EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 5

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: 5 of 43
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Figure 4. Voltage at the two outputs at the beginning of the off-time.

2.3 Choosing the Bulk Capacitor

Since the bulk capacitor, placed between V

AC current capability must be greater than the r.m.s. value of the charge/discharge current. This current flows

from the capacitor to the IC during the on-time (t

slow decay) to the capacitor during the off-time (t

pacitor depends on peak output current, output current ripple, switching frequency, duty-cycle and chopping

style. It also depends on power supply characteristics. A power supply with poor high frequency performances

(or long, inductive connections to the IC) will cause the bulk capacitor to be recharged slowly: the higher the

current control switching frequency, the higher the current ripple in the capacitor; r.m.s. current in the capacitor,

however, does not exceed the r.m.s. output current. Bulk capacitor value ( C ) and the ESR determine the amount

of voltage ripple on the capacitor itself and on the IC. In slow decay, neglecting the dead-time and output current

ripple, and assuming that during the on-time the capacitor is not recharged by the power supply, the voltage at

the end of the on-time is:

so the supply voltage ripple is:

where I

the supply voltage to exceed the nominal voltage. This can be very dangerous if the nominal supply voltage is

close to the maximum recommended supply voltage (52V). In fast decay the supply voltage ripple is about:

always assuming that the power supply does not recharge the capacitor, and neglecting the output current ripple

and the dead-time. Usually (if C > 100 µF) the capacitance role is much less than the ESR, then supply voltage

ripple can be estimated as:

OUT

is the output current. With fast decay, instead, recirculating current recharges the capacitor, causing

OUT

Out 2

Out 1

and GND pins, is charged and discharged during IC operation, its

OUT

–





2 ESR

OUT

OFF





) and from the IC (in fast decay; from the power supply in

ESR

). The r.m.s. value of the current flowing into the bulk ca-





ESR

--------------------------- -

-------- -

O N

-------- -

O N





O FF









AN1451 APPLICATION NOTE

5/43

EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 5

EVAL6229PD

Specifications of EVAL6229PD

Available stocks

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