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{{Other uses |Heat exchanger#Regenerative heat exchanger}}
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[[File:Regenerartive Receiver-S7300059.JPG|250px|thumb|Homebuilt one-tube regenerative [[shortwave]] radio set with vintage headphones.]]
[[File:Regenerartive Receiver-S7300056.JPG|250px|thumb|Rear view of the above radio, showing the simplicity of the regenerative design.]]


The '''regenerative circuit''' (or '''self-regenerative circuit''') or "[[autodyne]]" allows an electronic signal to be amplified many times by the same [[vacuum tube]] or other [[Electrical element|active component]] such as a [[field effect transistor]].   It consists of an amplifying vacuum tube or transistor with its output connected to its input through a [[feedback loop]], providing [[positive feedback]].  This circuit was widely used in [[radio receiver]]s, called '''regenerative receivers''', between 1920 and [[World War II]].  The regenerative receiver was invented and patented in 1914 by American electrical engineer [[Edwin Armstrong]] when he was an undergraduate at [[Columbia University]].  Regenerative receiver circuits are still used in low-cost electronic equipment such as [[garage door opener]]s. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the  '''superregenerative receiver''', was invented by Armstrong in 1922, but was not as widely used.
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==How it works==
[[File:Regenerative Receiver.png|246px|thumb|right|Vacuum tube regenerative receiver schematic. Most regenerative receivers used this [[Armstrong oscillator|Armstrong circuit]], in which the feedback was applied to the input (grid) of the tube with a "tickler coil" winding on the tuning inductor.]]
 
Any [[radio frequency]] feedback [[oscillator]] topology can be operated as a regenerative receiver if modified to provide a controllable reduction in feedback loop coupling, a method of coupling the loop to an incoming signal source, and a method of coupling audio frequencies out of the loop to a subsequent audio amplification stage (or high efficiency headphones). It functions as a combination of an oscillator and [[frequency mixer|mixer]] which converts the modulation directly to the audio baseband.
 
Because of the large amplification possible with regeneration, regenerative receivers often use only a single amplifying element (tube or transistor). In a regenerative receiver the output of the tube or transistor is connected to its input through a [[feedback loop]] with a [[tuned circuit]] (LC circuit) as a filter in it.  The tuned circuit allows positive feedback only at its [[resonant frequency]]. The tuned circuit is also connected to the antenna and serves to select the radio frequency to be received, and is adjustable to tune in different stations. The feedback loop also has a means of adjusting the amount of feedback (the [[loop gain]]).  For AM signals the tube also functions as a [[Detector (radio)|detector]], [[Rectifier|rectifying]] the RF signal to recover the [[Audio signal|audio]] [[modulation]]; for this reason the circuit is also called a ''regenerative detector''.
 
===AM reception===
For [[amplitude modulation|AM]] reception, the gain of the loop is adjusted so it is just below the level required for [[oscillation]] (a loop gain of just less than one).  The result of this is to increase the [[gain]] of the amplifier by a large factor at the bandpass frequency (resonant frequency), while not increasing it at other frequencies.  So the incoming radio signal is amplified by a large amount, 10<sup>3</sub> - 10<sup>5</sup>, increasing the receiver's sensitivity to weak signals.  The high gain also has the effect of sharpening the circuit's [[Bandwidth (signal processing)|bandwidth]] (increasing the [[Q factor]]) by an equal factor, increasing the [[Electronic selectivity|selectivity]] of the receiver, its ability to reject interfering signals at frequencies near the desired station's frequency.<ref>{{cite book|title=The Radio Amateur's Handbook|year=1978|publisher=[[American Radio Relay League]]|pages=241–242}}</ref>
 
===CW reception (autodyne mode)===
For the reception of [[Continuous wave|CW]] [[radiotelegraphy]] ([[Morse code]]) signals, the feedback is increased to the level of oscillation (a loop gain of one), so that the amplifier functions as an [[Electronic oscillator|oscillator]] ([[Beat frequency oscillator|BFO]]) as well as an amplifier, generating a steady [[sine wave]] signal at the resonant frequency, as well as amplifying the incoming signal.   The tuned circuit is adjusted so the oscillator frequency is a little to one side of the signal frequency.  The two frequencies mix in the amplifier, generating a [[beat frequency]] signal at the difference between the two frequencies.  This frequency is in the [[audio frequency|audio]] range, so it is heard as a steady tone in the receiver's speaker whenever the station's [[Carrier wave|carrier]] is present.  Morse code is transmitted by keying the transmitter on and off, producing different length pulses of carrier ("dots" and "dashes").    The audio tone makes the carrier pulses audible, and they are heard as "beeps" in the speaker.
 
===SSB reception===
For the reception of [[Single-sideband modulation|single-sideband]] (SSB) signals, the circuit is also set to oscillate. The BFO signal is adjusted to one side of the incoming signal, and functions as the replacement carrier needed to demodulate the signal.
 
== Advantages and disadvantages ==
{{procon|date=November 2012}}
 
Regenerative receivers require fewer components than other types of receiver circuit.  The circuit's original attraction was that it got more amplification ([[gain]]) out of the expensive [[vacuum tube]]s of early receivers, thus requiring fewer stages of amplification.  Early vacuum tubes had low gain at [[Radio frequency|radio frequencies]] (RF).  Therefore the  [[Tuned radio frequency receiver|TRF receivers]] used before regenerative receivers often required 5 or 6 tubes, each stage requiring tuned circuits that had to be tuned in tandem to bring in stations, making the receiver cumbersome, power hungry, and hard to adjust.  Regenerative receivers, by contrast, could often get adequate gain with one tube.  In the 1930s the regenerative receiver was replaced by the [[superheterodyne]] circuit in commercial receivers due to its superior performance and the falling cost of tubes.  Since the advent of the [[transistor]] in 1946, the low cost of active devices has removed most of the advantage of the circuit.  However, in recent years the regenerative circuit has seen a modest comeback in receivers for low cost [[digital radio]] applications such as [[garage door opener]]s, [[keyless entry|keyless locks]], [[RFID]] readers and some [[cell phone]] receivers.
 
Regeneration can increase the gain of an amplifier by a factor of 15,000 or more.<ref name="Robinson1933">{{Harvnb|Robinson|1933}}</ref> This is quite an improvement, especially for the low-gain vacuum tubes of the 1920s and early 1930s.  The type 236 triode (US vacuum tube, obsolete since the mid-1930s) had a non-regenerative voltage gain of only 9.2 at 7.2&nbsp;MHz, but in a regenerative detector, had voltage gain as high as 7900. In general, "... regenerative amplification as found to be nearly directly proportional to the non-regenerative detection gain." "... the regenerative amplification is limited by the stability of the circuit elements, tube [or device] characteristics and [stability of] supply voltages which determine the maximum value of regeneration obtainable without self-oscilation."<ref>{{Harvnb|Robinson|1933|p=29}}</ref>  Intrinsically, there is little or no difference in the gain and stability available from vacuum tubes, JFET's, MOSFET's or bipolar junction transistors (BJT's).
 
A disadvantage of this receiver is that the regeneration (feedback) level must be adjusted when it is tuned to a new station. This is because the regenerative detector has less gain with stronger signals, and because the stronger signals cause the tube or transistor to operate on a different section of its amplification curve (i.e. grid V vs. plate V for tubes; gate V vs drain V for FET's, and base current vs. collector current for BJT's).
 
A drawback of early vacuum tube designs was that, when the circuit was adjusted to oscillate, it could operate as a transmitter, radiating an RF signal from its antenna at power levels as high as one [[watt (unit)|watt]]. So it often caused [[Radio-frequency interference|interference]] to nearby receivers. Modern circuits using [[semiconductor]]s, or high-gain vacuum tubes with plate voltage as low as 12V, typically operate at milliwatt levels—one thousand times lower. So interference is far less of a problem today. In any case, adding a [[preamp]] stage (RF stage) between the antenna and the regenerative detector is often used to further lower the interference.
 
Other shortcomings of regenerative receivers are the presence of a characteristic noise (“mush”) in their audio output, and sensitive and unstable tuning. These problems have the same cause: a regenerative receiver’s gain is greatest when it operates on the verge of oscillation, and in that condition, the circuit behaves [[chaos theory|chaotically]].<ref>Domine M.W. Leenaerts and Wim M.G. van Bokhoven, “Amplification via chaos in regenerative detectors,” ''Proceedings of SPIE'' *, vol. 2612**, pages 136-145 (December 1995).
(* SPIE = Society of Photo-optical Instrumentation Engineers; renamed: International Society for Optical Engineering)
(** Jaafar M.H. Elmirghani, ed., ''Chaotic Circuits for Communication'' -- a collection of papers presented at the SPIE conference of 23–24 October 1995 in Philadelphia, Pennsylvania.)</ref><ref>Domine M.W. Leenaerts, “Chaotic behavior in superregenerative detectors,” ''IEEE Transactions on Circuits and Systems Part 1: Fundamental Theory and Applications'', vol. 43, no. 3, pages 169-176 (March 1996).</ref><ref>In 1922, during his development of the super-regenerative receiver, [[Edwin Howard Armstrong|Edwin Armstrong]] noted signs of chaotic behavior in his circuits. See:  Edwin H. Armstrong (1922) [http://books.google.com/books?id=xUISAAAAIAAJ&pg=PA244#v=onepage&q&f=false "Some recent developments of regenerative circuits,"] ''Proceedings of the Institute of Radio Engineers'', '''10''' (8) :  244-260.  From p. 252: " … a free oscillation starts every time the resistance of the circuit becomes negative. … The free oscillations produced in the system when no signaling emf. is impressed, must be initiated by some irregularity of operation of the vacuum tubes, … ."</ref> Simple regenerative receivers lack an RF amplifier between the antenna and the regenerative detectors, so any change with the antenna swaying in the wind, etc. can change the frequency of the detector.
 
A major improvement in stability and a small improvement in available gain is the use of a separate oscillator, which separates the oscillator and its frequency from the rest of the receiver, and also allows the regenerative detector to be set for maximum gain and selectivity - which is always in the non-oscillating condition.<ref name="Robinson1933" />  A separate oscillator, sometimes called a BFO (Beat Frequency Oscillator) was known from the early days of radio, but was rarely used to improve the regenerative detector. When the regenerative detector is used in the self-oscillating mode, i.e. without a separate oscillator, it is known as an "[[autodyne]]".
 
==History==
The inventor of [[FM broadcasting|FM]] radio, [[Edwin Armstrong]], invented and patented the regenerative circuit while he was a junior in college, in 1914.<ref>{{Citation  |title=The Armstrong Patent |date=May 1922 |journal=Radio Broadcast |location=Garden City, NY |publisher=Doubleday, Page & Co. |volume=1 |issue=1 |pages=71&ndash;72 |url=http://books.google.com/books?id=VMcnAAAAYAAJ&pg=PA71#v=onepage&q&f=false |doi= }}</ref> He patented the super-regenerative circuit in 1922, and the [[superheterodyne]] receiver in 1918.
 
[[Lee De Forest]] filed a patent in 1916 that became the cause of a contentious lawsuit with the prolific inventor Armstrong, whose patent for the regenerative circuit had been issued in 1914. The lawsuit lasted twelve years, winding its way through the appeals process and ending up at the [[Supreme Court of the United States|Supreme Court]]. Armstrong won the first case, lost the second, stalemated at the third, and then lost the final round at the Supreme Court.<ref>{{Harvnb|Morse|1925|p=55}}</ref><ref>{{Harvnb|Lewis|1991}}</ref>
 
At the time the regenerative receiver was introduced, [[vacuum tube]]s were expensive and consumed lots of power, with the added expense and encumbrance of heavy batteries. So this design, getting most gain out of one tube, filled the needs of the growing radio community and immediately thrived. Although the superheterodyne receiver is the most common receiver in use today, the regenerative radio made the most out of very few parts.
 
In World War II the regenerative circuit was used in some military equipment. An example is the German field radio "Torn.E.b". Regenerative receivers needed far fewer tubes and less power consumption for nearly equivalent performance.
 
A related circuit, the ''super-regenerative detector'', found several highly-important military uses in World War II in  [[Secondary surveillance radar|Friend or Foe]] identification equipment and in the top-secret [[proximity fuse]].
 
In the 1930s, the [[superheterodyne]] design began to gradually supplant the regenerative receiver, as tubes became far less expensive. In Germany the design was still used in the millions of mass-produced German "peoples receivers" ([[Volksempfänger]]) and "German small receivers" (DKE, Deutscher Kleinempfänger). Even after WWII, the regenerative design was still present in early after-war German minimal designs along the lines of the "peoples receivers" and "small receivers", dictated by lack of materials. Frequently German military tubes like the "RV12P2000" were employed in such designs. There were even superheterodyne designs, which used the regenerative receiver as a combined IF and demodulator with fixed regeneration. The superregenerative design was also present in early FM broadcast receivers around 1950. Later it was almost completely phased out of mass production, remaining only in hobby kits.
 
==Operating limits==
Quality of a receiver is defined by its sensitivity and selectivity. For a single-tank [[Tuned radio frequency receiver|TRF (tuned radio frequency) receiver]] without regenerative feedback, <math>bandwidth = frequency/Q</math>, where Q is tank "quality" defined as <math>Q=Z/R</math>, Z is reactive impedance, R is resistive loss. Signal voltage at tank is antenna voltage multiplied by Q.
 
Positive feedback compensates the energy loss caused by R, so we may express it as bringing in some negative R. Quality with feedback is <math>Qreg = Z/(R-Rneg)</math>. Regeneration rate is <math>M = Qreg/Q = R/(R-Rneg)</math>.
 
M depends on stability of amplification and feedback coefficient, because if R-Rneg is set less than Rneg fluctuation, it will easily overstep the oscillation margin. This problem can be partly solved by "grid leak" or any kind of automatic gain control, but the downside of this is surrendering control over receiver to noises and fadings of input signal, which is undesirable. Modern semiconductors may offer more stability than vacuum tubes of the 1920s, depending on other circuit parameters as well.
 
Actual numbers:
To have 3&nbsp;kHz bandwidth at 12&nbsp;MHz ([[short wave]]s travelling all around Earth) we need <math>Q=F/f = 4000</math>. A two-inch coil of thick silvered wire wound on a ceramic core may have Q up to 400, but let's suppose Q = 100. We need M = 40, which is attainable with good stable amplifier even without power stabilizing.
 
==Super-regenerative receiver==
The super-regenerative receiver uses a second lower frequency oscillation (within the same stage or by using a second oscillator stage) to provide single-device circuit gains of around one million. This second oscillation periodically interrupts or "quenches" the main RF oscillation.  Ultrasonic quench rates between 30 and 100&nbsp;kHz are typical. After each quenching, RF oscillation grows exponentially, starting from the tiny energy picked-up by the antenna plus circuit noise.  The amplitude reached at the end of the quench cycle (linear mode) or the time taken to reach limiting amplitude (log mode) depends on the strength of the received signal from which exponential growth started.  A [[low-pass filter]] in the audio amplifier filters the quench and RF frequencies from the output, leaving the AM modulation. This provides a crude but very effective AGC (Automatic Gain Control).
 
Types of Signals for Regenerative vs. Super-Regenerative (super-regen or superregen) Detectors.
Super-Regenerative Detectors work well for wide-band signals such as FM, where it performs "slope detection". Regenerative Detectors work well for narrow-band signals, especially for CW and SSB which need a heterodyne oscillator or BFO. A super-regenerative detector does not have a usable heterodyne oscillator - even though the super-regen always self-oscillates, so CW (Morse Code)and SSB (Single side band) signals can't be received properly.
 
Super-regeneration is most valuable above 27&nbsp;MHz, and for signals where broad tuning is desirable.  The super-regen uses far fewer components for nearly the same sensitivity as more complex designs.  It is easily possible to build super-regen receivers which operate at microwatt power levels, in the 30 to 6,000&nbsp;MHz range. These are ideal for remote-sensing applications or where long battery life is important. For many years, super regenerative circuits have been used for commercial products such as garage-door openers, radar detectors, microwatt RF data links, and very low cost walkie-talkies.
 
Because the super-regenerative detectors tend to receive the strongest signal and ignore other signals in the nearby spectrum, the super-regen works best with bands that are relatively free of interfering signals. Due to [[Nyquist theorem|Nyquist's theorem]] its quenching frequency must be at least twice the signal bandwidth. But quenching with overtones acts further as a [[heterodyne]] receiver mixing additional unneeded signals from those bands into the working frequency. Thus the overall bandwidth of super-regenerator cannot be less than 4 times that of the quench frequency, assuming the quenching oscillator produces an ideal sinewave.
 
==Patents==
*{{Citation |inventor-last=Armstrong |inventor-first=E. H. |country-code=US |patent-number=1113149 |title=Wireless receiving system |issue-date=October 6, 1914 |publication-date=October 29, 1913 }}
*{{Citation |inventor-last=Armstrong |inventor-first=E. H. |country-code=US |patent-number=1342885 |title=Method of receiving high frequency oscillation |issue-date=June 8, 1920 |publication-date=February 8, 1919 }}
*{{Citation |inventor-last=Armstrong |inventor-first=E. H. |country-code=US |patent-number=1424065 |title=Signalling system |issue-date=July 25, 1922 |publication-date=June 27, 1921 }}
*{{Citation |inventor-last=Braden |inventor-first=R. A. |country-code=US |patent-number=2211091 |title=Superregenerative magnetron receiver |issue-date= |publication-date= }} 1940.
 
==See also==
*[[Tuned electrical circuit]]
 
==References==
{{reflist|30em}}
 
* {{Citation |last=Lewis |first=Tom |title=Empire of the Air: the men who made radio |publisher=Edward Burlingame Books |year=1991 |isbn=0060981199 |location=New York}}
*{{Citation |last=Morse |first=A. H. |title=Radio: Beam and Broadcast |year=1925 |location=London |publisher=Ernest Benn Limited |url=http://archive.org/details/radiobeamandbroa029214mbp |doi= }}. History of radio in 1925. Has May 5, 1924, appellate decision by [[Josiah Alexander Van Orsdel]] in ''De Forest v Armstrong'', pp 46&ndash;55. Appellate court credited De Forest with the regenerative circuit: "The decisions of the Commissioner are reversed and priority awarded to De Forest." p 55.
*{{Citation |first=H. A. |last=Robinson |title=Regenerative Detectors, What We Get From Them - How To Get More |journal=[[QST]] |pages=26–30 & 90 |date=February 1933 |volume=17 |issue=2 |doi= }}
*  Ulrich L. Rohde, Ajay Poddar www.researchgate.net/publication/4317999_A_Unifying_Theory_and_Characterization_of_Super-Regenerative_Receiver_(SRR)
 
==External links==
{{Commons category|Regenerative circuits}}
*[http://books.google.com/books?id=AF0AAAAAMAAJ&pg=PA215#v=onepage&q&f=false Some Recent Developments in the Audion Receiver by EH Armstrong], Proceedings of the IRE ([[Institute of Radio Engineers]]), volume 3, 1915, pp.&nbsp;215–247.
*[http://www.sm0vpo.com/rx/regenrx.htm a one transistor regenerative receiver]
*''Armstrong v. De Forest Radio Telephone & Telegraph Co.'' (2nd Cir. 1926) 10 F.2d 727, February 8, 1926; cert denied 270 U.S. 663, 46 S.Ct. 471. [http://www.leagle.com/xmlResult.aspx?page=1&xmldoc=192673710F2d727_1476.xml&docbase=CSLWAR1-1950-1985&SizeDisp=7 opinion on leagle.com]
*''Armstrong v. De Forest'', 13 F.2d 438 (2d Cir. 1926)
 
[[Category:Radio electronics]]
[[Category:Electronic circuits]]
[[Category:History of radio]]
[[Category:Receiver (radio)]]

Latest revision as of 10:38, 5 May 2014

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