What is the Difference Between Regulated and Unregulated Power Supply?
🆚 Go to Comparative Table 🆚The main difference between regulated and unregulated power supplies lies in their output voltage stability and suitability for various applications. Here are the key differences between the two:
Regulated Power Supply:
- Provides a constant output voltage, independent of the output current.
- Contains an added voltage regulator that reduces ripple voltage for even electricity from the supply.
- Offers more reliable and stable performance, as well as greater safety.
- Suitable for a wide range of electronic devices, including sensitive ones.
- Can be linear (like 7805, LM317) or switch-mode.
Unregulated Power Supply:
- Output voltage can fluctuate depending on input voltage and load conditions.
- Has a design that delivers the expected output at a given current, but this does not always reflect the actual voltage output.
- Simple, low-cost options.
- May cause issues for sensitive electronics due to fluctuating output voltage.
- Not suitable for applications requiring consistent voltages.
In summary, regulated power supplies maintain a stable voltage and are suitable for a wide range of electronic devices, including sensitive ones. On the other hand, unregulated power supplies have a varying output voltage and are more suitable for non-critical loads or applications that do not require consistent voltages.
Comparative Table: Regulated vs Unregulated Power Supply
Here is a table highlighting the differences between regulated and unregulated power supplies:
| Characteristic | Regulated Power Supply | Unregulated Power Supply |
|---|---|---|
| Definition | A regulated power supply is an embedded circuit that produces a constant output voltage, independent of changes in input voltage or load current. | An unregulated power supply provides a predetermined output based on the input and load voltage, and its output voltage varies with changes in input voltage, load current, and temperature. |
| Output Voltage | The output voltage stays at a predetermined value, regulated and independent of input voltage or load current. | The output voltage is not regulated and varies depending on the input voltage and load current. |
| Voltage Regulation | Has a voltage regulation circuit to maintain constant output voltage. | Lacks a voltage regulation circuit, leading to varying output voltage. |
| Protection | Offers protection against voltage fluctuations, overloads, and short circuits. | No protection against voltage fluctuations, overloads, and short circuits. |
| Applications | Can be used in almost all types of electronic devices due to stable output voltage. | Limited to applications where good regulation or low ripple is not required, such as LED lamps, relays, solenoids, actuators, DC motors, and non-critical loads. |
| Cost | More expensive and complex due to voltage regulation circuit. | Less expensive and simpler in design, as it lacks voltage regulation circuit. |
In summary, regulated power supplies provide stable and constant output voltage, offering protection against voltage fluctuations and ensuring reliable performance for electronic devices. Unregulated power supplies, on the other hand, have varying output voltage and are simpler and less expensive, making them suitable for non-critical loads and applications with less stringent voltage requirements.
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