An operational amplifier (often op amp or opamp) is a
DC-coupled high-
gain
Gain or GAIN may refer to:
Science and technology
* Gain (electronics), an electronics and signal processing term
* Antenna gain
* Gain (laser), the amplification involved in laser emission
* Gain (projection screens)
* Information gain in de ...
electronic voltage
amplifier
An amplifier, electronic amplifier or (informally) amp is an electronic device that can increase the magnitude of a signal (a time-varying voltage or current). It may increase the power significantly, or its main effect may be to boost the v ...
with a
differential input
Differential signalling is a method for electrically transmitting information using two complementary signals. The technique sends the same electrical signal as a differential pair of signals, each in its own conductor. The pair of conducto ...
and, usually, a
single-ended output. In this configuration, an op amp produces an output potential (relative to circuit ground) that is typically 100,000 times larger than the potential difference between its input terminals. The operational amplifier traces its origin and name to
analog computers
An analog computer or analogue computer is a type of computer that uses the continuous variation aspect of physical phenomena such as electrical, mechanical, or hydraulic quantities (''analog signals'') to model the problem being solved. In c ...
, where they were used to perform mathematical operations in linear, non-linear, and frequency-dependent circuits.
The popularity of the op amp as a building block in
analog circuit
Analogue electronics ( en-US, analog electronics) are electronic systems with a continuously variable signal, in contrast to digital electronics where signals usually take only two levels. The term "analogue" describes the proportional relati ...
s is due to its versatility. By using
negative feedback
Negative feedback (or balancing feedback) occurs when some function (Mathematics), function of the output of a system, process, or mechanism is feedback, fed back in a manner that tends to reduce the fluctuations in the output, whether caused by ...
, the characteristics of an op-amp circuit, its gain, input and
output impedance The output impedance of an electrical network is the measure of the opposition to current flow (impedance), both static ( resistance) and dynamic ( reactance), into the load network being connected that is ''internal'' to the electrical source. The ...
,
bandwidth
Bandwidth commonly refers to:
* Bandwidth (signal processing) or ''analog bandwidth'', ''frequency bandwidth'', or ''radio bandwidth'', a measure of the width of a frequency range
* Bandwidth (computing), the rate of data transfer, bit rate or thr ...
etc. are determined by external components and have little dependence on
temperature coefficient
A temperature coefficient describes the relative change of a physical property that is associated with a given change in temperature. For a property ''R'' that changes when the temperature changes by ''dT'', the temperature coefficient α is def ...
s or
engineering tolerance
Engineering tolerance is the permissible limit or limits of variation in:
# a physical dimension;
# a measured value or physical property of a material, manufactured object, system, or service;
# other measured values (such as temperature, hum ...
in the op amp itself.
Op amps are used widely in electronic devices today, including a vast array of consumer, industrial, and scientific devices. Many standard
integrated circuit
An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
op amps cost only a few cents; however, some integrated or hybrid operational amplifiers with special performance specifications may cost over in small quantities. Op amps may be packaged as
components
Circuit Component may refer to:
•Are devices that perform functions when they are connected in a circuit.
In engineering, science, and technology Generic systems
* System components, an entity with discrete structure, such as an assem ...
or used as elements of more complex
integrated circuit
An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
s.
The op amp is one type of
differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
. Other types of differential amplifier include the
fully differential amplifier
A fully differential amplifier (FDA) is a DC-coupled high-gain electronic voltage amplifier with differential inputs and differential outputs. In its ordinary usage, the output of the FDA is controlled by two feedback paths which, because of the ...
(an op amp with a
differential rather than single-ended output), the
instrumentation amplifier
An instrumentation amplifier (sometimes shorthanded as in-amp or InAmp) is a type of differential amplifier that has been outfitted with input buffer amplifiers, which eliminate the need for input impedance matching and thus make the amplifier ...
(usually built from three op amps), the
isolation amplifier
Isolation amplifiers are a form of differential amplifier that allow measurement of small signals in the presence of a high common mode voltage by providing electrical isolation and an electrical safety barrier. They protect data acquisition compon ...
(with
galvanic isolation
Galvanic isolation is a principle of isolating functional sections of electrical systems to prevent current flow; no direct conduction path is permitted.John Huntington ''Show Networks and Control Systems: Formerly Control Systems for Live E ...
between input and output), and
negative-feedback amplifier
A negative-feedback amplifier (or feedback amplifier) is an electronic amplifier that subtracts a fraction of its output from its input, so that negative feedback opposes the original signal.
The applied negative feedback can improve its perform ...
(usually built from one or more op amps and a resistive feedback network).
Operation
The amplifier's differential inputs consist of a non-inverting input (+) with voltage ''V
+'' and an inverting input (−) with voltage ''V
−''; ideally the op amp amplifies only the difference in voltage between the two, which is called the ''differential input voltage''. The output voltage of the op amp ''V''
out is given by the equation
:
where ''A''
OL is the
open-loop gain of the amplifier (the term "open-loop" refers to the absence of an external feedback loop from the output to the input).
Open-loop amplifier
The magnitude of ''A''
OL is typically very large (100,000 or more for integrated circuit op amps), and therefore even a quite small difference between ''V''
+ and ''V''
− drives the amplifier into
clipping
Clipping may refer to:
Words
* Clipping (morphology), the formation of a new word by shortening it, e.g. "ad" from "advertisement"
* Clipping (phonetics), shortening the articulation of a speech sound, usually a vowel
* Clipping (publications) ...
or
saturation
Saturation, saturated, unsaturation or unsaturated may refer to:
Chemistry
* Saturation, a property of organic compounds referring to carbon-carbon bonds
**Saturated and unsaturated compounds
** Degree of unsaturation
**Saturated fat or fatty aci ...
. The magnitude of ''A''
OL is not well controlled by the manufacturing process, and so it is impractical to use an open-loop amplifier as a stand-alone
differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
.
Without
negative feedback
Negative feedback (or balancing feedback) occurs when some function (Mathematics), function of the output of a system, process, or mechanism is feedback, fed back in a manner that tends to reduce the fluctuations in the output, whether caused by ...
, and optionally
positive feedback
Positive feedback (exacerbating feedback, self-reinforcing feedback) is a process that occurs in a feedback loop which exacerbates the effects of a small disturbance. That is, the effects of a perturbation on a system include an increase in the ...
for
regeneration
Regeneration may refer to:
Science and technology
* Regeneration (biology), the ability to recreate lost or damaged cells, tissues, organs and limbs
* Regeneration (ecology), the ability of ecosystems to regenerate biomass, using photosynthesis
...
, an op amp acts as a
comparator
In electronics, a comparator is a device that compares two voltages or currents and outputs a digital signal indicating which is larger. It has two analog input terminals V_+ and V_- and one binary digital output V_\text. The output is ideally
: ...
. If the inverting input is held at ground (0 V), and the input voltage ''V''
in applied to the non-inverting input is positive, the output will be maximum positive; if ''V''
in is negative, the output will be maximum negative. Because there is no feedback from the output to either input, this is an ''
open-loop'' circuit acting as a
comparator
In electronics, a comparator is a device that compares two voltages or currents and outputs a digital signal indicating which is larger. It has two analog input terminals V_+ and V_- and one binary digital output V_\text. The output is ideally
: ...
.
Closed-loop amplifier
If predictable operation is desired, negative feedback is used, by applying a portion of the output voltage to the inverting input. The ''closed-loop'' feedback greatly reduces the gain of the circuit. When negative feedback is used, the circuit's overall gain and response is determined primarily by the feedback network, rather than by the op-amp characteristics. If the feedback network is made of components with values small relative to the op amp's input impedance, the value of the op amp's open-loop response ''A''
OL does not seriously affect the circuit's performance. In this context, high input
impedance at the input terminals and low output impedance at the output terminal(s) are particularly useful features of an op amp.
The response of the op-amp circuit with its input, output, and feedback circuits to an input is characterized mathematically by a
transfer function
In engineering, a transfer function (also known as system function or network function) of a system, sub-system, or component is a function (mathematics), mathematical function that mathematical model, theoretically models the system's output for ...
; designing an op-amp circuit to have a desired transfer function is in the realm of
electrical engineering
Electrical engineering is an engineering discipline concerned with the study, design, and application of equipment, devices, and systems which use electricity, electronics, and electromagnetism. It emerged as an identifiable occupation in the l ...
. The transfer functions are important in most applications of op amps, such as in
analog computers
An analog computer or analogue computer is a type of computer that uses the continuous variation aspect of physical phenomena such as electrical, mechanical, or hydraulic quantities (''analog signals'') to model the problem being solved. In c ...
.
In the non-inverting amplifier on the right, the presence of negative feedback via the
voltage divider
In electronics, a voltage divider (also known as a potential divider) is a passive linear circuit that produces an output voltage (''V''out) that is a fraction of its input voltage (''V''in). Voltage division is the result of distributing the in ...
''R''
f, ''R''
g determines the ''closed-loop gain'' ''A''
CL = . Equilibrium will be established when ''V''
out is just sufficient to pull the inverting input to the same voltage as ''V''
in. The voltage gain of the entire circuit is thus . As a simple example, if ''V''
in = 1 V and R
f = ''R''
g, ''V''
out will be 2 V, exactly the amount required to keep ''V''
− at 1 V. Because of the feedback provided by the ''R''
f, ''R''
g network, this is a ''closed-loop'' circuit.
Another way to analyze this circuit proceeds by making the following (usually valid) assumptions:
# When an op amp operates in linear (i.e., not saturated) mode, the difference in voltage between the non-inverting (+) and inverting (−) pins is negligibly small.
# The input impedance of the (+) and (−) pins is much larger than other resistances in the circuit.
The input signal ''V''
in appears at both (+) and (−) pins per assumption 1, resulting in a current ''i'' through ''R''
g equal to :
Since Kirchhoff's current law states that the same current must leave a node as enter it, and since the impedance into the (−) pin is near infinity per assumption 2, we can assume practically all of the same current ''i'' flows through ''R''
f, creating an output voltage
By combining terms, we determine the closed-loop gain ''A''
CL:
Op-amp characteristics
Ideal op amps
An ideal op amp is usually considered to have the following characteristics:
* Infinite
open-loop gain
The open-loop gain of an electronic amplifier is the gain obtained when no overall feedback is used in the circuit.
The open-loop gain of many electronic amplifiers is exceedingly high (by design) – an ''ideal'' operational amplifier (op-amp) h ...
''G'' = ''v''
out / ''v''
in
* Infinite
input impedance The input impedance of an electrical network is the measure of the opposition to current ( impedance), both static ( resistance) and dynamic ( reactance), into the load network that is ''external'' to the electrical source. The input admittance (the ...
''R''
in, and so zero input current
* Zero
input offset voltage
The input offset voltage (V_) is a parameter defining the differential DC voltage required between the inputs of an amplifier, especially an operational amplifier (op-amp), to make the output zero (for voltage amplifiers, 0 volts with respect to ...
* Infinite output voltage range
* Infinite
bandwidth
Bandwidth commonly refers to:
* Bandwidth (signal processing) or ''analog bandwidth'', ''frequency bandwidth'', or ''radio bandwidth'', a measure of the width of a frequency range
* Bandwidth (computing), the rate of data transfer, bit rate or thr ...
with zero
phase shift
In physics and mathematics, the phase of a periodic function F of some real variable t (such as time) is an angle-like quantity representing the fraction of the cycle covered up to t. It is denoted \phi(t) and expressed in such a scale that it v ...
and infinite
slew rate
In electronics, slew rate is defined as the change of voltage or current, or any other electrical quantity, per unit of time. Expressed in SI units, the unit of measurement is volts/second or amperes/second, but is usually expressed in terms of m ...
* Zero
output impedance The output impedance of an electrical network is the measure of the opposition to current flow (impedance), both static ( resistance) and dynamic ( reactance), into the load network being connected that is ''internal'' to the electrical source. The ...
''R''
out, and so infinite output current range
* Zero
noise
Noise is unwanted sound considered unpleasant, loud or disruptive to hearing. From a physics standpoint, there is no distinction between noise and desired sound, as both are vibrations through a medium, such as air or water. The difference arise ...
* Infinite
common-mode rejection ratio
In electronics, the common mode rejection ratio (CMRR) of a differential amplifier (or other device) is a metric used to quantify the ability of the device to reject common-mode signals, i.e. those that appear simultaneously and in-phase on both i ...
(CMRR)
* Infinite
power supply rejection ratio In electronic systems, power supply rejection ratio (PSRR), also supply-voltage rejection ratio (''k''SVR; SVR), is a term widely used to describe the capability of an electronic circuit to suppress any power supply variations to its output signal.
...
.
These ideals can be summarized by the two :
# In a closed loop the output does whatever is necessary to make the voltage difference between the inputs zero.
# The inputs draw zero current.
[
]
The first rule only applies in the usual case where the op amp is used in a closed-loop design (negative feedback, where there is a signal path of some sort feeding back from the output to the inverting input). These rules are commonly used as a good first approximation for analyzing or designing op-amp circuits.
None of these ideals can be perfectly realized. A real op amp may be modeled with non-infinite or non-zero parameters using equivalent resistors and capacitors in the op-amp model. The designer can then include these effects into the overall performance of the final circuit. Some parameters may turn out to have negligible effect on the final design while others represent actual limitations of the final performance that must be evaluated.
Real op amps
Real op amps differ from the ideal model in various aspects.
;Finite gain
:
Open-loop gain
The open-loop gain of an electronic amplifier is the gain obtained when no overall feedback is used in the circuit.
The open-loop gain of many electronic amplifiers is exceedingly high (by design) – an ''ideal'' operational amplifier (op-amp) h ...
is finite in real operational amplifiers. Typical devices exhibit open-loop DC gain exceeding 100,000. So long as the
loop gain
In electronics and control system theory, loop gain is the sum of the gain, expressed as a ratio or in decibels, around a feedback loop. Feedback loops are widely used in electronics in amplifiers and oscillators, and more generally in both elec ...
(i.e., the product of open-loop and feedback gains) is very large, the closed-loop gain will be determined entirely by the amount of negative feedback (i.e., it will be independent of open-loop gain). In applications where the closed-loop gain must be very high (approaching the open-loop gain), the feedback gain will be very low and the lower loop gain in these cases causes non-ideal behavior from the circuit.
;Non-zero
output impedance The output impedance of an electrical network is the measure of the opposition to current flow (impedance), both static ( resistance) and dynamic ( reactance), into the load network being connected that is ''internal'' to the electrical source. The ...
:Low output impedance is important for low-impedance loads; for these loads, the voltage drop across the output impedance effectively reduces the open-loop gain. In configurations with a voltage-sensing negative feedback, the output impedance of the amplifier is effectively lowered; thus, in linear applications, op-amp circuits usually exhibit a very low output impedance.
:Low-impedance outputs typically require high
quiescent (i.e., idle) current in the output stage and will dissipate more power, so low-power designs may purposely sacrifice low output impedance.
;Finite
input impedance The input impedance of an electrical network is the measure of the opposition to current ( impedance), both static ( resistance) and dynamic ( reactance), into the load network that is ''external'' to the electrical source. The input admittance (the ...
s
:The ''differential input impedance'' of the operational amplifier is defined as the impedance ''between'' its two inputs; the ''common-mode input impedance'' is the impedance from each input to ground.
MOSFET
The metal–oxide–semiconductor field-effect transistor (MOSFET, MOS-FET, or MOS FET) is a type of field-effect transistor (FET), most commonly fabricated by the controlled oxidation of silicon. It has an insulated gate, the voltage of which d ...
-input operational amplifiers often have protection circuits that effectively short circuit any input differences greater than a small threshold, so the input impedance can appear to be very low in some tests. However, as long as these operational amplifiers are used in a typical high-gain negative feedback application, these protection circuits will be inactive. The input bias and leakage currents described below are a more important design parameter for typical operational amplifier applications.
;Input
capacitance
Capacitance is the capability of a material object or device to store electric charge. It is measured by the change in charge in response to a difference in electric potential, expressed as the ratio of those quantities. Commonly recognized are ...
:Additional input impedance due to
parasitic capacitance
Parasitic capacitance is an unavoidable and usually unwanted capacitance that exists between the parts of an electronic component or circuit simply because of their proximity to each other. When two electrical conductors at different voltages a ...
can be a critical issue for high-frequency operation where it reduces input impedance and may cause phase shifts.
;Input current
:Due to
biasing
In electronics, biasing is the setting of DC (direct current) operating conditions (current and voltage) of an active device in an amplifier. Many electronic devices, such as diodes, transistors and vacuum tubes, whose function is processing ...
requirements or
leakage, a small amount of current
[Typically ~10 nanoamperes, nA, for bipolar op amps, tens of picoamperes, pA, for ]JFET
The junction-gate field-effect transistor (JFET) is one of the simplest types of field-effect transistor. JFETs are three-terminal semiconductor devices that can be used as electronically controlled switches or resistors, or to build amplifiers. ...
input stages, and only a few pA for MOSFET
The metal–oxide–semiconductor field-effect transistor (MOSFET, MOS-FET, or MOS FET) is a type of field-effect transistor (FET), most commonly fabricated by the controlled oxidation of silicon. It has an insulated gate, the voltage of which d ...
input stages. flows into the inputs. When high resistances or sources with high output impedances are used in the circuit, these small currents can produce voltage drops. If the input currents are matched, ''and'' the impedance looking ''out'' of ''both'' inputs are matched, then the voltages produced at each input will be equal. Because the operational amplifier operates on the ''difference'' between its inputs, these matched voltages will have no effect. It is more common for the input currents to be slightly mismatched. The difference is called input offset current, and even with matched resistances a small ''offset voltage'' (distinct from the input offset voltage below) can be produced. This offset voltage can create offsets or drifting in the operational amplifier.
;Input offset voltage
:This voltage, which is what is required across the op amp's input terminals to drive the output voltage to zero.
[This definition hews to the convention of measuring op-amp parameters with respect to the zero voltage point in the circuit, which is usually half the total voltage between the amplifier's positive and negative power rails.] In the perfect amplifier, there would be no input offset voltage. However, it exists because of imperfections in the differential amplifier input stage of op amps. Input offset voltage creates two problems: First, due to the amplifier's high voltage gain, it virtually assures that the amplifier output will go into saturation if it is operated without negative feedback, even when the input terminals are wired together. Second, in a closed loop, negative feedback configuration, the input offset voltage is amplified along with the signal and this may pose a problem if high precision DC amplification is required or if the input signal is very small.
[Many older designs of operational amplifiers have offset null inputs to allow the offset to be manually adjusted away. Modern precision op amps can have internal circuits that automatically cancel this offset using choppers or other circuits that measure the offset voltage periodically and subtract it from the input voltage.]
;Common-mode gain
:A perfect operational amplifier amplifies only the voltage difference between its two inputs, completely rejecting all voltages that are common to both. However, the differential input stage of an operational amplifier is never perfect, leading to the amplification of these common voltages to some degree. The standard measure of this defect is called the
common-mode rejection ratio
In electronics, the common mode rejection ratio (CMRR) of a differential amplifier (or other device) is a metric used to quantify the ability of the device to reject common-mode signals, i.e. those that appear simultaneously and in-phase on both i ...
(CMRR). Minimization of common-mode gain is important in
non-inverting amplifiers that operate at high gain.
;Power-supply rejection
:The output of a perfect operational amplifier will be independent of power supply voltage fluctuations. Every real operational amplifier has a finite
power supply rejection ratio In electronic systems, power supply rejection ratio (PSRR), also supply-voltage rejection ratio (''k''SVR; SVR), is a term widely used to describe the capability of an electronic circuit to suppress any power supply variations to its output signal.
...
(PSRR) that reflects how well the op amp can reject noise in its power supply from propagating to the output.
;Temperature effects
:Performance and properties of the amplifier typically changes, to some extent, with changes in temperature. Temperature drift of the input offset voltage is especially important.
;Drift
:Real op-amp parameters are subject to slow change over time and with changes in temperature, input conditions, etc.
;Finite
bandwidth
Bandwidth commonly refers to:
* Bandwidth (signal processing) or ''analog bandwidth'', ''frequency bandwidth'', or ''radio bandwidth'', a measure of the width of a frequency range
* Bandwidth (computing), the rate of data transfer, bit rate or thr ...
:All amplifiers have finite bandwidth. To a first approximation, the op amp has the frequency response of an
integrator
An integrator in measurement and control applications is an element whose output signal is the time integral of its input signal. It accumulates the input quantity over a defined time to produce a representative output.
Integration is an importan ...
with gain. That is, the gain of a typical op amp is inversely proportional to frequency and is characterized by its
gain–bandwidth product
The gain–bandwidth product (designated as GBWP, GBW, GBP, or GB) for an amplifier is the product of the amplifier's bandwidth and the gain at which the bandwidth is measured.
For devices such as operational amplifiers that are designed to have ...
(GBWP). For example, an op amp with a GBWP of 1 MHz would have a gain of 5 at 200 kHz, and a gain of 1 at 1 MHz. This dynamic response coupled with the very high DC gain of the op amp gives it the characteristics of a first-order
low-pass filter
A low-pass filter is a filter that passes signals with a frequency lower than a selected cutoff frequency and attenuates signals with frequencies higher than the cutoff frequency. The exact frequency response of the filter depends on the filter des ...
with very high DC gain and low cutoff frequency given by the GBWP divided by the DC gain.The finite bandwidth of an op amp can be the source of several problems, including:Typical low-cost, general-purpose op amps exhibit a GBWP of a few megahertz. Specialty and high-speed op amps exist that can achieve a GBWP of hundreds of megahertz. For very high-frequency circuits, a
current-feedback operational amplifier
The current-feedback operational amplifier (CFOA or CFA) is a type of electronic amplifier whose inverting input is sensitive to current, rather than to voltage as in a conventional voltage-feedback operational amplifier (VFA). The CFA was invented ...
is often used.
;Noise
:Amplifiers intrinsically output noise, even when there is no signal applied. This can be due to internal thermal noise and flicker noise of the device. For applications with high gain or high bandwidth, noise becomes an important consideration and a
low-noise amplifier
A low-noise amplifier (LNA) is an electronic amplifier that amplifies a very low-power signal without significantly degrading its signal-to-noise ratio. An amplifier will increase the power of both the signal and the noise present at its input, ...
, which is specifically designed for minimum intrinsic noise, may be required to meet performance requirements.
;Power-supply rejection
:With increasing frequency the power-supply rejection usually gets worse. So it can be important to keep the supply clean of higher frequency ripples and signals, e.g. by the use of
bypass capacitor
A decoupling capacitor is a capacitor used to decouple one part of an electrical network (circuit) from another. Noise caused by other circuit elements is shunted through the capacitor, reducing its effect on the rest of the circuit. For hig ...
s.
Non-linear imperfections
;Saturation
:Output voltage is limited to a minimum and maximum value close to the
power supply
A power supply is an electrical device that supplies electric power to an electrical load. The main purpose of a power supply is to convert electric current from a source to the correct voltage, current, and frequency to power the load. As a r ...
voltages.
[That the output cannot reach the power supply voltages is usually the result of limitations of the amplifier's output stage transistors.] The output of older op amps can reach to within one or two volts of the supply rails. The output of so-called op amps can reach to within millivolts of the supply rails when providing low output currents.
;Slew rate limiting
:The amplifier's output voltage reaches its maximum rate of change, the
slew rate
In electronics, slew rate is defined as the change of voltage or current, or any other electrical quantity, per unit of time. Expressed in SI units, the unit of measurement is volts/second or amperes/second, but is usually expressed in terms of m ...
, usually specified in volts per microsecond (V/μs). When slew rate limiting occurs, further increases in the input signal have no effect on the rate of change of the output. Slew rate limiting is usually caused by the input stage saturating; the result is a constant current driving a capacitance in the amplifier (especially those capacitances used to implement its
frequency compensation
In electronics engineering, frequency compensation is a technique used in amplifiers, and especially in amplifiers employing negative feedback. It usually has two primary goals: To avoid the unintentional creation of positive feedback, which will ...
); the slew rate is limited by . Slewing is associated with the ''large-signal'' performance of an op amp. Consider, for example, an op amp configured for a gain of 10. Let the input be a 1V, 100 kHz sawtooth wave. That is, the amplitude is 1V and the period is 10 microseconds. Accordingly, the rate of change (i.e., the slope) of the input is 0.1 V per microsecond. After 10× amplification, the output should be a 10V, 100 kHz sawtooth, with a corresponding slew rate of 1V per microsecond. However, the classic 741 op amp has a 0.5V per microsecond slew rate specification so that its output can rise to no more than 5V in the sawtooth's 10-microsecond period. Thus, if one were to measure the output, it would be a 5V, 100 kHz sawtooth, rather than a 10V, 100 kHz sawtooth.Next consider the same amplifier and 100 kHz sawtooth, but now the input amplitude is 100mV rather than 1V. After 10× amplification the output is a 1V, 100 kHz sawtooth with a corresponding slew rate of 0.1V per microsecond. In this instance, the 741 with its 0.5V per microsecond slew rate will amplify the input properly. Modern high-speed op amps can have slew rates in excess of 5,000V per microsecond. However, it is more common for op amps to have slew rates in the range 5–100V per microsecond. For example, the general purpose TL081 op amp has a slew rate of 13V per microsecond. As a general rule, low power and small bandwidth op amps have low slew rates. As an example, the LT1494 micropower op amp consumes 1.5 microamp but has a 2.7 kHz gain-bandwidth product and a 0.001V per microsecond slew rate.
;Non-
linear
Linearity is the property of a mathematical relationship (''function'') that can be graphically represented as a straight line. Linearity is closely related to '' proportionality''. Examples in physics include rectilinear motion, the linear r ...
input-output relationship
:The output voltage may not be accurately proportional to the difference between the input voltages producing distortion. This effect will be very small in a practical circuit where substantial negative feedback is used.
;Phase reversal
:In some integrated op amps, when the published common mode voltage is violated (e.g., by one of the inputs being driven to one of the supply voltages), the output may slew to the opposite polarity from what is expected in normal operation. Under such conditions, negative feedback becomes positive, likely causing the circuit to ''lock up'' in that state.
Power considerations
;
Limited output current
:The output current must be finite. In practice, most op amps are designed to limit the output current to prevent damage to the device, typically around 25 mA for a type 741 IC op amp. Modern designs are electronically more robust than earlier implementations and some can sustain direct
short circuit
A short circuit (sometimes abbreviated to short or s/c) is an electrical circuit that allows a current to travel along an unintended path with no or very low electrical impedance. This results in an excessive current flowing through the circuit ...
s on their outputs without damage.
;Limited output voltage
:Output voltage cannot exceed the power supply voltage supplied to the op amp. The maximum output of most op amps is further reduced by some amount due to limitations in the output circuitry. ''Rail-to-rail op amps'' are designed for maximum output levels.
;Output sink current
:The output sink current is the maximum current allowed to sink into the output stage. Some manufacturers provide an output voltage vs. the output sink current plot which gives an idea of the output voltage when it is sinking current from another source into the output pin.
;Limited dissipated power
:The output current flows through the op amp's internal output impedance, generating heat that must be dissipated. If the op amp dissipates too much power, then its temperature will increase above some safe limit. The op amp must shut down or risk being damaged.
Modern integrated
FET
The field-effect transistor (FET) is a type of transistor that uses an electric field to control the flow of current in a semiconductor. FETs (JFETs or MOSFETs) are devices with three terminals: ''source'', ''gate'', and ''drain''. FETs contr ...
or
MOSFET
The metal–oxide–semiconductor field-effect transistor (MOSFET, MOS-FET, or MOS FET) is a type of field-effect transistor (FET), most commonly fabricated by the controlled oxidation of silicon. It has an insulated gate, the voltage of which d ...
op amps approximate more closely the ideal op amp than bipolar ICs when it comes to input impedance and input bias currents. Bipolars are generally better when it comes to input ''voltage'' offset, and often have lower noise. Generally, at room temperature, with a fairly large signal, and limited bandwidth, FET and MOSFET op amps now offer better performance.
Internal circuitry of -type op amp
Sourced by many manufacturers, and in multiple similar products, an example of a bipolar transistor operational amplifier is the 741 integrated circuit designed in 1968 by David Fullagar at
Fairchild Semiconductor
Fairchild Semiconductor International, Inc. was an American semiconductor company based in San Jose, California. Founded in 1957 as a division of Fairchild Camera and Instrument, it became a pioneer in the manufacturing of transistors and of int ...
after
Bob Widlar
Robert John Widlar (pronounced ''wide-lar''; November 30, 1937 – February 27, 1991) was an American electronics engineer and a designer of linear integrated circuits (ICs).
Early years
Widlar was born November 30, 1937 in Cleveland to pare ...
's LM301 integrated circuit design.
In this discussion, we use the parameters of the
hybrid-pi model The hybrid-pi model is a popular circuit model used for analyzing the small signal behavior of bipolar junction and field effect transistors. Sometimes it is also called Giacoletto model because it was introduced by L.J. Giacoletto in 1969. The m ...
to characterize the small-signal, grounded emitter characteristics of a transistor. In this model, the current gain of a transistor is denoted ''h''
fe, more commonly called the β.
Architecture
A small-scale
integrated circuit
An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
, the 741 op amp shares with most op amps an internal structure consisting of three gain stages:
#
Differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
(outlined dark blue) — provides high differential amplification (gain), with rejection of common-mode signal, low noise, high
input impedance The input impedance of an electrical network is the measure of the opposition to current ( impedance), both static ( resistance) and dynamic ( reactance), into the load network that is ''external'' to the electrical source. The input admittance (the ...
, and drives a
# Voltage amplifier (outlined
magenta
Magenta () is a color that is variously defined as pinkish- purplish-red, reddish-purplish-pink or mauvish-crimson. On color wheels of the RGB (additive) and CMY (subtractive) color models, it is located exactly midway between red and blue. I ...
) — provides high voltage gain, a single-pole frequency
roll-off
Roll-off is the steepness of a Transfer function, transfer function with frequency, particularly in network analysis (electrical circuits), electrical network analysis, and most especially in connection with filter (signal processing), filter cir ...
, and in turn drives the
# Output amplifier (outlined
cyan
Cyan () is the color between green and blue on the visible spectrum of light. It is evoked by light with a predominant wavelength between 490 and 520 nm, between the wavelengths of green and blue.
In the subtractive color system, or CMYK color ...
and
green
Green is the color between cyan and yellow on the visible spectrum. It is evoked by light which has a dominant wavelength of roughly 495570 Nanometre, nm. In subtractive color systems, used in painting and color printing, it is created by ...
) — provides high current gain (low
output impedance The output impedance of an electrical network is the measure of the opposition to current flow (impedance), both static ( resistance) and dynamic ( reactance), into the load network being connected that is ''internal'' to the electrical source. The ...
), along with output current limiting, and output short-circuit protection.
Additionally, it contains
current mirror
A current mirror is a circuit designed to copy a current through one active device by controlling the current in another active device of a circuit, keeping the output current constant regardless of loading. The current being "copied" can be, and ...
(outlined red) bias circuitry and
compensation capacitor (30 pF).
Differential amplifier
The input stage consists of a cascaded
differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
(outlined in
blue
Blue is one of the three primary colours in the RYB colour model (traditional colour theory), as well as in the RGB (additive) colour model. It lies between violet and cyan on the spectrum of visible light. The eye perceives blue when obs ...
) followed by a current-mirror
active load
An active load or dynamic load is a electronic component, component or a electronic circuit, circuit that functions as a current-stable nonlinear resistor.
Circuit design
In circuit design, an active load is a circuit component made up of ''active ...
. This constitutes a
transconductance amplifier Transconductance (for transfer conductance), also infrequently called mutual conductance, is the electrical characteristic relating the current through the output of a device to the voltage across the input of a device. Conductance is the reciproc ...
, turning a differential voltage signal at the bases of Q1, Q2 into a current signal into the base of Q15.
It entails two cascaded transistor pairs, satisfying conflicting requirements.
The first stage consists of the matched NPN
emitter follower
In electronics, a common collector amplifier (also known as an emitter follower) is one of three basic single-stage bipolar junction transistor (BJT) amplifier topologies, typically used as a voltage buffer.
In this circuit the base terminal o ...
pair Q1, Q2 that provide high input impedance. The second is the matched PNP
common-base
In electronics, a common-base (also known as grounded-base) electronic amplifier, amplifier is one of three basic single-stage bipolar junction transistor (BJT) amplifier topologies, typically used as a current buffer or voltage amplifier.
In th ...
pair Q3, Q4 that eliminates the undesirable
Miller effect In electronics, the Miller effect accounts for the increase in the equivalent input capacitance of an inverting voltage amplifier due to amplification of the effect of capacitance between the input and output terminals. The virtually increased input ...
; it drives an
active load
An active load or dynamic load is a electronic component, component or a electronic circuit, circuit that functions as a current-stable nonlinear resistor.
Circuit design
In circuit design, an active load is a circuit component made up of ''active ...
Q7 plus matched pair Q5, Q6.
That active load is implemented as a modified
Wilson current mirror A Wilson current mirror is a three-terminal circuit (Fig. 1) that accepts an input current at the input terminal and provides a "mirrored" current source or sink output at the output terminal. The mirrored current is a precise copy of the input curr ...
; its role is to convert the (differential) input current signal to a single-ended signal without the attendant 50% losses (increasing the op amp's open-loop gain by 3 dB).
[Widlar used this same trick in μA702 and μA709]
Thus, a small-signal differential current in Q3 versus Q4 appears summed (doubled) at the base of Q15, the input of the voltage gain stage.
Voltage amplifier
The (
class-A) voltage gain stage (outlined in
magenta
Magenta () is a color that is variously defined as pinkish- purplish-red, reddish-purplish-pink or mauvish-crimson. On color wheels of the RGB (additive) and CMY (subtractive) color models, it is located exactly midway between red and blue. I ...
) consists of the two NPN transistors Q15/Q19 connected in a
Darlington configuration and uses the output side of current mirror Q12/Q13 as its collector (dynamic) load to achieve its high voltage gain. The output sink transistor Q20 receives its base drive from the common collectors of Q15 and Q19; the level-shifter Q16 provides base drive for the output source transistor Q14.
The transistor Q22 prevents this stage from delivering excessive current to Q20 and thus limits the output sink current.
Output amplifier
The output stage (Q14, Q20, outlined in
cyan
Cyan () is the color between green and blue on the visible spectrum of light. It is evoked by light with a predominant wavelength between 490 and 520 nm, between the wavelengths of green and blue.
In the subtractive color system, or CMYK color ...
) is a
Class AB
In electronics, power amplifier classes are letter symbols applied to different power amplifier types. The class gives a broad indication of an amplifier's characteristics and performance. The classes are related to the time period that the active ...
complementary-symmetry amplifier. It provides an output drive with impedance of ~50Ω, in essence, current gain.
Transistor Q16 (outlined in
green
Green is the color between cyan and yellow on the visible spectrum. It is evoked by light which has a dominant wavelength of roughly 495570 Nanometre, nm. In subtractive color systems, used in painting and color printing, it is created by ...
) provides the quiescent current for the output transistors, and Q17 limits output source current.
Biasing circuits
Provide appropriate quiescent current for each stage of the op amp.
The resistor (39 kΩ) connecting the (diode-connected) Q11 and Q12, and the given supply voltage (''V''
''S''+ − ''V''
''S''−), determine the current in the
current mirror
A current mirror is a circuit designed to copy a current through one active device by controlling the current in another active device of a circuit, keeping the output current constant regardless of loading. The current being "copied" can be, and ...
s, (matched pairs) Q10/Q11 and Q12/Q13. The collector current of Q11, ''i''
11 × 39 kΩ = ''V''
''S''+ − ''V''
''S''− − 2 ''V''
BE. For the typical ''V''
''S'' = ±20 V, the standing current in Q11/Q12 (as well as in Q13) would be ~1 mA. A supply current for a typical 741 of about 2 mA agrees with the notion that these two bias currents dominate the quiescent supply current.
Transistors Q11 and Q10 form a
Widlar current mirror
]
A Widlar current source is a modification of the basic two-transistor current mirror that incorporates an emitter degeneration resistor for only the output transistor, enabling the current source to generate low currents using only moderate res ...
, with quiescent current in Q10 ''i''
10 such that ln(''i''
11 / ''i''
10) = ''i''
10 × 5 kΩ / 28 mV, where 5 kΩ represents the emitter resistor of Q10, and 28 mV is ''V''
T, the
thermal voltage
The Boltzmann constant ( or ) is the proportionality factor that relates the average relative kinetic energy of particles in a ideal gas, gas with the thermodynamic temperature of the gas. It occurs in the definitions of the kelvin and the gas ...
at room temperature. In this case ''i''
10 ≈ 20 μA.
Differential amplifier
The biasing circuit of this stage is set by a feedback loop that forces the collector currents of Q10 and Q9 to (nearly) match. The small difference in these currents provides the drive for the common base of Q3/Q4 (note that the base drive for input transistors Q1/Q2 is the input bias current and must be sourced externally). The summed quiescent currents of Q1/Q3 plus Q2/Q4 is mirrored from Q8 into Q9, where it is summed with the collector current in Q10, the result being applied to the bases of Q3/Q4.
The quiescent currents of Q1/Q3 (resp., Q2/Q4) ''i''
1 will thus be half of ''i''
10, of order ~10 μA. Input bias current for the base of Q1 (resp. Q2) will amount to ''i''
1 / β; typically ~50 nA, implying a current gain ''h''
fe ≈ 200 for Q1(Q2).
This feedback circuit tends to draw the common base node of Q3/Q4 to a voltage ''V''
com − 2 ''V''
BE, where ''V''
com is the input common-mode voltage. At the same time, the magnitude of the quiescent current is relatively insensitive to the characteristics of the components Q1–Q4, such as ''h''
fe, that would otherwise cause temperature dependence or part-to-part variations.
Transistor Q7 drives Q5 and Q6 into conduction until their (equal) collector currents match that of Q1/Q3 and Q2/Q4. The quiescent current in Q7 is ''V''
BE / 50 kΩ, about 35 μA, as is the quiescent current in Q15, with its matching operating point. Thus, the quiescent currents are pairwise matched in Q1/Q2, Q3/Q4, Q5/Q6, and Q7/Q15.
Voltage amplifier
Quiescent currents in Q16 and Q19 are set by the current mirror Q12/Q13, which is running at ~1 mA. Through some mechanism, the collector current in Q19 tracks that standing current.
Output amplifier
In the circuit involving Q16 (variously named
rubber diode
In electronics, a rubber diode or V multiplier is a bipolar junction transistor circuit that serves as a voltage reference. It consists of one transistor and two resistors, and the reference voltage across the circuit is determined by the selected ...
or ''V''
BE multiplier), the 4.5 kΩ resistor must be conducting about 100 μA, with the Q16 ''V''
BE roughly 700 mV. Then the ''V''
CB must be about 0.45 V and ''V''
CE at about 1.0 V. Because the Q16 collector is driven by a current source and the Q16 emitter drives into the Q19 collector current sink, the Q16 transistor establishes a voltage difference between Q14 base and Q20 base of ~1 V, regardless of the common-mode voltage of Q14/Q20 base. The standing current in Q14/Q20 will be a factor
exp(100 mV / ''V''T) ≈ 36 smaller than the 1 mA quiescent current in the class A portion of the op amp. This (small) standing current in the output transistors establishes the output stage in class AB operation and reduces the
crossover distortion
Crossover distortion is a type of distortion which is caused by switching between devices driving a load. It is most commonly seen in complementary, or "push-pull", Class-B amplifier stages, although it is occasionally seen in other types of circui ...
of this stage.
Small-signal differential mode
A small differential input voltage signal gives rise, through multiple stages of current amplification, to a much larger voltage signal on output.
Input impedance
The input stage with Q1 and Q3 is similar to an emitter-coupled pair (long-tailed pair), with Q2 and Q4 adding some degenerating impedance. The input impedance is relatively high because of the small current through Q1-Q4. A typical 741 op amp has a differential input impedance of about 2 MΩ. The common mode input impedance is even higher, as the input stage works at an essentially constant current.
Differential amplifier
A differential voltage ''V''
in at the op amp inputs (pins 3 and 2, respectively) gives rise to a small differential current in the bases of Q1 and Q2 ''i''
in ≈ ''V''
in / (2''h''
ie''h''
fe). This differential base current causes a change in the differential collector current in each leg by ''i''
in''h''
fe. Introducing the transconductance of Q1, ''g''
''m'' = ''h''
fe / ''h''
ie, the (small-signal) current at the base of Q15 (the input of the voltage gain stage) is ''V''
in''g''
''m'' / 2.
This portion of the op amp cleverly changes a differential signal at the op amp inputs to a single-ended signal at the base of Q15, and in a way that avoids wastefully discarding the signal in either leg. To see how, notice that a small negative change in voltage at the inverting input (Q2 base) drives it out of conduction, and this incremental decrease in current passes directly from Q4 collector to its emitter, resulting in a decrease in base drive for Q15. On the other hand, a small positive change in voltage at the non-inverting input (Q1 base) drives this transistor into conduction, reflected in an increase in current at the collector of Q3. This current drives Q7 further into conduction, which turns on current mirror Q5/Q6. Thus, the increase in Q3 emitter current is mirrored in an increase in Q6 collector current; the increased collector currents shunts more from the collector node and results in a decrease in base drive current for Q15. Besides avoiding wasting 3 dB of gain here, this technique decreases common-mode gain and feedthrough of power supply noise.
Voltage amplifier
A current signal ''i'' at Q15's base gives rise to a current in Q19 of order ''i''β
2 (the product of the ''h''
fe of each of Q15 and Q19, which are connected in a
Darlington pair
In electronics, a multi-transistor configuration called the Darlington configuration (commonly called a Darlington pair) is a circuit consisting of two bipolar transistors with the emitter of one transistor connected to the base of the other, su ...
). This current signal develops a voltage at the bases of output transistors Q14/Q20 proportional to the ''h''
ie of the respective transistor.
Output amplifier
Output transistors Q14 and Q20 are each configured as an emitter follower, so no voltage gain occurs there; instead, this stage provides current gain, equal to the ''h''
fe of Q14 (resp. Q20).
The output impedance is not zero, as it would be in an ideal op amp, but with negative feedback it approaches zero at low frequencies.
Overall open-loop voltage gain
The net open-loop small-signal voltage gain of the op amp involves the product of the current gain ''h''
fe of some 4 transistors. In practice, the voltage gain for a typical 741-style op amp is of order 200,000, and the current gain, the ratio of input impedance (~2−6 MΩ) to output impedance (~50Ω) provides yet more (power) gain.
Other linear characteristics
Small-signal common mode gain
The ideal op amp has infinite
common-mode rejection ratio
In electronics, the common mode rejection ratio (CMRR) of a differential amplifier (or other device) is a metric used to quantify the ability of the device to reject common-mode signals, i.e. those that appear simultaneously and in-phase on both i ...
, or zero common-mode gain.
In the present circuit, if the input voltages change in the same direction, the negative feedback makes Q3/Q4 base voltage follow (with 2 ''V''
BE below) the input voltage variations. Now the output part (Q10) of Q10-Q11 current mirror keeps up the common current through Q9/Q8 constant in spite of varying voltage. Q3/Q4 collector currents, and accordingly the output current at the base of Q15, remain unchanged.
In the typical 741 op amp, the common-mode rejection ratio is 90 dB, implying an open-loop common-mode voltage gain of about 6.
Frequency compensation
The innovation of the Fairchild μA741 was the introduction of
frequency compensation
In electronics engineering, frequency compensation is a technique used in amplifiers, and especially in amplifiers employing negative feedback. It usually has two primary goals: To avoid the unintentional creation of positive feedback, which will ...
via an on-chip (monolithic) capacitor, simplifying application of the op amp by eliminating the need for external components for this function.
The 30 pF capacitor stabilizes the amplifier via
Miller compensation and functions in a manner similar to an op-amp
integrator
An integrator in measurement and control applications is an element whose output signal is the time integral of its input signal. It accumulates the input quantity over a defined time to produce a representative output.
Integration is an importan ...
circuit. Also known as 'dominant
pole
Pole may refer to:
Astronomy
*Celestial pole, the projection of the planet Earth's axis of rotation onto the celestial sphere; also applies to the axis of rotation of other planets
*Pole star, a visible star that is approximately aligned with the ...
compensation' because it introduces a pole that masks (dominates) the effects of other poles into the open loop frequency response; in a 741 op amp this pole can be as low as 10 Hz (where it causes a −3 dB loss of open loop voltage gain).
This internal compensation is provided to achieve unconditional
stability
Stability may refer to:
Mathematics
*Stability theory, the study of the stability of solutions to differential equations and dynamical systems
**Asymptotic stability
**Linear stability
**Lyapunov stability
**Orbital stability
**Structural stabilit ...
of the amplifier in negative feedback configurations where the feedback network is non-reactive and the
closed loop gain is
unity
Unity may refer to:
Buildings
* Unity Building, Oregon, Illinois, US; a historic building
* Unity Building (Chicago), Illinois, US; a skyscraper
* Unity Buildings, Liverpool, UK; two buildings in England
* Unity Chapel, Wyoming, Wisconsin, US; a h ...
or higher.
By contrast, amplifiers requiring external compensation, such as the μA748, may require external compensation or closed-loop gains significantly higher than unity.
Input offset voltage
The "offset null" pins may be used to place external resistors (typically in the form of the two ends of a potentiometer, with the slider connected to ''V''
''S''–) in parallel with the emitter resistors of Q5 and Q6, to adjust the balance of the Q5/Q6 current mirror. The potentiometer is adjusted such that the output is null (midrange) when the inputs are shorted together.
Non-linear characteristics
Input breakdown voltage
The transistors Q3, Q4 help to increase the reverse ''V''
BE rating: the base-emitter junctions of the NPN transistors Q1 and Q2 break down at around 7V, but the PNP transistors Q3 and Q4 have ''V''
BE breakdown voltages around 50V.
Output-stage voltage swing and current limiting
Variations in the quiescent current with temperature, or between parts with the same type number, are common, so
crossover distortion
Crossover distortion is a type of distortion which is caused by switching between devices driving a load. It is most commonly seen in complementary, or "push-pull", Class-B amplifier stages, although it is occasionally seen in other types of circui ...
and
quiescent current
In electronics, biasing is the setting of DC (direct current) operating conditions (current and voltage) of an active device in an amplifier. Many electronic devices, such as diodes, transistors and vacuum tubes, whose function is processing ...
may be subject to significant variation.
The output range of the amplifier is about one volt less than the supply voltage, owing in part to ''V''
BE of the output transistors Q14 and Q20.
The 25 Ω resistor at the Q14 emitter, along with Q17, acts to limit Q14 current to about 25 mA; otherwise, Q17 conducts no current.
Current limiting for Q20 is performed in the voltage gain stage: Q22 senses the voltage across Q19's emitter resistor (50Ω); as it turns on, it diminishes the drive current to Q15 base.
Later versions of this amplifier schematic may show a somewhat different method of output current limiting.
Applicability considerations
While the 741 was historically used in audio and other sensitive equipment, such use is now rare because of the improved
noise
Noise is unwanted sound considered unpleasant, loud or disruptive to hearing. From a physics standpoint, there is no distinction between noise and desired sound, as both are vibrations through a medium, such as air or water. The difference arise ...
performance of more modern op amps. Apart from generating noticeable hiss, 741s and other older op amps may have poor
common-mode rejection ratio
In electronics, the common mode rejection ratio (CMRR) of a differential amplifier (or other device) is a metric used to quantify the ability of the device to reject common-mode signals, i.e. those that appear simultaneously and in-phase on both i ...
s and so will often introduce cable-borne mains hum and other common-mode interference, such as switch 'clicks', into sensitive equipment.
The "741" has come to often mean a generic op-amp IC (such as μA741, LM301, 558, LM324, TBA221 — or a more modern replacement such as the TL071). The description of the 741 output stage is qualitatively similar for many other designs (that may have quite different input stages), except:
* Some devices (μA748, LM301, LM308) are not internally compensated (require an external capacitor from output to some point within the operational amplifier, if used in low closed-loop gain applications).
* Some modern devices have ''rail-to-rail'' output capability, meaning that the output can range from within a few millivolts of the positive supply voltage to within a few millivolts of the negative supply voltage.
Classification
Op amps may be classified by their construction:
* discrete, built from individual
transistor
upright=1.4, gate (G), body (B), source (S) and drain (D) terminals. The gate is separated from the body by an insulating layer (pink).
A transistor is a semiconductor device used to Electronic amplifier, amplify or electronic switch, switch e ...
s or
tubes/valves,
* hybrid, consisting of discrete and
integrated components,
* full
integrated circuits
An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
— most common, having displaced the former two due to low cost.
IC op amps may be classified in many ways, including:
* Device grade, including acceptable
operating temperature
An operating temperature is the allowable temperature range of the local ambient environment at which an electrical or mechanical device operates. The device will operate effectively within a specified temperature range which varies based on the de ...
ranges and other environmental or quality factors. For example: LM101, LM201, and LM301 refer to the military, industrial, and commercial versions of the same component. Military and industrial grade components offer better performance in harsh conditions than their commercial counterparts, but are sold at higher prices.
* Classification by package type may also affect environmental hardiness, as well as manufacturing options;
DIP, and other through-hole packages are tending to be replaced by
surface-mount devices.
* Classification by internal compensation: op amps may suffer from high frequency
instability
In numerous fields of study, the component of instability within a system is generally characterized by some of the outputs or internal states growing without bounds. Not all systems that are not stable are unstable; systems can also be mar ...
in some
negative feedback
Negative feedback (or balancing feedback) occurs when some function (Mathematics), function of the output of a system, process, or mechanism is feedback, fed back in a manner that tends to reduce the fluctuations in the output, whether caused by ...
circuits unless a small compensation capacitor modifies the phase and frequency responses. Op amps with a built-in capacitor are termed ''compensated'', and allow circuits above some specified
closed-loop gain to operate stably with no external capacitor. In particular, op amps that are stable even with a closed loop gain of 1 are called ''unity gain compensated''.
* Single, dual and quad versions of many commercial op-amp IC are available, meaning 1, 2 or 4 operational amplifiers are included in the same package.
* Rail-to-rail input (and/or output) op amps can work with input (and/or output) signals very close to the power supply rails.
*
CMOS
Complementary metal–oxide–semiconductor (CMOS, pronounced "sea-moss", ) is a type of metal–oxide–semiconductor field-effect transistor (MOSFET) fabrication process that uses complementary and symmetrical pairs of p-type and n-type MOSFE ...
op amps (such as the CA3140E) provide extremely high input resistances, higher than
JFET
The junction-gate field-effect transistor (JFET) is one of the simplest types of field-effect transistor. JFETs are three-terminal semiconductor devices that can be used as electronically controlled switches or resistors, or to build amplifiers. ...
-input op amps, which are normally higher than
bipolar-input op amps.
* other varieties of op amp include programmable op amps (simply meaning the quiescent current, bandwidth and so on can be adjusted by an external resistor).
* manufacturers often tabulate their op amps according to purpose, such as low-noise pre-amplifiers, wide bandwidth amplifiers, and so on.
Applications
Use in electronics system design
The use of op amps as circuit blocks is much easier and clearer than specifying all their individual circuit elements (transistors, resistors, etc.), whether the amplifiers used are integrated or discrete circuits. In the first approximation op amps can be used as if they were ideal differential gain blocks; at a later stage limits can be placed on the acceptable range of parameters for each op amp.
Circuit design follows the same lines for all electronic circuits. A specification is drawn up governing what the circuit is required to do, with allowable limits. For example, the gain may be required to be 100 times, with a tolerance of 5% but drift of less than 1% in a specified temperature range; the input impedance not less than one megohm; etc.
A basic
circuit is designed, often with the help of circuit modeling (on a computer). Specific commercially available op amps and other components are then chosen that meet the design criteria within the specified tolerances at acceptable cost. If not all criteria can be met, the specification may need to be modified.
A prototype is then built and tested; changes to meet or improve the specification, alter functionality, or reduce the cost, may be made.
Applications without using any feedback
That is, the op amp is being used as a
voltage comparator. Note that a device designed primarily as a comparator may be better if, for instance, speed is important or a wide range of input voltages may be found, since such devices can quickly recover from full on or full off ("saturated") states.
A ''voltage level detector'' can be obtained if a reference voltage ''V''
ref is applied to one of the op amp's inputs. This means that the op amp is set up as a comparator to detect a positive voltage. If the voltage to be sensed, ''E''
i, is applied to op amp's (+) input, the result is a noninverting positive-level detector: when ''E''
i is above ''V''
ref, ''V''
O equals +''V''
sat; when ''E''
i is below ''V''
ref, ''V''
O equals −''V''
sat. If ''E''
i is applied to the inverting input, the circuit is an inverting positive-level detector: When ''E''
i is above ''V''
ref, ''V''
O equals −''V''
sat.
A ''zero voltage level detector'' (''E''
i = 0) can convert, for example, the output of a sine-wave from a function generator into a variable-frequency square wave. If ''E''
i is a sine wave, triangular wave, or wave of any other shape that is symmetrical around zero, the zero-crossing detector's output will be square. Zero-crossing detection may also be useful in triggering
TRIAC
A TRIAC (triode for alternating current; also bidirectional triode thyristor or bilateral triode thyristor) is a three terminal electronic component that conducts current in either direction when triggered. The term TRIAC is a genericised tradem ...
s at the best time to reduce mains interference and current spikes.
Positive-feedback applications
Another typical configuration of op-amps is with positive feedback, which takes a fraction of the output signal back to the non-inverting input. An important application of it is the comparator with hysteresis, the
Schmitt trigger
In electronics, a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input si ...
. Some circuits may use ''positive'' feedback and ''negative'' feedback around the same amplifier, for example
triangle-wave oscillator
Oscillation is the repetitive or periodic variation, typically in time, of some measure about a central value (often a point of equilibrium) or between two or more different states. Familiar examples of oscillation include a swinging pendulum ...
s and
active filters
An active filter is a type of analog circuit implementing an electronic filter using active components, typically an amplifier. Amplifiers included in a filter design can be used to improve the cost, performance and predictability of a filter.
...
.
Because of the wide slew range and lack of positive feedback, the response of all the open-loop level detectors described
above will be relatively slow. External overall positive feedback may be applied, but (unlike internal positive feedback that may be applied within the latter stages of a purpose-designed comparator) this markedly affects the accuracy of the zero-crossing detection point. Using a general-purpose op amp, for example, the frequency of ''E''
i for the sine to square wave converter should probably be below 100 Hz.
Negative-feedback applications
Non-inverting amplifier
In a non-inverting amplifier, the output voltage changes in the same direction as the input voltage.
The gain equation for the op amp is
:
However, in this circuit ''V''
− is a function of ''V''
out because of the negative feedback through the ''R''
1 ''R''
2 network. ''R''
1 and ''R''
2 form a
voltage divider
In electronics, a voltage divider (also known as a potential divider) is a passive linear circuit that produces an output voltage (''V''out) that is a fraction of its input voltage (''V''in). Voltage division is the result of distributing the in ...
, and as ''V''
− is a high-impedance input, it does not load it appreciably. Consequently
:
where
:
Substituting this into the gain equation, we obtain
:
Solving for
:
:
If
is very large, this simplifies to
:
The non-inverting input of the operational amplifier needs a path for DC to ground; if the signal source does not supply a DC path, or if that source requires a given load impedance, then the circuit will require another resistor from the non-inverting input to ground. When the operational amplifier's input bias currents are significant, then the DC source resistances driving the inputs should be balanced. The ideal value for the feedback resistors (to give minimal offset voltage) will be such that the two resistances in parallel roughly equal the resistance to ground at the non-inverting input pin. That ideal value assumes the bias currents are well matched, which may not be true for all op amps.
Inverting amplifier
In an inverting amplifier, the output voltage changes in an opposite direction to the input voltage.
As with the non-inverting amplifier, we start with the gain equation of the op amp:
:
This time, ''V''
− is a function of both ''V''
out and ''V''
in due to the voltage divider formed by ''R''
f and ''R''
in. Again, the op-amp input does not apply an appreciable load, so
:
Substituting this into the gain equation and solving for
:
:
If
is very large, this simplifies to
:
A resistor is often inserted between the non-inverting input and ground (so both inputs "see" similar resistances), reducing the
input offset voltage
The input offset voltage (V_) is a parameter defining the differential DC voltage required between the inputs of an amplifier, especially an operational amplifier (op-amp), to make the output zero (for voltage amplifiers, 0 volts with respect to ...
due to different voltage drops due to
bias current
In electronics, biasing is the setting of DC (direct current) operating conditions (current and voltage) of an active device in an amplifier. Many electronic devices, such as diodes, transistors and vacuum tubes, whose function is processing ...
, and may reduce distortion in some op amps.
A
DC-blocking capacitor
A capacitor is a device that stores electrical energy in an electric field by virtue of accumulating electric charges on two close surfaces insulated from each other. It is a passive electronic component with two terminals.
The effect of ...
may be inserted in series with the input resistor when a
frequency response
In signal processing and electronics, the frequency response of a system is the quantitative measure of the magnitude and phase of the output as a function of input frequency. The frequency response is widely used in the design and analysis of sy ...
down to DC is not needed and any DC voltage on the input is unwanted. That is, the capacitive component of the input impedance inserts a DC
zero
0 (zero) is a number representing an empty quantity. In place-value notation
Positional notation (or place-value notation, or positional numeral system) usually denotes the extension to any base of the Hindu–Arabic numeral system (or ...
and a low-frequency
pole
Pole may refer to:
Astronomy
*Celestial pole, the projection of the planet Earth's axis of rotation onto the celestial sphere; also applies to the axis of rotation of other planets
*Pole star, a visible star that is approximately aligned with the ...
that gives the circuit a
bandpass
A band-pass filter or bandpass filter (BPF) is a device that passes frequencies within a certain range and rejects (attenuates) frequencies outside that range.
Description
In electronics and signal processing, a filter is usually a two-port ...
or
high-pass
A high-pass filter (HPF) is an electronic filter that passes signals with a frequency higher than a certain cutoff frequency and attenuates signals with frequencies lower than the cutoff frequency. The amount of attenuation for each frequency de ...
characteristic.
The potentials at the operational amplifier inputs remain virtually constant (near ground) in the inverting configuration. The constant operating potential typically results in distortion levels that are lower than those attainable with the non-inverting topology.
Other applications
* audio- and video-frequency
pre-amplifiers and
buffer
Buffer may refer to:
Science
* Buffer gas, an inert or nonflammable gas
* Buffer solution, a solution used to prevent changes in pH
* Buffering agent, the weak acid or base in a buffer solution
* Lysis buffer, in cell biology
* Metal ion buffer
* ...
s
*
differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
s
*
differentiator
In electronics, a differentiator is a circuit that is designed such that the output of the circuit is approximately directly proportional to the rate of change (the time derivative) of the input. A true differentiator cannot be physically realized, ...
s and
integrator
An integrator in measurement and control applications is an element whose output signal is the time integral of its input signal. It accumulates the input quantity over a defined time to produce a representative output.
Integration is an importan ...
s
*
filter
Filter, filtering or filters may refer to:
Science and technology
Computing
* Filter (higher-order function), in functional programming
* Filter (software), a computer program to process a data stream
* Filter (video), a software component tha ...
s
*
precision rectifiers
* precision
peak detector
The precision rectifier is a configuration obtained with an operational amplifier in order to have a circuit behave like an ideal diode and rectifier.Paul Horowitz and Winfield Hill, ''The Art of Electronics''. 2nd ed. Cambridge University Press, ...
s
* voltage and current
regulators
Regulator may refer to:
Technology
* Regulator (automatic control), a device that maintains a designated characteristic, as in:
** Battery regulator
** Pressure regulator
** Diving regulator
** Voltage regulator
* Regulator (sewer), a control de ...
* analog calculators
*
Analog-to-digital converter
In electronics, an analog-to-digital converter (ADC, A/D, or A-to-D) is a system that converts an analog signal, such as a sound picked up by a microphone or light entering a digital camera, into a digital signal. An ADC may also provide ...
s
*
Digital-to-analog converter
In electronics, a digital-to-analog converter (DAC, D/A, D2A, or D-to-A) is a system that converts a digital signal into an analog signal. An analog-to-digital converter (ADC) performs the reverse function.
There are several DAC architec ...
s
*
Voltage clamping
*
oscillator
Oscillation is the repetitive or periodic variation, typically in time, of some measure about a central value (often a point of equilibrium) or between two or more different states. Familiar examples of oscillation include a swinging pendulum ...
s and
waveform generator
A signal generator is one of a class of electronic devices that generates electrical signals with set properties of amplitude, frequency, and wave shape. These generated signals are used as a stimulus for electronic measurements, typically used i ...
s
*
clipper
A clipper was a type of mid-19th-century merchant sailing vessel, designed for speed. Clippers were generally narrow for their length, small by later 19th century standards, could carry limited bulk freight, and had a large total sail area. "C ...
*
clamper (dc inserter or restorer)
*
LOG
Log most often refers to:
* Trunk (botany), the stem and main wooden axis of a tree, called logs when cut
** Logging, cutting down trees for logs
** Firewood, logs used for fuel
** Lumber or timber, converted from wood logs
* Logarithm, in mathe ...
and
ANTILOG
In mathematics, the logarithm is the inverse function to exponentiation. That means the logarithm of a number to the base is the exponent to which must be raised, to produce . For example, since , the ''logarithm base'' 10 of ...
amplifiers
Most single, dual and quad op amps available have a standardized pin-out which permits one type to be substituted for another without wiring changes. A specific op amp may be chosen for its open loop gain, bandwidth, noise performance, input impedance, power consumption, or a compromise between any of these factors.
Historical timeline
1941: A vacuum tube op amp. An op amp, defined as a general-purpose, DC-coupled, high gain, inverting feedback
amplifier
An amplifier, electronic amplifier or (informally) amp is an electronic device that can increase the magnitude of a signal (a time-varying voltage or current). It may increase the power significantly, or its main effect may be to boost the v ...
, is first found in "Summing Amplifier" filed by
Karl D. Swartzel Jr. Karl Dale Swartzel Jr. (June 19, 1907 – April 23, 1998) was the inventor of the operational amplifier (or 'opamp'). He filed the patent for the ' summing amplifier' in 1941 when working at Bell Labs
Nokia Bell Labs, originally named Bell ...
of Bell Labs in 1941. This design used three
vacuum tube
A vacuum tube, electron tube, valve (British usage), or tube (North America), is a device that controls electric current flow in a high vacuum between electrodes to which an electric voltage, potential difference has been applied.
The type kn ...
s to achieve a gain of and operated on voltage rails of . It had a single inverting input rather than differential inverting and non-inverting inputs, as are common in today's op amps. Throughout
World War II
World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the vast majority of the world's countries—including all of the great powers—forming two opposin ...
, Swartzel's design proved its value by being liberally used in the M9
artillery director designed at Bell Labs. This artillery director worked with the SCR584
radar
Radar is a detection system that uses radio waves to determine the distance (''ranging''), angle, and radial velocity of objects relative to the site. It can be used to detect aircraft, ships, spacecraft, guided missiles, motor vehicles, w ...
system to achieve extraordinary hit rates (near 90%) that would not have been possible otherwise.
1947: An op amp with an explicit non-inverting input. In 1947, the operational amplifier was first formally defined and named in a paper by
John R. Ragazzini
John Ralph Ragazzini (January 3, 1912 – November 22, 1988) was an American electrical engineer and a professor of Electrical Engineering.
Biography
Ragazzini was born in Manhattan, New York City from Italian immigrants Luigi Ragazzini an ...
of Columbia University. In this same paper a footnote mentioned an op-amp design by a student that would turn out to be quite significant. This op amp, designed by
Loebe Julie Loebe Julie (December 10, 1920 - June 7, 2015) was an American engineer who has been credited with inventing the first operational amplifier circuit with differential inputs (1943), a topology which allowed much greater versatility in applications c ...
, was superior in a variety of ways. It had two major innovations. Its input stage used a long-tailed
triode
A triode is an electronic amplifying vacuum tube (or ''valve'' in British English) consisting of three electrodes inside an evacuated glass envelope: a heated filament or cathode, a grid, and a plate (anode). Developed from Lee De Forest's 19 ...
pair with loads matched to reduce drift in the output and, far more importantly, it was the first op-amp design to have two inputs (one inverting, the other non-inverting). The differential input made a whole range of new functionality possible, but it would not be used for a long time due to the rise of the chopper-stabilized amplifier.
1949: A chopper-stabilized op amp. In 1949, Edwin A. Goldberg designed a
chopper-stabilized op amp. This set-up uses a normal op amp with an additional
AC amplifier that goes alongside the op amp. The chopper gets an AC signal from
DC by switching between the DC voltage and ground at a fast rate (60 Hz or 400 Hz). This signal is then amplified, rectified, filtered and fed into the op amp's non-inverting input. This vastly improved the gain of the op amp while significantly reducing the output drift and DC offset. Unfortunately, any design that used a chopper couldn't use their non-inverting input for any other purpose. Nevertheless, the much improved characteristics of the chopper-stabilized op amp made it the dominant way to use op amps. Techniques that used the non-inverting input regularly would not be very popular until the 1960s when op-amp
ICs started to show up in the field.
1953: A commercially available op amp. In 1953, vacuum tube op amps became commercially available with the release of the model K2-W from
George A. Philbrick
George A. Philbrick was responsible, through his company George A. Philbrick Researches (GAP/R), for the 1953 commercialization and wide adoption of operational amplifiers, a now-ubiquitous component of analog electronic systems, and the invention ...
Researches, Incorporated. The designation on the devices shown, GAP/R, is an acronym for the complete company name. Two nine-pin
12AX7
12AX7 (also known as ECC83) is a miniature dual-triode 6AV6 vacuum tube with high voltage gain. Developed around 1946 by RCA engineers in Camden, New Jersey, under developmental number A-4522, it was released for public sale under the 12AX7 ident ...
vacuum tubes were mounted in an octal package and had a model K2-P chopper add-on available that would effectively "use up" the non-inverting input. This op amp was based on a descendant of Loebe Julie's 1947 design and, along with its successors, would start the widespread use of op amps in industry.
1961: A discrete IC op amp. With the birth of the
transistor
upright=1.4, gate (G), body (B), source (S) and drain (D) terminals. The gate is separated from the body by an insulating layer (pink).
A transistor is a semiconductor device used to Electronic amplifier, amplify or electronic switch, switch e ...
in 1947, and the silicon transistor in 1954, the concept of ICs became a reality. The introduction of the
planar process
The planar process is a manufacturing process used in the semiconductor industry to build individual components of a transistor, and in turn, connect those transistors together. It is the primary process by which silicon integrated circuit chips a ...
in 1959 made transistors and ICs stable enough to be commercially useful. By 1961, solid-state, discrete op amps were being produced. These op amps were effectively small circuit boards with packages such as
edge connector
An edge connector is the portion of a printed circuit board (PCB) consisting of traces leading to the edge of the board that are intended to plug into a matching socket. The edge connector is a money-saving device because it only requires a sing ...
s. They usually had hand-selected resistors in order to improve things such as voltage offset and drift. The P45 (1961) had a gain of 94 dB and ran on ±15 V rails. It was intended to deal with signals in the range of .
1961: A varactor bridge op amp. There have been many different directions taken in op-amp design.
Varactor
In electronics, a varicap diode, varactor diode, variable capacitance diode, variable reactance diode or tuning diode is a type of diode designed to exploit the voltage-dependent capacitance of a reverse-biased p–n junction.
Applications
Vara ...
bridge op amps started to be produced in the early 1960s. They were designed to have extremely small input current and are still amongst the best op amps available in terms of common-mode rejection with the ability to correctly deal with hundreds of volts at their inputs.
1962: An op amp in a potted module. By 1962, several companies were producing modular potted packages that could be plugged into
printed circuit board
A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in Electrical engineering, electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a L ...
s. These packages were crucially important as they made the operational amplifier into a single
black box
In science, computing, and engineering, a black box is a system which can be viewed in terms of its inputs and outputs (or transfer characteristics), without any knowledge of its internal workings. Its implementation is "opaque" (black). The te ...
which could be easily treated as a component in a larger circuit.
1963: A monolithic IC op amp. In 1963, the first monolithic IC op amp, the μA702 designed by
Bob Widlar
Robert John Widlar (pronounced ''wide-lar''; November 30, 1937 – February 27, 1991) was an American electronics engineer and a designer of linear integrated circuits (ICs).
Early years
Widlar was born November 30, 1937 in Cleveland to pare ...
at Fairchild Semiconductor, was released. Monolithic
ICs consist of a single chip as opposed to a chip and discrete parts (a discrete IC) or multiple chips bonded and connected on a circuit board (a hybrid IC). Almost all modern op amps are monolithic ICs; however, this first IC did not meet with much success. Issues such as an uneven supply voltage, low gain and a small dynamic range held off the dominance of monolithic op amps until 1965 when the μA709
(also designed by Bob Widlar) was released.
1968: Release of the μA741. The popularity of monolithic op amps was further improved upon the release of the LM101 in 1967, which solved a variety of issues, and the subsequent release of the μA741 in 1968. The μA741 was extremely similar to the LM101 except that Fairchild's facilities allowed them to include a 30 pF compensation capacitor inside the chip instead of requiring external compensation. This simple difference has made the 741 ''the'' canonical op amp and many modern amps base their pinout on the 741s. The μA741 is still in production, and has become ubiquitous in electronics—many manufacturers produce a version of this classic chip, recognizable by part numbers containing ''741''. The same part is manufactured by several companies.
1970: First high-speed, low-input current FET design.
In the 1970s high speed, low-input current designs started to be made by using
FET
The field-effect transistor (FET) is a type of transistor that uses an electric field to control the flow of current in a semiconductor. FETs (JFETs or MOSFETs) are devices with three terminals: ''source'', ''gate'', and ''drain''. FETs contr ...
s. These would be largely replaced by op amps made with
MOSFET
The metal–oxide–semiconductor field-effect transistor (MOSFET, MOS-FET, or MOS FET) is a type of field-effect transistor (FET), most commonly fabricated by the controlled oxidation of silicon. It has an insulated gate, the voltage of which d ...
s in the 1980s.
1972: Single sided supply op amps being produced. A single sided supply op amp is one where the input and output voltages can be as low as the negative power supply voltage instead of needing to be at least two volts above it. The result is that it can operate in many applications with the negative supply pin on the op amp being connected to the signal ground, thus eliminating the need for a separate negative power supply.
The LM324 (released in 1972) was one such op amp that came in a quad package (four separate op amps in one package) and became an industry standard. In addition to packaging multiple op amps in a single package, the 1970s also saw the birth of op amps in hybrid packages. These op amps were generally improved versions of existing monolithic op amps. As the properties of monolithic op amps improved, the more complex hybrid ICs were quickly relegated to systems that are required to have extremely long service lives or other specialty systems.
Recent trends. Recently supply voltages in analog circuits have decreased (as they have in digital logic) and low-voltage op amps have been introduced reflecting this. Supplies of 5 V and increasingly 3.3 V (sometimes as low as 1.8 V) are common. To maximize the signal range modern op amps commonly have rail-to-rail output (the output signal can range from the lowest supply voltage to the highest) and sometimes rail-to-rail inputs.
See also
*
Active filter
An active filter is a type of analog circuit implementing an electronic filter using active components, typically an amplifier. Amplifiers included in a filter design can be used to improve the cost, performance and predictability of a filter.
...
*
Analog computer
An analog computer or analogue computer is a type of computer that uses the continuous variation aspect of physical phenomena such as electrical, mechanical, or hydraulic quantities (''analog signals'') to model the problem being solved. In c ...
*
Bob Widlar
Robert John Widlar (pronounced ''wide-lar''; November 30, 1937 – February 27, 1991) was an American electronics engineer and a designer of linear integrated circuits (ICs).
Early years
Widlar was born November 30, 1937 in Cleveland to pare ...
*
Current conveyor
A current conveyor is an abstraction for a three-terminal Analogue electronics, analogue electronic device. It is a form of electronic amplifier with unity Gain (electronics), gain. There are three versions of generations of the Idealization (scie ...
*
Current-feedback operational amplifier
The current-feedback operational amplifier (CFOA or CFA) is a type of electronic amplifier whose inverting input is sensitive to current, rather than to voltage as in a conventional voltage-feedback operational amplifier (VFA). The CFA was invented ...
*
Differential amplifier
A differential amplifier is a type of electronic amplifier that amplifies the difference between two input voltages but suppresses any voltage common to the two inputs. It is an analog circuit with two inputs V_\text^- and V_\text^+ and one outpu ...
*
George A. Philbrick
George A. Philbrick was responsible, through his company George A. Philbrick Researches (GAP/R), for the 1953 commercialization and wide adoption of operational amplifiers, a now-ubiquitous component of analog electronic systems, and the invention ...
*
Instrumentation amplifier
An instrumentation amplifier (sometimes shorthanded as in-amp or InAmp) is a type of differential amplifier that has been outfitted with input buffer amplifiers, which eliminate the need for input impedance matching and thus make the amplifier ...
*
Negative feedback amplifier
A negative-feedback amplifier (or feedback amplifier) is an electronic amplifier that subtracts a fraction of its output from its input, so that negative feedback opposes the original signal.
The applied negative feedback can improve its perfor ...
*
Op-amp swapping
DIY Audio means "do it yourself" audio. Rather than buying a piece of possibly expensive audio equipment, such as a high-end audio amplifier or speaker, the person practicing DIY Audio will make it him/herself. Alternatively, a DIYer may take an ...
*
Operational amplifier applications
This article illustrates some typical operational amplifier applications. A non-ideal operational amplifier's equivalent circuit has a finite input impedance, a non-zero output impedance, and a finite gain. A real op-amp has a number of non-ideal f ...
*
Operational transconductance amplifier
The operational transconductance amplifier (OTA) is an amplifier whose differential input voltage produces an output current. Thus, it is a voltage controlled current source (VCCS). There is usually an additional input for a current to control t ...
*
Sallen–Key topology
The Sallen–Key topology is an electronic filter topology used to implement second-order active filters that is particularly valued for its simplicity.
Notes
References
Further reading
;Books
* ''Op Amps For Everyone''; 5th Ed; Bruce Carter, Ron Mancini; Newnes; 484 pages; 2017; .
(2 MB PDF - 1st edition)
/small>
* ''Operational Amplifiers - Theory and Design''; 3rd Ed; Johan Huijsing; Springer; 423 pages; 2017; .
*
'; 3rd Ed; James Fiore; Creative Commons; 589 pages; 2016.(13 MB PDF Text)
/small>(2 MB PDF Lab)
/small>
* ''Analysis and Design of Linear Circuits''; 8th Ed; Roland Thomas, Albert Rosa, Gregory Toussaint; Wiley; 912 pages; 2016; .
* ''Design with Operational Amplifiers and Analog Integrated Circuits''; 4th Ed; Sergio Franco; McGraw Hill; 672 pages; 2015; .
* ''Small Signal Audio Design''; 2nd Ed; Douglas Self
Douglas Self is a British electronic engineering, electronics engineer and author with a particular interest in audio. He received a first class honours degree in engineering from Cambridge University, and then studied psychoacoustics at Sussex ...
; Focal Press; 780 pages; 2014; .
* ''Linear Circuit Design Handbook''; 1st Ed; Hank Zumbahlen; Newnes; 960 pages; 2008; . (35 MB PDF)
/small>
* ''Op Amp Applications Handbook''; 1st Ed; Walt Jung
Walter G Jung, commonly known as Walt Jung, is an American electronic engineer and author. He worked for Linear Technology and Analog Devices. He has written a number of books, the most popular of which is the ''IC Op Amp Cookbook'', which has be ...
; Analog Devices & Newnes; 896 pages; 2005; . (17 MB PDF)
/small>
* ''Operational Amplifiers and Linear Integrated Circuits''; 6th Ed; Robert Coughlin, Frederick Driscoll; Prentice Hall; 529 pages; 2001; .
* ''Active-Filter Cookbook''; 2nd Ed; Don Lancaster
Donald E. Lancaster is an American author, inventor, and microcomputer pioneer.
Background
Lancaster is a writer and engineer, who authored multiple articles for computer and electronics magazines of the 1970s, including ''Popular Electronics' ...
; Sams; 240 pages; 1996; . (28 MB PDF - 1st edition)
/small>
* ''IC Op-Amp Cookbook''; 3rd Ed; Walt Jung
Walter G Jung, commonly known as Walt Jung, is an American electronic engineer and author. He worked for Linear Technology and Analog Devices. He has written a number of books, the most popular of which is the ''IC Op Amp Cookbook'', which has be ...
; Prentice Hall; 433 pages; 1986; . (18 MB PDF - 1st edition)
/small>
* ''Engineer's Mini-Notebook – OpAmp IC Circuits''; 1st Ed; Forrest Mims
Forrest M. Mims III is an American amateur scientist,['Country Scientist' starting co ...](_blank)
III; Radio Shack; 49 pages; 1985; ASIN B000DZG196. (4 MB PDF)
/small>
* ''Intuitive IC Op Amps - from Basics to Useful Applications''; 1st Ed; Thomas Frederiksen; National Semiconductor
National Semiconductor was an American semiconductor manufacturer which specialized in analog devices and subsystems, formerly with headquarters in Santa Clara, California. The company produced power management integrated circuits, display drive ...
; 299 pages; 1984; .
* ''Designing with Operational Amplifiers - Applications Alternatives''; 1st Ed; Jerald Graeme; Burr-Brown
The Burr-Brown Corporation was an American technology company in Tucson, Arizona, which designed, manufactured, and marketed a broad line of proprietary, standard, high-performance, analog and mixed-signal integrated circuits (ICs) used in elec ...
& McGraw Hill; 269 pages; 1976; .
* ''Applications of Operational Amplifiers - Third Generation Techniques''; 1st Ed; Jerald Graeme; Burr-Brown
The Burr-Brown Corporation was an American technology company in Tucson, Arizona, which designed, manufactured, and marketed a broad line of proprietary, standard, high-performance, analog and mixed-signal integrated circuits (ICs) used in elec ...
& McGraw Hill; 233 pages; 1973; . (37 MB PDF)
/small>
* ''Understanding IC Operational Amplifiers''; 1st Ed; Roger Melen
Roger Douglas Melen (born 1946)
is an electrical engineer recognized for his early contributions to the microcomputer industry, and for his technical innovations.
Dr. Melen was co-founder of Cromemco, one of the earliest microcomputer companies. ...
and Harry Garland
Harry T. Garland (born 1947) is a scientist, engineer, author, and entrepreneur who co-founded Cromemco Inc., one of the earliest and most successful microcomputer companies. He received the B.A. degree in mathematics from Kalamazoo College, and ...
; Sams Publishing; 128 pages; 1971; . ''(archive)''
/small>
* ''Operational Amplifiers - Design and Applications''; 1st Ed; Jerald Graeme, Gene Tobey, Lawrence Huelsman; Burr-Brown
The Burr-Brown Corporation was an American technology company in Tucson, Arizona, which designed, manufactured, and marketed a broad line of proprietary, standard, high-performance, analog and mixed-signal integrated circuits (ICs) used in elec ...
& McGraw Hill; 473 pages; 1971; .
;Books with opamp chapters
* ''Learning the Art of Electronics - A Hands-On Lab Course''; 1st Ed; Thomas Hayes, Paul Horowitz
Paul Horowitz (born 1942) is an American physicist and electrical engineer, known primarily for his work in electronics design, as well as for his role in the search for extraterrestrial intelligence (see SETI).
Biography
At age 8, Horowitz ac ...
; Cambridge; 1150 pages; 2016; . (Part 3 is 268 pages)
* ''The Art of Electronics
''The Art of Electronics'', by Paul Horowitz and Winfield Hill, is a popular reference textbook dealing with analog and digital electronics. The first edition was published in 1980, and the 1989 second edition has been regularly reprinted.
The ...
''; 3rd Ed; Paul Horowitz
Paul Horowitz (born 1942) is an American physicist and electrical engineer, known primarily for his work in electronics design, as well as for his role in the search for extraterrestrial intelligence (see SETI).
Biography
At age 8, Horowitz ac ...
, Winfield Hill; Cambridge; 1220 pages; 2015; . (Chapter 4 is 69 pages)
*
Lessons in Electric Circuits
- Volume III - Semiconductors''; 5th Ed; Tony Kuphaldt; Open Book Project; 528 page; 2009. (Chapter 8 is 59 pages) (4 MB PDF)
/small>
* ''Troubleshooting Analog Circuits''; 1st Ed; Bob Pease
Robert Allen Pease (August 22, 1940 – June 18, 2011) was an electronics engineer known for analog integrated circuit (IC) design, and as the author of technical books and articles about electronic design. He designed several very successf ...
; Newnes; 217 pages; 1991; . (Chapter 8 is 19 pages)
* ''Analog Applications Manual''; 1st Ed; Signetics
Signetics Corporation was an American electronics manufacturer specifically established to make integrated circuits. Founded in 1961, they went on to develop a number of early microprocessors and support chips, as well as the widely used 555 time ...
; 418 pages; 1979. (Chapter 3 is 32 pages) (32 MB PDF)
/small>
External links
Op Amp Circuit Collection
National Semiconductor Corporation
- Chapter on All About Circuits
Loop Gain and its Effects on Analog Circuit Performance
- Introduction to loop gain, gain and phase margin, loop stability
How to measure offset voltage, offset and bias current, gain, CMRR, and PSRR.
Introductory on-line text by E. J. Mastascusa (Bucknell University
Bucknell University is a private liberal arts college in Lewisburg, Pennsylvania. Founded in 1846 as the University at Lewisburg, it now consists of the College of Arts and Sciences, Freeman College of Management, and the College of Engineering. ...
).
Introduction to op-amp circuit stages, second order filters, single op-amp bandpass filters, and a simple intercom
''MOS op amp design: A tutorial overview''
Operational Amplifier Noise Prediction (All Op Amps)
using spot noise
History of the Op-amp
from vacuum tubes to about 2002
Loebe Julie historical OpAmp interview
by Bob Pease
Robert Allen Pease (August 22, 1940 – June 18, 2011) was an electronics engineer known for analog integrated circuit (IC) design, and as the author of technical books and articles about electronic design. He designed several very successf ...
www.PhilbrickArchive.org
free repository of materials from George A Philbrick / Researches - Operational Amplifier Pioneer
What's The Difference Between Operational Amplifiers And Instrumentation Amplifiers?
Electronic Design Magazine
;Datasheets / Databooks
LM301, Single BJT OpAmp, Texas Instruments
LM324, Quad BJT OpAmp, Texas Instruments
LM741, Single BJT OpAmp, Texas Instruments
NE5532, Dual BJT OpAmp, Texas Instruments
(NE5534 is similar single)
TL072, Dual JFET OpAmp, Texas Instruments
(TL074 is Quad)
{{DEFAULTSORT:Operational Amplifier
Electronic amplifiers
Linear integrated circuits
Integrated circuits