A clock pulse train can be generated using various methods, such as oscillators, timers, or flip-flops. A common approach is to use a 555 timer IC configured in astable mode, which produces a continuous square wave output. Alternatively, digital circuits can utilize a frequency divider, such as a flip-flop, to divide a higher frequency signal into a desired clock pulse train. The output frequency can be adjusted by changing resistor and capacitor values in the timer circuit or by selecting appropriate division ratios in flip-flop configurations.
Microprocessor processes something on each clock pulse
A single charge to clock wire is called a "pulse." This pulse is used to synchronize electronic devices and systems.
carry information as well as to generate other pulse modulations.
To generate a 7 Hz pulse from a 56 Hz pulse, you would need to divide the frequency by 8. You would require at least 3 flip-flops to achieve this division by 8.
frequency of an oscillator crystal
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It is a type of Pulse modulation as in PPM the position of pulse of carrier pulse train is varied in accordance with the modulating signal.
Synchronous circuits operate under the influence of s clock pulse while asynchronous circuits operate without the influence of a clock pulse
There are no instructions in the 8085 that execute in only one clock pulse. The minimum number of clock cycles is four; three for instruction fetch and one for instruction decode/execute.
If you think of an old clock that ticks, it has a regular rhythm. Pulse can be regular like a clock.. tick...tick...tick... An irregular pulse has shorter or longer pauses between beats...ticktick...tick.......tick...tick...ticktick...
If you see a clock on a very fast train moving by you, you would observe that the clock appears to be moving faster than normal due to the train's speed. This is because of the relative motion between you and the train.
A clock input is a regular periodic pulse that can be used as a trigger to sequence timing-important activities.