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IMP38HC45

Part Number	IMP38HC45
Manufacturer	IMP
Description	BiCMOS Current-Mode PWM Controllers
Published	Sep 25, 2011
Detailed Description	www.DataSheet.co.kr IMP38C/HC/42/3/4/5 POWER MANAGEMENT BiCMOS Current-Mode PWM Controllers Key Features N N N N N N ...
Datasheet	IMP38HC45 PDF File

Overview

www.
DataSheet.
co.
kr IMP38C/HC/42/3/4/5 POWER MANAGEMENT BiCMOS Current-Mode PWM Controllers Key Features N N N N N N N N N N N 384x Series Pinout with BiCMOS Technology Zero Cross-Conduction Current by Design 1MHz Operation 65ns Maximum Current-Sense Delay 120µA Maximum Start-Up Current 1.
5mA Maximum Operating Current High Output Current Drive – 1.
0A, IMP38HC4x – 0.
5A, IMP38C4x 20V Maximum Supply Voltage 2.
5V, 1%, Trimmed Error Amplifier Reference Trimmed Oscillator Discharge Current Pin-for-Pin Enhanced Replacements for Micrel MIC38C/HC4x and GMT38C4x/HC4x – 1MHz Operation – No Cross-Conduction Current – 50ns Current-Sense Delay The IMP38C4x and IMP38HC4x are fixed frequency, high performance, current-mode PWM controllers that are pin compatible with bipolar 384x devices but feature improvements resulting from IMP’s BiCMOS processing and circuit design.
Notable among the improvements are zero cross-conduction/shoot-through current, reduced start-up and operating current, lower current-sense delay, higher frequency operation, full supply voltage swing at the output and a 1% trimmed voltage reference.
IMP38C4x and IMP38HC4x output driver stage has zero cross-conduction current.
A proprietary output state-machine monitors each output MOSFET and guarantees by design zero cross-conduction current.
This is an industry first for 384x PWM devices.
Under-voltage lockout (UVL) performance has been improved.
When the power supply voltage is below the startup voltage, internal circuitry puts the output into a low impedance state.
The output will sink 20mA and remain below 1.
3V, well below the turn-on threshold voltage of the external MOSFET.
Even when VDD drops to zero volts, the out pin will not rise above approximately 1.
3V because the output UVLO circuit is Block Diagrams VDD 7 (12) (11) VD + VREF 8 (14) 5V Reference UVLO – + – RTCT COMP FB 4 (7) 1 (1) T 2 (3) Q Oscillator 6 (10) OUT – EA 2R – 1V R COMP S R Q + + – 2.
5V Ref + (8) PGND ( ) Pins Are 14-Pin De...

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