EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 27

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: 27 of 43
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A simple circuit to generate two different reference voltages is shown in Figure 29. R

to have

and R

A similar circuit can also be used to modify the reference voltage in other situations. For example it's possible, at con-

stant rotation speed, to reduce the motor torque, and to increase it during acceleration and deceleration. Adding a

second transistor is possible to implement 4 different reference voltages, selectable by two logic signals.

Figure 29. Realizing Half Step current shaping.

Normal and Wave Drive are full step modes. In Wave Drive mode the two motor windings are alternately ener-

gized, while in Normal Drive both the windings are energized in each state, increasing the torque by a factor of

the torque ripple is higher than in normal drive mode.

2.16 Microstepping

Microstepping operation gives several advantages, including the absence of instability phenomena due to low-

torque regions in certain motors' speed-torque diagrams (see Figure 27), reduction of mechanical noise and in-

creased position resolution. The L6208 can be used as two-phase microstepping driver IC [5]. The controller

circuitry allows for an easy and inexpensive design with such device. By controlling the V

to get in the two phases variable output currents with a sine-wave shape. A variable voltage proportional to the

desired output current is applied to each reference pin. For microstepping, the two inputs are rectified sine-wave

voltages with a phase delay of 90°. The L6208 is operated in the normal drive mode and the frequency of the

two sine-wave voltages must be 1/4 of the CLOCK frequency. Figure 30 shows a circuit to generate the two

sine-wave signals using low-pass filters and two PWM outputs of a µC (see Reference Voltage for PWM Current

Control section). Figure 31 shows the V

. On the other hand the total current in the motor is double, so the efficiency is similar. In wave drive mode

should be

to V

ref

pin(s)

re f HIG H

ref

GND

+5V

voltages, the CLOCK signal and the output currents.

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

2 1

re f

–

15k

4.7k

even numbered states

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

odd numbered states

0V during

5V during

AN1451 APPLICATION NOTE

and R

ref

input it is possible

should be chosen

27/43

EVAL6229PD STMicroelectronics, EVAL6229PD Datasheet - Page 27

EVAL6229PD

Specifications of EVAL6229PD

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