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Electronics

Discrete Components

• Resistors
• Capacitors
• Inductors

Semiconductors

Power

• [Batteries]

Electrical

Pages pertaining to house and automotive electrical systems

Microcontrollers

Pages about small computers, programming and process control

Circuit Design Tips

1. Use existing circuits as building blocks to form entirely new circuits.

2. Always review the manufacturers specifications for active devices (transistors, integrated circuits etc.) before using them in a circuit. Pay particular attention to operating voltages and potential problems such as oscillation, noise, catchup etc.)

3. Bypass capacitors, while not always required, can prevent noise and oscillation in analogue circuits and false triggering and memory loss in digital circuits. In analogue circuits place a 0.1uF and 1.0uF capacitor across battery leads where they enter the circuit board. Use 0.1uF capacitors from power supply pins of operational amplifiers to ground. In digital circuits place a 0.1uF capacitor across the power supply pins of each chip.

4. Component substitution is generally OK. Here are some general guidelines:

4a. Resistors - Use next closest value. Use equal or higher power rating. Circuit performance may be altered. For example, a smaller than specified resistor in series with an LED will increase current through the LED.

4b. Capacitors - Use the next closest value. Use equal or higher voltage rating. Circuit performance may be altered. For example, using a smaller than specified capacitor in a timing circuit will reduce the timing cycle.

4c. Bipolar transistors - Substitute within the same family. Observe polarity and power.

Circuit layout tips

1. Conections between components should be as short as possible in high speed digital circuits and high frequency analogue circuits.

2. The input and output sections of high gain amplifiers should be physically isolated from one another. Otherwise inductance between the input and output wiring may cause a portion of the output signal to be fed back to the input. The result will be severe oscillation.

3. Power Transistors, ICs and some other components that become warm during operation often perform better with a hear sink. Therefore leave space around such components for a heat sink. Avoid placing heat sensitive components near components that may become hot.

4. Use insulated wire for interconnections. Insulate exposed component leads mounted close to other exposed leads or hardware.

5. All leads that carry household line currents must be insulated.

6. Circuits in which a current flow is suddenly switched off or on may emit radio frequency radiation that can cause significant interference in nearby radios and televisions. Radio frequency emissions can be reduced by enclosing the entire circuit in a grounded metal enclosure. External connections to or from the enclosure should be made with shielded cables.

7. Use stranded wire for all connections that are not fixed in position (battery clip leads etc.) Use solid wire for fixed connections.