hip6602cb Intersil Corporation, hip6602cb Datasheet - Page 5

hip6602cb

Manufacturer Part Number

hip6602cb

Description

Dual Channel Synchronous-rectified Buck Mosfet Driver

Manufacturer

Intersil Corporation

Datasheet

1.HIP6602CB.pdf (9 pages)

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Functional Pin Descriptions

PWM1 (Pin 1) and PWM2 (Pin 2)

The PWM signal is the control input for the driver. The PWM

signal can enter three distinct states during operation, see the

three-state PWM Input section under DESCRIPTION for further

details. Connect this pin to the PWM output of the controller.

GND (Pin 3)

Bias and reference ground. All signals are referenced to this

node.

LGATE1 (Pin 4) and LGATE2 (Pin 7)

Lower gate drive outputs. Connect to gates of the low-side

power N-Channel MOSFETs.

PVCC (Pin 5)

This pin supplies the upper and lower gate drivers bias.

Connect this pin from +12V down to +5V.

PGND (Pin 6)

This pin is the power ground return for the lower gate

drivers.

PHASE2 (Pin 8) and PHASE1 (Pin 13)

Connect these pins to the source of the upper MOSFETs

and the drain of the lower MOSFETs. The PHASE voltage is

monitored for adaptive shoot-through protection. These pins

also provide a return path for the upper gate drive.

UGATE2 (Pin 9) and UGATE1 (Pin 12)

Upper gate drive outputs. Connect to gate of high-side

power N-Channel MOSFETs.

BOOT 2 (Pin 10) and BOOT 1 (Pin 11)

Floating bootstrap supply pins for the upper gate drivers.

Connect the bootstrap capacitor between these pins and the

Timing Diagram

TPDL

UGATE

LGATE

PWM

LGATE

TPDH

UGATE

LGATE

UGATE

HIP6602

TPDL

PHASE pin. The bootstrap capacitor provides the charge to

turn on the upper MOSFETs. See the Internal Bootstrap

Device section under DESCRIPTION for guidance in

choosing the appropriate capacitor value.

VCC (Pin 14)

Connect this pin to a +12V bias supply. Place a high quality

bypass capacitor from this pin to GND. To prevent forward

biasing an internal diode, this pin should be more positive

then PVCC during converter start-up.

Description

Operation

Designed for versatility and speed, the HIP6602 two channel,

dual MOSFET driver controls both high-side and low-side

N-Channel FETs from two externally provided PWM signals.

The upper and lower gates are held low until the driver is

initialized. Once the VCC voltage surpasses the VCC Rising

Threshold (See Electrical Specifications), the PWM signal

takes control of gate transitions. A rising edge on PWM

initiates the turn-off of the lower MOSFET (see Timing

Diagram). After a short propagation delay [TPDL

lower gate begins to fall. Typical fall times [TF

provided in the Electrical Specifications section. Adaptive

shoot-through circuitry monitors the LGATE voltage and

determines the upper gate delay time [TPDH

on how quickly the LGATE voltage drops below 1.0V. This

prevents both the lower and upper MOSFETs from

conducting simultaneously or shoot-through. Once this delay

period is complete the upper gate drive begins to rise

[TR

UGATE

] and the upper MOSFET turns on.

TPDH

LGATE

UGATE

LGATE

UGATE

LGATE

] based

] are

], the

hip6602cb Intersil Corporation, hip6602cb Datasheet - Page 5

hip6602cb

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