IL33193 Datasheet, PDF(3/8 Page) Integral Corp. – Automotive Direction Indicator

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IL33193 Datasheet, PDF (3/8 Pages) Integral Corp. – Automotive Direction Indicator

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Vbat

Â«OnÂ» Â«OffÂ»

Vbat

Â«OnÂ»Â«OffÂ»

IL33193

Fn=1/tn

Ft=1/tf

TIME

Figure 1 - Normal Operation Oscillator

Timing Diagram

Figure 2 - One Defective Lamp Oscillator

Timing Diagram

INTRODUCTION

The IL33193 is designed to drive the direction indicator flasher relay. It is a new generation industry standard

UAA1041 âFlasherâ. It consists of the following functions:

â¢ Supply and Protections

â¢ OnâChip Relay Driver

â¢ Oscillator

â¢ Starter Functions

â¢ Lamp Fault Detector with Internal RF Filter

â¢ Standby Mode

Supply and Protection Systems

Pin 1 is connected to ground via resistor R3 which limits he current in the event of any high voltage transients. Pin 2

(VCC) is the positive supply and may be connected directly to the vehicleâs battery voltage. Overvoltage and Double

Battery Protection: When the applied VCC to VSS voltage is greater than 22 V, the overvoltage detector circuit turns

the relay driver off. Both the device and the lamps are protected if two 12 V batteries are connected in series and used

to jump start the vehicle.Load Dump Overvoltage Protection: A 29 V overvoltage detector protects the circuits against

high voltage transients due to load dumps and other low energy spikes. The relay driver is automatically turned on

whenever the VCC to VSS voltage is greater than 34 V. Overvoltage Protection, High Voltage Transients: The Enable

and the Starter pins are protected against positive and negative transients by internal onâchip diodes.

OnâChip Relay Driver

The device directly drives the flasher relay. The output structure is an Emitter of an NPN transistor. It contains the

free wheeling diode circuitry necessary to protect the device whenever the relay is switched off.

Oscillator

The device uses a sawtooth oscillator (Figure 1). The frequency is determined by the external components C1 and R1.

In the normal operating mode, the flashing frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W

lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn.

The typical first flash delay (the time between the moment when the indicator switch is closed and the first lamp flash

occurs) is: t1 = K1*R1*C1 The fault detection delay is from the time relay R1 is on and fault detection is enabled.

Where a 21 W lamp opens, the delay is expressed as: t2 = K2*R1*C1

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