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The NMOS transistor in the CS amplifier circuit of the figure is biased to have gn=4mA/V....
2. The NMOS transistor in the discrete CS amplifier circuit of Fig. 2 is biased to have gm 4mA/V Find AM, JPI, JP2, fP3, and JL
5). In this problem, you are asked to consider the ac hybrid-x model for an NMOS transistor and to relate the capacitors to the physical device structure. Recall the oxide capacitance per unit area ox) appears in the DC Ip-Vs relationship for triode and saturation regions. The NMOS transistor has kn-0.2 mA/V2, W 10 μm, L-I μm and μ,-1000 cm2/Vsec. a) Find the total gate-to-channel capacitance for small VDs, CG-cho. Hint: this is the parallel-plate capacitance between the gate and...
I have a CS amplifier and I have to find the upper 3dB frequency using the method of open-circuit constants with given values. VDD VDD 10V R3 12k R1 >600k 1uF 2N7000* 1uF SRL 10k + Vs ( 0.1 Vpk 1kHz R2 > 450k R4 50 03 10uF Fig. 1. CS Amplifier: schematic For the circuit of the figure, determine the upper 3dB frequency fu analytically using the method of open-circuit constants (e.g., text-book, pp. 733-736, Sec. 9.4.3-4.). Use the...
3) CS amplifier shown below is biased by a constant-current source I. Let Rsig 0.5 M, RG -2 MQ, gm -3mA/V, Rp -20 k2, and RL 10 k2. Find the midband voltage gain and the lower 3-dB frequency with Cc 6.3 nF, Cc2-0.53 uF and Cs-6 uF. Rp C2 C F 3) CS amplifier shown below is biased by a constant-current source I. Let Rsig 0.5 M, RG -2 MQ, gm -3mA/V, Rp -20 k2, and RL 10 k2. Find...
An npn transistor is employed in a common-base amplifier. 4 p 100, VBE 0.7 V. +-5V 2Ks2 Vo 5ΚΩ 4.3KM -5V in It is known that the device is biased to have Ig of 1 mA. Determine the transconductance of the transistor. (10 points) (a) (b) Draw the small-signal equivalent circuit employing the T- model. (10 points) An npn transistor is employed in a common-base amplifier. 4 p 100, VBE 0.7 V. +-5V 2Ks2 Vo 5ΚΩ 4.3KM -5V in It...
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...