448 CHAPTER 9. FIELD EFFECT TRANSISTORS: MOSFET
Example 9.4Consider ann-MOSFET made from Si-dopedp-type at
Na=5× 1016 cm−^3 at 300 K. The other parameters for the device are the following:φMS = − 0 .5V
μn = 600 cm^2 V−^1 s−^1
μp = 200 cm^2 V−^1 s−^1The inversion condition isψs=2φF. Assume that the electrons induced under inversion
areinaregion200A wide near the Si/SiO ̊ 2 interface.
(i) Calculate the channel conductivity near the Si-SiO 2 interface under flat band condition
and at inversion.
(ii) Calculate the threshold voltage.
(i) Assuming that all of the acceptors are ionized, we have at flat bandp=Na=5× 1016 cm−^3This givesσ(fb)=(5× 1016 cm−^3 )(1. 6 × 10 −^19 C)(200 cm^2 /V·s) = 1.6(Ωcm)−^1At inversion withψs=2φFwe haven(interface) =p(bulk) = 5× 1016 cm−^3This gives (near the interface)σ(inv)=(5× 1016 cm−^3 )(1. 6 × 10 −^19 C)(600 cm^2 /V·s) = 4.8(Ωcm)−^1(ii) To calculate the threshold voltage we needφF. This is given byφF=kBT
eln(p
pi)=+0.39 V
Using the parameters given and the equation for the threshold voltage we getVT=− 0 .5+0.78 + 1.637 V = 1.93 V9.4 CAPACITANCE-VOLTAGE CHARACTERISTICS
OF THE MOS STRUCTURE
The study of capacitance-voltage characteristics of a MOSFET provides valuable information
on threshold voltage, oxide thickness, trap density, etc. In the C-V measurement, a dc biasVis
applied to the gate, and a small ac signal (∼5-10 mV) is applied to obtain the capacitance at the
bias applied.