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Example 1: General Solution for Wide Base P-N Junction


  1. Situation where the solar cell surface is far enough away from the junction edges that recombination properties of carriers injected into the quasi-neutral region under forward bias are not impacted.
  2. The boundary conditions for the wide base diode particular solution are:

    (1) At the edge of the depletion region,

    (2) minority concentration is finite (B=0)

  3. Total Current is therefore:

a wide base junction is one in which the surface are far away enough from the junction edges such that they to not impact the recombination properties of carriers injected into the qnr under forward bias.

Step 1: Solve for properties in depletion region

as in most devices, the solution for the electrostatic properties in the depletion region does not change, and so is not repeated.

Step 2: Solve for carrier concentrations and currents in quasi-neutral regions


the solution below is shown in detail only for the n-type material (in which there is a hole current).

Find U and G

We will set G equal to a constant and in the n-type material (in p-type material, ).

Find general solution

2元微信红包小扫雷群using low injection recombination and constant generation gives the equation:

Note that ,


(where pn0 is a constant), so the derivative (and second derivative) of Δp(x) is the same as the derivative of p(x). In addition for simplicity, we introduce a variable change using: .

the overall differential equation now becomes:


2元微信红包小扫雷群which has the general solution:

2元微信红包小扫雷群for electrons (p-type material), the differential equations and solutions are:


Particular solution for wide base diode

we need two boundary conditions these are:

(1) At the edge of the depletion region,

(2) The minority carrier concentration must be finite even as x tends to infinity. This can only be achieved if B = 0.

Since B = 0, the general solution for holes then becomes

at x = 0

2元微信红包小扫雷群rearranging gives:

Plugging A back in gives:


The equation for electrons in p-type material, Δn(x')2元微信红包小扫雷群 , can be similarly derived as:

2元微信红包小扫雷群this is plotted below for g=0.

2元微信红包小扫雷群differentiating and plugging into equation for current gives:

Making the change from x to x' gives

Step 3: Finding total current

2元微信红包小扫雷群the change in the current across the depletion region is:

Assuming that there is no generation and recombination, then ΔJn = 0 and

2元微信红包小扫雷群this case is shown in the graph below.

If there is a constant generation across the depletion region, then , where xn is the depletion width in the p-type material and xn +xp = W.

2元微信红包小扫雷群jn at the edge of the depletion region in the p-type material is:

Jn at the edge of the depletion region in the n-type material is:

an analogous equations exists for jp, and the total current is:

typically, we write the equation in the form:



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