MIC4827 Datasheet, PDF(6/13 Page) Micrel Semiconductor – Low Input Voltage, 180VPP Output Voltage, EL Driver

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MIC4827 Datasheet, PDF (6/13 Pages) Micrel Semiconductor – Low Input Voltage, 180VPP Output Voltage, EL Driver

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MIC4827

Block Diagram

Micrel

VIN

CIN

RSW

1 VDD

Switch

Oscillator

REL

VREF

220ÂµH

Oscillator

/Q3

/Q4

COUT

EL LAMP

4 GND

Figure 1. MIC4827 Block Diagram

Functional Description

Overview

The MIC4827 is a high-voltage EL driver with an AC output

voltage of 180V peak-to-peak capable of driving EL lamps up

to 6in2. Input supply current for the MIC4827 is typically 21ÂµA

with a typical shutdown current of 10nA. The high voltage EL

driver has two internal oscillators to control the switching

MOSFET and the H-bridge driver. Both of the internal oscil-

latorsâ frequencies can be individually programmed through

the external resistors to maximize the efficiency and the

brightness of the lamps.

Regulation

Referring to Figure 1, initially power is applied to VDD. The

internal feedback voltage is less than the reference voltage

causing the internal comparator to go low which enables the

switching MOSFETâs oscillator. When the switching MOSFET

turns on, current flows through the inductor and into the

switch. The switching MOSFET will typically turn on for 90%

of the switching frequency. During the on-time, energy is

stored in the inductor. When the switching MOSFET turns off,

current flowing into the inductor forces the voltage across the

inductor to reverse polarity. The voltage across the inductor

rises until the external diode conducts and clamps the voltage

at VOUT + VD1. The energy in the inductor is then discharged

into the COUT capacitor. The internal comparator continues to

turn the switching MOSFET on and off until the internal

feedback voltage is above the reference voltage. Once the

internal feedback voltage is above the reference voltage, the

internal comparator turns off the switching MOSFETâs oscil-

lator.

When the EL oscillator is enabled, VA and VB switch in

opposite states to achieve a 180V peak-to-peak AC output

signal. The external resistor that connects to the REL pin

determines the EL frequency.

VIN = 3.0V

L = 220ÂµH

COUT = 0.033ÂµF

Lamp = 2in2

RSW = 442k

REL = 2M

TIME (2ms/div)

Figure 2. 108Hz Typical Output Waveform

Switching Frequency

The switching frequency of the converter is controlled via an

external resistor between RSW pin and VDD pin of the

device. The switching frequency increases as the resistor

value decreases. For resistor value selections, see the âTypi-

cal Characteristics: Switching Frequency vs. Switch Resis-

torâ or use the equation below. The switching frequency

range is 8kHz to 200kHz, with an accuracy of Â±20%.

fSW (kHz)

RSW (Mâ¦)

MIC4827

September 2001

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