US2472196A - Transmit-receive system - Google Patents
Transmit-receive system Download PDFInfo
- Publication number
- US2472196A US2472196A US594270A US59427045A US2472196A US 2472196 A US2472196 A US 2472196A US 594270 A US594270 A US 594270A US 59427045 A US59427045 A US 59427045A US 2472196 A US2472196 A US 2472196A
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- Prior art keywords
- transmit
- energy
- receiver
- line
- harmonic
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J17/00—Gas-filled discharge tubes with solid cathode
- H01J17/02—Details
- H01J17/04—Electrodes; Screens
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01S—RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
- G01S7/00—Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
- G01S7/02—Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S13/00
- G01S7/03—Details of HF subsystems specially adapted therefor, e.g. common to transmitter and receiver
- G01S7/034—Duplexers
Definitions
- My present invention relates generally to a radiant energy system wherein a single antenna is used both for transmitting and receiving pulsed wave energy, and is more particularly directed to a protective arrangement in connection with said radiant energy system for reducing the amount of transmitted power reaching the receiver.
- a single antenna is used both for transmitting and receiving
- the input circuit associated with the antenna is ordinarily a first detector stage, which is easily damaged by heavy applied signals (this condition being particularly true of crystal mixers) it is desirable to employ means for reducing below the safety limit the amount of transmitted power reaching the receiver input stage.
- the magnetron an ultra-high frequency oscillator commonly used in radiant energy systems, while it generates a sine wave of fairly good form, there is also an appreciable amount of third harmonic energy present, the other order of harmonics being virtually negligible.
- the transmit-receive box which is conventionally interposed between the magnetron and. the receiver, behaves as a high Q transformer and is tuned to the magnetron fundamental wavelength, the third harmonic is not attenuated to nearly the same degree as is the fundamental, hence the third harmonic energy leaks through to the crystal mixer in considerable proportion with a resultant shortening of the crystal life.
- this object is attained by providing a plurality of chokes so arranged as to filter out the third harmonic while at the same time cancelling reflections which may occur for the fundamental frequency because of the presence of said chokes.
- the transmit-receive box I! electrically interposed between a coaxial transmission line H, connecting a radiating antenna to a transmitter, and a crystal detector I2.
- the transmit-receive box IE! comprises a generally rectangular shaped metal chamber 13 having mounted therein along its transverse axis a switch tube I4.
- Switch tube M comprises a cylindrical glass envelope l5 enclosing two conically shaped electrodes l6 and Il, said electrodes being mounted with faces juxtaposed to act as a spark gap. Electrodes l6 and I! are brought out through glass envelope l5 and connected to the sides of chamber 13 to complete the resonant cavities A and B, said cavities being defined by the surfaces of electrodes l6 and H and the inner surface of chamber l3. Switch tube M is partially evacuated, while the transmit receive box In is maintained at atmospheric pressure. The glass ends of switch tube l4 are protected by metal caps l8 and I9 fitting thereover.
- a coaxial line 2 Communicating with coaxial line 22 is a coaxial line 2 extending from the local oscillator of the receiver, the inner conductor thereof being terminated within coaxial line 22 by a probe 25.
- cavities A and B act as two resonant tank circuits in shunt relation, each tuned to the magnetron fundamental wavelength.
- Cavity A may be regarded. as a step-up transformer, with input loop 2i representing the primary winding and the cavity itself the secondary winding.
- cavity B may be regarded as a step-down transformer with the cavity itself representing the primary winding and the output loop 23 the secondary winding. If switch tube l4 does not break down, the input voltage applied by loop 2
- the combination of cavities A and B performs as a highly selective transformer with substantially a 1:1 turns ratio.
- the input voltage is of large enough magnitude, it is transformed to a voltage suiiicient to break down the spark gap between electrodes l6 and I1.
- cavity A is effectively short circuited and a short circuit is therefore reflected into input loop 2
- This conduction does not constitute a perfect short circuit, it cause a very low impedance to appear at input coupling loop 2i.
- This very low impedance is inverted by the quarter wave length stub line and therefore connects a high impedance to the T junction between transmission line i I l and stub line 20, since said T junction lies a quarter of a fundamental wavelength away from the short circuit.
- the circuit to the receiver therefore, is disconnected by the conduction of switch tube l4.
- chokes 26 and 21 are spaced a quarter of the fundamental wavelength apart, reflections which may occur because of the presence of the chokes are cancelled out. It is, of course, obvious that chokes 26 and 2'! do not attenuate the fundamental when passed by transmit-receive box [0, nor do they impede the local oscillator energy.
- a choke 28 Mounted on the terminal plate of crystal 12, connected to the receiver intermediatefrequency stage, is a choke 28, dimensioned to one quarter of the fundamental wavelength, which serves to impede unrectified fundamental energy from leaking through to the receiver.
- a transmit-receive radio system comprising a magnetron oscillator, a receiver, an antenna, a transmission line connecting said magnetron to said antenna, a stub line extending from said transmission line to said receiver, means for introducing an impedance in said stub line during the time of transmission which is very high for the fundamental frequency of the transmitted energy, and means on said stub line for attenuating the passage of energy Whose frequency is the third harmonic of the transmitted energy.
- a transmit-receive radio system comprising a magnetron oscillator, a receiver, an antenna, a transmission line connecting said magnetron to said antenna, a stub line extending from said transmission line to said receiver, and means for introducing an impedance in said stub line during transmission which is very high for the fundamental frequency of the transmitted energy, and at least two chokes on said stub line, said chokes being spaced from each other a quarter of the fundamental wavelength, each choke being dimensioned to a quarter of the third harmonic Wavelength.
- a transmit-receive radio system comprising a magnetron oscillator, a crystal detector, an antenna, a transmission line connecting said magnetron to the antenna, a stub line extending from said transmission line a to said detector, a transmit-receive box interposed in said stub line for disconnecting said detector from said transmission line during the time of transmission, at least two chokes on said stud line interposed between said transmit-receive box and said detector, said chokes being spaced from each other a quarter of the funda mental wavelength, each choke being dimensioned to a quarter of the third harmonic wavelength, a local oscillator, and means for introducing energy from said local oscillator into said gtub line at a point after said transmit-receive 4.
- a transmit-receive radio system comprising an antenna, a transmitter, a receiver, means connecting said transmitter to said antenna. and a concentric line connecting said receiver to said antenna, said line including: means responsive to a high energy level during operation of said transmitter to introduce a high impedance into said line at the fundamental frequency of transmitted energy, and further means to attenuate a harmonic frequency of the transmitted energy including an open-ended cup with its closed end connected to said line and having a length of an odd integral number of one-quarter wave lengths at the harmonic frequency to effectively short circuit said harmonic frequency, at least one further cup similarly connected to said line, the connections of said cups being spaced from each other an odd integral number of one-quarter wave lengths at the fundamental frequency, whereby response of said receiver to transmitted energy at said harmonic frequencies is substantially eliminated and reflections of the fundairlelntal frequencies at the cups cancel each 0 er.
Description
June 7, 1949. B. B. CORK 2,472,196
' TRANSMIT-RECEIVE SYSTEM Filed May 17, 1945 RECEIVER l-F STAGE OCAL OSCILLATOR ANTENNA TRANSMITTER INVENTOR.
BRUCE B. CORK ATTORNEY Patented June 7, 1949 UNITED STATES PATNT OFFICE TRAN SMIT-RECEIVE SYSTEM Bruce B. Cork, Cambridge, Mass., assignor, by mesne assignments, to the United States of America as represented by the Secretary of War Application May 17, 1945, Serial No. 594,270
4 Claims. 1
My present invention relates generally to a radiant energy system wherein a single antenna is used both for transmitting and receiving pulsed wave energy, and is more particularly directed to a protective arrangement in connection with said radiant energy system for reducing the amount of transmitted power reaching the receiver.
When, in a radar system, a single antenna is used both for transmitting and receiving, it is conventional to employ a duplexing unit or a transmit-receive box for the purpose of transferring the antenna connection from the receiver to the transmitter for the duration of ,the transmitted pulse. Since, in microwave receivers, the input circuit associated with the antenna is ordinarily a first detector stage, which is easily damaged by heavy applied signals (this condition being particularly true of crystal mixers) it is desirable to employ means for reducing below the safety limit the amount of transmitted power reaching the receiver input stage.
I have discovered that the magnetron, an ultra-high frequency oscillator commonly used in radiant energy systems, while it generates a sine wave of fairly good form, there is also an appreciable amount of third harmonic energy present, the other order of harmonics being virtually negligible. Since the transmit-receive box, which is conventionally interposed between the magnetron and. the receiver, behaves as a high Q transformer and is tuned to the magnetron fundamental wavelength, the third harmonic is not attenuated to nearly the same degree as is the fundamental, hence the third harmonic energy leaks through to the crystal mixer in considerable proportion with a resultant shortening of the crystal life.
Accordingly, having discovered this effect and having measured the magnitude of third harmonic energy present, it is my primary object to devise an arrangement adapted to eliminate the third harmonic energy from themixer circuit without otherwise affecting the operation thereof.
Briefly stated. this object is attained by providing a plurality of chokes so arranged as to filter out the third harmonic while at the same time cancelling reflections which may occur for the fundamental frequency because of the presence of said chokes.
For a better understanding of this invention, as well as other objects and features thereof, reference is made to the following detailed description to be read in connection with the accompanying drawing wherein there is shown in longitudinal section a conventional transmit-receive box whose output energy is applied through a preferred embodiment of a choke arrangement, in accordance with the invention, to a crystal mixer.
Referring now to the drawing, there is shown a transmit-receive box I!) electrically interposed between a coaxial transmission line H, connecting a radiating antenna to a transmitter, and a crystal detector I2. The transmit-receive box IE! comprises a generally rectangular shaped metal chamber 13 having mounted therein along its transverse axis a switch tube I4.
Switch tube M comprises a cylindrical glass envelope l5 enclosing two conically shaped electrodes l6 and Il, said electrodes being mounted with faces juxtaposed to act as a spark gap. Electrodes l6 and I! are brought out through glass envelope l5 and connected to the sides of chamber 13 to complete the resonant cavities A and B, said cavities being defined by the surfaces of electrodes l6 and H and the inner surface of chamber l3. Switch tube M is partially evacuated, while the transmit receive box In is maintained at atmospheric pressure. The glass ends of switch tube l4 are protected by metal caps l8 and I9 fitting thereover.
end by an output coupling loop 23 and at the other end to one terminal of crystal detector l2. Communicating with coaxial line 22 is a coaxial line 2 extending from the local oscillator of the receiver, the inner conductor thereof being terminated within coaxial line 22 by a probe 25.
In effect. cavities A and B act as two resonant tank circuits in shunt relation, each tuned to the magnetron fundamental wavelength. Cavity A may be regarded. as a step-up transformer, with input loop 2i representing the primary winding and the cavity itself the secondary winding. Likewise, cavity B may be regarded as a step-down transformer with the cavity itself representing the primary winding and the output loop 23 the secondary winding. If switch tube l4 does not break down, the input voltage applied by loop 2| to cavity A is transformed thereby to a high level and then reduced to its original level in cavity B. Thus, the combination of cavities A and B performs as a highly selective transformer with substantially a 1:1 turns ratio.
If the input voltage is of large enough magnitude, it is transformed to a voltage suiiicient to break down the spark gap between electrodes l6 and I1. When the gap conducts, cavity A is effectively short circuited and a short circuit is therefore reflected into input loop 2|. Although this conduction does not constitute a perfect short circuit, it cause a very low impedance to appear at input coupling loop 2i. This very low impedance is inverted by the quarter wave length stub line and therefore connects a high impedance to the T junction between transmission line i I l and stub line 20, since said T junction lies a quarter of a fundamental wavelength away from the short circuit. The circuit to the receiver, therefore, is disconnected by the conduction of switch tube l4.
However, as has been pointed out in the foregoing discussion, while the transmit-receive box l0 serves to reduce the amount of fundamental energy reaching crystal l2, a considerable amount of third harmonic energy leaks through to the output. To obviate this efiect, there are disposed within coaxial line 22 along the inner conductor thereof, a pair of cup shaped chokes 26 and 21, concentrically mounted thereon, each choke being dimensioned to a quarter of the third harmonic wavelength, the spacing therebetween being a quarter of the fundamental wavelength. The open end of each cup amounts to an open-circuited line, and the length inverts this high impedance so that the effect is that of a substantial short circuit at the closed end. Thus it will be seen that third harmonic energy is unable to harmfully load crystal l2, the energy :being suppressed by chokes Z6 and 21, which are not chokes in the usual sense, but series resonant loads at that frequency.
Since chokes 26 and 21 are spaced a quarter of the fundamental wavelength apart, reflections which may occur because of the presence of the chokes are cancelled out. It is, of course, obvious that chokes 26 and 2'! do not attenuate the fundamental when passed by transmit-receive box [0, nor do they impede the local oscillator energy. Mounted on the terminal plate of crystal 12, connected to the receiver intermediatefrequency stage, is a choke 28, dimensioned to one quarter of the fundamental wavelength, which serves to impede unrectified fundamental energy from leaking through to the receiver.
Thus there has been described a method and means for choking out one undesired frequency from a radio-frequency system, without substantial cancellation of a desired frequency by undue reflections from the chokes. Clearly, more than two chokes may be employed for this purpose, providing they are properly spaced. The invention is not limited to the particular transmit-receive box It] shown, which is included merely by way of illustration, the invention being operable with any other suitable duplexing device.
.While there has been described what is at present considered a preferred embodiment of ments are made in the precise cup dimensions and spacing for proper tuning.
I claim:
1. The combination in a transmit-receive radio system comprising a magnetron oscillator, a receiver, an antenna, a transmission line connecting said magnetron to said antenna, a stub line extending from said transmission line to said receiver, means for introducing an impedance in said stub line during the time of transmission which is very high for the fundamental frequency of the transmitted energy, and means on said stub line for attenuating the passage of energy Whose frequency is the third harmonic of the transmitted energy.
2. The combination in a transmit-receive radio system comprising a magnetron oscillator, a receiver, an antenna, a transmission line connecting said magnetron to said antenna, a stub line extending from said transmission line to said receiver, and means for introducing an impedance in said stub line during transmission which is very high for the fundamental frequency of the transmitted energy, and at least two chokes on said stub line, said chokes being spaced from each other a quarter of the fundamental wavelength, each choke being dimensioned to a quarter of the third harmonic Wavelength.
3. The combination in a transmit-receive radio system comprising a magnetron oscillator, a crystal detector, an antenna, a transmission line connecting said magnetron to the antenna, a stub line extending from said transmission line a to said detector, a transmit-receive box interposed in said stub line for disconnecting said detector from said transmission line during the time of transmission, at least two chokes on said stud line interposed between said transmit-receive box and said detector, said chokes being spaced from each other a quarter of the funda mental wavelength, each choke being dimensioned to a quarter of the third harmonic wavelength, a local oscillator, and means for introducing energy from said local oscillator into said gtub line at a point after said transmit-receive 4. A transmit-receive radio system comprising an antenna, a transmitter, a receiver, means connecting said transmitter to said antenna. and a concentric line connecting said receiver to said antenna, said line including: means responsive to a high energy level during operation of said transmitter to introduce a high impedance into said line at the fundamental frequency of transmitted energy, and further means to attenuate a harmonic frequency of the transmitted energy including an open-ended cup with its closed end connected to said line and having a length of an odd integral number of one-quarter wave lengths at the harmonic frequency to effectively short circuit said harmonic frequency, at least one further cup similarly connected to said line, the connections of said cups being spaced from each other an odd integral number of one-quarter wave lengths at the fundamental frequency, whereby response of said receiver to transmitted energy at said harmonic frequencies is substantially eliminated and reflections of the fundairlelntal frequencies at the cups cancel each 0 er.
BRUCE B. CORK.
(References on following page) REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,523,011 Garity Jan. 13, 1925 2,178,299 Dallenbach Oct. 31, 1939 2,270,949 Hulster Jan. 27, 1942 Number 6 Name Date Von Baeyer Sept. 29, 1942 Roosenstein June 29, 1943 Gurewitsch Jan. 8, 1946 Watts et a1. May 21, 1946 Wolfi et a1. June 4, 1946 Varian et a1. Dec. 17, 1946 Kircher Dec. 9, 1947 Mumford Dec. 30, 1947
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US594270A US2472196A (en) | 1945-05-17 | 1945-05-17 | Transmit-receive system |
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US594270A US2472196A (en) | 1945-05-17 | 1945-05-17 | Transmit-receive system |
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US2472196A true US2472196A (en) | 1949-06-07 |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2591484A (en) * | 1946-08-09 | 1952-04-01 | Hazeltine Research Inc | Arrangement for desensitizing highfrequency electrical-wave apparatus |
US2726334A (en) * | 1951-05-23 | 1955-12-06 | Zenith Radio Corp | Frequency-selective electrical network |
US2760065A (en) * | 1950-08-24 | 1956-08-21 | Wilkes Gilbert | Protective electronic tube and circuit |
US2820127A (en) * | 1953-03-30 | 1958-01-14 | Raytheon Mfg Co | Microwave cookers |
US2834876A (en) * | 1953-10-01 | 1958-05-13 | Raytheon Mfg Co | Balanced mixers which utilize imagefrequency power reflected from detector diodes |
US3209285A (en) * | 1962-09-24 | 1965-09-28 | Thomas E Manwarren | Folded cylinder gaseous discharge device |
Citations (11)
Publication number | Priority date | Publication date | Assignee | Title |
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US1523011A (en) * | 1920-09-23 | 1925-01-13 | Forest Radio Telephone & Teleg | Continuous wave-transmission system |
US2178299A (en) * | 1934-04-27 | 1939-10-31 | Meaf Mach En Apparaten Fab Nv | Conductor line for ultra-short electromagnetic waves |
US2270949A (en) * | 1939-08-07 | 1942-01-27 | Telefunken Gmbh | Conductor arrangement for use with radio frequency apparatus |
US2297512A (en) * | 1939-05-26 | 1942-09-29 | Baeyer Hans Jakob Ritter Von | Arrangement for supressing waves along cable casings |
US2322971A (en) * | 1939-04-11 | 1943-06-29 | Roosenstein Hans Otto | Shielded antenna feeder lead or line |
US2392664A (en) * | 1943-12-23 | 1946-01-08 | Gen Electric | Ultra high frequency filter |
US2400796A (en) * | 1939-12-29 | 1946-05-21 | Gen Electric | Signal apparatus |
US2401717A (en) * | 1938-01-11 | 1946-06-04 | Rca Corp | Signaling system |
US2412640A (en) * | 1941-09-30 | 1946-12-17 | Univ Leland Stanford Junior | Transmission line |
US2432100A (en) * | 1947-12-09 | Two-way signal transmission system | ||
US2433387A (en) * | 1943-12-31 | 1947-12-30 | Bell Telephone Labor Inc | Ultra high frequency receiver |
-
1945
- 1945-05-17 US US594270A patent/US2472196A/en not_active Expired - Lifetime
Patent Citations (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2432100A (en) * | 1947-12-09 | Two-way signal transmission system | ||
US1523011A (en) * | 1920-09-23 | 1925-01-13 | Forest Radio Telephone & Teleg | Continuous wave-transmission system |
US2178299A (en) * | 1934-04-27 | 1939-10-31 | Meaf Mach En Apparaten Fab Nv | Conductor line for ultra-short electromagnetic waves |
US2401717A (en) * | 1938-01-11 | 1946-06-04 | Rca Corp | Signaling system |
US2322971A (en) * | 1939-04-11 | 1943-06-29 | Roosenstein Hans Otto | Shielded antenna feeder lead or line |
US2297512A (en) * | 1939-05-26 | 1942-09-29 | Baeyer Hans Jakob Ritter Von | Arrangement for supressing waves along cable casings |
US2270949A (en) * | 1939-08-07 | 1942-01-27 | Telefunken Gmbh | Conductor arrangement for use with radio frequency apparatus |
US2400796A (en) * | 1939-12-29 | 1946-05-21 | Gen Electric | Signal apparatus |
US2412640A (en) * | 1941-09-30 | 1946-12-17 | Univ Leland Stanford Junior | Transmission line |
US2392664A (en) * | 1943-12-23 | 1946-01-08 | Gen Electric | Ultra high frequency filter |
US2433387A (en) * | 1943-12-31 | 1947-12-30 | Bell Telephone Labor Inc | Ultra high frequency receiver |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2591484A (en) * | 1946-08-09 | 1952-04-01 | Hazeltine Research Inc | Arrangement for desensitizing highfrequency electrical-wave apparatus |
US2760065A (en) * | 1950-08-24 | 1956-08-21 | Wilkes Gilbert | Protective electronic tube and circuit |
US2726334A (en) * | 1951-05-23 | 1955-12-06 | Zenith Radio Corp | Frequency-selective electrical network |
US2820127A (en) * | 1953-03-30 | 1958-01-14 | Raytheon Mfg Co | Microwave cookers |
US2834876A (en) * | 1953-10-01 | 1958-05-13 | Raytheon Mfg Co | Balanced mixers which utilize imagefrequency power reflected from detector diodes |
US3209285A (en) * | 1962-09-24 | 1965-09-28 | Thomas E Manwarren | Folded cylinder gaseous discharge device |
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