lecture 7: opamps - mit opencourseware...2007/10/03 · op amp noise • frequency dependent –...
TRANSCRIPT
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2.996/6.971 Biomedical Devices Design Laboratory
Lecture 7: OpAmps
Instructor: Dr. Hong MaOct. 3, 2007
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Fundamental Circuit: Source and Load
• Optimize for Voltage: ZLOAD >> ZSOURCE
• Optimize for Current: ZLOAD << ZSOURCE
• Optimize for Power: ZLOAD = ZSOURCE
• Amplifier / active circuit – impedance transform
SourcesPower supplySignal GeneratorSensorAmplifier output
LoadsActuatorMeasurement deviceAmplifier input
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Ideal Amplifier
• High input impedance• Low output impedance• Accurate and stable gain
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Operational Amplifier
• High input impedance• Low output impedance• Very high gain Trade gain for accuracy
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Op Amp in Feedback
• Rules:– Inputs draw no current– Output will do whatever is necessary to make the
voltage difference between the inputs zero
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Non-inverting Amplifier
• High input impedance
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Inverting Amplifier
• Input impedance defined by R1• Can be used for current input• Can be used as an adder
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Op Amp Circuits
• Level shifters• Simple filters
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Feedback T-Network
• Measuring small currents• Use Thevenin-Norton to analyze more complex
feedback networks
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Differential Amplifier
• Differential Amplifier• Instrumentation Amp (Buffered differential amp)• 2-op amp instrumentation amp
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Accurate Peak Detector
• Also: Op Amp power driver
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Op Amp Packages
Examples:• OPA374• LT1792
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Voltage Offset
• Range: ≈ 1mV or less• Magnified by the gain
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Chopper Stablized Op Amp• Periodically calibrate the offset using switches• More noisy than standard op amps by ~5x• Some sacrifice in speed, performance, and cost
Image and text removed due to copyright restrictions.Information sheet for Linear Technology LTC1051/LTC1053 dual/quad zero-drift op amps.
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Input Bias Current• Mismatched input input offset current• Bipolar input op amps
– Can be quite large >1nA– Match input impedance to reduce error
• CMOS or J-FET input op amps– 100fA to 1nA– Match input impedance is not necessary
• Increases with increasing temperature• How to address: keep bias impedances low• Input bias current important for measuring small
current levels
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Ultra Low Input Bias Current: OPA129
• ±100 fA maximum• Intended Purpose:
– Capacitive sensing– Photodiode preamp
Conventional Pin-Out
OPA129 Pin-Out
Image and text removed due to copyright restrictions.Information sheet for Burr-Brown OPA129 op amp.
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Op Amp Noise
• Frequency dependent– 1/f characteristic at low frequencies– Devices specify 1/f corner
• Specified in µV over some frequency range• Or as spectral density (nV / Hz0.5)• Include both noise voltage and noise current• Analysis is the same as the offsets
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OPA374 Voltage Noise Spectrum
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LT1792 Voltage Noise Spectrum
• Much lower 1/f corner!• Trade-off:
– OPA374 input capacitance ~ 3pF
– LT1792 input capacitance ~ 27pF
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Slew Rate
• Example 1: Multiplexed input• Example 2: Rectifier
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Op Amp Frequency Response• Open-loop frequency response• Gain-Bandwidth (GBW) product
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Review of Feedback Systems
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Review of 2nd Order Systems
• If loop gain has 2 poles or more:– 180° phase shift turns negative FB into positive FB– potential for instability
• Phase margin and gain margin– Settling time– Overshoot– Possibility for oscillation
• Rule of thumb for phase margin– aim for 60°– minimum 45°
• Check datasheets for PM at various gains
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Driving Capacitive Loads
• Possible instability when driving purely capacitive loads• Cause: op amp output resistance ~ 20Ω
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Common Mode Rejection RatioPower Supply Rejection Ratio
• CMRR = ADIFF / ACM • PSRR = VCC / VOS
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More on the Power Supply:The Op Amp is a 5 Terminal Device!
• Output cannot exceed the power supply!• Traditional op amps need 1-2V head room• Dual supply vs. Single supply• ‘Single-supply op amp’ accept input down to Vs-
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Rail-to-Rail (R-R) Op Amps
• Overused industry buzzword
• Can be R-R input or R-R output or both
• R-R output = low output impedance near supplies
• ‘Single-supply op amp’ = half of a R-R input op amp
• R-R input op amps cross-over distortion
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Cross-over Distortion
• Bias current has a similar error• Remedy: Avoid cross-over distortion• OPA386 R-R op amp with no cross-over distortion
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Check List for Selecting Op Amps
1. Power supply: range, rail-to-rail2. Gain-Bandwidth3. Cost4. Voltage offset5. Stability at the intended gain, settling time6. Output current7. Noise8. Special functions: e.g. shut-down pin
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Op Amps Types (Industry Jargon)• Precision Amplifier - Could be any of the following:
– Low offset– Low input bias current– Low noise
• Zero-drift amplifier chopper stablized, poor noise• Low power Low bandwidth• Video Amps High speed, poor DC characteristics• Audio Amps Low distortion, poor DC characteristics• Current Feedback Amps High speed, poor DC,
cannot be used as a conventional voltage FB amplifier• Differential / Instrumentation amplifiers• High voltage / high current