an electronic amplifier
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8/22/2019 An Electronic Amplifier
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An electronic amplifier, amplifier, or (informally) amp is an electronic device that
increases thepowerof asignal. It does this by taking energy from apower supplyand
controlling the output tomatchthe input signal shape but with a largeramplitude. In this
sense, an amplifier modulates the output of the power supply.
Numerous types of electronic amplifiers are specialized to variousapplications. An amplifiercan refer to anything from anelectrical circuitthat uses a singleactive component, to a
completesystem such as a packaged audiohi-fiamplifier.
Contents
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1 Figures of merit 2 Amplifier types
o 2.1 Power amplifier 2.1.1 Power amplifiers by application 2.1.2 Power amplifier circuits
o 2.2 Vacuum-tube (valve) amplifierso 2.3 Transistor amplifierso 2.4 Operational amplifiers (op-amps)o 2.5 Fully differential amplifierso 2.6 Video amplifierso 2.7 Oscilloscope vertical amplifierso 2.8 Distributed amplifierso 2.9 Switched mode amplifierso 2.10 Negative resistance deviceso 2.11 Microwave amplifiers
2.11.1 Travelling wave tube amplifiers 2.11.2 Klystrons
o 2.12 Musical instrument amplifiers 3 Classification of amplifier stages and systems
o 3.1 Input and output variableso 3.2 Common terminalo 3.3 Unilateral or bilateralo 3.4 Inverting or non-invertingo 3.5 Functiono 3.6 Interstage coupling methodo 3.7 Frequency range
4 Power amplifier classeso 4.1 Conduction angle classeso 4.2 Class A
4.2.1 Advantages of class-A amplifiers 4.2.2 Disadvantage of class-A amplifiers 4.2.3 Single-ended and triode class-A amplifiers
o 4.3 Class Bo 4.4 Class ABo 4.5 Class Co 4.6 Class Do 4.7 Additional classes
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tionhttp://en.wikipedia.org/wiki/Electronic_amplifier#Interstage_coupling_methodhttp://en.wikipedia.org/wiki/Electronic_amplifier#Interstage_coupling_methodhttp://en.wikipedia.org/wiki/Electronic_amplifier#Frequency_rangehttp://en.wikipedia.org/wiki/Electronic_amplifier#Frequency_rangehttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifier_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifier_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Conduction_angle_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Conduction_angle_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Ahttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Ahttp://en.wikipedia.org/wiki/Electronic_amplifier#Advantages_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Advantages_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Disadvantage_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Disadvantage_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Single-ended_and_triode_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Single-ended_and_triode_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Bhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Bhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_ABhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_ABhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Chttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Chttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Dhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Dhttp://en.wikipedia.org/wiki/Electronic_amplifier#Additional_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Additional_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Additional_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Dhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Chttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_ABhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Bhttp://en.wikipedia.org/wiki/Electronic_amplifier#Single-ended_and_triode_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Disadvantage_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Advantages_of_class-A_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Ahttp://en.wikipedia.org/wiki/Electronic_amplifier#Conduction_angle_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifier_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Frequency_rangehttp://en.wikipedia.org/wiki/Electronic_amplifier#Interstage_coupling_methodhttp://en.wikipedia.org/wiki/Electronic_amplifier#Functionhttp://en.wikipedia.org/wiki/Electronic_amplifier#Inverting_or_non-invertinghttp://en.wikipedia.org/wiki/Electronic_amplifier#Unilateral_or_bilateralhttp://en.wikipedia.org/wiki/Electronic_amplifier#Common_terminalhttp://en.wikipedia.org/wiki/Electronic_amplifier#Input_and_output_variableshttp://en.wikipedia.org/wiki/Electronic_amplifier#Classification_of_amplifier_stages_and_systemshttp://en.wikipedia.org/wiki/Electronic_amplifier#Musical_instrument_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Klystronshttp://en.wikipedia.org/wiki/Electronic_amplifier#Travelling_wave_tube_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Microwave_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Negative_resistance_deviceshttp://en.wikipedia.org/wiki/Electronic_amplifier#Switched_mode_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Distributed_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Oscilloscope_vertical_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Video_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Fully_differential_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Operational_amplifiers_.28op-amps.29http://en.wikipedia.org/wiki/Electronic_amplifier#Transistor_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Vacuum-tube_.28valve.29_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifier_circuitshttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifiers_by_applicationhttp://en.wikipedia.org/wiki/Electronic_amplifier#Power_amplifierhttp://en.wikipedia.org/wiki/Electronic_amplifier#Amplifier_typeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Figures_of_merithttp://en.wikipedia.org/wiki/Electronic_amplifierhttp://en.wikipedia.org/wiki/Hi-fihttp://en.wikipedia.org/wiki/Electronic_amplifierhttp://en.wikipedia.org/wiki/Active_componenthttp://en.wikipedia.org/wiki/Electrical_circuithttp://en.wikipedia.org/wiki/Electronic_amplifierhttp://en.wikipedia.org/wiki/Amplitudehttp://en.wikipedia.org/wiki/Electronic_amplifierhttp://en.wikipedia.org/wiki/Power_supplyhttp://en.wikipedia.org/wiki/Signal_(information_theory)http://en.wikipedia.org/wiki/Power_(physics) 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4.7.1 Class E 4.7.2 Class F 4.7.3 Classes G and H 4.7.4 Doherty amplifiers 4.7.5 Special classes
5 Implementationo 5.1 Amplifier circuito 5.2 Notes on implementation
6 See also 7 References 8 External links
Figures of merit[edit]
Main article:Amplifier figures of merit
Amplifier quality is characterized by a list of specifications that includes:
Gain, the ratio between the magnitude of output and input signals Bandwidth, the width of the usefulfrequency range Efficiency, the ratio between the power of the output and total power consumption Linearity, the degree of proportionality between input and output Noise, a measure of undesired noise mixed into the output Outputdynamic range, the ratio of the largest and the smallest useful output levels Slew rate, the maximum rate ofchangeof the output Rise time,settling time,ringingandovershootthat characterize thestep response Stability, the ability to avoidself-oscillation
Amplifier types[edit]
Amplifiers are described according to their input and output properties.[1]They have some
kind ofgain, or multiplication factor that relates the magnitude of the output signal to the
input signal. The gain may be specified as the ratio of outputvoltageto input voltage (voltage
gain), output power to input power(power gain), or some combination of current, voltage,
and power. In many cases, with input and output in the same unit, gain is unitless (though
often expressed indecibels). For others this is not necessarily so. For example, a
transconductance amplifierhas a gain with units ofconductance(output current per inputvoltage). The power gain of an amplifier depends on the source and loadimpedancesused as
well as its voltage gain; while anRFamplifier may have its impedances optimized for power
transfer, audio and instrumentation amplifiers are normally employed with amplifier input
and output impedances optimized for least loading and highest quality. So an amplifier that is
said to have a gain of 20 dB might have a voltage gain of ten times and an available power
gain of much more than 20 dB (100 times power ratio), yet be delivering a much lower power
gain if, for example, the input is a 600 ohm microphone and the output is a 47 kilohm power
amplifier's input socket.
In most cases an amplifier should be linear; that is, the gain should be constant for any
combination of input and output signal. If the gain is not constant, e.g., by clipping the output
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r_gainhttp://en.wikipedia.org/wiki/Voltage_gainhttp://en.wikipedia.org/wiki/Voltage_gainhttp://en.wikipedia.org/wiki/Voltagehttp://en.wikipedia.org/wiki/Gainhttp://en.wikipedia.org/wiki/Electronic_amplifier#cite_note-1http://en.wikipedia.org/w/index.php?title=Amplifier&action=edit§ion=2http://en.wikipedia.org/wiki/Parasitic_oscillationhttp://en.wikipedia.org/wiki/BIBO_stabilityhttp://en.wikipedia.org/wiki/Step_responsehttp://en.wikipedia.org/wiki/Overshoot_(signal)http://en.wikipedia.org/wiki/Ringing_(signal)http://en.wikipedia.org/wiki/Settling_timehttp://en.wikipedia.org/wiki/Rise_timehttp://en.wikipedia.org/wiki/Electronic_amplifierhttp://en.wikipedia.org/wiki/Slew_ratehttp://en.wikipedia.org/wiki/Dynamic_rangehttp://en.wikipedia.org/wiki/Noise_(electronics)http://en.wikipedia.org/wiki/Nonlinear_systemhttp://en.wikipedia.org/wiki/Electronic_amplifier#Frequency_rangehttp://en.wikipedia.org/wiki/Bandwidth_(signal_processing)http://en.wikipedia.org/wiki/Gainhttp://en.wikipedia.org/wiki/Amplifier_figures_of_merithttp://en.wikipedia.org/w/index.php?title=Amplifier&action=edit§ion=1http://en.wikipedia.org/wiki/Electronic_amplifier#External_linkshttp://en.wikipedia.org/wiki/Electronic_amplifier#Referenceshttp://en.wikipedia.org/wiki/Electronic_amplifier#See_alsohttp://en.wikipedia.org/wiki/Electronic_amplifier#Notes_on_implementationhttp://en.wikipedia.org/wiki/Electronic_amplifier#Amplifier_circuithttp://en.wikipedia.org/wiki/Electronic_amplifier#Implementationhttp://en.wikipedia.org/wiki/Electronic_amplifier#Special_classeshttp://en.wikipedia.org/wiki/Electronic_amplifier#Doherty_amplifiershttp://en.wikipedia.org/wiki/Electronic_amplifier#Classes_G_and_Hhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_Fhttp://en.wikipedia.org/wiki/Electronic_amplifier#Class_E 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signal at the limits of its capabilities, the output signal is distorted. There are however cases
wherevariable gainis useful.
There are many types of electronic amplifiers, commonly used inradioandtelevision
transmittersandreceivers,high-fidelity("hi-fi") stereo equipment, microcomputers and other
electronic digital equipment, andguitarand otherinstrument amplifiers. Critical componentsincludeactive devices, such asvacuum tubesortransistors. A brief introduction to the many
types of electronic amplifier follows.
Power amplifier[edit]
The termpower amplifieris a relative term with respect to the amount of power delivered to
the load and/or sourced by the supply circuit. In general a power amplifier is designated as
the last amplifier in a transmission chain (the output stage) and is the amplifier stage that
typically requires most attention to power efficiency. Efficiency considerations lead to
various classes of power amplifier based on the biasing of the output transistors or tubes: see
power amplifier classes.
Power amplifiers by application[edit]
Audio power amplifiers RF power amplifier, such as for transmitter final stages (see also:Linear amplifier). Servo motor controllers, where linearity is not important. Piezoelectric audio amplifier includes aDC-to-DC converterto generate the high
voltage output required to drivepiezoelectric speakers.[2]
Power amplifier circuits[edit]
Power amplifier circuits include the following types:
Vacuum tube/valve, hybrid ortransistor power amplifiers Push-pull outputorsingle-ended outputstages
Vacuum-tube (valve) amplifiers[edit]
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AnECC83tube glowing inside apreamp
Main article:Valve amplifier
According to Symons, while semiconductor amplifiers have largely displaced valve
amplifiers for low power applications, valve amplifiers are much more cost effective in high
power applications such as "radar, countermeasures equipment, or communications
equipment" (p. 56). Manymicrowave amplifiersare specially designed valves, such as the
klystron,gyrotron,traveling wave tube, andcrossed-field amplifier, and these microwave
valves provide much greater single-device power output at microwave frequencies than solid-
state devices (p. 59).[3]
Valves/tube amplifiers also have niche uses in other areas, such as
electric guitaramplification in Russian military aircraft, for theirEMPtolerance niche audio for their sound qualities (recording, andaudiophileequipment)
Transistor amplifiers[edit]
See also:Transistor,Bipolar junction transistor,Field-effect transistor,JFET, andMOSFET
The essential role of this active element is to magnify an input signal to yield a significantly
larger output signal. The amount of magnification (the "forward gain") is determined by the
external circuit design as well as the active device.
Many common active devices in transistor amplifiers arebipolar junction transistors(BJTs)
andmetal oxide semiconductor field-effect transistors(MOSFETs).
Applications are numerous, some common examples are audio amplifiers in a home stereo or
PA system, RF high power generation for semiconductor equipment, to RF and Microwave
applications such as radio transmitters.
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Transistor-based amplifier can be realized using various configurations: for example with a
bipolar junction transistor we can realizecommon base,common collectororcommon
emitteramplifier; using a MOSFET we can realizecommon gate,common sourceor
common drainamplifier. Each configuration has different characteristic (gain, impedance...).
Operational amplifiers (op-amps)[edit]
An LM741 general purposeop-amp
Main articles:Operational amplifierandInstrumentation amplifier
An operational amplifier is an amplifier circuit with very high open loop gain and differential
inputs that employs external feedback to control its transfer function, orgain. Though the
term today commonly applies to integrated circuits, the original operational amplifier design
used valves.
Fully differential amplifiers[edit]
Main article:Fully differential amplifier
A fully differential amplifier is a solid state integrated circuit amplifier that uses external
feedback to control its transfer function orgain. It is similar to the operational amplifier, but
also has differential output pins. These are usually constructed usingBJTsorFETs.
Video amplifiers[edit]
These deal with video signals and have varying bandwidths depending on whether the videosignal is for SDTV, EDTV, HDTV 720p or 1080i/p etc.. The specification of the bandwidth
itself depends on what kind of filter is usedand at which point (-1 dB or -3 dB for example)
the bandwidth is measured. Certain requirements for step response and overshoot are
necessary for an acceptable TV image.
Oscilloscope vertical amplifiers[edit]
These deal with video signals that drive an oscilloscope display tube, and can have
bandwidths of about 500 MHz. The specifications on step response, rise time, overshoot, and
aberrations can make designing these amplifiers difficult. One of the pioneers in high
bandwidth vertical amplifiers was theTektronixcompany.
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Distributed amplifiers[edit]
Main article:Distributed Amplifier
These usetransmission linesto temporally split the signal and amplify each portion
separately to achieve higherbandwidththan possible from a single amplifier. The outputs ofeach stage are combined in the output transmission line. This type of amplifier was
commonly used onoscilloscopesas the final vertical amplifier. The transmission lines were
often housed inside the display tube glass envelope.
Switched mode amplifiers[edit]
These nonlinear amplifiers have much higher efficiencies than linear amps, and are used
where the power saving justifies the extra complexity.
Negative resistance devices[edit]
Negative resistancescan be used as amplifiers, such as thetunnel diodeamplifier.
Microwave amplifiers[edit]
Travelling wave tube amplifiers[edit]
Main article:Traveling wave tube
Traveling wave tubeamplifiers (TWTAs) are used for high power amplification at low
microwave frequencies. They typically can amplify across a broad spectrum of frequencies;however, they are usually not as tunable as klystrons.
Klystrons[edit]
Main article:Klystron
Klystrons are specialized linear-beam vacuum-devices, designed to provide high power,
widely tunable amplification of millimetre and sub-millimetre waves. Klystrons are designed
for large scale operations and despite having a narrower bandwidth than TWTAs, they have
the advantage of coherently amplifying a reference signal so its output may be precisely
controlled in amplitude, frequency and phase.
Musical instrument amplifiers[edit]
Main article:Instrument amplifier
An audio power amplifier is usually used to amplify signals such as music or speech. Severalfactors are especially important in the selection of musical instrument amplifiers (such as
guitar amplifiers) and other audio amplifiers (although the whole of thesound system
components such asmicrophonestoloudspeakersaffect these parameters):
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Frequency responsenot just the frequency range but the requirement that the signallevel varies so little across theaudible frequency rangethat the human ear notices no
variation. A typical specification for audio amplifiers may be 20Hzto 20kHz+/-
0.5dB.
Power outputthe power level obtainable with little distortion, to obtain asufficiently loudsound pressure levelfrom theloudspeakers.
Lowdistortionall amplifiers andtransducersdistort to some extent. They cannot beperfectly linear, but aim to pass signals without affecting theharmoniccontent of the
sound more than the human ear can tolerate. That tolerance of distortion, and indeed
the possibility that some "warmth" or second harmonic distortion (Tube sound)
improves the "musicality" of the sound, are subjects of great debate.
Classification of amplifier stages and systems[edit]
This section does notciteanyreferences or sources. Please help improve this
section byadding citations to reliable sources. Unsourced material may bechallenged andremoved.(October 2008)
Many alternative classifications address different aspects of amplifier designs, and they all
express some particular perspective relating the design parameters to the objectives of the
circuit. Amplifier design is always a compromise of numerous factors, such as cost, power
consumption, real-world device imperfections, and a multitude of performance specifications.
Below are several different approaches to classification:
Input and output variables[edit]
The four types of dependent sourcecontrol variable on left, output variable on right
Electronic amplifiers use one variable presented as either a current and voltage. Either current
or voltage can be used as input and either as output, leading to four types of amplifiers. In
idealized form they are represented by each of the four types ofdependent sourceused in
linear analysis, as shown in the figure, namely:
Input Output Dependent source Amplifier type
I I current controlled current source CCCS current amplifier
I V current controlled voltage source CCVS transresistanceamplifier
V I voltage controlled current source VCCStransconductanceamplifier
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V V voltage controlled voltage source VCVS voltage amplifier
Each type of amplifier in its ideal form has an ideal input and output resistance that is the
same as that of the corresponding dependent source:[4]
Amplifier type Dependent source Input impedance Output impedance
Current CCCS 0
Transresistance CCVS 0 0
Transconductance VCCS
Voltage VCVS 0
In practice the ideal impedances are only approximated. For any particular circuit, a small-
signal analysis is often used to find the impedance actually achieved. A small-signal AC test
currentIx is applied to the input or output node, all external sources are set to AC zero, and
the corresponding alternating voltage Vx across the test current source determines theimpedance seen at that node asR = Vx / Ix.
Amplifiers designed to attach to atransmission lineat input and/or output, especiallyRF
amplifiers, do not fit into this classification approach. Rather than dealing with voltage or
current individually, they ideally couple with an input and/or output impedance matched to
the transmission line impedance, that is, match ratios of voltage to current. Many real RF
amplifiers come close to this ideal. Although, for a given appropriate source and load
impedance, RF amplifiers can be characterized as amplifying voltage or current, they
fundamentally are amplifying power.[5]
Common terminal[edit]
One set of classifications for amplifiers is based on which device terminal is common to both
the input and the output circuit. In the case ofbipolar junction transistors, the three classes are
common emitter,common base, andcommon collector. Forfield-effect transistors, the
corresponding configurations arecommon source,common gate, andcommon drain; for
triode vacuum devices,common cathode, common grid, and common plate. The output
voltage of a common plate amplifier is the same as the input (this arrangement is used as the
input presents a high impedance and does not load the signal source, although it does not
amplify the voltage), i.e., the output at the cathode follows the input at the grid; consequently
it was commonly called a cathode follower. By analogy the terms emitter followerandsource
followerare sometimes used.
Unilateral or bilateral[edit]
When an amplifier has an output that exhibits no feedback to its input side, it is called
'unilateral'. The input impedance of a unilateral amplifier is independent of the load, and theoutput impedance is independent of the signal source impedance.
If feedback connects part of the output back to the input of the amplifier it is called a
'bilateral' amplifier. The input impedance of a bilateral amplifier is dependent upon the load,
and the output impedance is dependent upon the signal source impedance.
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All amplifiers are bilateral to some degree; however they may often be modeled as unilateral
under operating conditions where feedback is small enough to neglect for most purposes,
simplifying analysis (see thecommon basearticle for an example).
Negative feedbackis often applied deliberately to tailor amplifier behavior. Some feedback,
which may be positive or negative, is unavoidable and often undesirable, introduced, forexample, byparasitic elementssuch as the inherent capacitance between input and output of a
device such as a transistor and capacitative coupling due to external wiring. Excessive
frequency-dependent positive feedback may cause what is intended/expected to be an
amplifier to become anoscillator.
Linear unilateral and bilateral amplifiers can be represented astwo-port networks.
Inverting or non-inverting[edit]
Another way to classify amps is the phase relationship of the input signal to the output signal.
An 'inverting' amplifier produces an output 180 degrees out of phase with the input signal
(that is, a polarity inversion or mirror image of the input as seen on anoscilloscope). A 'non-
inverting' amplifier maintains the phase of the input signal waveforms. Anemitter followeris
a type of non-inverting amplifier, indicating that the signal at the emitter of a transistor is
following (that is, matching with unity gain but perhaps an offset) the input signal.
This description can apply to a single stage of an amplifier, or to a complete amplifier system.
Function[edit]
Other amplifiers may be classified by their function or output characteristics. Thesefunctional descriptions usually apply to complete amplifier systems or sub-systems and rarely
to individual stages.
Aservo amplifierindicates an integratedfeedback loopto actively control the outputat some desired level. A DCservoindicates use at frequencies down to DC levels,
where the rapid fluctuations of an audio or RF signal do not occur. These are often
used in mechanical actuators, or devices such asDC motorsthat must maintain a
constant speed ortorque. An AC servo amp can do this for some ac motors.
A linear amplifier responds to different frequency components independently, anddoes not generateharmonic distortionorIntermodulationdistortion.
A nonlinear amplifier does generate distortion. For example, it may output to a lamp that
must be either fully on or off based on a threshold in a continuously variable input. In other
examples, a non-linear amplifier in ananalog computercan provide a special transfer
function, such as logarithmicor a followingtuned circuitremoves harmonics generated by
a nonlinear RF amplifier. Even the most linear amplifier has some nonlinearities, since the
amplifying devicestransistorsorvacuum tubesfollow nonlinearpower lawssuch as
square-lawsand rely on circuitry techniques to reduce those effects.
A wideband amplifier has a precise amplification factor over a wide frequency range,and is often used to boost signals for relay in communications systems. A
narrowband amp amplifies a specific narrow range of frequencies, to the exclusionof other frequencies.
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An RF amplifier amplifies signals in theradio frequencyrange of theelectromagneticspectrum, and is often used to increase the sensitivity of areceiveror the output
power of atransmitter.
An audio amplifier amplifiesaudiofrequencies. This category subdivides into smallsignal amplification, and power amps that are optimised to driving speakers,
sometimes with multiple amps grouped together as separate or bridgeable channels toaccommodate different audio reproduction requirements. Frequently used terms
within audio amplifiers include:
o Preamplifier(preamp), which may include aphonopreamp withRIAAequalization, ortape headpreamps withCCIRequalisation filters. They may
includefiltersortone controlcircuitry.
o Power amplifier(normally drivesloudspeakers),headphoneamplifiers, andpublic address amplifiers.
o Stereoamplifiers imply two channels of output (left and right), though theterm simply means "solid" sound (referring to three-dimensional)so
quadraphonicstereo was used for amplifiers with four channels. 5.1 and 7.1
systems refer toHome theatre systemswith 5 or 7 normal spacial channels,plus asubwooferchannel.
Buffer amplifiers, which may includeemitter followers, provide a highimpedanceinput for a device (perhaps another amplifier, or perhaps an energy-hungry load such
as lights) that would otherwise draw too much current from the source.Line drivers
are a type of buffer that feeds long or interference-prone interconnect cables, possibly
withdifferentialoutputs throughtwisted paircables.
A special type of amplifier is widely used in measuring instruments for signalprocessing, and many other uses. These are calledoperational amplifiersorop-
amps. The "operational" name is because this type of amplifier can be used in circuits
that perform mathematical algorithmic functions, or "operations" on input signals to
obtain specific types of output signals. A typical modern op-amp has differential
inputs (one "inverting", one "non-inverting") and one output.
An idealisedop-amp has the following characteristics:
o Infinite input impedance (so it does not load the circuitry at its input)o Zero output impedanceo Infinite gaino Zero propagation delay
The performance of an op-amp with these characteristics is entirely defined by the (usually
passive) components that form a negative feedback loop around it. The amplifier itself does
not effect the output.
Modern op-amps are usually provided as integrated circuits, rather than constructed from
discrete components. All real-world op-amps fall short of the idealised specification above
but some modern components have remarkable performance and come close in some
respects.
Interstage coupling method[edit]
See also:multistage amplifiers
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_equalizationhttp://en.wikipedia.org/wiki/RIAA_equalizationhttp://en.wikipedia.org/wiki/Phonographhttp://en.wikipedia.org/wiki/Preamplifierhttp://en.wikipedia.org/wiki/Loudspeakerhttp://en.wikipedia.org/wiki/Sound_reproductionhttp://en.wikipedia.org/wiki/Transmitterhttp://en.wikipedia.org/wiki/Receiver_(radio)http://en.wikipedia.org/wiki/Electromagnetic_spectrumhttp://en.wikipedia.org/wiki/Electromagnetic_spectrumhttp://en.wikipedia.org/wiki/Radio_frequency 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Amplifiers are sometimes classified by the coupling method of the signal at the input, output,
or between stages. Different types of these include:
Resistive-capacitive (RC) coupled amplifier, using a network of resistors and capacitors
By design these amplifiers cannot amplify DC signals as the capacitors block the DC
component of the input signal. RC-coupled amplifiers were used very often in circuitswith vacuum tubes or discrete transistors. In the days of the integrated circuit a few
more transistors on a chip are much cheaper and smaller than a capacitor.
Inductive-capacitive (LC) coupled amplifier, using a network of inductors and capacitors
This kind of amplifier is most often used in selective radio-frequency circuits.
Transformercoupled amplifier, using a transformer to match impedances or to decouple parts
of the circuits
Quite often LC-coupled and transformer-coupled amplifiers cannot be distinguished
as a transformer is some kind of inductor.
Direct coupled amplifier, using no impedance and bias matching components
This class of amplifier was very uncommon in the vacuum tube days when the anode
(output) voltage was at greater than several hundred volts and the grid (input) voltageat a few volts minus. So they were only used if the gain was specified down to DC
(e.g., in an oscilloscope). In the context of modern electronics developers areencouraged to use directly coupled amplifiers whenever possible.
Frequency range[edit]
Depending on the frequency range and other properties amplifiers are designed according to
different principles.
Frequency ranges down to DC are only used when this property is needed. DCamplification leads to specific complications that are avoided if possible; DC-
blockingcapacitorsare added to remove DC and sub-sonic frequencies from audio
amplifiers.
Depending on the frequency range specified different design principles must be used.Up to the MHz range only "discrete" properties need be considered; e.g., a terminal
has an input impedance.
As soon as any connection within the circuit gets longer than perhaps 1% of thewavelength of the highest specified frequency (e.g., at 100 MHz the wavelength is
3 m, so the critical connection length is approx. 3 cm) design properties radically
change. For example, a specified length and width of aPCBtrace can be used as a
selective or impedance-matching entity. Above a few hundred MHz, it gets difficult to use discrete elements, especially
inductors. In most cases, PCB traces of very closely defined shapes are used instead.
The frequency range handled by an amplifier might be specified in terms ofbandwidth
(normally implying a response that is 3dBdown when the frequency reaches the specified
bandwidth), or by specifying a frequency response that is within a certain number of
decibelsbetween a lower and an upper frequency (e.g. "20 Hz to 20 kHz plus or minus
1 dB").
Power amplifier classes[edit]
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Power amplifier circuits (output stages) are classified as A, B, AB and C foranalogdesigns,
and class D and E for switching designs based on the proportion of each input cycle
(conduction angle), during which an amplifying device is passing current. The image of the
conduction angle is derived from amplifying a sinusoidal signal. If the device is always on,
the conducting angle is 360. If it is on for only half of each cycle, the angle is 180. The
angle of flow is closely related to the amplifierpower efficiency. The various classes areintroduced below, followed by a more detailed discussion under their individual headings
further down.
In the illustrations below, abipolar junction transistoris shown as the amplifying device, but
the same attributes are found if withMOSFETsor vacuum tubes.
Conduction angle classes[edit]
Class A
100% of the input signal is used (conduction angle = 360). The active element
remains conducting[6]all of the time.
Class B
50% of the input signal is used ( = 180); the active element carries current half of
each cycle, and is turned off for the other half.
Class AB
Class AB is intermediate between class A and B, the two active elements conduct
more than half of the time
Class C
Less than 50% of the input signal is used (conduction angle < 180).
A "Class D" amplifier uses some form ofpulse-width modulationto control the outputdevices; the conduction angle of each device is no longer related directly to the input signal
but instead varies in pulse width. These are sometimes called "digital" amplifiers because the
output device is switched fully on or off, and not carrying current proportional to the signal
amplitude.
Additional classes
There are several other amplifier classes, although they are mainly variations of the
previous classes. For example, class-G and class-H amplifiers are marked by variation
of the supply rails (in discrete steps or in a continuous fashion, respectively) following
the input signal. Wasted heat on the output devices can be reduced as excess voltage
is kept to a minimum. The amplifier that is fed with these rails itself can be of anyclass. These kinds of amplifiers are more complex, and are mainly used for
specialized applications, such as very high-power units. Also, class-E and class-F
amplifiers are commonly described in literature for radio-frequency applications
where efficiency of the traditional classes is important, yet several aspects deviate
substantially from their ideal values. These classes use harmonic tuning of their
output networks to achieve higher efficiency and can be considered a subset of class C
due to their conduction-angle characteristics.
Class A[edit]
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Class-A amplifier
Amplifying devices operating in class A conduct over the whole of the input cycle. A class-A
amplifieris distinguished by the output stage being biased into class A (see definition above).
Subclass A2 is sometimes used to refer to vacuum-tube class-A stages where the grid is
allowed to be driven slightly positive on signal peaks, resulting in slightly more power than
normal class A (A1; where the grid is always negative[7]
), but incurring more distortion.
Advantages of class-A amplifiers[edit]
Class-A designs are simpler than other classes; for example class-AB and -B designsrequire two devices (pushpull output) to handle both halves of the waveform; class A
can use a single devicesingle-ended.
The amplifying element is biased so the device is always conducting to some extent,normally implying the quiescent (small-signal) collector current (fortransistors; drain
current forFETsor anode/plate current for vacuum tubes) is close to the most linear
portion of itstransconductancecurve.
Because the device is never shut off completely there is no "turn on" time, littleproblem with charge storage, and generally better high frequency performance andfeedback loop stability (and usually fewer high-order harmonics).
The point at which the device comes closest to being cut off is not close to zerosignal, so the problem ofcrossover distortionassociated with class-AB and -B designs
is avoided.
Disadvantage of class-A amplifiers[edit]
They are very inefficient. A theoretical maximum of 50% is obtainable with inductiveoutput coupling and only 25% with capacitive coupling, unless deliberate use of
nonlinearities is made (such as insquare-law output stages). In a power amplifier, this
not only wastes power and limits battery operation, increase costs and may restrict theoutput devices that can be used (for example, ruling out some audio triodes to
accommodate modern low-efficiencyloudspeakers. Inefficiency comes not just from
the fact that the device is always conducting to some extent. (That happens even with
class AB, yet its efficiency can be close to class B.) It is that the standing current is
roughly half the maximum output current (though this can be less with a square law
output stage), and a large part of the power supply voltage develops across the output
device at low signal levels (as with classes AB and B, but unlike output stages such as
class D). If high output powers are needed from a class-A circuit, the power waste
(and the accompanying heat) becomes significant. For everywattdelivered to the
load, the amplifier itself, at best, dissipates another watt. For large powers this means
very large and expensive power supplies and heat sinking.
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