Interfacing 5 volt CMOS to 12 volt/ 25 Watt Loads
Electronic Schematics > Motor, light and power control > Interfacing 5 volt CMOS to 12 volt/ 25 Watt Loads

The circuit below is designed to be used with the bi-directional lamp sequencer shown above on this same page. Two additional transistors are used to increase the current from the 74HCT138 decoder to control 12 volt 25 watt lamps. A 6.8 volt/1 watt zener diode is used in series with the ground connection of all the CMOS ICs (74HC14, CD4516 and 74HC138s) so that the total voltage across the CMOS devices will be about 5.2 volts and the outputs will move from +12 to about +7 when selected. The 2N2905/PNP transistor stage is connected as an emitter follower which provides a high impedance to the decoder output and supplies about 80 mA of current to the base of the 2N3055 NPN power transistor which then supplies 2 or more amps to the 12 volt lamp. The voltage across the PNP transistor will be about 7 volts when it is turned on and the heat dissapation will be about 0.6 watts. That should't require a heat sink if several lamps are sequencing but it may get quite warm if the circuit is idle on a single output. The 2N3055 power transistor operates as a switch and drops very little voltage (less than 0.5) when conducting, and will not require a heat sink. Other transistors may be substituted such as the TIP29 or TIP31 for the 2N3055 and most any medium power (500mA) PNP for the 2N2905.

 Interfacing 5 volt CMOS to 12 volt/ 25 Watt Loads circuit
Interfacing 5 volt CMOS to 12 volt/ 25 Watt Loads circuit

Title: Interfacing 5 volt CMOS to 12 volt/ 25 Watt Loads
electronic circuit
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Published on: 2007-07-21
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