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CS3750 Datasheet, PDF (3/4 Pages) Cherry Semiconductor Corporation – 100mA Dual H-Bridge Air-Core Gauge Driver
Package Pin Description
PACKAGE PIN #
PIN SYMBOL
16L PDIP (internally fused leads)
1
DIR1
2
3
4,5,12,13
6
7
8
9
10
11
14
15
16
C1
IN1
Gnd
OUT1A
VS1
OUT1B
OUT2B
VS2
OUT2A
IN2
C2
DIR2
FUNCTION
CMOS compatible input pin controls direction of current
through OUT1
RC filter capacitor for OUT1 connected to Ground
CMOS compatible input pin controls output OUT1A and 1B
Ground connection
One half of H-bridge output stage 1
Supply voltage
One half of H-bridge output stage 1
One half of H-bridge output stage 2
Supply voltage
One half of H-bridge output stage 2
CMOS compatible input pin controls output OUT2A and 2B
RC filter capacitor for OUT2 connected to Ground
CMOS compatible input pin controls direction of current
through OUT2
Circuit Description
Output Stage
Each output stage contains 4 power NPN transistors
arranged in a traditional H bridge configuration. Current
flow through the two outputs (OUTxA, OUTxB) in each
H-bridge is controlled by the logic signal DIRx.
PWM input signals from the microprocessor, are filtered
on chip and sent to the output stage. The duty cycle of the
PWM signal is proportional to output voltage. The RC fil-
ter reduces the noise of the PWM input signal by slowing
its slew rate: i.e., the output signal is converted from a
square wave to an exponential sawtooth waveform. An
external capacitor (Cx) controls the slew rate for each H
bridge.
Protection
The high side driver transistor in each H-bridge is current
limited as a protection against a short circuit fault condi-
tion. If an over voltage or a thermal runaway fault condi-
tions occurs, all outputs shut down.
Application Diagram
VBAT
Motor Direction Control
When the voltage on the control pin (INx) is low, both
halves of the H bridge are off (Table 1). When INx is high,
DIR controls the flow of current through the H-bridge. If
DIRx=0, current flows from OUTxA out to the coil and
back in through OUTxB. If DIRx=1, current flows from
OUTxB out to the coil and back in through OUTxA.
Table 1. Logic Control of H-Bridge
Input
INX
0
1
1
Direction
Outputs
DIRX OUTxA OUTxB
X
0
0
0
1
0
1
0
1
1 DIR1
DIR2
C1
C2
*C1
IN1
IN2
*C2
Gnd
Gnd
Gnd
Gnd
OUT1A OUT2A
VS1
VS2
OUT1B OUT2B
* 0.047µF
COIL1
COIL2
Air Core
Gauge
Circular
Speedometer
3