BD6762FV-E2 Rohm Semiconductor, BD6762FV-E2 Datasheet - Page 15

BD6762FV-E2

Manufacturer Part Number

BD6762FV-E2

Description

IC MOTOR DRIVER N-CH SSOP-B40

Manufacturer

Rohm Semiconductor

Series

-r

Datasheet

1.BD6762FV-E2.pdf (23 pages)

Specifications of BD6762FV-E2

Applications

3-Phase, Brushless Motor Driver

Evaluation Tools

Number Of Outputs

Current - Output

Voltage - Load

16 V ~ 28 V

Voltage - Supply

16 V ~ 28 V

Operating Temperature

-25°C ~ 75°C

Mounting Type

Surface Mount

Package / Case

40-SSOP

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

BD6762FV-E2

Manufacturer:

ROHM/罗姆

Quantity:

20 000

Current page: 15 of 23
Download datasheet (458Kb)

●IC Operation

BD6761FS,BD6762FV

www.rohm.com

Hall input and output

For the hall input signal, the wave is shaped by the hall amplifier to generate the drive signal.

This drive signal is amplified in the predriver block and the gate voltage is output for N-channel MOS FET.

PWM operation

PWM oscillating frequency is determined by the triangular waveform frequency which is decided by the external constant.

This triangular waveform voltage and the listed voltage in the following chart are compared to perform PWM drive.

Booster circuit (step-up circuit) (common)

BD6761FS (Frequency = 62.5 kHz) and BD6762FV (Frequency = 125 kHz) generate the triangular waveform when the

internal oscillator generates free-run oscillation and the rectangular waveform is generated at CP1. When a capacitor is

connected between CP1 and CP2, and VG and GND, the step-up voltage is generated at VG pin. In this case, set VCC

so that VG does not exceed the absolute maximum ratings (36 V).

FG amplifier (common)

Set the FG amplifier gain so that the FGOUT pin is within the range of high and low output voltage and the amplitude is

higher than the hysteresis width (250 mV: max) of the HYS amplifier.

FGSOUT pin uses an open collector format. Use in the condition as it is pulled up to the power supply with the resistor.

At this time, pay attention so that the voltage higher than 36 V is not applied to the FGSOUT pin.

ACC, DEC circuits (BD6761FS)

When a resistor is connected to the RCP pin and the low voltage is input to the ACC pin, the current flows out from the

CPOUT pin. When the low signal is input to the DEC pin, the current flows in to the CPOUT pin. Furthermore, when the

ACC pin and DEC pin both set to low, the current flows in to the CPOUT pin. This current can be converted to the

voltage by connecting a filter between the CPOUT and GND pins.

The voltage generated at the CPOUT pin controls the PWM's on-duty and maintains the constant motor rotation by

inputting the controlled signal to ACC and DEC pins.

Current limit operation

When the CL voltage (BD6761FS) and RF voltage (BD6762FV) become the current limit voltage, the current limit circuit

operates and works to limit PWM on_dutty. It also turns off the current limit circuit (current limit clear) at the peak of PWM

triangular waveform and makes the current flow again. Output current Iomax at this time are shown in the table.

BD6761FS

BD6762FV

BD6761FS

BD6762FV

BA6761FS

BA6762FV

Rfe, RFE

Triangular waveform oscillating

50kΩ

20kΩ

frequency

62.5 kHz

125 kHz

Iomax=0.48/RNF [A]

Iomax=0.26/RNF [A]

Cfe, CFE

Current limit current

1000pF

charge/discharge current I

15/22

Cfe, CFE pin

VRFE/R

1.6V/R

Charge pump voltage (VG pin

VCC+6.7V

VCC+6V

voltage)

Frequency

16.5kHz

16kHz

(Typ.)

Drive signal shaped by the

hall amplifier

Integration amplifier output

pin voltage

Comparison voltage

Technical Note

2010.06 - Rev.A

BD6762FV-E2 Rohm Semiconductor, BD6762FV-E2 Datasheet - Page 15

BD6762FV-E2

Specifications of BD6762FV-E2

Available stocks

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