Datasheet

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TMC2041 DATASHEET (Rev. 1.02 / 2017-MAY-16) 10

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3 Sample Circuits

The sample circuits show the connection of the external components in different operation and

supply modes. The connection of the bus interface and further digital signals is left out for clarity.

3.1 Standard Application Circuit

VCC_IO

TMC2041

SPI interface

CSN/IO0

SCK/IO1

SDO

SDI/IO2

Step/Dir interface

STEP1

DIR1

Step/Dir interface

Sequencer &

Microplyer

Single wire

interface

5V Voltage

regulator

charge pump

VCP

22n

100n

SWION

SW_SEL

CLK_IN

STEP2

DIR2

SWIOP

5VOUT

VSA

4.7µ

NEXTADDR

DRV_ENN

GNDP

GND

GNDA

TST_MODE

DIE PAD

VCC

opt. ext. clock

12-16MHz

3.3V or 5V

I/O voltage

100n

Sequencer &

Microplyer

Full Bridge A

Full Bridge B

stepper

motor #1

O1A1

O1A2

BR1A

O1B1

O1B2

Driver 1

100n

BR1B

Full Bridge A

Full Bridge B

stepper

motor #2

O2A1

O2A2

BR2A

O2B1

O2B2

Driver 2

BR2B

100n

100µF

CPI

CPO

Optional use lower

voltage down to 6V

2R2

470n

R1A

R1B

R2A

R2B

Figure 3.1 Standard application circuit

The standard application circuit uses a minimum set of additional components in order to operate the

motor. Use low ESR capacitors for filtering the power supply which are capable to cope with the

current ripple. The current ripple often depends on the power supply and cable length. The VCC_IO

voltage can be supplied from 5VOUT, or from an external source, e.g. a low drop 3.3V regulator. In

order to minimize linear voltage regulator power dissipation of the internal 5V voltage regulator in

applications where VM is high, a different (lower) supply voltage can be used for VSA, if available. For

example, many applications provide a 12V supply in addition to a higher supply voltage like 24V.

Using the 12V supply for VSA will reduce the power dissipation of the internal 5V regulator to about

37% of the dissipation caused by supply with the full motor voltage. For best motor chopper

performance, an optional R/C-filter de-couples 5VOUT from digital noise cause by power drawn from

VCC.

Basic layout hints

Place sense resistors and all filter capacitors as close as possible to the related IC pins. Use a solid

common GND for all GND connections, also for sense resistor GND. Connect 5VOUT filtering capacitor

directly to 5VOUT and GNDA pin. See layout hints for more details. Low ESR electrolytic capacitors are

recommended for VS filtering.

Attention

In case VSA is supplied by a different voltage source, make sure that VSA does not exceed VS by

more than one diode drop upon power up or power down.