+10.0V Solve for ID, Vi, V2 and V3 for this NMOS circuit. For both transistors: kn'...
find V1, V2, and V3, neglecting channel length modulation. both transistors are identical kn = 0.52 mA/V^2 Vt = 0.77 V 4.2 V 4.2 V 19k 19k V2 V M1 M2 oV + 100 MA -4.2 V
3) For the circuit shown below find the labeled node voltages. The NMOS transistors have Vi-0.9V and kn'(W/L)-1.5mA/V2. 5V Q1 o V1 Q2 1k -2.5V
5. The NMOS and PMOS transistors in the below circuit are matched with kn’(Wn/Ln)=kp'(Wp/Lp)=1 mA/V2 and Vin=-Vt=1V. (20 pts) +5 V a) Which MOSFET is cut-off, NMOS (QN) or PMOS (QP) for VF-5V? Why (5 pts) Qp -5 Vo Ipp Vo VION ON -5 V b) When VF-5V, in which mode, saturation or triode, the circuit operate? Explain why? (5 pts) c) Find the drain current ipy and ipp and the voltage vo for VF-5V (10 pts)
EXERCISE 287 5.15 The NMOS and PMOS transistors in the circuit of Fig. E5.15 are matched with kn(w,/L, E(WA,) = 1 mA/V2 and V, =-Vp-1 V. Assuming λ=0 for both devices, find the drain currents İDw and įDP and the voltage vo for v,-0 V, +2.5 V, and-2.5 V Ans. o V: 0 mA, O mA. 0V: v- +2.5 V: 0.104 mA, 0mA, 1.04 V: v-2.5 V: 0 mA 0.104 mA, -1.04 V +2.5V ON DN V1 DP -2.5 V...
5) Consider the Cascode amplifier shown below. For the NMOS transistors, kn 0.2 mA/V2, Vr,-0.5 V, (W/L)-(W/L)2-5. VDD-GV and IBIAs= 1.0 mA. a) Assuming λ-0 for all transistors, find the required DC gate- source voltages of M1 and M2 (VGsı and VGs2, respectively) BIAS VD out b) Again assuming 0 M2 for all transistors, what is the minimum DC value of VouT for which the amplifier works in high-gain regime? (W/L)2 in M1 For parts c)-f), Assume -0.01 for all...
Solve for VGS, Ip, and Vds for this NMOS transistor circuit. Vpp = +6.0V Rp = 4.9 kN2 RG1 = 2 M12 Rs = 2.0 ks2 RG2= 1 M 2 RD kn = 10.0 mA/V2 RG1 Vi= 1.0 V RG2 O Vss = -6.0V
help me please subscription 5. The PMOS transistor has Vtp=-1 V. If the voltages of three terminals are: Vg=2 V, Vs=5v, Vd=3.5V, then the transistor is operated in a) Cut off region b) Triode region c) Saturation region d) Unknown 6. The voltage transfer characteristic of a CMOS inverter is shown in Fig. 4. Threshold voltages Vrn = |Vpl = 0.5V. If Vpo=5V and the input v=3V, then Saved to this PC a) Both PMOS and NMOS in triode region...
kindly solve and explain the steps and why u took them aswell Q1. The NMOS and PMOS transistors in the circuit of Figure 1 are matched with k'.(W/L.) = k',(W/12) = 1mA/V2 and Ven=-V = 1V. Assuming 1 = 0 for both devices, find the drain current in. lpp and the voltage v, for w=0V, 2.5V.-2.5V +2.5 V -25V
URGENT The NMOS in the shown figure has Vt = 0.8V, kn = 5 mA/V2, and VA = 40 V. The circuit also has Vdd = 5V, VSS = -5V, RG = RLD = 1 M2, and RLS = 0 A. [3 marks] Neglecting the channel length modulation effect, find the value of Rs so that the NMOS operates in saturation with Ip = 0.4 mA B. [2 marks] Neglecting the channel length modulation effect, find the largest possible value...
6. The following LED (Light Emitting Diode) circuit has NMOS transistors with a Vto = 1V, and the assigned gate-source voltages (Vgs). Determine the current flowing through each LED (D1, D2, and D3). Next, determine the power dissipated in each resistor. Note: The diodes have a forward voltage (V+) drop of D1 = 1.9V, D2 = 2.2V, and D3 = 2.5V, and have a reverse voltage (V.) of D1 = 12V, D2 = 10V, and D3 = 4V. (15 points)...