Question

write down some benefits of using digital electronic over analogue electronics​

Answer 1

Answer:

In 1970 I started my EE training. One of the early courses was Comp. Sci. 101 with one of my greatest teachers ever. Dr. Voelcker started the course by saying the following: “If you ask me to build a radio receiver, I would take my knowledge of the signals and circuitry, and construct a circuit to demodulate those signals and feed the output to an amplifier. Someday, computers will be fast enough to solve the demodulation equations in real time so that you can hook up an antenna to an A/D converter, and an amplifier to a D/A converter and accomplish the same thing.”

In 1970 I started my EE training. One of the early courses was Comp. Sci. 101 with one of my greatest teachers ever. Dr. Voelcker started the course by saying the following: “If you ask me to build a radio receiver, I would take my knowledge of the signals and circuitry, and construct a circuit to demodulate those signals and feed the output to an amplifier. Someday, computers will be fast enough to solve the demodulation equations in real time so that you can hook up an antenna to an A/D converter, and an amplifier to a D/A converter and accomplish the same thing.”Someday turned out to be not very long. When I went to work for Intel in 1975, Ted Hoff, one of the inventors of the microprocessor, was already working on digital signal processing chips. In 1978 we built the first microprocessor with an on-board A/D converter.

In 1970 I started my EE training. One of the early courses was Comp. Sci. 101 with one of my greatest teachers ever. Dr. Voelcker started the course by saying the following: “If you ask me to build a radio receiver, I would take my knowledge of the signals and circuitry, and construct a circuit to demodulate those signals and feed the output to an amplifier. Someday, computers will be fast enough to solve the demodulation equations in real time so that you can hook up an antenna to an A/D converter, and an amplifier to a D/A converter and accomplish the same thing.”Someday turned out to be not very long. When I went to work for Intel in 1975, Ted Hoff, one of the inventors of the microprocessor, was already working on digital signal processing chips. In 1978 we built the first microprocessor with an on-board A/D converter.There are systems where it can be surprisingly difficult to tell where the exact boundary is between digital and analog. If you turn a circuit on and off quickly, that’s digital. But if you pass the output through a capacitor, it becomes analogue. That’s how most dimmers work.

In 1970 I started my EE training. One of the early courses was Comp. Sci. 101 with one of my greatest teachers ever. Dr. Voelcker started the course by saying the following: “If you ask me to build a radio receiver, I would take my knowledge of the signals and circuitry, and construct a circuit to demodulate those signals and feed the output to an amplifier. Someday, computers will be fast enough to solve the demodulation equations in real time so that you can hook up an antenna to an A/D converter, and an amplifier to a D/A converter and accomplish the same thing.”Someday turned out to be not very long. When I went to work for Intel in 1975, Ted Hoff, one of the inventors of the microprocessor, was already working on digital signal processing chips. In 1978 we built the first microprocessor with an on-board A/D converter.There are systems where it can be surprisingly difficult to tell where the exact boundary is between digital and analog. If you turn a circuit on and off quickly, that’s digital. But if you pass the output through a capacitor, it becomes analogue. That’s how most dimmers work.So the answer? It all depends on the requirements of the system design, and cost. Sometimes analog has the advantage, and more and more, digital has the advantage. But at heart, EVERY digital circuit is analog, and has a whole lot more analog circuitry around it supplying power, and driving motors, lights, & speakers.

Answer 2

Answer:

Digital electronics:

The electrical instruments that gives output that varies in discrete steps and only has finite number of values is known as digital instruments.

Analogue electronics:

The electrical instruments that gives output that varies continuously as quantity to be measured is known as analogue instruments.

Benefits of digital electronics over analogue electronics:

1. The accuracy of digital electronics is more than the accuracy of analogue electronics.
2. Digital electronics require less power whereas analogue electronics require more power.
3. The resolution of digital electronics is more than the resolution of analogue electronics.
4. Digital signals are easy to analyze and store as compared to the analogue signals.
5. Signals from digital electronics do not produce noise while signals from analogue electronics produce too much noise.
6. Also, digital systems are easier to design.

These are some of the benefits of using digital electronics over analogue electronics.

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