3) For the circuit shown below find the labeled node voltages. The NMOS transistors have Vi-0.9V...
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...
+10.0V Solve for ID, Vi, V2 and V3 for this NMOS circuit. For both transistors: kn' 0.10 mA/V2 VT 1.0 V Wi-10um V3 +2.5V M2 Gnd
3. (20 points) In the circuit shown below, the transistor is characterized by Vi=1V, kn= 4 mA/V2 and 1 = 0. Find the labeled voltages V and V2. +5V § 21 ,v ما 2ma -5V
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...
3) For each of the circuits below find the labeled node voltag transistors have V. 1 V and k,(W/L) = 2 mA/V2. es. The N-ch MOSFET 20V ov 2.5 kaa 0% 2.5㏀ 2.5 ko
All nMOS transistors in the circuit shown are identical, have k' WIL 4 mA/V2 and operate in the active region lp 1/2k 'W/L(Vas-V)']. Knowing that the de voltage VD4 at the drain of Q4-2 V. Determine: 1. The value of the bias current lo 2. The value of Vov 3. The transconductance gm of Q1 and Q2 4. The voltage gain vo/v 5. The voltage gain when a source resistance R, 1K2 is added to the source of Qi and...
Problem #2. All of the NMOS have kn,= 0.1 mA/V, Vt= 0.9V, λ = negligible, and L = 1μm. The widths are W3-W4-20μm, and W's 100um. You will need to design the widths W, W2 and W6. 3K 3K 8. 1K 06 01 02H1 UOUT Vin- 03 04 Q5 -5U (a) Assuming all transistors in saturation and Vint- Vin-, find all the drain currents ID1 through ID6
Part 1/2 Consider the circuit shown in Figure 1, where RD = 1kQ, Vtn-0.9V, μ. Cox (W/L) = 1.5 mA/V and 2 0. Perform DC analysis to compute the voltages Vi and V2. -2.5V Figure 1 Part 2/2 Compute the small-signal voltage gain voVsi. Hints to the solution 1. Redraw the circuit in the AC small-signal domain as shown below, Roy 2. Find the small-signal equivalent Thevenin resistance seen between the source of M2 and the ground node, Re, indicated...
Problem #5 The NMOS transistors in the circuits below have V, = 1V and (12)k,'(W/L) = 1 mA/V2. For each circuit find the operating mode (cutoff, triode, or saturation) and values for VG, ID, VD, and Vs 수+9. 1. 2K 1. 2K 470K 47GK LK 1K
+3V Question 6: (15 pts) 9.1 ks 3 5.1.2 For the BJT circuit as shown, it contains a pnp (01) and a npn (Q2) BJT transistors, please find approximated values for the labeled node voltages V1, V2,V3, V4, Vs having the gain parameter B = 100. (Note: Early effect is ignored here; Veel are assumed to be 0.7V for both pnp and npn devices.) 100 kn vor o, 9.1k0 F or 34.3k