A voltage divider is a basic electronic circuit that divides a voltage into smaller fractions using resistors. It is a fundamental component in electronics and is commonly used to create specific voltage levels for various applications, such as setting reference voltages, biasing transistors, or scaling down voltages for analog-to-digital converters.
The voltage divider consists of two resistors connected in series across a voltage source, and the output voltage is taken from the connection between the resistors. The ratio of the two resistors determines the output voltage.
The calculation for a voltage divider is straightforward and follows Ohm's law:
Vout = Vin * (R2 / (R1 + R2))
Where:
Vout is the output voltage across R2.
Vin is the input voltage applied across the entire voltage divider.
R1 is the resistance value of the first resistor.
R2 is the resistance value of the second resistor.
To get the desired output voltage, you need to know the input voltage (Vin) and the desired output voltage (Vout). Additionally, you must choose the resistance values of R1 and R2 appropriately based on the desired voltage division ratio.
Keep in mind the following points when working with voltage dividers:
The sum of the currents flowing through R1 and R2 is equal to the current flowing from Vin to ground, according to Kirchhoff's current law.
Ideally, the load connected to the output should have a high impedance to avoid loading down the voltage divider, which could affect the output voltage accuracy.
Voltage dividers can be sensitive to changes in load resistance or variations in the resistors' actual values, so they may not be suitable for all applications.
When selecting resistor values for a voltage divider, ensure that the current flowing through the resistors is well within their power rating to avoid overheating or damaging the components.
To summarize, a voltage divider is a simple circuit that divides an input voltage into a smaller output voltage using two resistors connected in series. The output voltage can be calculated using the formula mentioned above, and proper resistor values must be chosen based on the desired voltage division ratio and the load connected to the output.