Texas Instruments TMUXBQB-DYYEVM User Manual Download Page 14

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TMUXBQB-DYYEVM

Project Title:

Designed for:

Public Release

Assembly Variant:

001

2021

Drawn By:
Engineer:

Rami Mooti

Texas Instruments and/or its licensors do not warrant the accuracy or completeness of this specification or any information contained therein. Texas Instruments and/or its licensors do not
warrant that this design will meet the specifications, will be suitable for your application or fit for any particular purpose, or will operate in an implementation. Texas Instruments and/or its
licensors do not warrant that the design is production worthy. You should completely validate and test your design implementation to confirm the system functionality for your application.

Not in version control

SVN Rev:

INT141

Number:

Rev:

TID #:

N/A

Orderable:

ChangeMe in variant

TP101

TP1

GND

VSS

VDD

1.0k

R13

GND

61300621121

GND

VDD

TP17

5005

100V

5.0SMDJ100A

GND

VSS

100V

D2
5.0SMDJ100A

GND

450V
0.1uF

250V
3.3uF

C18

250V
3.3uF

C22

250V
3.3uF

C21

250V
3.3uF

C17

1.0k

VDD

TP104

TP4

GND

VSS

VDD

1.0k

R16

GND

61300621121

R11

GND

450V
0.1uF

1.0k

VDD

TP107

TP7

GND

VSS

VDD

1.0k

R31

GND

61300621121

R25

GND

450V
0.1uF

1.0k

R19

VDD

TP22

5011

TP19

5126

GND

TP23

5011

TP24

5011

TP25

5011

TP26

5011

TP21

5011

TP20

5011

TP18

5011

GND

1uF
250V

C101

1uF
250V

C104

1uF
250V

C107

R26

TP102

TP2

GND

VSS

VDD

1.0k

R14

GND

61300621121

GND

450V
0.1uF

1.0k

VDD

TP105

TP5

GND

VSS

VDD

1.0k

R29

GND

61300621121

R21

GND

450V
0.1uF

1.0k

R17

VDD

TP108

TP8

GND

VSS

VDD

1.0k

R32

GND

61300621121

R27

GND

450V
0.1uF

1.0k

R20

VDD

1uF
250V

C102

1uF
250V

C105

1uF
250V

C108

R28

R22

TP6

GND

VSS

VDD

1.0k

R30

GND

61300621121

R23

GND

450V
0.1uF

1.0k

R18

VDD

TP109

TP9

GND

VSS

VDD

1.0k

R45

GND

61300621121

R37

GND

450V
0.1uF

1.0k

R33

VDD

1uF
250V

C106

1uF
250V

C109

R38

R24

TP103

TP3

GND

VSS

VDD

1.0k

R15

GND

61300621121

GND

450V
0.1uF

1.0k

VDD

TP110

TP10

GND

VSS

VDD

1.0k

R46

GND

J10

61300621121

R39

GND

450V
0.1uF

C10

1.0k

R34

VDD

1uF
250V

C103

1uF
250V

C110

R40

R10

R12

VDD

VSS

J18

691 101 710 003

GND

TP106

VSS

VDD

J11

61300621121

TP11

R41

1.0k

R47

1.0k

R35

VDD

450V
0.1uF

C11

GND

TP111

GND

1uF
250V

C111

R42

VSS

VDD

J12

61300621121

TP12

R43

1.0k

R48

1.0k

R36

VDD

450V
0.1uF

C12

GND

TP112

GND

1uF
250V

C112

R44

GND

VDD

SOT-23 THIN (DYY)

VDD

GND

TSSOP-16-PW

VCC

QH`

SRCLR

RCLK

SER

SRCLK

GND

PAD

WQFN (BQB)

PAD

13
14
15
12
1
5
2
4

11
10
9

13
14
15
12
1
5
2
4

11
10
9

Figure 7-3. TMUXBQB-DYYEVM Schematic Page 1 (DNI)

Schematics

www.ti.com

TMUXBQB-DYYEVM User's Guide

SCDU029 – DECEMBER 2021

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Summary of Contents for TMUXBQB-DYYEVM

Page 1: ...Figure 4 3 Test Point Colors 7 Figure 5 1 DUT Footprint U1 9 Figure 5 2 Signal Line Circuitry 3D 9 Figure 5 3 Signal Line Circuitry 10 Figure 5 4 Signal Line Circuitry Bottom Layer 10 Figure 6 1 Illus...

Page 2: ...or the quick prototyping and DC characterization of TI s line of TMUX products that use 16 pin TSSOP PW WQFN BQB and SOT 23 THIN DYY packages Figure 1 1 TMUXBQB DYYEVM Top View Introduction www ti com...

Page 3: ...Figure 1 2 TMUXBQB DYYEVM Bottom View www ti com Introduction SCDU029 DECEMBER 2021 Submit Document Feedback TMUXBQB DYYEVM User s Guide 3 Copyright 2021 Texas Instruments Incorporated...

Page 5: ...r supply decoupling capacitors from VSS to GND 1 1 F 1 0 1 F 1 protection diode pad from VSS to GND available near power supply 6 9 mm 5 8 mm Terminal block power supply connection DUT footprint compa...

Page 6: ...connections of the pins of the nearby five headers Figure 4 1 shows a representation of the header associated with pin 3 of U1 Figure 4 1 Header J3 for U1 3 The silkscreen legend represents the connec...

Page 7: ...connected to GND the red test point TP17 is connected to VDD and the green test point TP19 is connected to VSS The remaining blue test points TP1 TP16 and TP101 TP116 are connected along the signal p...

Page 8: ...U1 9 TP110 U1 10 TP111 U1 11 TP112 U1 12 TP113 U1 13 TP114 U1 14 TP115 U1 15 TP116 U1 16 Terminal block J18 is the power input for the board Three power rails VSS GND and VDD are labeled on the board...

Page 9: ...the board Connecting the shunt between pin 4 of the header and pin 3 GND to connect the corresponding pin of U1 to GND Alternatively the pins of U1 can be shorted to VDD or VSS by connecting between...

Page 10: ...side of the board shown in Figure 5 2 and Figure 5 3 as C5 a standard 1206 footprint exists between the U1 pin signal and the GND signal The user can solder a capacitor to this footprint to provide ca...

Page 11: ...hows the layout of the EVM PCB Figure 6 1 Illustration of TMUXBQB DYYEVM Layout www ti com Layout SCDU029 DECEMBER 2021 Submit Document Feedback TMUXBQB DYYEVM User s Guide 11 Copyright 2021 Texas Ins...

Page 12: ...he TMUXBQB DYYEVM that includes all the parts and connections Figure 7 1 TMUXBQB DYYEVM Schematic Page 1 Editor View Schematics www ti com 12 TMUXBQB DYYEVM User s Guide SCDU029 DECEMBER 2021 Submit D...

Page 13: ...4 are schematic views of the TMUXBQB DYYEVM that show only the parts that are included in the EVM and excludes the parts that are DNI www ti com Schematics SCDU029 DECEMBER 2021 Submit Document Feedba...

Page 14: ...0k R14 GND 1 2 3 4 5 6 J2 61300621121 0 R7 GND 450V 0 1uF C2 1 0k R2 VDD TP105 TP5 GND 5 VSS VDD 1 0k R29 GND 1 2 3 4 5 6 J5 61300621121 0 R21 GND 450V 0 1uF C5 1 0k R17 VDD TP108 TP8 GND 8 VSS VDD 1...

Page 15: ...SS VDD 1 2 3 4 5 6 J13 61300621121 TP13 0 R51 1 0k R55 1 0k R49 VDD 450V 0 1uF C13 GN D GN D TP113 13 GN D 1uF 250V C113 0 R52 VSS VDD 1 2 3 4 5 6 J14 61300621121 TP14 0 R53 1 0k R56 1 0k R50 VDD 450V...

Page 16: ...lock 5 mm 3x1 Tin TH 1 LBL1 THT 14 423 10 Brady Thermal Transfer Printable Labels 0 650 1 R5 R6 R7 R8 R9 R10 R11 R12 R21 R22 R23 R24 R25 R26 R27 R28 R37 R38 R39 R40 R41 R42 R43 R44 R51 R52 R53 R54 R59...

Page 17: ...ther than TI b the nonconformity resulted from User s design specifications or instructions for such EVMs or improper system design or c User has not paid on time Testing and other quality control tec...

Page 18: ...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 in...

Page 19: ...instructions set forth by Radio Law of Japan which includes but is not limited to the instructions below with respect to EVMs which for the avoidance of doubt are stated strictly for convenience and s...

Page 20: ...any interfaces electronic and or mechanical between the EVM and any human body are designed with suitable isolation and means to safely limit accessible leakage currents to minimize the risk of electr...

Page 21: ...R DAMAGES ARE CLAIMED THE EXISTENCE OF MORE THAN ONE CLAIM SHALL NOT ENLARGE OR EXTEND THIS LIMIT 9 Return Policy Except as otherwise provided TI does not offer any refunds returns or exchanges Furthe...

Page 22: ...change without notice TI grants you permission to use these resources only for development of an application that uses the TI products described in the resource Other reproduction and display of thes...

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