1 EE40 Summer 2010 Hug EE40 Lecture 6 Josh Hug 7/2/2010.

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Presentation transcript:

1 EE40 Summer 2010 Hug EE40 Lecture 6 Josh Hug 7/2/2010

2 EE40 Summer 2010 Hug General Info HW2 due today at 5PM HW3 out, due TUESDAY at 2PM There will be an optional pre-midterm HW available Tuesday No lecture Monday Labs as usual on Tuesday No lab Wednesday Midterm next Friday in class –12:10-1:30 [be on time!] –No electronic devices –One 8.5”x11” (or A4) sheet of paper Handwritten anything you want, both sides

3 EE40 Summer 2010 Hug Op-Amps – How Good Are They Exactly? We’ve been studying ideal op-amps Of course, real Op-Amps aren’t perfect –For example, you can’t drive every device in the universe from a real op-amp How do we precisely state the quality of a voltage source? –Look at its Thevenin equivalent –Lower Thevenin resistance is better

4 EE40 Summer 2010 Hug Example: Batteries Real voltage sources, like batteries, have a limit to how much current they can draw –Called “internal resistance” –This internal resistance often varies with charge status, load attached, temperature, and more –Just like Thevenin resistance –+–+ V TH R TH V out + – e.g., a car battery supplies 12 Volts, and can supply at most 200 amps, what is its internal resistance? 12V/200A=0.06Ω

5 EE40 Summer 2010 Hug Measuring the Quality of a Source –+–+ V TH R TH RLRL V out + – So basically, for loads which are more than 99 times the Thevenin resistance, you get >99% of the Thevenin voltage Lower R TH is better, can handle smaller loads

6 EE40 Summer 2010 Hug Source Quality Example V in V out RLRL –+–+ 1/1000V 2/3Ω a b R L =99*2/3Ω=66Ω 66Ω load gets 99% of V TH

7 EE40 Summer 2010 Hug Thevenin Equivalents of Op-Amp circuits Can find Thevenin equivalent of an op-amp circuit at its output terminals: Just like finding Thevenin equivalent of a simple resistor based voltage attenuator at its output terminals: –+–+ 1/1000V 2/3Ω a –+–+ V TH R TH vovo

8 EE40 Summer 2010 Hug Thevenin of Inverting Amplifier Assuming that the op-amp here is IDEAL, what’s the best way to find the Thevenin equivalent circuit? –We’ve already derived that it’s a perfect voltage source! –+–+ V TH R TH vovo

9 EE40 Summer 2010 Hug But if you really want to… Technically you should take limits here but we are lazy…

10 EE40 Summer 2010 Hug What’s wrong? Our op-amp model is missing something –That’s why it’s the “ideal” op-amp model –We’ll now introduce the “resistive” op-amp model Ideal Resistive Op-Amp Model

11 EE40 Summer 2010 Hug Resistive Op-Amp model Takes in to account the fact that –Some current flows into the input terminals –The op-amp cannot source all device in the universe (output resistance is non-zero)

12 EE40 Summer 2010 Hug Output Resistance of Inverting Op-Amp On board (using resistive model of op- amp) Output Resistance –Tells us how small our load can be before we start losing signal fidelity

13 EE40 Summer 2010 Hug Input Resistance Resistance at the input terminals of a device Tells us how much current will be generated for a fixed input voltage –Useful, for example, to find power needed to power a device (at that input)

14 EE40 Summer 2010 Hug Input Resistance of Inverting Amplifier What is the input resistance of an inverting amplifier using ideal op-amp model? What is the input resistance of an inverting amplifier using resistive op-amp model? (See sec in book)

15 EE40 Summer 2010 Hug Why are these quantities useful? Input resistance tells us how much current (power) our input signal needs to provide Output resistance says how small of a load we can drive

16 EE40 Summer 2010 Hug Why are these quantities useful? An iPod provides roughly 1V signal output with 20Ω internal resistance Speakers might be 4Ω resistance Connect iPod directly to such speakers –Internal resistance dominates

17 EE40 Summer 2010 Hug Why are these quantities useful? –+–+ 1V 20Ω iPod RsRs –+–+ 4Ω4Ω Speakers

18 EE40 Summer 2010 Hug Bad Amplifier (Small R s ) Very small R s –iPod must supply 50mW –Output resistance is large (can’t drive speakers) –+–+ 1V 20Ω iPod RsRs –+–+ 4Ω4Ω Speakers

19 EE40 Summer 2010 Hug Good Amplifier R s =1000, R f =3000, A=10 6, R t =1000 –+–+ 1V 20Ω iPod RsRs –+–+ 4Ω4Ω Speakers Must provide 1 mW 2.93V Ω

20 EE40 Summer 2010 Hug Op-Amp Saturation Remember those power ports we’ve been ignoring?

21 EE40 Summer 2010 Hug Op-Amp Saturation Example V in VoVo -5 V-12V -1V-3V 2V6V 1,512,312V12V -12V 4V -4V

22 EE40 Summer 2010 Hug Positive Feedback On the board

23 EE40 Summer 2010 Hug That’s all forOp-Ampsks No class Monday Enjoy weekend (doing op-amp problems)