EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 30

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: 30 of 43
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AN1451 APPLICATION NOTE

Application Data

Rotation Speed:

Winding peak Current: 1A

Maximum Ripple:

Supply Voltage:

Sequence:

3.1 Decay mode, sensing resistors and reference voltage.

The first step is choosing the decay type. Let's suppose to implement slow decay, which allows lower power

dissipation, lower ripple and avoids voltages below GND at output pins during recirculation. Referring to approx-

imated formulae in Figure 25, it's possible to calculate the Duty-Cycle (D), the Switching Frequency (f

Current Ripple ( I). With a 15 µs off-time, we will have:

(1.5µs), so slow decay can be used.

The bulk capacitor need to withstand at least 24V + 5% + 25%

voltage ripple of 200mV, the capacitor ESR should be lower than 200mV / 1A = 200m ; the AC current capa-

bility should be about 1A.

Providing a reference voltage of 0.5V, 0.5 sensing resistor are needed. In slow decay mode the resistors pow-

er rating is about P

charge pump uses recommended components (1N4148 diodes, ceramic capacitors and a 100 resistor to re-

duce EMI).

R = 18k , C = 1.2 nF are connected to the RC pins, obtaining t

placed, and the pin is driven by the µC through a 100k resistor. With these values, in case of short circuit be-

tween two OUT pins or an OUT pin and GND, the PowerDMOS turns off after about 1µs, and t

Figure 33. Application Example.

With Wave Drive selected, referring to Figure 24, Figure 25, Figure 26, the dissipating power is about 1.36 W.

If the ambient temperature is lower than 50°C, with 4cm

estimated junction temperature is about 123°C. Using more copper area or a PowerDIP package will reduce the

junction temperature.

30/43

63%, f

APPLICATION EXAMPLE

Logic Supply

0.25 W 1%

5 V

18 k

2 k

25kHz, I

Custom Logic

µC

ref

= 0.5 V

300 rpm (f

50mA

24V ±5%

Wave Mode

rms

29mA. The on-time is t

Ceramic

· R

100 k

5.6 nF

SENSE

= 1kHz)

CONTROL

CW / CCW

CLOCK

RESET

HALF / FULL

OUT

refA

Ceramic

· D

47nF

OUT

18 k

refB

OUT

0.32W. Two 1

OUT

Motor Data

Winding Resistance:

Winding Inductance:

Step Angle:

Maximum BEMF at 300rpm: 15V

Ceramic

Stepper Motor

1.2 nF

L6208

18 k

2-Phase

BOOT

= D / f

1N4148

0.25W

100

of copper area on the PCB and a SO24 package, the

Ceramic

1.2 nF

10nF 50V

Ceramic

1N4148

GND

- 0.25W - 1% resistors in parallel are used. The

GND

OFF

32V. A 50V capacitor will be used. Allowing a

25µs, which is far from the minimum allowed

GND

SENSE

GND

220nF 25V

Ceramic

16µs. On the EN pin a 5.6nF has been

1 , 0.25 W,

4 X

6.6

7.9mH

1.8°/step

ESR<200m

100µF 50V

100nF 50V

Ceramic

DISABLE

= 24 V

240µs.

), the

EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 30

EVAL6229PD

Specifications of EVAL6229PD

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