1. OPERATIONAL AMPLIFIER�(PHE-10) Shubha Gokhale
School of Sciences, IGNOU
MARCH 30, 2007
2. Typical Op Amp IC Packages
3. Op Amp Pin-out connections�Dual-in-Line Plastic Package
4. Op Amp Pin-outs Metal Can
5. WHAT IS INSIDE AN OP AMP?
6. Phases of output signal wrt input
7. Common Emitter Amplifier
8. Two matched transistors form a differential amplifier
9. Transisterized �Differential Amplifier
10. Transistorized �Differential Amplifier
11. Single Ended Differential Amplifier (commonly used in op-amps)
12. Op Amp stages with pin-outs of IC741
13. Op amp Comparator Open loop gain of op amp is defined as:
AOL = Vo / VD
where VD = VNI – VINV
Open loop gain of op amp is very high (ideally infinite).
Any small difference between VNI and VINV results into saturation of output voltage ±VSAT
i.e. for VNI < VINV output is – VSAT and
for VNI > VINV output is + VSAT
Value of VSAT is limited by the supply voltage of op amp
14. Op amp Voltage Level Detector
15. Important features of Op Amp High open loop gain (ideally infinite) which implies that even the smallest difference between the two inputs results into saturated output voltage
High input impedance (ideally infinite) implies that there is no current flowing into the input of an op amp
16. Virtual Ground These two conditions give rise to VIRTUAL GROUND, where the voltages at both the inputs are maintained at exactly same level.
To achieve this condition, a feedback circuit between the output and the inverting input terminal of the op amp is necessary.
This results into many applications of op amp, which qualify it to be OPERATIONAL: adder, subtractor, multiplier, divider etc.
17. Op amp Applications
18. Inverting Amplifier Multiplier/Divider circuit, whose gain is decided by the values of resistors
19. Inverting Amplifier Analysis
20. Non-inverting Amplifier
21. Unity Gain Amplifier �(Non-inverting Buffer)
22. Inverting Adder
23. Subtractor
24. Subtractor Analysis
25. Op amp integrator
26. Op amp Differentiator
27. Op amp Characteristics
28. Common Mode Rejection Ratio �(CMRR) It is the ability of an op amp to reject the signal which is present at its both inputs simultaneously i.e. the common mode signal
CMRR = AOL / ACM, where ACM is common mode voltage gain defined by Vout / VCM
Ideally CMRR is infinite
For IC 741 it is 90 dB
29. Slew Rate Maximum rate of change of output voltage (when typically a step voltage is given at the input terminal)
30. Slew Rate (cont…) Slew rate is caused by the finite response time of the circuit elements of an op amp
It limits the highest possible frequency of operation
31. Open Loop Gain
AOL is ideally infinite
In case of typical practical op amp like IC 741 it is of the order of 105 i.e. about 100 dB
Input Resistance
RI is ideally infinite
In case of IC 741 it is 2 MO
Output Resistance
RO is ideally zero
In case of IC 741 it is 75 O
32. Input Offset Voltage
Small voltage needed to be applied between INV and NI terminals to get zero output voltage
Ideally it should be 0 V (CM operation)
Output Offset Voltage
Under common mode operation, output voltage should be zero, but due to mismatch is devices it is non-zero (Can be corrected by applying voltage between Pins 1 and 5 of IC 741)
33. Summary Op amp can be used for various (mathematical) operations like addition, subtraction, multiplication, division, differentiation, integration etc.
Infinite open loop gain and infinite input resistance give rise to VIRTUAL GROUND
Op amp is available in a simple to use IC form which require dual supply
Many other applications can be implemented using op amp
34. ACKNOWLEDGMENT Some circuits in this presentation are based on following materials:
HANDBOOK OF OPERATIONAL AMPLIFIER APPLICATIONS
by Texas Instruments
www.williamson-labs.com
35. Thank you !
