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DRV8846EVM_MSP430F2617_RevA.SchDoc

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File:

Sheet:

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DRV8846EVM

Project Title:

Designed for:

Public Release

Assembly Variant:

001

© Tex as Instruments

2014

Drawn By:
Engineer:

Rick Duncan

Te xas Instruments and/or its licensors do not warrant the accuracy or completeness of this specification or any information contained therein. Te xas 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. Te xas 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:

DRV8846EVM

Number:

Rev:

A

MSP430 w JTAG Interface

USB TO UART

1

2

3

4

5

6

7

10

11

8

9

J6

ZX62-B-5PA(11)

TXD

1

DTR#

2

RTS#

3

VCCIO

4

RXD

5

RI#

6

GND

7

NC

8

DSR#

9

DCD#

10

CTS#

11

CBUS4

12

CBUS2

13

CBUS3

14

USBDP

15

USBDM

16

3V3OUT

17

GND

18

RST#

19

VCC

20

GND

21

CBUS1

22

CBUS0

23

NC

24

AGND

25

TEST

26

OSCI

27

OSCO

28

U3

FT232RL

0.1µF

C9

GND

V3P3

1

2

L1

MI0805K400R-10

GND

GND

R

X

TX

TX

RX

V3P3

DVCC

1

P6.3/A3

2

P6.4/A4

3

P6.5/A5

4

P6.6/A6

5

P6.7/A7/SVSIN

6

VREF+

7

XIN

8

XOUT

9

VEREF+

10

VREF-/VEREF-

11

P1.0/TACLK/CAOUT

12

P1.1/TA0

13

P1.2/TA1

14

P1.3/TA2

15

P1.4/SMCLK

16

P

1

.5

/T

A

0

1

7

P

1

.6

/T

A

1

1

8

P

1

.7

/T

A

2

1

9

P

2

.0

/A

C

L

K

/C

A

2

2

0

P

2

.1

/T

A

IN

C

L

K

/C

A

3

2

1

P

2

.2

/C

A

O

U

T

/T

A

0

/C

A

4

2

2

P

2

.3

/C

A

0

/T

A

1

2

3

P

2

.4

/C

A

1

/T

A

2

2

4

P

2

.5

/R

O

S

C

/C

A

5

2

5

P

2

.6

/A

D

C

1

2

C

L

K

/C

A

6

2

6

P

2

.7

/T

A

0

/C

A

7

2

7

P

3

.0

/U

C

B

0

S

T

E

/U

C

A

0

C

L

K

2

8

P

3

.1

/U

C

B

0

S

IM

O

/U

C

B

0

S

D

2

9

P

3

.2

/U

C

B

0

S

O

M

I/

U

C

B

0

S

C

3

0

P

3

.3

/U

C

B

0

C

L

K

/U

C

A

0

S

T

E

3

1

P

3

.4

/U

C

A

0

T

X

D

/U

C

A

0

S

IM

3

2

P3.5/UCA0RXD

33

P3.6

34

P3.7

35

P4.0/TB0

36

P4.1/TB1

37

P4.2/TB2

38

P4.3

39

P4.4

40

P4.5

41

P4.6

42

P4.7/TBCLK

43

P5.0

44

P5.1

45

P5.2

46

P5.3

47

P5.4/MCLK

48

P

5

.5

/S

M

C

L

K

4

9

P

5

.6

/A

C

L

K

5

0

P

5

.7

/T

B

O

U

T

H

/S

V

S

O

U

T

5

1

X

T

2

O

U

T

5

2

X

T

2

IN

5

3

T

D

O

/T

D

I

5

4

T

D

I/

T

C

L

K

5

5

T

M

S

5

6

T

C

K

5

7

R

S

T

/N

M

I

5

8

P

6

.0

/A

0

5

9

P

6

.1

/A

1

6

0

P

6

.2

/A

2

6

1

A

V

S

S

6

2

D

V

S

S

6

3

A

V

C

C

6

4

U2
MSP430F2617TPMR

GND

GND

GND

R

S

T

V3P3

3.32k

R8

1

2

3

4

5

6

7

8

9

10

11

12

13

14

J5

PEC07DAAN

V3P3

M

S

P

_

D

E

C

0

M

S

P

_

I1

M

S

P

_

I0

M

S

P

_

T

O

F

F

_

S

E

L

M

S

P

_

M

1

M

S

P

_

M

0

GND

FTDI regulator used for 3.3V

STATUS

MSP_VREF

MSP_BVREF

330

R7

GND

S

T

A

T

U

S

GND

R

S

T

C

1

A

2

D2

4

1

3

2

S1

EVQP1D05M

M

S

P

_

C

A

7

M

S

P

_

D

E

C

1

MSP_nFAULT

MSP_nSLEEP

MSP_ADEC

MSP_DIR

MSP_nENBL

MSP_STEP

MSP_VINT

GND

0.1µF

C10

0.1µF

C4

DM

DP

VBUS

0.1µF

C5

4.7µF

C11

0

R10

0

R9

DNP

DNP R9. If debug or
programming adapter is used
to power the MSP430,
remove R10 and populate R9

1µF

C8

GND

Introduction

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Figure 3. DRV8846 Schematic (2 of 2)

10

DRV8846 Evaluation Module

SLLU203A – June 2014 – Revised March 2015

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Copyright © 2014–2015, Texas Instruments Incorporated

Summary of Contents for DRV8846

Page 1: ... 2 2 1 Connectors 2 2 2 Test Points 3 2 3 Jumpers 4 2 4 Motor Outputs 4 2 5 Operation of the EVM 4 2 6 Motor Control Frame Includes Start Stop Steps and Move Steps 6 2 7 Schematic and Bill of Materials BOM 9 Appendix A Driver Installation Instructions 12 List of Figures 1 Connections 3 2 DRV8846 Schematic 1 of 2 9 3 DRV8846 Schematic 2 of 2 10 1 SLLU203A June 2014 Revised March 2015 DRV8846 Evalua...

Page 2: ...ve the stepper motor by issuing the step commands at the desired rate The microcontroller firmware operates using internal index mode This user s guide details the operation of the EVM as well as the hardware configurability of the evaluation module 2 1 Connectors The DRV8846EVM offers access to VM motor voltage power rail via a terminal block J1 A set of test clips in parallel with the terminal b...

Page 3: ...e DRV8846 Table 1 Descriptions of the Connections Available on the J4 Header Header Label Description V3P3R 3 3 V after 33 Ω resistor nFAULT Fault output nSLEEP Sleep Mode input RSVD Adaptive DECay input DIR Direction input nENBL Stepper motor enable STEP Step input M0 Step mode M1 Step mode TOFF_SEL Off time selection VREF Scale voltage to set IFS VINT Internal supply voltage I0 Torque current le...

Page 4: ...ection a Once the USB connection is established the Status LED will begin to blink 5 Apply 12 V to the VM and GND connections 6 Configure the current settings step and decay modes torque and pwm off time as desired as shown in the following image The current is calculated using the VREF slider the Sense resistor value the Torque setting and the Step mode setting using the formula 1 Where StepModif...

Page 5: ...ate buttons The Start Stop Steps button is used to run the motor indefinitely The motor will accelerate to the target speed and run until the Start Stop Steps button is selected When the Start Stop Steps button is selected the red button will change to green and the Move Steps and Reciprocate buttons will be disabled The Move Steps button is used to allow movement of an exact number of steps When ...

Page 6: ...by using an acceleration profile which will be detailed later on A detailed explanation of each stepper control section follows This frame allows the configuration and running of the stepper with the direction as specified by the DIR checkbox with the current decay mode as specified under the Decay Mode checkbox and the microstepping resolution as specified under the Step Mode drop down box 6 DRV8...

Page 7: ...o decelerate until the stop speed PPS is reached in which case the motor fully stops A second motor actuation is provided by the Move of Steps and Reciprocate commands in which a programmed number of steps are issued and then the motor stopped The acceleration and deceleration profiles work similarly as before except when the deceleration starts and when the motor actually stops are a function of ...

Page 8: ...due to the particular parameters being chosen stopping the motor at a speed very close to the stop speed is often good enough to ensure good motion quality and application performance The following figure shows the three conditions possible when stopping and the action taken 8 DRV8846 Evaluation Module SLLU203A June 2014 Revised March 2015 Submit Documentation Feedback Copyright 2014 2015 Texas In...

Page 9: ...2 2µF C3 1 2 J1 ED555 2DS nSLEEP nFAULT 4 99k R3 BOUT1 BOUT2 VM AISEN VINT VREF DIR I1 I0 M0 M1 TOFF_SEL nENBL STEP ADEC 0 25 R1 0 25 R2 GND 510 R4 1 2 J2 ED555 2DS 1 2 J3 ED555 2DS MSP_M1 MSP_TOFF_SEL MSP_VREF MSP_VINT MSP_I0 MSP_I1 MSP_DEC0 MSP_DEC1 MSP_nFAULT MSP_nSLEEP MSP_ADEC MSP_DIR MSP_nENBL MSP_STEP MSP_M0 nSLEEP ADEC DIR nENBL STEP M0 M1 TOFF_SEL VREF VINT I0 I1 DEC0 DEC1 1 2 3 4 5 6 7 8...

Page 10: ...3 P6 5 A5 4 P6 6 A6 5 P6 7 A7 SVSIN 6 VREF 7 XIN 8 XOUT 9 VEREF 10 VREF VEREF 11 P1 0 TACLK CAOUT 12 P1 1 TA0 13 P1 2 TA1 14 P1 3 TA2 15 P1 4 SMCLK 16 P1 5 TA0 17 P1 6 TA1 18 P1 7 TA2 19 P2 0 ACLK CA2 20 P2 1 TAINCLK CA3 21 P2 2 CAOUT TA0 CA4 22 P2 3 CA0 TA1 23 P2 4 CA1 TA2 24 P2 5 ROSC CA5 25 P2 6 ADC12CLK CA6 26 P2 7 TA0 CA7 27 P3 0 UCB0STE UCA0CLK 28 P3 1 UCB0SIMO UCB0SD 29 P3 2 UCB0SOMI UCB0SC...

Page 11: ...ore Technology ED555 2DS 3 J4 Header Male 18 pin 100mil spacing STD PEC18SAAN 1 J5 Header 100mil 7x2 Tin plated TH Sullins Connector Solutions PEC07DAAN 1 J6 Connector micro USB Type B Receptacle R A SMD Hirose Electric Co Ltd ZX62 B 5PA 11 1 L1 Bead Ferrite yymA Steward MI0805K400R 10 1 R1 R2 RES 0 25 ohm 1 1W 2010 Stackpole Electronics Inc CSRN2010FKR250 2 R3 RES 4 99k ohm 1 0 063W 0402 Vishay D...

Page 12: ...ed folder Application and move the folder DRV8846EVM_GUIv1 0 into the C ti guicomposer webapps directory Note if you chose a non default installation directory in Step 1 the C ti part will be different When completed as desired a shortcut can be created to C ti guicomposer webapps DRV8846EVM_GUIv1 0 launcher exe by clicking and dragging the file while holding the Alt key When complete the folder C...

Page 13: ...ring the warranty period to the address designated by TI and that are determined by TI not to conform to such warranty If TI elects to repair or replace such EVM TI shall have a reasonable time to repair such EVM or provide replacements Repaired EVMs shall be warranted for the remainder of the original warranty period Replaced EVMs shall be warranted for a new full ninety 90 day warranty period 3 ...

Page 14: ... 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 Concernant les EVMs avec antennes détachables Conformément à la rég...

Page 15: ... 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 inputs and outputs kept within the specified allowable ranges some circuit components may have elevated case temperatures These components include but are not limited to linear regulators switching transistors pass transistors cu...

Page 16: ...F 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 USE LOSS OF DATA OR BUSINESS INTERRUPTION NO CLAIM SUIT OR ACTION SHALL BE BROUGHT AGAINST TI MORE THAN ONE YEAR AFTER THE RELATED CAUSE OF ACTION HAS OCCURRED 8 2 Specific Limitations IN NO EVENT SHALL T...

Page 17: ...esponsible for compliance with all legal regulatory and safety related requirements concerning its products and any use of TI components in its applications notwithstanding any applications related information or support that may be provided by TI Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards which anticipate dangerous consequences of failur...

Page 18: ...Mouser Electronics Authorized Distributor Click to View Pricing Inventory Delivery Lifecycle Information Texas Instruments DRV8846EVM ...

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