DRV8834 Datasheet, PDF(9/30 Page) Texas Instruments – DUAL BRIDGE STEPPER OR DC MOTOR DRIVER

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DRV8834 Datasheet, PDF (9/30 Pages) Texas Instruments – DUAL BRIDGE STEPPER OR DC MOTOR DRIVER

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DRV8834

www.ti.com

SLVSB19A â FEBRUARY 2012 â REVISED MARCH 2012

Current regulation works as follows:

When an H-bridge is enabled, current rises through the winding at a rate dependent on the supply voltage and

inductance of the winding. If the current reaches the current chopping threshold, the bridge disables the current

until the beginning of the next PWM cycle. Note that immediately after the current is enabled, the voltage on the

xISEN pin is ignored for a period of time before enabling the current sense circuitry. This blanking time also sets

the minimum on time of the PWM when operating in current chopping mode.

Note that the blanking time also sets the minimum PWM duty cycle. This can cause current control errors near

the zero current level when microstepping. To help eliminate this error, the DRV8834 has a "dynamic" tBLANK

time. When the commanded current is low, the blanking period is reduced, which in turn lowers the minimum

duty cycle. This provides a smoother current transition across the zero crossing region of the current waveform.

The end result is smoother and quieter motor operation.

The PWM chopping current is set by a comparator which compares the voltage across a current sense resistor

connected to the xISEN pins, with a reference voltage supplied to the AVREF and BVREF pins. In indexer mode,

the reference voltages are scaled by internal DACs to provide scaled currents used to perform microstepping.

The chopping current is calculated as follows:

CHOP

xVREF

5Â¾ Â· RISENSE

(1)

Example: If xVREF is 2 V (as it would be if xVREF is connected directly to VREFO) and a 400-mÎ© sense resistor

is used, the chopping current will be 2 V/5 x 400 mÎ© = 1 A.

In indexer mode, this current value is scaled by between 5% and 100% by the internal DACs, as shown in the

step table in the "Microstepping Indexer" section of the datasheet.

Note that if current control is not needed, the xISEN pins may be connected directly to ground. in this case it is

also recommended to connect AVREF and BVREF directly to VREFO.

Current Recirculation and Decay Modes

During PWM current chopping, the H-bridge is enabled to drive current through the motor winding until the PWM

current chopping threshold is reached. This is shown in Figure 2 as case 1. The current flow direction shown

indicates positive current flow in the step table below for indexer mode, or the current flow with xPHASE = 1 in

phase/enable mode.

Once the chopping current threshold is reached, the drive current is interrupted, but due to the inductive nature

of the motor, the current must continue to flow. This is called recirculation current. To handle this recirculation

current, the H-bridge can operate in two different states, fast decay or slow decay.

In fast decay mode, once the PWM chopping current level has been reached, the H-bridge reverses state to

allow winding current to flow in through the opposing FETs. As the winding current approaches zero, the bridge

is disabled to prevent any reverse current flow. Fast decay mode is shown in Figure 2 as case 2.

In slow decay mode, winding current is re-circulated by enabling both of the low-side FETs in the bridge. This is

shown as case 3 below.

Product Folder Link(s): DRV8834

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