VOD Z RD Vout CHA RS The amplifier above has Rs = 1 ks, RD = 3 k22 and is biased by VGG and VoD to have gm = 4 mA/V. If Vin = 1 Vpp, what is the peak-to-peak value of Vout? Ovout = 3.0 Vpp Ovout = 4.5 Vpp Ovout = 1.2 Vpp Ovout = 2.4 Vpp
Q1 20 marks) The amplifier in Fig. 1 is biased to operate at g..=5 mA/V, and Rs -1.8k12. VOD - Ra Rp Ro} + Cs Fig. 1 (a) Find the value of CS (specified to one significant digit) that places its associated pole at 100 Hz or lower (b) What are the actual frequencies of the pole and zero realized?
1. Rewrite the market model s1 Qa-Qa = 0 d2 with the variables arranged in the following order Qdi, Qs1,Qd variable vector, and the constant vector. d2, Qs2, P, P. Write out the coefficient matrix, the
im In the circuit above, the current through R5 (labeled as 13) is 15 mA Given Information, find the magnitude of the current through the other resistors and the magnitude of the voltage drop across the second battery VB2 Note the WebWork units for current (1) are amp. For resistance, you can use ohm VBI = 3 volts 13= 15 MA R1 = 4200 R2 = 33092 R3 = 40002 R4 = 4600 R5 = 3900 TR2 V B2
Thank you! 1. Consider the reaction given below with qA(0) 10,q (0) 20,,(0) 0, k 4. Solve for qA- ap 1. Consider the reaction given below with qA(0) 10,q (0) 20,,(0) 0, k 4. Solve for qA- ap
hi please help me find the correct current in mA Question 1: A transformer is connected to a resistive load and produces 480 Vrms to the load. The transformer's efficiency is 85%. The load sees 1000 Watts. The primary is 2400 Vrms. Calculate the power delivered by the primary in Watts. P 1176W (integer answer) Calculate the current delivered by the primary in mA. I 417 integer answer) X mA
Part a and b Design a BJT differential amplifier to provide an output voltage of Vod-0.5 V when the input differential voltage Vid-5 mV. Assume ?-100 and use a current source of mA and Vcc-5 V. Design the amplifier circuit assuming that the transistor currents are equal Design the amplifier circuit without making the assumption of part a. Model your BJT differential amplifier design using LTspice and verify the bias point and gain of the amplifier. Use an ideal current...
In the following diagram, two masses, ma=3kg and me =9kg, are placed on a frictionless surface. The static friction between maand me is ths = 0.5. Evaluate the maximum possible horizontal force expressed in Newton, in order for ma NOT to move with respect to me. (assume g=10m/s) ma m = 0
I"1 You have two masses, mA -4.0 kg, and me 2.0kg. The masses are connected by a wire, which passes over a massless, frictionless pulley. does not move Due to friction between the mass ma and the table, the system The coefficient of static friction between ma and the table is 0.75 The coefficient of kinetic friction between ma and the table is 0.60 Le 2 (a) Obtain the tension in the wire. (b) Obtain the frictional force between m,...
Question #1 Which condition is true for an ideal transistor in DC conditions? VOD Question #2 If the threshold voltage is 4 V, what are the majority carriers in the highlighted region for the following conditions. 1. Vos = 3V 2. Vos = 5 V - n7