PN Junction Section 2.2-2.3
References Section 2.2-2.3. (PN junction without energy band-diagram.) Supplemental Reference: “Modern Semiconductor Devices for Integrated Circuits”, Chenming Calvin Hu (PN junction without energy band-diagram.)
Applications Diodes CdS cell Zener diode PN junction temperature sensor
Review
c02f16 What do we get by introducing n-type and p-type dopants into two adjacent sections of a piece of silicon?
How Do You Make a PN Junction Diode
Ion Implantation Accelerate the ions to high energy Shoot the ions onto the semiconductor surface The implanted ions displace semiconductors atoms. A follow-up anneal (heating) of the wafer is necessary for removing damage and for placing dopants correctly in the lattice.
c02f17
Electric Field/Voltage Definition of Voltage: The work done in moving a unit positive charge in an electric field. Alternative definition: + - Vo
c02f19 Each e- that departs from the n side leaves behind a positive ion. Electrons enter the P side and create neg. ion. P side is suddenly joined with the n side The immediate vincinity of the junction is depleted of free carriers.
c02f20 Electric field within the depletion region points from the left to the right. The direction of the electric field make it difficult for more free electrons to move from the n side to the p side. Equilibrium does not mean that there is no movement of carriers, but instead We have the gradient to push holes to the left. E is there to push the drift current to the right.
c02f21 Net charge =0 Net charge =0 E depends on the net charge (P is neutral, even though it carries 5 electrons, one of them being a free electron.) (B is neutral, even though it carries 3 electrons. ) Net charge =0 Net charge =0 E depends on the net charge included in the imaginary surface. Extra Credit: Derive Built in Voltage
Different ways of Crossing PN Junction Diffusion Diffusion np=ni2 Drift Drift Majority carriers cross the pn junction via diffusion (because you have the gradient) Minority carriers cross the pn junction via drift( because you have the E, not the gradient)
PN Junction under Reverse Bias Reverse: Connect the + terminal to the n side. Depletion region widens. Therefore, stronger E. Minority carrier to cross the PN junction easily through drift. Current is composed mostly of drift current contributed by minority carriers. np to the left and pn to the right. Current from n side to p side, the current is negative. E
PN Junction as a capacitor Smaller capacitance. (More charge separation) Large capacitance. (Less charge separation) As the reverse bias increases, the width of the depletion region increases.
c02f25 Bias dependent capacitance. Useful in cell phone applications.
Photodiode Light is applied to the pn junction Electrons are dislodged from covalent bonds. Electron-hole pair is created. Electron is attracted to the positive terminal of the battery. Current flows through the diode is proportional to light intensity. Application: Digital camera.
Forward Bias Diode ; Depletion region shrinks due to charges from the battery. The electric field is weaker. Majority carrier can cross via diffusion; Greater diffusion current. Current flows from P side to N side
c02f28 Equilibrium Forward Biased Diode Majority carriers cross the junction via diffusion. Minority carriers increased on both sides of the junction.
c02f29 (gradient of minority carriers) nn,f enters the p side as minority carriers (np,f). np,f will recombine with the pp,f, which are abundant.
c02f30 ID must be constant at all points along x In the vincinity of depletion region, the current consists mostly of minority carriers. Away from the depletion region, the current consists mostly Of majority carriers. At each point along the x-axis, the two components add up To Itot.
c02f31 IS=Reverse Saturation=leakage current
Measure Forward Biased Diode Current Listed R1=330 Ohms, Measured R1=327.8 Ohms, % error=-0.66 %
Measured Value (Forward Bias) VF (V) IF (Computed) 0.455 30.50 uA 0.509 0.10 mA 0.551 0.26 mA 0.603 0.77 mA 0.650 2.10 mA 0.70 5.74 mA 0.748 13.8 mA
Measured Diode Voltage
On Semilog Plot
Application: PN Junction Temperature Sensor
Reverse Biased Diode IS=Reverse Saturation=leakage current
Dynamic Resistance VF (V) IF (Computed) 0.70 5.74 mA 0.748 13.8 mA (0.748-0.70)/(13.8 mA-5.74 mA)= 48 mV/8.06 mA =5.95 Ohms Dynamic Resistance from the measurement: (0.748-0.70)/(13.8 mA-5.74 mA)= 48 mV/8.06 mA =5.95 Ohms From the manufacture’s specification=8.33 Ohms, using data from 0.7V and 0.725 V in Figure 4.
c02f33 If VD is less than VD, On, the diode behaves like an open circuit. The diode will behave like an open circuit for VD=VD,on
Reverse Bias Measured R2 is 0.997 MOhms. % Error is about -0.3 %
Reverse Bias VS (Measured) IR (Computed) 5 3 nA 10 15
PN Junction Based Devices PN Junction as a Temperature Sensor Solar Cell (117) Zenor Diode LED