HV831 Datasheet, PDF(1/8 Page) Supertex, Inc – High Voltage Dual EL Lamp Driver

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HV831 Datasheet, PDF (1/8 Pages) Supertex, Inc – High Voltage Dual EL Lamp Driver

HV831

High Voltage Dual EL Lamp Driver

Features

Independent input control for lamp selection

Split supply capability

Patented output timing

One miniature inductor to power both lamps

Low shutdown current

Wide input voltage range 2.0V to 5.0V

Output voltage regulation

No SCR output

Available in 10 - pin MSOP package

Applications

Mobile cellular phones, dual display

Keypad and LCD backlighting

Portable instrumentation

Dual segment lamps

Hand held wireless communication devices

General Description

The Supertex HV831 is a high voltage driver designed for driving

two EL lamps with a combined area of 3.5 square inches. The input

supply voltage range is from 2.0V to 5.0V. The device is designed to

reduce the amount of audible noise emitted by the lamp. This device

uses a single inductor and minimum number of passive components

to drive two EL lamps. The nominal regulated output voltage of Â±80V

is applied to the EL lamps. The two EL lamps can be turned on

and off by the two logic input control pins, C1 and C2. The device is

disabled when both C1 and C2 (pins 1 and 4) are at logic low.

The HV831 has an internal oscillator, a switching MOSFET, and two

high voltage EL lamp drivers. An external resistor connected between

the RSW-OSC and the voltage supply pin VDD sets the frequency for the

switching MOSFET. The EL lamp driver frequency is set by dividing

the MOSFET switching frequency by 128. An external inductor is

connected between the LX and the VDD pins. Depending on the EL

lamp size, a 1.0 to 10.0nF, 100V capacitor is connected between CS

and Ground. The two EL lamps are connected between EL1 to Com

and EL2 to Com.

The switching MOSFET charges the external inductor and discharges

it into the capacitor at CS. The voltage at CS increases. Once the

voltage at C reaches a nominal value of 80V, the switching MOSFET

is turned off to conserve power. The outputs EL1 to Com and EL2 to

Com are conï¬gured as H bridges and switch in opposite states to

achieve 160V across the EL lamp.

Typical Application Circuit

VDD = ON

VDD = ON 0 = OFF

0 = OFF

VDD

VIN

CDD

CIN

1 C1

EL1 10

RSW-OSC

VDD

RSW-OSC

EL2 9

Com 8

4 C2

CS 7

5 GND

LX 6

HV831MG

EL Lamp 11

~ LX

EL Lamp 21

1 The bigger sized lamp should be tied to EL1 and the smaller

sized lamp to EL2 terminals (pins 10 and 9 respectively)

A081005

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