
Biquads and mixers can be adjusted to fine-tune 3D.
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Jumpers and Control Utilities on MC57xxPSIA board
6
Jumpers and Control Utilities on MC57xxPSIA board
6.1
RCA/OPTICAL Jumpers
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Select the jumper to reflect the source whether it is RCA or OPTICAL.
6.2
Switches
Reset is an active-low function. Pressing the master reset switch (S2) resets the TAS5711 device; USB
RESET (S1) resets the USB bus. Pressing PDNZ (S4) powers down the TAS5711, and pressing MUTE
(S5) mutes (volume mute) the TAS5711.
6.3
LED Indicators
LED1 : USB Power connector installed at J1.
LED2 : 3.3V Power is valid.
LED3: RCA connection made
LED4: Optical connection made
LED5: SPDIF signal locked
LED6: FAULT. Ignore the FAULT LED until the FAULT pin is programmed to be an output via an I2C write
to reg0X05.
LED7: PDN switch (S4) is depressed.
LED8: MUTE switch (S5) is depressed.
7
Board Layouts, Bill of Materials, and Schematic
7.1
TAS5711EVM Board Layouts
Figure 16. TAS5711EVM Top Composite Assembly
16
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Figure 17. TAS5711EVM Top Copper Assembly
Figure 18. MC57xxPSIA Top Assembly
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Board Layouts, Bill of Materials, and Schematic
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Bill of Materials
Table 2. Bill of Materials for TAS5711EVM
MANU Part No.
QTY
REF DES
Vendor
Part No.
Description
Vendor
MANU
Texas
Instruments
Texas Instruments
TI-SEMICONDUCTORS
TAS5711PHP
1
U1
TAS5711PHP
15W DIGAMP WITH DAP HTQFP48-PHP ROHS
ECJ-1VC1H331J
4
C28,C30,C32,C
34
PCC331ACVCT
CAP SMD0603 CERM 330PFD 50V 5% COG ROHS
DIGI-KEY
PANASONIC
C1608C0G1H102J
4
C17,C20,C23,C
25
445-1293-1
CAP SMD0603 CERM 1000PFD 50V 5% COG ROHS
DIGI-KEY
TDK CORP.
GRM188R71H222KA01D
1
C14
490-1500-1
CAP SMD0603 CERM 2200PFD 50V 10% X7R ROHS
DIGI-KEY
MURATA
ECJ-1VB1H472K
2
C10,C12
PCC1780CT
CAP SMD0603 CERM 4700PFD 50V 10% X7R ROHS
DIGI-KEY
PANASONIC
ECJ-1VB1H333K
4
C9,C16,C22,C4
5
PCC2284CT
CAP SMD0603 CERM 0.033UFD 50V 10% X7R ROHS
DIGI-KEY
PANASONIC
ECJ-1VB1E473K
2
C11,C13
PCC1771CT
CAP SMD0603 CERM 0.047UFD 25V 10% X7R ROHS
DIGI-KEY
PANASONIC
ECJ-1VB1C104K
4
C2,C4,C6,C7
PCC1762CT
CAP SMD0603 CERM 0.1UFD 16V 10% X7R ROHS
DIGI-KEY
PANASONIC
ECJ-1VB1H104K
4
C18,C21,C24,C
26
PCC2398CT
CAP SMD0603 CERM 0.1UFD 50V 10% X7R ROHS
DIGI-KEY
PANASONIC
C1206C684K5RACTU
4
C29, C31, C33,
C35
399-3500-1
CAP SMD1206 CERM 0.68UFD 50V 10% X7R ROHS
DIGI-KEY
KEMET
TMK107BJ105KA
2
C8,C15
587-1248-1
CAP SMD0603 CERM 1.0UFD 25V 10% X5R ROHS
DIGI-KEY
TAIYO YUDEN
C1608X5R0J475M
1
C3
445-1417-1
CAP SMD603 CERM 4.7UFD 6.3V 20% X5R ROHS
DIGI-KEY
TDK
EEE1CA100SR
2
C1,C5
PCE3878CT
CAP SMD ELECT 10ufd 16V 20% VS-B ROHS
DIGI-KEY
PANASONIC
ECA-1VM101
1
C44
P5165
CAP ALUM ELEC M RADIAL 100UFD 35V 20% ROHS
DIGI-KEY
PANASONIC
ECA-1VM221BJ
2
C19,C27
P10419TB
CAP ALUM ELEC M RADIAL 220UFD 35V 20% ROHS
DIGI-KEY
PANASONIC
EEU-FC1H221S
4
C36, C37, C38,
C39
P10326
CAP THU ELE FC 220ufd 50V 20% ROHS
DIGI-KEY
PANASONIC
ERJ-3GEY0R00V
1
R3
P0.0GCT
RESISTOR SMD0603 0.0 OHM 5% 1/10W ROHS
DIGI-KEY
PANASONIC
ERJ-3GEYJ180V
4
R11,R12,R13,R
14
P18GCT
RESISTOR SMD0603 18 OHMS 5% 1/10W ROHS
DIGI-KEY
PANASONIC
ERJ-3GEYJ471V
2
R8,R9
P470GCT
RESISTOR SMD0603 470 OHMS 5% 1/10W ROHS
DIGI-KEY
PANASONIC
ERJ-3EKF1002V
7
R4, R6, R7,
R15, R16, R17,
R18
P10.0KHCT
RESISTOR SMD0603 10.0K 1% THICK FILM 1/10W
ROHS
DIGI-KEY
PANASONIC
RC0603FR-0718K2L
1
R5
311-18.2KHRCT
RESISTOR SMD0603 THICK FILM 18.2K 1% 1/10W
ROHS
DIGI-KEY
YAGEO
CRCW060322K1FKEA
1
R10
541-22.1KHCT
RESISTOR SMD0603 22.1K OHMS 1% 1/10W ROHS
DIGI-KEY
VISHAY
ERJ-3GEYJ104V
1
R2
P100KGCT
RESISTOR SMD0603 100K OHM 5% THICK FILM 1/10W
ROHS
DIGI-KEY
PANASONIC
A7503AY-220M
4
L1–L4
A7503AY-220M
INDUCTOR, SERIES 11RHBP/A7503AY, 22UH/2.3A
ROHS
Toko
Toko
PBC02SAAN
3
JP1,JP2,JP3
S1011E-02
HEADER THRU MALE 2 PIN 100LS GOLD ROHS
DIGI-KEY
SULLINS
PBC09DAAN
1
J1
S2011E-09
HEADER THRU MALE 2X9 100LS GOLD ROHS
DIGI-KEY
SULLINS
B2PS-VH(LF)(SN)
1
J2, J3, J4, J5
455-1648
JACK JST-VH RA 2-PIN 3.96mmLS ROHS
DIGI-KEY
JST
DIGI-KEY
SULLINS
CAPACITORS
RESISTORS
INDUCTORS
HEADERS, JACKS AND TERMINAL BLOCKS
SHUNTS
SPC02SYAN
3
JP1, JP2, JP3
S9001
SHUNT, BLACK AU FLASH 0.100LS
STANDOFFS AND HARDWARE
2027
4
NA
2027K
STANDOFF ,4-40 0.5IN 3/16IN DIA ALUM RND F-F
DIGI-KEY
KEYSTONE
ELECTRONICS
PMS 440 0025 PH
4
NA
H342
4-40 SCREW, STEEL 0.250 IN
DIGI-KEY
BUILDING
FASTENERS
Component Count:
62
COMPONENTS NOT ASSEMBLED
R1
18
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7.3
Schematic
The schematic for TAS5711EVM appears on the following page.
Revision History
Changes from Original (January 2009) to A Revision .................................................................................................... Page
•
•
Changed Changed TAS5707EVM3 to TAS5707EVM throughout the document ................................................. 1
Changed Software Quick-Start Guide Step 5 From: "Jumper JP1 must be left open.." To: "Jumper JP1 must be left
IN..." ....................................................................................................................................... 10
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SLOU280A – January 2009 – Revised September 2014
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19
TAS5711PHP EVALUATION BOARD
STANDOFFS
AVDD
R10
R7
22.1K
0603
10.0K
0603
JP1
C14
1
PGND
PGND PGND PGND PGND
2
2200pfd/50V
0603
PGND
C10
C12
.047ufd/25V
0603
AVDD
C13
R8
470
0603
12
1.0ufd/25V
0603
AVSS
L1
22uH/2.7A
A7503AY
0.033ufd/50V
0603
R9
.047ufd/25V
0603
PGND
C16
4700pfd/50V
0603
4700pfd/50V
0603
C11
PGND
C15
9
8
7
6
5
4
3
2
AVDD
R3
48
DNP
0603
C28
220ufd/35V
M
330pfd/50V
0603
JP2
PGND
PGND
PGND
2
JST-VH2
PGND
L2
22uH/2.7A
A7503AY
45
14
R2
PVDD
44
15
100K
0603
C20
C21
0.033ufd/50V
0603
1000pfd/50V
0603
0.1ufd/50V
0603
PGND
10.0K
0603
PGND
PGND
R5
18.2K
0603
C31
R12
0.68ufd/50V
1206
18
0603
C22
C30
R4
PGND
330pfd/50V
0603
PGND
43
PVDD
+
PGND
16
U1
17
PGND
0.1ufd/16V
0603
+
41
PVDD
40
R6
MC57xx
CONTROLLER
BOARD
J1
PGND
C23
C24
0.033ufd/50V
0603
1000pfd/50V
0603
0.1ufd/50V
0603
19
PGND
+
38
C37
24
37
220ufd/50V
FC
25
26
28
27
4
29 30
31
32
33
34 35
5
PGND
6
PGND
7
PGND
0.1ufd/16V
0603
C8
22uH/2.7A
A7503AY
R13
1.0ufd/25V
0603
8
11
12
C5
C6
10ufd/16V
VS-B
0.1ufd/16V
0603
PGND
PGND
C32
R16
JST-VH2
10.0K
0603
PGND
C33
J5
1
PGND
1
2
PBTL
2
C
D
JST-VH2
PGND
L4
15
PGND
22uH/2.7A
A7503AY
0.033ufd/50V
0603
PVDD
17
18
PGND
+
B
B-SC
PGND
C9
16
2
1
JP3
330pfd/50V
0603
PowerPad
PVDD
14
10.0K
0603
0.68ufd/50V
1206
18
0603
U1
13
J4
R15
L3
PGND
+
JST-VH2
36
C7
10
C36
23
A
A-SC
10.0K
0603
PVDD
39
9
R18
220ufd/50V
FC
22
3
C39
PVDD
PGND
2
1
PGND
21
2
10.0K
0603
PGND
+
20
AVDD
1
10.0K
0603
C45
J3
R17
220ufd/50V
FC
AVDD
PGND
C38
HTQFP48-PHP
18
C4
PVDD
220ufd/50V
FC
42
TAS5711PHP
PGND
4.7ufd/6.3V
0603
A
B
2
PBTL
PGND
AVSS
C3
J2
1
PGND
1
46
0.0
0603
R1
0.1ufd/50V
0603
PGND
0.1ufd/16V
0603
10ufd/16V
VS-B
1000pfd/50V
0603
C19
47
C2
C1
C18
1
13
+
+
C17
0.68ufd/50V
1206
18
0603
PVDD
11 10
C29
R11
470
0603
C25
C26
1000pfd/50V
0603
0.1ufd/50V
0603
PGND
C44
PGND
+
C27
220ufd/35V
M
R14
18
0603
C34
C35
0.68ufd/50V
1206
PGND
330pfd/50V
0603
PGND
PGND
100ufd/35V
M
PGND
TI
PAGE INFO:
DESIGN LEAD
TAS5711 EVALUATION BOARD
AMBREESH TRIPATHI
EDGE # 6509144
DATE
JUNE 24, 2009
FILENAME TAS5711EVM.SBK
SCH REV
A
PCB REV
A
SHEET 1 OF 3
DRAWN BY LDN
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