background image

AVDD

PDN

SCL

RST

GND

GND

PVDD

GND

GND

GND

OUTA

OUTD

GND

GND

DVDD

4.7µF

C9

0.1µF

C10

1µF

C12

GND

0.1µF

C8

0.1µF

C6

GND

GND

GND

PVDD

OUTB

OUTC

220µF

C1

4.7µF

C7

220µF

C2

PVDD

PVDD

GND

GND

PVDD

PVDD

GND

GND

SINGLE ENDED

SPLIT-CAP

A

B

C

D

J2

SE-A

GND

2200pF

C17

AD MODE

OPTION

SDIN

LRCLK

SCLK

MCLK

SDA

ADR/FAULT

GND

0.1µF

C3

A

B

A

A+B

C+D

C

D

B

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15
17

16
18

J1

GND

PDN

RST

SCLK

LRCLK

SDIN
SCL

SDA

MCLK

GND

PVDD

J9

BTL

J7

PVDD
J8

GND

GND

470

R3

470

R2

18.2k

R9

DNP = BTL MODE
IN = PBTL MODE

GND

Ase

Bse

AVDD

10k

R1

10k

R8

GND

0.1µF

C11

GND

10k

R10

SNUBBERS

15k

R12

15k

R11

DNP

OUT = PBTL MODE

IN = BTL MODE

NT1

DNP

AVSS

AVSS

AVSS

4700pF

C15

4700pF

C13

0.047µF

C16

0.047µF

C14

10µF

C5

GND

GND

GND

0.1µF

C4

AVSS

AVSS

1
2

H1

Heat Sink

GND

GND

TP1

GND

GND

TP6
ADR/FAULT

TP7
PDN
TP8
RESET

ADR/FAULT

RST

PDN

J3

BTL-AB

J4

SE-B

J5

PBTL

J6

BTL-CD

BSTA

BSTB

BSTC

BSTD

0.033µF

C20

0.033µF

C19

0.033µF

C21

0.033µF

C18

0.68µF

C25

15uH

L4

0.68µF

C22

15uH

L1

0.68µF

C24

15uH

L3

0.68µF

C23

15uH

L2

J11

DNP

J10

DNP

18

R13

DNP

330pF

C33

DNP

18

R16

DNP

330pF

C32

DNP

18

R14

DNP

330pF

C34

DNP

18

R15

DNP

330pF

C35

DNP

C26

DNP

C27

DNP

TP5

OUTD

TP2

OUTA

TP4

OUTC

TP3

OUTB

15.0k

R5

DNP

15.0k

R4

DNP

220µF

C28

220µF

C29

15.0k

R7

DNP

15.0k

R6

DNP

220µF

C30

220µF

C31

AVDD

DVDD

AVDD

AVDD

VR_ANA

PVDD RANGE

8-26.4V

NC

51

AVSS

14

DVSS

46

NC

50

NC

45

NC

43

NC

35

NC

22

OSC_RES

4

NC

6

MCLK

5

LRCLK

56

GVDD

41

DVSS_OSC

3

DVSS

44

SDIN

54

SDA

53

SCLK

55

SCL

52

RESET

49

PVDD_CD

38

PVDD_AB

18

PGND

24

PVDD_AB

19

PVDD_CD

39

VREG

42

VR_DIG

2

VR_ANA

10

STEST

48

PGND

25

PGND

33

PGND

34

NC

7

ADR/FAULT

8

AVDD

9

AVSS

13

BST_A

17

BST_B

28

BST_C

29

BST_D

40

DVDD

47

PBTL

15

PDN

1

PGND

23

PGND

32

SSTIMER

16

OUT_A

20

OUT_A

21

OUT_B

27

OUT_C

31

OUT_D

37

OUT_B

26

OUT_C

30

OUT_D

36

FLTP

11

FLTM

12

U1

TAS5755MDFD

Copyright © 2017, Texas Instruments Incorporated

www.ti.com

Board Layouts, Schematic, and Bill of Materials

19

SLOU481A – August 2017 – Revised October 2017

Submit Documentation Feedback

Copyright © 2017, Texas Instruments Incorporated

TAS5755MEVM Evaluation Module

5.2

TAS5755MEVM Schematic

Figure 24

illustrates the TAS5755MEVM schematic.

Figure 24. TAS5755MEVM Schematic

Summary of Contents for TAS5755MEVM

Page 1: ...stallation 7 3 Using the GUI Software 8 3 1 Launching the GUI interface 8 3 2 Setting the I2 C Device Address 9 3 3 Initializing the Device 10 3 4 Using EQ Function 12 3 5 Using the DRC Function 13 3...

Page 2: ...es 1 TAS5755MEVM Bill Of Materials 20 Trademarks All trademarks are the property of their respective owners 1 Overview The TAS5755M evaluation module demonstrates the TAS5755M device from Texas Instru...

Page 3: ...troller 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 Figure 2 Complete System and EVM Signal Path...

Page 4: ...and software installation 2 1 EVM Installation Figure 3 shows the EVM connected to the MC57xxPSIA including cables connectors Figure 4 illustrates and highlights different parts of the EVM board Figur...

Page 5: ...The following sections describe the TAS5755MEVM board in regards to power supply PSU and system interfaces 2 1 1 Connecting the TAS5755MEVM to MC57xxPSIA On the right side of the MC57xxPSIA is a term...

Page 6: ...example through an oscilloscope ground Loudspeaker connections vary by device setup and the evaluation module features a dedicated connector for each configuration When using SE or BTL mode ensure th...

Page 7: ...installed on the MC57xxPSIA board The ADC is an additional feature of this board to provide flexibility in sourcing an audio signal to the TAS5755M Review the PCM1808 data sheet SLES177 for a detaile...

Page 8: ...s to provide the user an easy way to manipulate the device register space for attaining the required signal processing flow The block diagram of the Digital Audio Processing DAP flow of the TAS5755M t...

Page 9: ...evice power on The slave address is 0x34 when Addr Fault is low and 0x36 when it is high By default the EVM address is configured to 0x34 with Addr Fault pulled low by R12 The slave address can be set...

Page 10: ...ck shown in Green can be used to set the desired master volume level Changes made to this block update the master volume register with the corresponding hex value Figure 10 Default GUI Interface on St...

Page 11: ...ight hand side highlighted with blue box in Figure 13 are now grayed out and cannot be updated The Target Connect operation automatically updates the trim register 0x1B to factory trim mode now the de...

Page 12: ...elected on the GUI by using a single mouse click the device registers associated with that particular BQ block are displayed in the properties window Double Clicking on the BQ block opens the Filter C...

Page 13: ...Figure 16 This will ensure the GUI and the EVM filters are in sync Figure 16 Fixing Low Pass Filter Bug on Woofer Channel 3 5 Using the DRC Function The TAS5755M has two DRC blocks DRC 1 and DRC 2 Le...

Page 14: ...d using the DRC customization tool which is opened by double clicking the DRC block on the GUI window Figure 18 shows the controls for DRC 1 with the user programmable inputs highlighted The plot on t...

Page 15: ...ents of the different channels The input mixer can be used to mix the channels before they are processed by the bi quads and DRC while the output mixer nodes are used to mix the channels after they ar...

Page 16: ...hen an existing I2 C file needs to be loaded to update device registers or when performing I2 C debug Figure 21 shows a snap shot of the Memory Tool window Click the I2 C tab at the top to view the Re...

Page 17: ...umpers Select the jumper to reflect whether the source is RCA or Optical 4 2 Switches Reset is an active low function Pressing the master reset switch S2 resets the TAS5755M device USB RESET S1 resets...

Page 18: ...5755MEVM Evaluation Module 5 Board Layouts Schematic and Bill of Materials This section contains the TAS5755MEVM board layouts schematic and the bill of materials BOM 5 1 TAS5755MEVM Board Layout Figu...

Page 19: ...15uH L3 0 68 F C23 15uH L2 J11 DNP J10 DNP 18 R13 DNP 330pF C33 DNP 18 R16 DNP 330pF C32 DNP 18 R14 DNP 330pF C34 DNP 18 R15 DNP 330pF C35 DNP C26 DNP C27 DNP TP5 OUTD TP2 OUTA TP4 OUTC TP3 OUTB 15 0k...

Page 20: ...onic 1 HEAT SINK FOR TI MOD 50x13 9mm HEAT SINK 50x13 9mm ATS TI10P 521 C1 R1 Advanced Thermal Solutions 2 MACHINE SCREW PAN PHILLIPS M3 5mm Screw M3 Phillips head MPMS 003 0005 PH B F Fastener Supply...

Page 21: ...nufacturer Alternate Part Number Alternate Manufacturer 0 0 33uF CAP CERM 0 33 F 50 V 10 X7R 1206 1206 GRM319R71H334KA01D Murata 0 330pF CAP CERM 330 pF 50 V 5 C0G NP0 0603 0603 GRM1885C1H331JA01D Mur...

Page 22: ...t 2017 Texas Instruments Incorporated Revision History Revision History NOTE Page numbers for previous revisions may differ from page numbers in the current version Changes from Original August 2017 t...

Page 23: ...set forth above or credit User s account for such EVM TI s liability under this warranty shall be limited to EVMs that are returned during the warranty period to the address designated by TI and that...

Page 24: ...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 great...

Page 25: ...t the EVM user guide prior to connecting any load to the EVM output If there is uncertainty as to the load specification please contact a TI field representative During normal operation even with the...

Page 26: ...OST OF REMOVAL OR REINSTALLATION ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES RETESTING OUTSIDE COMPUTER TIME LABOR COSTS LOSS OF GOODWILL LOSS OF PROFITS LOSS OF SAVINGS LOSS OF...

Page 27: ...TI Resource NO OTHER LICENSE EXPRESS OR IMPLIED BY ESTOPPEL OR OTHERWISE TO ANY OTHER TI INTELLECTUAL PROPERTY RIGHT AND NO LICENSE TO ANY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT OF TI OR ANY THIRD...

Page 28: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Texas Instruments TAS5755MEVM...

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