@▷ LED Scanner Circuit | Diagram for Schematic

LED Scanner Circuit

Here is a simple LED chaser simulating a scanner through the back and forth light effect. It used high bright White LEDs to give the chaser effect. The circuit uses an oscillator to produce fast pulses and a decade counter to drive the LEDs.

IC1 is designed as an astable multivibrator to give continuous positive pulses to the decade counter. Variable resistor VR1, R1 and C1 form the timing components. By adjusting VR1, it is possible to change the speed of the scanning LEDs.

Output pulses from IC1 are fed to the clock input of the decade counter IC2. Resistor R2 keeps the clock input of IC2 low after each positive to negative transitions of input pulses. This is necessary because sometimes the clock input of the decade counter stays positive and does not accept input pulses.

LED Scanner Circuit

All the ten outputs are used in the circuit to drive the LEDs. Diodes D1 through D10 (IN 4148) do the trick of forward and backward chasing effect. Out of the ten diodes, eight diodes form OR gates to direct the outputs of IC2 to LEDs. The remaining two diodes maintain the brightness of the two ungated LEDs. First six outputs of IC2 works in the straight way to give the running effect.

The diode connected to the pin 5 of IC2 is connected to the cathode of the diode from pin 10 (5th LED). This reverses the running sequence in the backward direction. Output 6 drives the 4th LED and the process repeats up to the 2nd LED connected to output pin2.The reset pin 15 and the Clock inhibit pin 13 of IC2 are connected to ground so that IC2 can run freely.

Note: This circuit can be used to drive AC loads like 60 watts bulbs for decoration purpose. For that slight modification is necessary. Connect the cathode of LED to the gate of a Triac (BT136) through a 220 ohms resistor. Connect bulb to the M2 pin of triac in series with the phase line as shown in the diagram. Six 60 watts bulbs can be connected serially to each triac (BT136 is rated to 400 watts).

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