EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 8

EVAL6229PD

Manufacturer Part Number

EVAL6229PD

Description

EVAL BOARD FOR L6229PD SOIC

Manufacturer

STMicroelectronics

Datasheet

1.EVAL6229PD.pdf (43 pages)

Specifications of EVAL6229PD

Mfg Application Notes

L6235, AN1625 App Note

Main Purpose

Power Management, Motor Control

Embedded

Utilized Ic / Part

L6229PD SOIC

Primary Attributes

3-Ph BLDC, 8 ~ 52V Output, PWM Current Control, Brake Function

Secondary Attributes

Over Current, Cross Conduction & Temperature Protection

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-5491

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

EVAL6229PD

Manufacturer:

STMicroelectronics

Quantity:

135

Current page: 8 of 43
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AN1451 APPLICATION NOTE

2.5 Sensing Resistors

Each motor winding current is flowing through the corresponding sensing resistor, causing a voltage drop that

is used, by the logic, to control the peak value of the load current. Two issues must be taken into account when

choosing the R

– The sensing resistor dissipates energy and provides dangerous negative voltages on the SENSE pin

– The voltage drop across R

A good compromise is calculating the sensing resistor value so that the voltage drop, corresponding to the peak

current in the load (I

It should be clear that sensing resistor must absolutely be non-inductive type in order to avoid dangerous neg-

ative spikes on SENSE pins. Wire-wounded resistors cannot be used here, while Metallic film resistors are rec-

ommended for their high peak current capability and low inductance. For the same reason the connections

between the SENSE pins, C6, C7, V

(see also the Layout Considerations section).

The average power dissipated by the sensing resistor is:

D is the duty-cycle of the PWM current control, I

Nevertheless, sensing resistor power rating should be chosen taking into account the peak value of the dissi-

pated power:

where I

Using multiple resistors in parallel will help obtaining the required power rating with standard resistors, and re-

duce the inductance.

The following table shows R

examples of current peak values.

8/43

SENSE

during the current recirculation. For this reason the resistance of this component should be kept low.

comparator. The lower is the R

and to the input offset of the current sense comparator: too small values of R

Fast Decay Recirculation: P

Slow Decay Recirculation: P

tolerance reflects on the peak current error: 1% resistors should be preferred.

is the peak value of the load current.

0.5

1.5

SENSE

peak

value:

), is about 0.5 V: R

SENSE

recommended values (to have 0.5V drop on it) and power ratings for typical

rms

is compared with the reference voltage (on V

, V

0.33

0.25

0.5

Value [ ]

value, the higher is the peak current error due to noise on Vref pin

· R

SENSE

and GND pins (see Figure 5) must be taken as short as possible

SENSE

rms

= 0.5 V / I

is the r.m.s. value of the load current.

· D,

S ENSE

SENSE

peak

Power Rating [W]

0.25

0.75

0.5

SENSE

2 X 1 , 0.25W paralleled

3 X 1 , 0.25W paralleled

4 X 1 , 0.25W paralleled

ref

pin) by the internal

must be avoided.

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EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 8

EVAL6229PD

Specifications of EVAL6229PD

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