1 / 30

DMT 231 / 3 ELECTRONICS II

DMT 231 / 3 ELECTRONICS II. Lecture II Basic Field Effect Transistors Amplifiers. MOSFET AMPLIFIER. Graphical Analysis, Load Lines Small-signal Parameters. Graphical Analysis, Load Lines. I DQ. V DSQ. Common-source transistor characteristic. MOSFET Parameters. Transconductance, g m.

deannat
Download Presentation

DMT 231 / 3 ELECTRONICS II

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. DMT 231 / 3 ELECTRONICS II Lecture II Basic Field Effect Transistors Amplifiers

  2. MOSFET AMPLIFIER Graphical Analysis, Load Lines Small-signal Parameters

  3. Graphical Analysis, Load Lines IDQ VDSQ Common-source transistor characteristic

  4. MOSFET Parameters • Transconductance, gm gm0 is the gm value when VGS = 0

  5. VDD vo id iD RD RD vO vgs + vi vDS + vGS - - vi VGSQ Small-signal Equivalent Circuit NMOS common source circuit with time-varying signal source in series with gate DC source AC equivalent circuit

  6. vo id RD vgs vi Small-signal Equivalent Circuit • vO = vDS = VDD – iDRD • = VDD – (IDQ + id)RD • = (VDD – IDRD) - idRD • Small-signal parts: • vo = vds = -idRD • id = gmvgs • vi = vgs AC equivalent circuit

  7. ids D + G + ids vgs gmvgs ro + vds vgs - - - S Small-signal Equivalent Circuit Common source NMOS with small signal parameters Simplified small signal equivalent circuit for NMOS Small-signal output resistance where

  8. VDD VDD ID RD RD R1 R1 iD vO 0 + CC vG VG VDS - + VGS R2 - vi R2 DC Analysis – Saturation Region Voltage-divider circuit for MOSFET DC equivalent circuit

  9. VDD ID RD R1 0 + VG VDS - + VGS R2 - DC Analysis– Saturation Region DC equivalent circuit

  10. VDD 5 V 20 k 30 k RD R1 iD vO CC vG vi R2 20 k Example VTN = 1 V K = 0.1 mA/V2

  11. VDD RD R1 ID + 0 VG VDS + - VGS R2 - DC equivalent circuit The transistor is biased in the saturation region because VDS > VDS(sat) = VGS – VTN = 2 – 1 = 1 V

  12. MOSFET AMPLIFIER Common-Source Amplifier Common-Drain Amplifier Common-Gate Amplifier

  13. COMMON-SOURCE AMPLIFIER- Basic Configuration Common-source circuit with voltage divider biasing & coupling capacitor

  14. Small-signal equivalent circuit input resistance input voltage output voltage small-signal voltage gain

  15. iD Transition point Q-point IDQ vDS VDSQ VDD DC Load Line DC load line & transition point

  16. +VDD 12V RD 3 k C2 R1 vo 300 k C1 RSi RL 2 k 3 k R2 200 k vi RS 2 k COMMON-SOURCE AMPLIFIER - with Source Resistor CALCULATION EXAMPLE Given: VTN = 2V, K = 1 mA/V2,  = 0 Determine: i- Q-point values (ID , VDS) ii- small-signal voltage gain Stabilize the Q-point against variation of transistor parameters

  17. VDD=12V RD=3 k R1=300 k VG R2=200 k RS=2 k Q-point values dc equivalent circuit

  18. Q-point values (Cont) For VGS = 0.54 V, MOSFET  cutoff ‘coz VGS<VTN . Therefore, VGS = 2.96V So, the Q point values:

  19. RSi Vo + Vi R1||R2 RD||RL Vgs gmVgs _ RS Small-signal analysis

  20. +VDD RD C2 R1 C1 RSi RL vo R2 vi C3 RS COMMON-SOURCE AMPLIFIER - with Bypass Capacitor Minimize the lost in small-signal voltage gain while maintaining the Q-point stability

  21. RSi Vo + Vi R1||R2 Vgs ro RD||RL gmVgs _ Ri Small signal equivalent circuit

  22. +VDD R1 C1 RSi C2 vi R2 RS RL vo COMMON-DRAIN AMPLIFIER

  23. RSi Vin _ + Vgs Vo Vi ro RS||RL R1||R2 gmVgs Small signal equivalent circuit input impedance Output impedance input voltage output voltage small-signal voltage gain

  24. V+ RD RSi C1 C2 IQ vi RL vo RG C3 V - COMMON-GATE AMPLIFIER

  25. Ri gmVgs RSi Vo _ Vi Ii Vgs RD RL + Small-signal equivalent circuit input impedance output voltage input voltage small-signal voltage gain input current

  26. JFET AMPLIFIER Common-Source Amplifier Common-Drain Amplifier

  27. VDD R1 RD C2 vo C1 RL vi R2 RS CS COMMON-SOURCE CIRCUIT

  28. Vo + R1||R2 Vi Vgs ro RD||RL gmVgs - Small-signal equivalent circuit input voltage output voltage small-signal voltage gain

  29. V+ C1 C2 vo vi RG RS RL V- COMMON-DRAIN CIRCUIT

  30. gmVgs ro Vgs Vo - + Vi RG RS RL Small-signal equivalent circuit input voltage output voltage small-signal voltage gain

More Related