## FANDOM

133 Pages

Please note that these are all examples and not necessarily the best design choices.

## Conceptual DesignEdit

### Functional Description Edit

This should give an overview of what this block is trying to achieve. e.g:

The low-pass filter eliminates high frequency noise by creating a break point at frequencies above those that humans can hear. Minimum ripple in the pass-band is desired to avoid distorting the audio signal.

### Block Diagram and Description Edit

This can include a block diagram, a transfer function/pole zero diagram and a description of any diagrams. e.g:

The low-pass filter is a first order RC circuit with the following transfer function:

$H(s)=\frac{1}{(1-sRC)}$

## Design Parameters Edit

This should include as much information as possible. These parameters will be a combination of both restrictions placed upon the designer by other parts of the circuit, and properties of your block for the benefit of those designing blocks adjacent to yours.

### Input Parameters Edit

 Input Impedance 100k Maximum Input Voltage 1V

### Output Parameters Edit

 Output Impedance 10k Maximum Output Voltage 10 V Maximum Output Current 1TA

### Transfer Parameters Edit

 3dB frequency 20kHz Pass-Band Ripple <1dB

## Design Implementation Edit

The details of on-going design should be maintained here.

### Circuit Diagram and Description Edit

The diagram below shows the circuit topology which meets the requirements of the transfer function above.

## Performance Testing Edit

In this section, the completed circuit should be tested to see how well it conforms to the given design parameters. Any other pertinent information should be included also.

### Input Parameters Edit

 Input Impedance 100k Maximum Input Voltage 1V

### Output Parameters Edit

 Output Impedance 10k Maximum Output Voltage 10 V Maximum Output Current 1TA

### Transfer Parameters Edit

 3dB frequency 20kHz Pass-Band Ripple <1dB