NLHV001 datasheet(3/11 Pages) ONSEMI

Part #	NLHV001

Description	1-Bit Gate Pulse Modulator

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Manufacturer	ONSEMI [ON Semiconductor]

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NLHV001

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ABSOLUTE MAXIMUM RATINGS

Symbol

Parameter

Condition

Value

Unit

VGH

DC Supply Voltage

−0.5 to +40

V

VDD

DC Supply Voltage

−0.5 to +40

V

VFLK

Input Voltage VFLK

−0.5 to +40

V

VDPM

Input Voltage VDPM

−0.5 to +40

V

VGH – VCE

Differential Voltage Between VGH and VCE Pins

(Note 1)

9.5

V

IIK

DC Input Diode Current

50

mA

IOK

DC Output Diode Current

50

mA

IO

DC Output Current

50

mA

IGH

DC Supply Current Per Supply Pin

50

mA

PD

Power Dissipation

200

mW

TJ

Junction Temperature

95

ºC

TSTG

Storage Temperature

−65 to +150

ºC

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the

Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect

device reliability.

1. A differential voltage between the VGH and VCE pins (VGH – VCE) occurs during the power−up and power−down procedure. The voltages

on the VGH and CE pins are equal at steady−state conditions after power−up.

RECOMMENDED OPERATING CONDITIONS

Symbol

Parameter

Test Condition

Min

Typ

Max

Unit

VGH

DC Supply Voltage (Note 2)

VGH – VDD ≥ 8.5 V

15

−

38

V

VDD

DC Supply Voltage

VDD ≤ VGH – 8.5 V

0

−

25

V

VFLK

Input Voltage VFLK

VGH_M = VGH – 1.2 V

1.5

−

VGH

V

VDPM

Input Voltage VDPM

VGH_M = VDD + 1.5 V

0

−

VGH

V

TA

Operating Temperature Range

−40

−

85

V

VGH – VCE

Differential Voltage Between VGH and VCE Pins

(Note 3)

−

5.5

V

Dt / DVGH Safe VGH Power−Up Slew Rate (Note 4)

CE = 5 pF

−

0.2

−

ms / V

CE = 10 pF

0.4

CE = 50 pF

0.6

CE = 150 pF

0.7

CE = 220 pF

0.8

CE = 500 pF

1.2

CE = 1000 pF

2.2

2. Maximum recommended VGH supply voltage guaranteed by design.

3. A differential voltage between the VGH and VCE pins (VGH – VCE) occurs during the power−up and power−down procedure. The voltages

on the VGH and CE pins are equal at steady−state conditions after power−up.

4. It is recommended that a ceramic or tantalum decoupling capacitor of 0.1 to 1 mF is used on the VGH power supply voltage. The capacitor

should be placed adjacent to the NLHV001 and connected between VGH and Ground.

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