3.19 The diode

Fundamentals of electrical Page 1 / 1

A brief description of a diode and its inner workings.

*v-i* relation and schematic symbol for the diode. Here, the diode parameters were room temperature and $I_{0} 1 μA$ .

The resistor, capacitor, and inductor are linear circuit elements in that their v-i relations are linear in the mathematical sense. Voltage and current sourcesare (technically) nonlinear devices: stated simply, doubling the current through a voltage source does not double the voltage. Amore blatant, and very useful, nonlinear circuit element is the diode ( learn more ). Its input-output relation has an exponential form.

i t I_{0} q k T v t 1

Here, the quantity

q

represents the charge of a single electron in coulombs,

k

is Boltzmann's constant, and

T

is the diode's temperature in

K

. At room temperature, the ratio

k T q 25

mV. The constant

I_{0}

is the leakage current, and is usually very small. Viewing this v-i relation in [link] , the nonlinearity becomes obvious. When the voltage is positive,current flows easily through the diode. This situation is known as forward biasing . When we apply a negative voltage, the current is quite small, and equals

I_{0}

, known as the leakage or reverse-bias current. A less detailed model for the diode has any positive current flowing through the diode when it is forward biased, andno current when negative biased. Note that the diode's schematic symbol looks like an arrowhead; the direction of current flowcorresponds to the direction the arrowhead points.

Because of the diode's nonlinear nature, we cannot use impedances nor series/parallel combination rules to analyze circuits containing them. The reliablenode method can always be used; it only relies on KVL for its application, and KVL is a statement about voltage drops around aclosed path regardless of whether the elements are linear or not. Thus, for this simple circuit wehave

v_{out} R I_{0} q k T v_{in} v_{out} 1

This equation cannot be solved in closed form. We must understand what is going on from basic principles,using computational and graphical aids. As an approximation, when

v_{in}

is positive, current flows through the diode so long as the voltage

v_{out}

is smaller than

v_{in}

(so the diode is forward biased). If the source is negative or

v_{out}

"tries" to be bigger than

v_{in}

, the diode is reverse-biased, and the reverse-bias current flowsthrough the diode. Thus, at this level of analysis, positive input voltages result in positive output voltages with negativeones resulting in

v_{out} R I_{0}

We need to detail the exponential nonlinearity to determine how the circuit distorts the input voltage waveform. We can ofcourse numerically solve [link] to determine the output voltage when the input is a sinusoid. Tolearn more, let's express this equation graphically. We plot each term as a function of $v_{out}$ for various values of the input voltage $v_{in}$ ; where they intersect gives us the output voltage. The left side, the current through the output resistor, does notvary itself with $v_{in}$ , and thus we have a fixed straight line. As for the right side,which expresses the diode's v-i relation, the point at which the curve crosses the $v_{out}$ axis gives us the value of $v_{in}$ . Clearly, the two curves will always intersect just once for anyvalue of $v_{in}$ , and for positive $v_{in}$ the intersection occurs at a value for $v_{out}$ smaller than $v_{in}$ . This reduction is smaller if the straight line has a shallowerslope, which corresponds to using a bigger output resistor. For negative $v_{in}$ , the diode is reverse-biased and the output voltage equals $R I_{0}$ .

What utility might this simple circuit have? The diode'snonlinearity cannot be escaped here, and the clearly evident distortion must have some practical application if the circuitwere to be useful. This circuit, known as a half-wave rectifier , is present in virtually every AM radio twice and each serves very different functions! We'll learn what functions later.

Here is a circuit involving a diode that is actually simpler toanalyze than the previous one. We know that the current through the resistor must equal that through the diode. Thus, thediode's current is proportional to the input voltage. As the voltage across the diode is related to the logarithm of itscurrent, we see that the input-output relation is

v_{out} k T q v_{in} R I_{0} 1

Clearly, the name logarithmic amplifier is justified for this circuit.

Questions & Answers

if three forces F1.f2 .f3 act at a point on a Cartesian plane in the daigram .....so if the question says write down the x and y components ..... I really don't understand

Syamthanda Reply

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Boitumelo Reply

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Boitumelo

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the value of V1 and V2

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advantages of electrons in a circuit

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it is the force or component of the force that the surface exert on an object incontact with it and which acts perpendicular to the surface

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how to calculate coefficient of static friction

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a structure of a thermocouple used to measure inner temperature

Anna Reply

a fixed gas of a mass is held at standard pressure temperature of 15 degrees Celsius .Calculate the temperature of the gas in Celsius if the pressure is changed to 2×10 to the power 4

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what is acceleration

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a rate of change in velocity of an object whith respect to time

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Acceleration is a rate of change in velocity.

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t =r×f

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Shongi

Leago

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Source: OpenStax, Fundamentals of electrical engineering i. OpenStax CNX. Aug 06, 2008 Download for free at http://legacy.cnx.org/content/col10040/1.9

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3.19 The diode

Diode

Diode circuit

Diode circuit

Diode circuit

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