NCP4304A Datasheet, PDF(12/32 Page) ON Semiconductor – Secondary Side Synchronous Rectification Driver for High Efficiency SMPS Topologies

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NCP4304A Datasheet, PDF (12/32 Pages) ON Semiconductor – Secondary Side Synchronous Rectification Driver for High Efficiency SMPS Topologies

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NCP4304A, NCP4304B

APPLICATION INFORMATION

General Description

The NCP4304A/B is designed to operate either as a

standalone IC or as a companion IC to a primary side

controller to help achieve efficient synchronous

rectification in switch mode power supplies. This controller

features a high current gate driver along with highâspeed

logic circuitry to provide appropriately timed drive signals

to a synchronous rectification MOSFET. With its novel

architecture, the NCP4304A/B has enough versatility to

keep the synchronous rectification efficient under any

operating mode.

The NCP4304A/B works from an available bias supply

with voltage range from 10.4 V to 28 V (typical). The wide

VCC range allows direct connection to the SMPS output

voltage of most adapters such as notebook and LCD TV

adapters. As a result, the NCP4304A/B simplifies circuit

operation compared to other devices that require specific

bias power supplies (e.g. 5 V). The high voltage capability

of the VCC is also a unique feature designed to allow

operation for a broader range of applications.

Precise turn off threshold of the current sense comparator

together with accurate offset current source allows the user

to adjust for any required turn off current threshold of the SR

MOSFET switch using a single resistor. Compared to other

SR controllers that provide turn off thresholds in the range

of â10 mV to â5 mV, the NCP4304A/B offers a turn off

threshold of 0 mV that in combination with a low RDS(on) SR

MOSFET significantly reduces the turn off current

threshold and improves efficiency.

To overcome issues after turn on and off events, the

NCP4304A/B provides adjustable minimum on time and off

time blanking periods. Blanking times can be adjusted

independently of IC VCC using resistors connected to GND.

If needed, blanking periods can be modulated using

additional components.

An ultrafast trigger input helps to implement synchronous

rectification systems in CCM applications (like CCM

flyback or forward). The time delay from trigger input to

driver turn off event is 10 ns (typicaly). Additionally, the

trigger input can be used to disable the IC and activate a low

consumption standby mode. This feature can be used to

decrease standby consumption of an SMPS.

Finally, the NCP4304A/B features a special input that can

be used to automatically compensate for SR MOSFET

parasitic inductance effect. This technique achieves the

maximum available onâtime and thus optimizes efficiency

when a MOSFET in standard package (like TOâ220 or

TO247) is used. If a SR MOSFET in SMT package with

negligible inductance is used, the compensation input is

connected to GND pin.

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