(15 pts) 14. The energy band diagram for an ideal MOS-C under a specific gate bias is shown below...
Subject : Semiconductor topic MOS + 1. Figure 1 illustrates the energy band diagram of a Metal-Oxide-Semiconductor (MOS). Based on the Figure 1 and the given parameters, Semicon surface Ec Figure 1 a) write the posson's equation that relates the potential and distance from the oxide-semiconductor interface b) write the mathematical relationship of the surface potential as a function of substrate doping concentration when the surface is under strong inversion condition c) write the equation for the maximum width of...
Need help with i) please! 2. The energy band diagram for an ideal xo-0.2um MOS-C operated at T-300K is sketched in Figure 1. Note that the applied gate voltage causes band bending in the semiconductor such that Ef Ei at the Si-SiO2 interface. a) Sketch the electrostatic potential () inside the semiconductor as a function of position b) Roughly sketch the electric field (5) inside the oxide and semiconductor as a function of position. c) Do equilibrium conditions prevail inside...
The figure shows band diagram of a BJT structure under bias. a) Name the semiconductor types, biasing mode (Plot base, emitter and collector and voltage polarities) and the carrier types shown in figure (majority or minority). Plot clearly BJT structure and charge flow. b) If we connect two diodes to form pn-np or np-pn structure it will not behave like a BJT transistor. Explain why (one or two sentences). Please help me , i dont have too much time E...
Problem 3 (25 points) Consider a MOS capacitor with p polysilicon gate and p-type silicon substrate with NA 1016 cm3. Ef- Ev in the polysilicon gate. Assume the following parameters: I200A, , 1.5x10° cm*,E, -3.9x8.854x104FIcm ox a) (5 points) Calculate the metal-semiconductor work function difference. b) (5 points) Calculate the surface potential at the threshold inversion. c) (5 points) Calculate the depletion width (in μm) at the threshold inversion. d) (5 points) Calculate the flat band voltage. e) (5 points)...
Problem 5: The gate capacitance vs. gate voltage characteristic of a p+ poly-Si gated MOS capacitor of area 1x10"cm', is as shown: Assume Esi = 11.9, Eox-39,E,-8.85 × 10-14 F/on, and nl = 1.5 x 1010 cm3 Co [Farads] 3.45x1011 >Va [Volts] 1.0 0.3 (a) Is the semiconductor (silicon) substrate doped n-type or p-type? Explain briefly. (b) Is the measurement frequency low or high? Explain briefly. (c) What is the thickness of the gate oxide (SiO2), xo? (d) Estimate the...
Problem 6: The energy band diagram for an ideal MOS-capacitor is shown below. tx 0.2 μm and Ep = E, at the Si-SiO2 interface. Assume no oxide charge and φ'm5-0. Answer the following. EpM Eps Toz9ev 055ev a) What is the numerical value of the electron concentration at the Si-SiO2 interface? b) What is the substrate doping type and concentration? c) What is the electrostatic potential at the Si-SiO2 interface? d) What would be the depletion depth (width)? e) What...
Problem3: Consider a MOS capacitor maintained at T 300K with the following characteristics: Assume Esi 1.9,x 3.9,8.85 x 10-14 F/cm, and n 1.5 x 1010cm3 . Gate material is n+ poly-silicon . Total negative oxide charge of 5x 1011q C/cnm2 . Substrate is n-type Si, with doping concentration 1x1016 cm3 Oxide thickness 5 nm . The electron affinity for Si is 4.03eV? a) Draw the band diagram at equilibrium. b) From part (a). What is the substrate (bulk) condition at...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described as follows. Na atoms sit at the corners and faces of a cube, and Cl atoms sit in between two Na atoms. This means that a Clatom is found half-way along each of the cube edges, and there is a Cl in the center of the cube. (We could also have described the lattice by interchanging Na and Cl in the description above.) Another...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...