Riesz's lemma

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Figure 1. Top: NPN base width for low collector–base reverse bias; Bottom: narrower NPN base width for large collector–base reverse bias. Hashed areas are depleted regions.

The Early effect is the variation in the width of the base in a bipolar junction transistor (BJT) due to a variation in the applied base-to-collector voltage, named after its discoverer James M. Early. A greater reverse bias across the collector–base junction, for example, increases the collector–base depletion width, decreasing the width of the charge neutral portion of the base.

In Figure 1 the neutral (i.e. active) base is green, and the depleted base regions are hashed light green. The neutral emitter and collector regions are dark blue and the depleted regions hashed light blue. Under increased collector–base reverse bias, the lower panel of Figure 1 shows a widening of the depletion region in the base and the associated narrowing of the neutral base region.

The collector depletion region also increases under reverse bias, more than does that of the base, because the collector is less heavily doped. The principle governing these two widths is charge neutrality. The narrowing of the collector does not have a significant effect as the collector is much longer than the base. The emitter–base junction is unchanged because the emitter–base voltage is the same.

Figure 2. The Early voltage (VA) as seen in the output-characteristic plot of a BJT.

Base-narrowing has two consequences that affect the current:

  • There is a lesser chance for recombination within the "smaller" base region.
  • The charge gradient is increased across the base, and consequently, the current of minority carriers injected across the emitter junction increases.

Both these factors increase the collector or "output" current of the transistor with an increase in the collector voltage. This increased current is shown in Figure 2. Tangents to the characteristics at large voltages extrapolate backward to intercept the voltage axis at a voltage called the Early voltage, often denoted by the symbol VA.

Large-signal model

In the forward active region the Early effect modifies the collector current (IC) and the forward common-emitter current gain (βF), as typically described by the following equations:[1][2]

IC=IS(1+VCEVA)eVBEVTβF=βF0(1+VCEVA)

Where

  • VCE is the collector–emitter voltage
  • VT is the thermal voltage kT/q; see thermal voltage: role in semiconductor physics
  • VA is the Early voltage (typically 15 V to 150 V; smaller for smaller devices)
  • βF0 is forward common-emitter current gain at zero bias.

Some models base the collector current correction factor on the collector–base voltage VCB (as described in base-width modulation) instead of the collector–emitter voltage VCE.[3] Using VCB may be more physically plausible, in agreement with the physical origin of the effect, which is a widening of the collector–base depletion layer that depends on VCB. Computer models such as those used in SPICE use the collector–base voltage VCB.[4]

Small-signal model

The Early effect can be accounted for in small-signal circuit models (such as the hybrid-pi model) as a resistor defined as[5]

rO=VA+VCEICVAIC

in parallel with the collector–emitter junction of the transistor. This resistor can thus account for the finite output resistance of a simple current mirror or an actively loaded common-emitter amplifier.

In keeping with the model used in SPICE and as discussed above using VCB the resistance becomes:

rO=VA+VCBIC

which almost agrees with the textbook result. In either formulation, rO varies with DC reverse bias VCB, as is observed in practice.Potter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park.

In the MOSFET the output resistance is given in Shichman–Hodges model[6] (accurate for very old technology) as:

rO=1+λVDSλID=1ID(1λ+VDS)

where VDS = drain-to-source voltage, ID = drain current and λ = channel-length modulation parameter, usually taken as inversely proportional to channel length L. Because of the resemblance to the bipolar result, the terminology "Early effect" often is applied to the MOSFET as well.

Current–voltage characteristics

The expressions are derived for a PNP transistor. For an NPN transitors n has to be replaced by p, and p has to be replaced by n in all expressions below. The following assumptions are involved when deriving ideal current-voltage characteristics of the BJT[7]

  • Low level injection
  • Uniform doping in each region with abrupt junctions
  • One-dimensional current
  • Negligible recombination-generation in space charge regions
  • Negligible electric fields outside of space charge regions.

It is important to characterize the minority diffusion currents induced by injection of carriers.

With regard to pn-junction diode, a key relation is the diffusion equation.

d2ΔpB(x)dx2=ΔpB(x)LB2

A solution of this equation is below, and two boundary conditions are used to solve and find C1 and C2.

ΔpB(x)=C1exLB+C2exLB

The following equations apply to the emitter and collector region, respectively, and the origins 0, 0, and 0 apply to the base, collector, and emitter.

ΔnB(x)=A1exLB+A2exLBΔnc(x)=B1exLB+B2exLB

A boundary condition of the emitter is below:

ΔnE(0)=nEO(e1kTqVEB1)

The values of the constants A1 and B1 are zero due to the following conditions of the emitter and collector regions as x0 and x0.

ΔnE(x)0Δnc(x)0

Because A1=B1=0, the values of ΔnE(0) and Δnc(0) are A2 and B2, respectively.

ΔnE(x)=nE0(eqVEBkT1)exLEΔnC(x)=nC0(eqVCBkT1)exLC

Expressions of IEn and ICn can be evaluated.

IEn=qADEdΔE(x)dx|x=0ICn=qADCLCnC0(eqVCBkT1)

Because insignificant recombination occurs, the second derivative of ΔpB(x) is zero. There is therefore a linear relationship between excess hole density and x.

ΔpB(x)=D1x+D2

The following are boundary conditions of ΔpB.

ΔpB(0)=D2ΔpB(W)=D1W+ΔpB(0)

with W the base width. Substitute into the above linear relation.

ΔpB(x)=1W[ΔpB(0)ΔpB(W)]x+ΔpB(0)

With this result, derive value of IEp.

IEp(0)=qADBdΔpBdx|x=0IEp(0)=qADBW[ΔpB(0)ΔpB(W)]

Use the expressions of IEp, IEn, ΔpB(0), and ΔpB(W) to develop an expression of the emitter current.

ΔpB(W)=pB0eqVCBkTΔpB(0)=pB0eqVEBkTIE=qA[(DEnE0LE+DBpB0W)(eqVEBkT1)DBWpB0(eqVCBkT1)]

Similarly, an expression of the collector current is derived.

ICp(W)=IEp(0)IC=ICp(W)+ICn(0)IC=qA[DBWpB0(eqVEBkT1)(DCnC0LC+DBpB0W)(eqVCBkT1)]

An expression of the base current is found with the previous results.

IB=IEICIB=qA[DELEnE0(eqVEBkT1)+DCLCnC0(eqVCBkT1)]

References and notes

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See also

  1. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  2. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  3. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  4. Orcad PSpice Reference Manual named PSpcRef.pdf, p. 209. This manual is included with the free version of Orcad PSpice, but they do not maintain a copy on line. If the link given here expires, try Googling PSpcRef.pdf.
  5. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  6. The Shichman-Hodges Enhancement MOSFET Model and SwitcherCAD III SPICE, Report NDT14-08-2007, NanoDotTek, 12 August 2007
  7. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534