Am4961a, A product line of diodes incorporated – Diodes AM4961A User Manual

AM4961A

Document number: DS36626 Rev. 1 - 2

9 of 17

www.diodes.com

October 2013

© Diodes Incorporated

AM4961A

A Product Line of

Diodes Incorporated

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Applications Note

Typical Application Circuit for PWM input signal for speed control with AM4961A is shown below. The speed is primarily controlled by a voltage

on the VPWM pin (either from DC voltage signal or PWM inputs signal converted to DC voltage) or alternatively a PWM signal on COSC pin.

OUT2

OUT1

VCC

GND

VMIN

CT

VPWM

VREF

COSC

HIN-

FG

HB

RD

HIN+

Hall

AM4961A

D1

C1

1

µF or greater

R1

27k

R2

10k

R4

39k

R6 330k

R7

100k

R5

100k

PWM

VCC

L1

R3 7.5k

R8

68k

C2
0.33

µF

C3

100pF

C4

0.47

µF

1 (1)

2 (3)

3 (4)

4 (5)

5 (6)

6 (7)

7 (8)

8 (9)

9 (10)

10 (11)

11 (12)

12 (13)

13 (14)

14 (15)

PGND

(16)

Q1

Typical Application Circuit – External PWM Input Speed Control

Note:

9. C1 is for power stabilization and should be 1uF or higher depending on the motor current and motor design.

Power Supply Stabilization

The recommended operating voltage range for AM4961A is 3.5V to 16V. A decoupling capacitor C1 (which also acts as re-circulating capacitor at

commutation) should be connected close to the V

CC

pin. C1 is for power stabilization and should be 1µF or higher depending on the motor

current and motor design.

Hall Bias and Hall Input for Commutation Signal

The HB pin provides a 1.25V Hall bias voltage to drive Hall element. The output of the Hall elements or the Hall switches connect to Hall input H+

and H- pin as described previously in functional description section. To avoid noise, the connection to the Hall element or switch should be as

short as possible. The Hall input stage (H+ and H- pin) has a hysteresis of 20mV typical. The differential Hall input signal should be

50mV peak

or

higher.

Output PWM Frequency Setting – CSOSC Capacitor

The output PWM frequency is generated by comparing VPWM or VMIN (whichever is lower) to the triangular wave on the COSC pin. See “Speed

Control and Minimum Speed Setting” figure.

The triangular wave is generated at the COSC pin when a capacitor C3 is connected between it and the ground. The triangular wave has high

level of 0.3VCC typical and low level voltage of 0.16V

CC

typical. For 12V nominal supply these two levels are 3.6V and 1.95V typically. The

capacitor C3 of 100pF at COSC pin provides output PWM frequency of 25kHZ typical. The C3 capacitor should be connected close to the COSC

pin.