Lecture L

1. Lecture L • Mid-term in ~2 weeks. Covers all materials we covered up that date (lectures and labs) • You can bring one page (letter format), handwritten on one side to the mid-term exam. • Optional exam review and Q&A session on Thursday Oct. 18, 1-1:50pm in G125. • Keep thinking about your final projects! (Proposal due in 4 weeks) Check out the guidelines and a list of previous projects on the course web page.

2. MOSFET: Current is conducted on the surface of the semiconductor. Surface-contamination is an issue (causes current noise.) JFET: Current is conducted in the (high quality) bulk of the semiconductor  lower noise

3. Our Trusty LF356: Inputsare JFETs (low noise, high impedance), but most gain is provided by BJTs. Inputs are JFETs gain is provided by BJTs

5. M1 What is the transconductancegfsfor the JFET in the saturated region (VDS > 4V) for VGS biased at 0V? 1 mS 2 mS 5 mS 10 mS 15 mS

6. M2 What is IDSS for this JFET? 3 mA 5 mA 7.5 mA 10.5 mA 12 mA

8. M3 What is Vout for a common source amplifier? VDD - RD ID Vin - RD ID VDD - gfs RD ID Vin - gfs RD ID other

10. M4 What is Vout with the gate grounded? ID 0 V 4 V 5 V 6 V 10 V VGS = 0V 4mA VGS = -0.2V 3mA VGS = -0.6V 2mA VGS = -1.5V 1mA VDS 5V

11. M5 What is the magnitude of the gain with VGS biased at 0V? ID 0 0.5 1 5 10 VGS = 0V 4mA VGS = -0.2V 3mA VGS = -0.6V 2mA VGS = -1.5V 1mA VDS 5V

13. M6 What is the approximate output impedance of the common source amp? 10W 500 W 1000 W 2000 W 1012W

14. M7 Vout of the amplifier is initially 6V. Next, I put a 1000 W resistor to ground on the output. What is Vout now? (Assume gfs is unchanged by this.) 1 V 3 V 6 V 10 V 12 V

15. M8 What is the input impedance of the circuit at DC? 10W 500 W 1000 W 2000 W 1012W