Saturday, August 23, 2014

PWM Generator Wiring diagram Schematic

PWM waveforms are commonly used to control the speed of DC motors. The mark /space ratio of the digital wave-form can be defined either by using an adjustable analogue voltage level (in the case of a NE555 based PWM generator) or digitally using binary values. Digitally derived PWM waveforms are most often produced by the timer/counter modules in microcontrollers but if you do not want to include amicrocontroller in your schema it’s also quite simple to generate the signals using discrete logic components. An extension of the schema shown can pro-duce two PWM waveforms from an 8-bit digital input word. Each signal has 15 val-ues. The 8-bit word can be produced for example from an expansion board fitted in a PC or from an 8-bit port of a processor which does not have built-in PWM capability or from a laptop’s printer port.

Discrete PWM Generator Circuit Diagram

Discrete


The mark/space ratio is only programmable up to 15/16 rather than 16/16; a binary input of 0000 produces a continuous low on both outputs turning both motors off. Similar diagram often employ a dedicated ‘enable’ input to turn the motors off but it is not necessary in this design.

The diagram shows the schemary required to produce just one waveform. For the full two channel schema it is necessary to use an additional 74HC193. The clock signal produced by the HCF4060 generator can be used to drive both channels and the free flip flop in the 74HC74 package can be used for the second channel (the corresponding pin numbers are shown in brackets). Alto-gether the entire two channel schema can be built using just four ICs.

0 comments:

Post a Comment

Note: Only a member of this blog may post a comment.