Design a Delyiannis-Friend filter to satisfy the following specifications: Mid-band frequency fo = 100 kHz Mid-band voltage gain = 10 Pole Q = 4 Both capacitors should be 1 pF. Analyze your circuit for an ideal opamp, and with an opamp gain of 50 dB.
Find the mid-band gain of the circuit AM as well as the corner frequencics due to parasitic capacitance fz, f., and fir. Assume f-150), VBE 0.7 V, VA = oo V, Cr = 35 pF, and C,, = 4 pF 10 V 5 k2 42.5 k23 C2 10 kS2 02 20.5 kg 0.1 kΩ CCI 21 28.3 kΩ 5.4 kS2 -10 V The necessary formulas are given below: 1- A BJT Emitter Bias BJT Relationships and V C,max VC.mx t...
For the amplifier shown in figure 1, calculate the mid -band voltage gain, and the 3 dB high frequency cut-off. The unity gain frequency is 5 MHz for the BJT used, with ß-100, c -2 pF. 1. +12 V 2k out 72k C-20LUF 1k 10 24k 1k. V. Fig. 1
Please help to answer this Q.Thanks (a) Schematic Cireuit Ref |Value RB 47 TRI BC547 C 680F TR BC547 C2 10F R51R Calculate the mid-band stage output impedance of the emitter follower TR2? Given hfe1 120 and hfe2-100 (a) Schematic Cireuit Ref |Value RB 47 TRI BC547 C 680F TR BC547 C2 10F R51R Calculate the mid-band stage output impedance of the emitter follower TR2? Given hfe1 120 and hfe2-100
3. Shown below is the small signal mid-band equivalent circuit of a MOSFET common gate amplifier. Find the two-port z-parameters of this circuit in terms of the circuit components, ie. resistors and transconductance gm. m gs gs
1) What is the gain at 100Hz for an amplifier that has a mid-band gain of 5000, a lower cutoff frequency of 10kHz, and a upper cutoff frequency of 200kHz 2)Calculate the decibel power gain for an Ap= 50? 3)If the decibel voltage gain of an amplifier is 60dB, what is the voltage gain (Av)? 4)If the decibel power gain of an amplifier is 20dB, what is the power gain (AP)? 5)For a two stage amplifier with AV1(DB) equal to...
The velocity of Block C is Vc = 5m/s constant with the direction shown in the figure Q1, determine the angular velocity and angular acceleration of the link AB and link BC of the instant shown vc 6 m/s 300 450 800 cm 60이 500 cm Figure Q1 the velocity of block C is vc 5 m/s constant with the direction shown in the Figure , determine the angular velocity and angular acceleration of the link AB and link BC...
Please find: 1) High frequency cutoff 2) Mid Band gain Version: EECE_3120 2018 33k VSS C4 -12V C1 4 R3 2.2kΩ 1uF-POL LF353N C5 12V 0.1uF士 VDD
Find the mid-band gain of the circuit AM, as well as the coner frequencies due to parasitic capacitance f2,尼, and ,fH. Assume β 150. VBE = 0.7 V, VA-co V, C,-35 pF, and Cu-4 pF 10 V 42.5 kΩ out 10 kS2 02 20.5 kΩ 0.1 kQ Cc 01 28.3 k2 5.4 kΩ -10 V The necessary formulas are given below: Zn= BJT Emitter Bias BJT Relationships CC (RE+Rc SS Hybrid-T BJT Model RUBRIC 5 PTE EXEMPLRY ull solution co...
Problem (3) The velocity of the collar C is vc 2.45 m/s at the instant shown (Link CB is horizontal at this instant) Find the angular velocity of link CB and the angular velocity of link AB at the instant shown using: 350 mm Ve 2.45 m/s a) the relative velocity equation b) the instantaneous center (IC) 45° 60°