= We wish to design the amplifier in figure below for a voltage gain of 5...
4. (20 pts) - Design the CS stage below for a voltage gain of 6, an input impedance of 100 k12, and a power budget of 5 mW. Assume a voltage drop of 500 mV across Rs. _VoD = 2V un cox = 200MA/v2 VTH = 0.5V ovout =0 Vin Ri, Rz, Ro. Rs. Z ?
4. (20 pts) - Design the CS stage below for a voltage gain of 6, an input impedance of 100 k 2, and a power budget of 5 mW. Assume a voltage drop of 500 m V across Rs. - VDD = av Mn Cox = 200MA/v² VTH = 0.50 SR SRO +00 م Vin - Jt8 R1, R₂. Ro. Rs. We ?
and Vpp = 18 V - Cc2 w S R = 500 k2 SRL W Žr {Rs -ov Figure P4.27 Figure P4.26 For the common-source amplifier shown in Figure P4.27, the transistor arameters are Vip = -1.2 V, Ko = 2 mA/V2, and 2 = 0.03 V-1. The iconductor Devices and Basic Applications drain resistor is Rp = 4k92. (a) Determine lo such that VSDQ = 5 V. (b) Find the small-signal voltage gain for RL = 00. (c) Repeat...
Problem 3: Design Problem On Figure P3a, you have a Common Source (CS) n-channel MOSFET amplifier. Notice the absence of a source resistor Rsig and load resistor R. If we know how the present amplifier (the one on Figure P3a) behaves without Rsig and RL, we can infer its behaviors if Rsig and R were to be added. design the amplifier circuit on Figure P3a, i.e., you have to find appropriate values for RGj You are to RG,, RD, and...
We design a voltage amplifier using a BJT following the plan laid down in the handout "Notes on common emitter transistor amplifier 8 IN RB Design an amplifier with a Gain VoutVinl30 Assume the transistor gain is B 100. Let Vcc 15 V Choose VCE Vcc-VCE.Sat Choose Ic.o-10 mA. 1. Determine values of resistors Rc, RE, and RB so that the gain is essentially independent of the value of β 2. State and satisfy the load-line relation between lc.a and...
Exercise 12.13 Derive expressions for the voltage gain, input resistance, and output resistance of the common-gate amplifier shown in Figure 12.29, assuming that ra is an open circuit Answer The small-signal equivalent circuit is shown in Figure 12.30. A Rin 1/(gm 1/Rs); Ro = Rp. gmR/; +VDD С2 + RL Vo CL R + Vin v(t) -Vss W Ri Rp R 8mVgs Vo Rs Vin + v(t) Exercise 12.13 Derive expressions for the voltage gain, input resistance, and output resistance...
2. Consider a CE-amplifier as shown below. Given Vcc = 1.8 V and power dissipation under large signal bias, P = 1 mW. Assume VBE 0.8 V and V, = 0.025 v. (a) Find Ic and mi (b) What is the value of Re that would result in maximum output voltage range; (c) Find Aye from part (b). Voc = 1.8 V Rc Vin
9.47. Design the cascode amplifier shown in Fig. 9.72 for a power budget of 2 mW Select Vh1 and Vi2 such that Q1 and Q4 sus- tain a base-collector forward bias of 200 mV. What voltage gain is achieved? Vcc 2.5 V J Vb3 Q4 Q3 o Vout Vb1 Q2 Q1 Figure 9.72 9.47. Design the cascode amplifier shown in Fig. 9.72 for a power budget of 2 mW Select Vh1 and Vi2 such that Q1 and Q4 sus- tain...
1. Figure 1 shows a CE power amplifier in which the collector resistor serves also as the load resistor. Assume Bpc Bac 100 a. Determine the dc Q-point (lco and VCEQ). b. Determine the voltage gain and the power gain c. The power dissipated in the transistor with no load. d. The total power from the power supply with no load e. The signal power in the load with a 500 mV input. f. What changes would be necessary to...
An analogue amplifier circuit is shown in Figure 1 below. VDD Q5 15V JL - Vout Irer RI Vina JET T7T Figure 1 Integrated amplifier circuit. Circuit Data: Vpp = 15 V, IREF = I1 = I2 = 1.0 mA Transistor Data: Q1: NMOS, un Cox = 80 A/V?, W/L = 100 um/0.8 um, Vtn = 0.8 V, L = 0.10 um/V Q2: NPN BJT, B = 100, Vbe = 0.7 V, VA = 150 V Q3, Q4: NMOS, un...