TX517EVM Users Manual . (Rev. B)

TX517 Dual Channel, 17-Level With RTZ,

Integrated Ultrasound Transmitter

User

'

s Guide

Literature Number: SLOU317B

August 2011 – Revised December 2011

2 SLOU317B – August 2011 – Revised December 2011

Submit Documentation Feedback

Copyright © 2011, Texas Instruments Incorporated

Contents

8

9

6

7

3

4

1

2

5

Default Configuration

Buttons

..........................................................................................................

9

............................................................................................................................

10

SYNC Trigger

....................................................................................................................

11

Power up TX517

................................................................................................................

12

Power Supplies for Output Waveform

5.1

Input/Output Pattern

..................................................................................

13

...................................................................................................

14

Board Configuration

EVM Schematics

..........................................................................................................

20

...............................................................................................................

21

Bill of Materials

PCB Layouts

.................................................................................................................

28

.....................................................................................................................

31

SLOU317B – August 2011 – Revised December 2011



Table of Contents

3

19

20

21

16

17

18

11

12

13

14

15

6

7

8

9

10

1

2

3

4

5 www.ti.com

List of Figures

Tx517 EVM Basic Configuration

..........................................................................................

9

Power-Up Indications

.....................................................................................................

12

Input Pattern for 17-Level

................................................................................................

14

Output Waveform for 17-Level

...........................................................................................

14


.................................................................................................

15


...........................................................................................

15


.................................................................................................

16


...........................................................................................

16


............................................................................................

17

Output Waveform for 2-Level With Three Cycles

.....................................................................

17


............................................................................................

18


...........................................................................................

18

Output Waveform for 32-Level With Two Cycles

......................................................................

19

Schematic (1 of 8)

.........................................................................................................

21

Schematic (2 of 8)

.........................................................................................................

22

Schematic (3 of 8)

.........................................................................................................

23

Schematic (4 of 8)

.........................................................................................................

24

Schematic (5 of 8)

.........................................................................................................

25

Schematic (6 of 8)

.........................................................................................................

25

Schematic (7 of 8)

.........................................................................................................

26

Schematic (8 of 8)

.........................................................................................................

27

4

List of Figures




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9

10

11

6

7

8

1

2

3

4

5

List of Tables

Buttons

......................................................................................................................

10

PRF

..........................................................................................................................

10

Cycle

........................................................................................................................

10

Frequency

..................................................................................................................

10

Pattern Depth

..............................................................................................................

11

Patterns of Different Level

................................................................................................

11

Pin Definition for J1-Header

..............................................................................................

13

Pin Definition for P1-Header

.............................................................................................

13

Input/Output, Power, and USB

LED Indicators

..........................................................................................

20

.............................................................................................................

20

Bill of Materials (BOM)

....................................................................................................

28




List of Tables

5

6

List of Tables




www.ti.com

General Texas Instruments High Voltage Evaluation (TI HV EVM) User Safety Guidelines

General Texas Instruments High Voltage Evaluation (TI HV EVM) User Safety Guidelines

WARNING

Always follow TI ’ s set-up and application instructions, including use of all interface components within their recommended electrical rated voltage and power limits. Always use electrical safety precautions to help ensure your personal safety and those working around you. Contact TI ’ s Product Information Center http://support/ti./com for further information.

Save all warnings and instructions for future reference.

Failure to follow warnings and instructions may result in personal injury, property damage or death due to electrical shock and burn hazards.

The term TI HV EVM refers to an electronic device typically provided as an open framed, unenclosed printed circuit board assembly. It is intended strictly for use in development laboratory environments,

solely for qualified professional users having training, expertise and knowledge of electrical safety risks in development and application of high voltage electrical circuits. Any other use and/or application are strictly

prohibited by Texas Instruments. If you are not suitable qualified, you should immediately stop from further use of the HV EVM.

1. Work Area Safety:

(a) Keep work area clean and orderly.

(b) Qualified observer(s) must be present anytime circuits are energized.

(c) Effective barriers and signage must be present in the area where the TI HV EVM and its interface electronics are energized, indicating operation of accessible high voltages may be present, for the purpose of protecting inadvertent access I

(d) All interface circuits, power supplies, evaluation modules, instruments, meters, scopes and other related apparatus used in a development environment exceeding 50Vrms/75VDC must be electrically located within a protected Emergency Power Off EPO protected power strip.

(e) Use stable and non conductive work surface.

(f) Use adequately insulated clamps and wires to attach measurement probes and instruments. No freehand testing whenever possible.

2. Electrical Safety:

As a precautionary measure, it is always a good engineering practice to assume that the entire

EVM may have fully accessible and active high voltages.

(a) De-energize the TI HV EVM and all its inputs, outputs and electrical loads before performing any electrical or other diagnostic measurements. Revalidate that TI HV EVM power has been safely de-energized.

(b) With the EVM confirmed de-energized, proceed with required electrical circuit configurations, wiring, measurement equipment hook-ups and other application needs, while still assuming the EVM circuit and measuring instruments are electrically live.

(c) Once EVM readiness is complete, energize the EVM as intended.

WARNING

While the EVM is energized, never touch the EVM or its electrical circuits as they could be at high voltages capable of causing electrical shock hazard.

3. Personal Safety:

(a) Wear personal protective equipment e.g. latex gloves or safety glasses with side shields or protect

EVM in an adequate lucent plastic box with interlocks from accidental touch.

Limitation for safe use: EVMs are not to be used as all or part of a production unit.




List of Tables

7

8

List of Tables




User

'

s Guide

SLOU317B

–

August 2011

–

Revised December 2011

TX517 Dual Channel, 17-Level With RTZ, Integrated

Ultrasound Transmitter

1

TX517 is a fully integrated, dual channel, high voltage Transmitter designed by Texas Instruments

Incorporated. This EVM provides a means to evaluate the functionality of the device. The EVM includes a

FPGA to provide an embedded pattern generator and digital control of the device. The output pattern and configuration settings are controlled by 8 push buttons on the EVM.

Default Configuration

Figure 1. Tx517 EVM Basic Configuration



TX517 Dual Channel, 17-Level With RTZ, Integrated Ultrasound Transmitter


9

Buttons

2 Buttons

There are eight buttons for controlling the output waveform settings. They are listed in

Table 1 .

www.ti.com

Table 1. Buttons

Button

PHASE_BUTTON

PRF_BUTTON

Functionality

Each time the button is pressed, the current INPx pattern becomes the pattern for INNx, the current

INNx pattern becomes the pattern for INPx.

Changes the Pulse Repetition Frequency of the output waveform as given in

Table 2

Each press increases the PRF and then cycles back to 0.

CYCLE_BUTTON

FREQ_BUTTON

RESET_BUTTON

PDM_BUTTON

Changes the number of times the output pattern cycles within the pulse burst, as given in the

Table 3

.

Each press moves 1 level up and then back to 0

Changes the Frequency of the output waveform as given in the

Table 4

. Each press increases the frequency and then cycles back to 0

Reset all the setting to its default

One press changes the mode to Power down mode.

CW_MODE_BUTTON First six times the button is pressed will change the pattern depth as shown in

Table 5 . Seventh press

will change the device to CW mode. In CW mode, pressing the button will revert back to 17-level. The latch mode is unaffected. Refer to

Table 5

and

Table 6 .

LATCH_MODE_BUTTON First press changes to latch mode. Every consecutive pulse will toggle the mode between Latch and

Non latch mode

Index

0

1

2

3

Index

0

1

2

3

4

Index

0

1

2

3

Table 2. PRF

PRF(kHz)

0.5

1

5

10

Comments

17-level Ramp Only

17-level Ramp Only

Table 3. Cycle

PRF (kHz)

1

2

3

5

10

Comments

Longer than 5-level Only

Longer than 5-level Only

Table 4. Frequency

Frequency (MHz)

10

20

50

100

Comments

10





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There are 7 patterns: 17-, 5-, 3-, 32-, 4- and 2-level. The patterns are given in

Table 6 .

Index

0

1

2

3

4

5

6

Table 5. Pattern Depth

Pattern Depth

17

5

3

32

4

2

CW

Comments

9

10

11

12

13

14

15

16

17

4

5

6

7

8

S/N

1

2

3

2145

81

73

2208

144

136

2336

272

264

17 level

Pattern

516

514

577

1028

1026

1089

2084

2082

0

– 1

– 2

– 3

– 4

– 5

– 6

– 7

– 8

5

4

3

2

1

Level

8

7

6

Table 6. Patterns of Different Level

S/N

1

2

3

4

5

5 level

Pattern

516

1026

2145

144

264

8

4

0

– 4

– 8

S/N

1

2

3

3 level

Pattern

516

2145

264

8

0

– 8

SYNC Trigger

3 SYNC Trigger

A Sync trigger pulse is generated at the start of the pattern transmission for triggering the monitoring device. Sync pulse will be 5 pattern clock cycle wide and it is active high. Sync pulse output thru J8 SMA connector..





11

Power up TX517

4 Power up TX517

Connect +5V adaptor to P2 connector.

+5VDC GND

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Figure 2. Power-Up Indications

12





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5 Power Supplies for Output Waveform

Either J1-Header or P1-Header but not both, is used for this purpose.

Power Supplies for Output Waveform

WARNING

User may be exposed to high voltage depending on power supplies setting !

Table 7. Pin Definition for J1-Header

(1)

11

13

15

17

19

21

23

Pin

1

3

5

7

9

Use a GND test point for ground

Voltage

(1)

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

12

14

16

18

20

22

24

Pin

2

8

10

4

6

Voltage

OPEN

+5 V

– 5 V

+1.9 V

-1.9 V

+11 V

OPEN

+2.5 V

+61 V

– 20.9 V

+32 V

– 11.9 V

Table 8. Pin Definition for P1-Header

4

5

6

7

8

9

10

11

12

Pin

1

2

3

Voltage

OPEN

+5 V

-5 V

+1.9 V

– 1.9 V

+11 V

OPEN

+2.5 V

+61 V

– 20.9 V

+32 V

– 11.9 V

COMMENT

FB5V

VDD

VEE

HV0

LV0

VCW

OPEN

VAA

HV1

LV1

HV2

LV2

COMMENT

FB5V

VDD

VEE

HV0

LV0

VCW

OPEN

VAA

HV1

LV1

HV2

LV2





13


5.1

Input/Output Pattern

•

17 Level

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Differential

OUTA

Figure 3. Input Pattern for 17-Level

OUTB

Figure 4. Output Waveform for 17-Level

14





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•

5 Level


Differential

OUTA


OUTB






15


•

3 Level

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Differential

OUTA

OUTB


16





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Figure 10. Output Waveform for 2-Level With Three Cycles





17


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18





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Figure 13. Output Waveform for 32-Level With Two Cycles





19

Board Configuration

6 Board Configuration

Connector

P1

P2

TP5V, TEST_GND

JP20

JP21

JP26

JP32

TP1,TP2,TP3,TP4

TP33V, TP12V

JP16

JP17

JP18

JP19

JP22

JP25

JP23

JP24

JP27

JP29

JP1..JP13

JP30/JP31

J6

Table 9. Input/Output, Power, and USB

Description

External power supplies to the device

+5V power supply connector.

Test points for +5V power supply.

Jumper to select +5V or FB_5V.

Select +3.3V.

Select +1.2V

External clock/On board OSC

Ground test points.

Test points for +3.3V and +1.2V respectively.

Short always

Short always

Short always

Short always

Default setup is to output directly/ Others is to drive thru on board transformer.

JP25: Default setup is to output directly/ Others is to drive thru on board transformer.

Open when output directly. Short when driving thru transformer

Short always

Open

Open

Test points for test pattern. They can also be used for external test patterns.

CWINA/CWINB selection.

USB interface connector www.ti.com

Table 10. LED Indicators

Reference Designator

LED1/LED2

LED3/LED7

LED4

LED5

LED6

Power Supply

USB interface indication

FPGA alive

+5V

+3.3V

+1.2V

20





www.ti.com

7 EVM Schematics

IN

EN

OUT

GND NR/FB

IN OUT

GND

EN NR/FB

Figure 14. Schematic (1 of 8)

EVM Schematics





21

EVM Schematics

SOCKET or TX517

www.ti.com

WARNING: Users may be exposed to high voltage

These resistors are not installed.

They are required when an external generator is used for pattern generation.

22






www.ti.com

VCC

GND

EVM Schematics


PURE GREEN

PURE GREEN

PURE GREEN


PURE GREEN





23

EVM Schematics



NOTE: D2 and D3 are for internal test.

Do not install

www.ti.com

24





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EVM Schematics







25

EVM Schematics

www.ti.com


26





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spacer

In real application, low-jitter clock should be used on

PCLKIN pin. Typically a main crystal clock; or, through a jitter cleaner in the system.

VccB

DIR

B

VccA

GND

A

VccB

DIR

B

VccA

GND

A

1CLK

1D

1CLR

VCC

2CLR

2D

2CLK

1PRE

1Q

1Q

GND

2Q

2Q

2PRE


EVM Schematics





27

Bill of Materials

8 Bill of Materials

www.ti.com

QTY

1

2

16

MFG

TX517

PANASONIC

AVX

13

31

AVX

KEMET

MFG PART#

TX517

EEUFC2A101L

0402YC103KAT2A

0402YC104KAT2A

C0402C104K8PAC

1

5

1

1

1

1

4

1

4

4

2

1

2

1

2

1

1

1

2

2

5

8

PANASONIC

PANASONIC

AVX

CAPAX

TAIYO YUDEN

TAIYO YUDEN

AVX

TAIYO YUDEN

VISHAY

AVX

JOHNSON COMPONENTS

ADVANCED CONNECTEK

AMPHENOL

Customer Supply

DIODES INC.

DIODES INC.

STEWARD

SAMTEC

MOLEX

SPC TECH

MOLEX

SPC TECH

ECJ-0EB1H102K

ECJ-0EC1H470J

06033C104JAT2A

0603X475J250SW

JMK107BJ106MA-T

LMK107BJ475KA-T

08051C104KAZ2A

HMK325BJ225KN

593D226X9016C2T

TPSC226K016R0375

142-0711-826

MNE20-5K5P10

901-144-8

DO NOT INSTALL

1N4148W-7

MMBD3004S-7-F

HI0805R800R-00

IPL-112-01-S-D-K

39357-0002

8431-1x12 (DNI)

87831-1420

8431-1x9

Table 11. Bill of Materials (BOM)

RefDes

U20

C72, C73

C10, C12, C14, C16, C18, C20,

C22, C24, C26, C28, C30, C32,

C33, C35, C37, C39

Description

Ultrasound Transmitter

CAP,RAD,ELEC

CAP,SMT,0402

C43, C60, C61, C63, C66, C68,

C69, C70, C71, C75, C76, C90, C91

CAP,SMT,0402

C2, C3, C5, C6, C9, C11, C13, C15, CAP,SMT,0402

C17, C19, C21, C23, C25, C27,

C29, C31, C34, C36, C38, C40,

C48, C62, C67, C78, C79, C80,

C83, C84, C85, C86, C87

C8 CAP,SMT,0402

C81, C82

C64, C65

C52

C7

C53, C54, C55, C92, C93

C41, C42, C49, C50, C56, C57,

C58, C59

C44, C45, C46, C51

CAP,SMT,0402

CAP,SMT,0603

CAP,SMT,0603

CAP,SMT,0603

CAP,SMT,0603

CAP,SMT,0805

C1, C4

C47

J2, J3

J6

J8, J9, J11, J29

T1

CR1, CR2, CR3, CR4

D1

L1, L2, L3, L4, L5

J1

P2

P1

CAP,SMT,1210

CAP,SMT,TANT

CAPACITOR,SMT,TANT

CON,SMA,SMT

CONN,SMT,5P

CONNECTOR,SMA

Transformer

DIODE,SMT,2P

DIODE,SMT,3P

FERRITE BEAD,SMT,2P

HEADER,THP,24P

HEADER,THRU,2P

HEADER,THU,12P

J10

J28A, J28B

HEADER,THU,14P

HEADER,THU,9P

Value or Function

TX517 transmitter ( TI Provide)

CAP,THRU,ELE,100uf,100V,20%

CAPACITOR,SMT,0402,CERAMIC,10000pF,16V,10%,X7R

CAPACITOR,SMT,0402,CER,16V,10%,0.1uF

CAPACITOR,SMT,0402,CER,0.1uF,10V,10%,X5R

CAPACITOR,SMT,0402,CER,1000pF,50V,10%,X7R

CAPACITOR,SMT,0402,CER,47pF,50V,5%,NPO

CAPACITOR,SMT,0603,CERAMIC,0.1uF,25V,5%,X7R


CAPACITOR,SMT,0603,CERAMIC,10uF,6.3V,20%,X5R


CAPACITOR,SMT,0805,CERAMIC,0.1uF,100V,10%


CAP,TAN,SMT,EIA-C,16V,10%, 22uF

10%, 16V, 22uF

SMA JACK,END LAUNCH,A068,062PCB,BRASS/NICKEL

MINI-AB USB OTG RECEPTACLE R/A SMT TYPE

SMA COAX STRAIGHT PCB CURRENT P/N IS 901-144-8RFX

Do Not Install

DIODE,SMT,SWITCHING,1N4148

DIODE SWITCH 300V 350MW SOT23-3

HEADER,THP,24P,MALE,2X12,100LS,.120TL

HEADER, THRU, POWER, 2P,3.5MM, EUROSTYLE

HEADER,THU,MALE,0.1LS,12P,1X12,335H,120TL,(Do Not

Install)

HEADER,MALE,14POS,2 ROWS,2mm LS,15u,LF,TL=098

HEADER,THU,MALE,0.1LS,9P,1X9,335H,120TL

28





www.ti.com

Bill of Materials

7

2

2

2

8

3

5

2

1

2

QTY

21

8

2

1

1

4

1

2

1

1

1

7

1

1

2

15

8

MFG

TYCO ELECTRONICS

TYCO ELECTRONICS

TI

TI

TI

TI TPS73201QDBV

FUTURE TECHNOLOGY DEVICE FT245RL

INT.

XILINX XC3S50AN-4TQG144I

TI 74AC11074PW

TI

PANASONIC

KINGBRIGHT

ECS

*COTO TECHNOLOGY

*COTO TECHNOLOGY

PANASONIC

PANASONIC

PANASONIC

PANASONIC

VISHAY

VISHAY

ITT INDUSTRIES

KEYSTONE ELECTRONICS


ON SEMI

ON SEMI

TYCO

MFG PART#

4-103239-0x2

4-103239-0x3

SN74LVC1T45DCKR

SN74HC04D

TPS79633DCQR

CDCLVC1102PWR

LNJ308G8PRA

KP-2012ID

ECS-3953M-1000-BN

9402-05-20

2911-05-321

ERJ-2RKF1001X

ERJ-2RKF1002X

ERJ-2RKF3320X

ERJ-2RKF49R9X

CRCW08051002F

CRCW251249R9FKEG

PTS635SK25SM

5000

5001

1SMA5927BT3

1SMB5920BT3

50935

Table 11. Bill of Materials (BOM) (continued)

RefDes Description

JP1, JP2, JP3, JP4, JP5, JP6, JP7, HEADER,THU,JUMPER

JP8, JP9, JP10, JP11, JP12, JP13,

JP16, JP17, JP18, JP19, JP23,

JP24, JP27, JP29

JP20, JP21, JP22, JP25, JP26,

JP30, JP31,JP32

U4, U6

U7

U1

U2

U5

U3

U8

HEADER,THU,JUMPER

IC,SMT,6P

IC,SMT,SOIC-14N

IC,SMT,SOT223-6

IC,SMT,SOT23-5

IC,SMT,SSOP-28

IC,SMT,TQFP-144

IC,SMT,TSSOP-14


MALE,2PIN,.100CC MAKE FROM 4-103239-0x2

MAKE FROM 4-103239-0

SINGLE BIT DUAL SUPPLY BUS TRANSCEIVER

HEX INVERTER

ULTRALOW-NOISE HI PSRR FAST RF 1-A LDO LINEAR

REGULATOR,3.3V

CAP-FREE NMOS 250-mA LOW DROPOUT REGULATOR

USB FIFO IC INCORPORATE FTDICHIP-ID SECURITY

DONGLE

XILINX SPARTAN-3AN 144QFP

DUAL POS-EDGE-TRIG D-TYPE FLIP-FLOP W CLEAR AND

PRESET,PW-14

3.3V AND 2.5V LVCMOS HIGH PERF CLOCK BUFFER FAMILY

LED,SMT,0603,PURE GREEN,2.03V

U9

LED4, LED5, LED6, LED8, LED9,

LED10, LED11

LED1, LED2, LED3, LED7

OSC1

Y3, Y4

Y1, Y2

IC,SMT,TSSOP-8

LED,SMT,0603

LED,SMT,2P

OSCILLATOR,SMT,4P

RELAY,SMT,6P

RELAY,THRU,7P

LED,RED,SMT,0805

OSC,SMT,3.3V,50ppm,-40~85C,5nS,100.000 MHz

SPST,SMT,50 OHM,5V,0.5A,200 OHM COIL,J-LEAD (Not

Install)

RELAY,THRU,7P,RR,SPDT,1FC,5V,0.25A,230R COIL,COAXIAL

SHIELD (Not Install)

R6, R7, R8, R9, R10, R11, R12,

R21, R22, R23, R24, R25, R26,

R28, R30

R13, R14, R15, R16, R17, R18,

R19, R29

R1, R2, R3, R45, R46, R47, R50

R20, R52

R48, R49

R4, R5

Z1

Y1, Y2

RES,SMT,0402

RES,SMT,0402

RES,SMT,0402

RES,SMT,0402

RES,SMT,0805

RESISTOR,SMT,2512

SW1, SW2, SW3, SW4, SW5, SW6, SWITCH,SMT,2P

SW7, SW8

TP12V, TP33V, TP5V

TP1, TP2, TP3, TP4, TEST_GND

D2, D3

TESTPOINT,THU,1P

TESTPOINT,THU,1P

ZENER DIODE,SMT,SMA

RESISTOR,SMT,0402,1.00K,1%,1/16W

RESISTOR,SMT,0402,10.0K,1%,1/16W

RESISTOR,SMT,0402,332 OHM,1%,1/16W

RESISTOR,SMT,0402,49.9 OHM,1%,1/16W,

RESISTOR,SMT,0805,THICK FILM,1%,1/8W,10.0K

RESISTOR,SMT,2512,THICK FILM,49.9 OHM,1%,1W

SWITCH,SMT,2P,SPST-NO,2.5mm

HEIGHT,MOM,RECTANGULAR,0.05A,12V

TESTPOINT,THU,MINIATURE,0.1LS,120TL, RED

TESTPOINT,THU,MINIATURE,0.1LS,120TL, BLACK

ZENER DIODE,12V,SMT,SMA,1.5W (Not Installed)

ZENER DIODE,SMT,SMB ZENER DIODE,6.2V,SMT,SMB,3W

SOCKET PIN - INSTALL 1ST DIA_038, PIN_013-020, EXP_146, B125




29


Bill of Materials

QTY

1

1

15

MFG

PANASONIC

Customer Supply

PANASONIC

4

4



TE Connectivity

SPECIAL NOTES AND INSTRUCTIONS www.ti.com

MFG PART#

ERJ-2RKF49R9X

DO NOT INSTALL

ERJ-2RKF49R9X(DNI)

24436K-ND

29311K-ND

1658621-5

Table 11. Bill of Materials (BOM) (continued)

RefDes

R27

T1B

R31, R32, R33, R34, R35, R36,

R37, R38, R39, R40, R41, R42,

R43, R44, R51

Description

RES,SMT,0402

Transformer

RES,SMT,0402

STANDOFF HEX M3 THR

ALUM 18MM

SCREW STEEL M3 THR

6MM

Cover for P1


RESISTOR,SMT,0402,49.9 OHM,1%,1/16W(Not Install)

DO NOT INSTALL

RESISTOR,SMT,0402,49.9 OHM,1%,1/16W, Uninstall

STANDOFF HEX M3 THR ALUM 18MM

SCREW STEEL M3 THR 6MM

Snap latch into place. Install as needed

30





www.ti.com

9 PCB Layouts

PCB Layouts





31

PCB Layouts

www.ti.com

32





www.ti.com

PCB Layouts





33

Evaluation Board/Kit Important Notice

Texas Instruments (TI) provides the enclosed product(s) under the following conditions:

This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION

PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. Persons handling the product(s) must have electronics training and observe good engineering practice standards. As such, the goods being provided are not intended to be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety and environmental measures typically found in end products that incorporate such semiconductor components or circuit boards. This evaluation board/kit does not fall within the scope of the European Union directives regarding electromagnetic compatibility, restricted substances (RoHS), recycling (WEEE), FCC, CE or UL, and therefore may not meet the technical requirements of these directives or other related directives.

Should this evaluation board/kit not meet the specifications indicated in the User ’ s Guide, the board/kit may be returned within 30 days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY

SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING

ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE.

The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user indemnifies TI from all claims arising from the handling or use of the goods. Due to the open construction of the product, it is the user ’ s responsibility to take any and all appropriate precautions with regard to electrostatic discharge.

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FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.

TI currently deals with a variety of customers for products, and therefore our arrangement with the user is not exclusive.

TI assumes no liability for applications assistance, customer product design, software performance, or infringement of

patents or services described herein.

Please read the User ’ s Guide and, specifically, the Warnings and Restrictions notice in the User ’ s Guide prior to handling the product. This notice contains important safety information about temperatures and voltages. For additional information on TI ’ s environmental and/or safety programs, please contact the TI application engineer or visit www.ti.com/esh .

No license is granted under any patent right or other intellectual property right of TI covering or relating to any machine, process, or combination in which such TI products or services might be or are used.

FCC Warning

This evaluation board/kit is intended for use for ENGINEERING DEVELOPMENT, DEMONSTRATION, OR EVALUATION

PURPOSES ONLY and is not considered by TI to be a finished end-product fit for general consumer use. It generates, uses, and can radiate radio frequency energy and has not been tested for compliance with the limits of computing devices pursuant to part 15 of FCC rules, which are designed to provide reasonable protection against radio frequency interference. Operation of this equipment in other environments may cause interference with radio communications, in which case the user at his own expense will be required to take whatever measures may be required to correct this interference.

EVM Warnings and Restrictions

.

It is important to operate this EVM within the input voltage range of – 0.3 V to 5.3 V and the output voltage range of – 0.3 V to 3.3 V

Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions concerning the input range, please contact a TI field representative prior to connecting the input power.

Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the

EVM. Please consult the EVM User ' s 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, some circuit components may have case temperatures greater than 50 ° C. The EVM is designed to operate properly with certain components above 25 ° C as long as the input and output ranges are maintained. These components include but are not limited to linear regulators, switching transistors, pass transistors, and current sense resistors. These types of devices can be identified using the EVM schematic located in the EVM User ' s Guide. When placing measurement probes near these devices during operation, please be aware that these devices may be very warm to the touch.

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logic.ti.com

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TI E2E Community Home Page

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Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265


TX517EVM Users Manual . (Rev. B)

TX517 Dual Channel, 17-Level With RTZ,

Integrated Ultrasound Transmitter

User

s Guide

Contents

List of Figures

List of Tables

General Texas Instruments High Voltage Evaluation (TI HV EVM) User Safety Guidelines

While the EVM is energized, never touch the EVM or its electrical circuits as they could be at high voltages capable of causing electrical shock hazard.

User

s Guide

TX517 Dual Channel, 17-Level With RTZ, Integrated

Ultrasound Transmitter

1

Default Configuration

2 Buttons

3 SYNC Trigger

4 Power up TX517

5 Power Supplies for Output Waveform

User may be exposed to high voltage depending on power supplies setting !

5.1

Input/Output Pattern

6 Board Configuration

7 EVM Schematics

8 Bill of Materials

9 PCB Layouts

Related manuals

Table of contents

TX517EVM Users Manual . (Rev. B)

TX517 Dual Channel, 17-Level With RTZ,

Integrated Ultrasound Transmitter

User

s Guide

Contents

List of Figures

List of Tables

General Texas Instruments High Voltage Evaluation (TI HV EVM) User Safety Guidelines

While the EVM is energized, never touch the EVM or its electrical circuits as they could be at high voltages capable of causing electrical shock hazard.

User

s Guide

TX517 Dual Channel, 17-Level With RTZ, Integrated

Ultrasound Transmitter

1

Default Configuration

2 Buttons

3 SYNC Trigger

4 Power up TX517

5 Power Supplies for Output Waveform

User may be exposed to high voltage depending on power supplies setting !

5.1

Input/Output Pattern

6 Board Configuration

7 EVM Schematics

8 Bill of Materials

9 PCB Layouts

Related manuals

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Table of contents