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Voltage Divider Circuits Input transducers Input transducers are devices that convert a change in physical conditions (for example, temperature) into a.

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Presentation on theme: "Voltage Divider Circuits Input transducers Input transducers are devices that convert a change in physical conditions (for example, temperature) into a."— Presentation transcript:

1 Voltage Divider Circuits Input transducers Input transducers are devices that convert a change in physical conditions (for example, temperature) into a change in resistance and/or voltage. This can then be processed in an electrical network based on a voltage divider circuit. If two or more resistors are connected in series, the voltage over each resistor will depend on the supply voltage and the ratio of the resistances. Voltage divider circuits work on the basic electrical principle that if two resistors are connected in series across a supply, the voltage load across each of the resistors will be proportional to the value of the resistors.

2 Voltage divider circuit If an input transducer changes its resistance as the physical conditions change, then the resistance change has to be converted into a voltage change so that the signal can be processed. This is normally done using a voltage divider circuit. 0 volts R V 2 S R 1 V This circuit basically consists of two resistors connected in series. If you change the value of R 1 the voltage across it will change as will the voltage across R 2. The resistors divide the voltage up between them. The voltage across R 2 is normally called the output or V O. The voltage is divided up according to the formula:

3 Worked Example: Voltage Divider Circuit Calculate the voltage signal V 2 across The resistor R 2 in the voltage divider circuit shown. 0 volts R 2 = 40K V2V2 V s = 12 volts R 1 = 80K Using Kirchoff’s second law, we can calculate the voltage over the 80K resistor.

4 Exercises 0 volts R 2 = 810R V2V2 V S = 12 volts R 1 = 270R 1.) Calculate the voltage signal V 2 across the resistor R 2.

5 Exercises 0 volts R 2 = 10K V2V2 V S = 12 volts R 1 = 390R 2.) Calculate the voltage signal V 2 across the resistor R 2.

6 Exercises 0 volts R 2 = 47K V2V2 V S = 6 volts R 1 = 10K 3.) Calculate the voltage signal V 2 across the resistor R 2.

7 Exercises 0 volts R 2 = 2.2K V2V2 V S = 9 volts R 1 = 10K 4.) Calculate the voltage signal V 2 across the resistor R 2.

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