Dependent source

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A simple electric circuit made up of a voltage source and a resistor. Here, V=iR, according to Ohm's Law.

In the theory of electrical networks, a dependent source is a voltage source or a current source whose value depends on a voltage or current somewhere else in the network.[1]

Dependent sources are useful, for example, in modelling the behavior of amplifiers. A bipolar junction transistor can be modelled as a dependent current source whose magnitude depends on the magnitude of the current fed into its controlling base terminal. An operational amplifier can be described as a voltage source dependent on the differential input voltage between its input terminals.[1] Practical circuit elements have properties such as finite power capacity, voltage, current, or frequency limits that mean an ideal source is only an approximate model. Accurate modelling of practical devices requires using several idealized elements in combination.

Classification

Voltage-controlled voltage source
Voltage-controlled current source
Current-controlled current source
Current-controlled voltage source

Dependent sources can be classified as follows:

Dependent sources are not necessarily linear. For example, MOSFET switches can be modeled as a voltage-controlled current source when V_{DS}>V_{GS}-V_T and V_{GS}>V_T.

However, the relationship between the current flowing through it and V_{DS} is approximately:    I_D = \frac{\mu_n C_{ox}}{2}\frac{W}{L}(V_{GS}-V_{th})^2 \left(1+\lambda (V_{DS}-V_{DSsat})\right). [2][3]

In this case, the current is not linear to V_{DS}, but rather approximately proportional to the square of V_{DS}-V_T.

As for the case of linear dependent sources, the proportionality constant between dependent and independent variables is dimensionless if they are both currents (or both voltages). A voltage controlled by a current has a proportionality factor expressed in units of resistance (ohms), and this constant is sometimes called "transresistance". A current controlled by a voltage has the units of conductance (siemens), and is called "transconductance". Transconductance is a commonly used specification for measuring the performance of field effect transistors and vacuum tubes.[1]

See also

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References

  1. 1 2 3 I. D. Mayergoyz, Wes Lawson Basic electric circuit theory: a one-semester text Gulf Professional Publishing, 1996 ISBN 0-12-480865-4, Chapter 8 "Dependent sources and operational amplifiers"
  2. PR Gray, PJ Hurst, SH Lewis & RG Meyer. §1.5.2 p. 45. ISBN 0-471-32168-0.
  3. A. S. Sedra and K.C. Smith (2004). Microelectronic circuits (Fifth ed.). New York: Oxford. p. 552. ISBN 0-19-514251-9.
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