US2442695A - Radio protective system - Google Patents
Radio protective system Download PDFInfo
- Publication number
- US2442695A US2442695A US474147A US47414743A US2442695A US 2442695 A US2442695 A US 2442695A US 474147 A US474147 A US 474147A US 47414743 A US47414743 A US 47414743A US 2442695 A US2442695 A US 2442695A
- Authority
- US
- United States
- Prior art keywords
- area
- radio
- receiver
- protected
- energy
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- 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
- G01S7/28—Details of pulse systems
- G01S7/282—Transmitters
Definitions
- This invention relates to radio protective systems and more especially to a protective system in which a beam of radio frequency energy is arranged to scan only the area to be protected so that reflected signals from within the area indicate the presence of an intruder.
- Radio waves have been used to protect an area by establishing standingwave patterns so arranged that a change of pattern indicates the presence of an intruder.
- An example of this type of system is found in Wolff Patent 2,197,028.
- radio protective device employs a beam of radio frequency energy which is reflected from an object to be detected.
- the reflection an indication of an object within the beam but also the time taken for the energy to travel from the transmitter to the ob- Ject and back to the receiver is a measure of the distance of the intruder or object.
- the power employed in such systems may be used to regulate the effective range, it is very diflicult, if not impossible, to adjust the power whereby the range is limited.
- even if the power is adjusted to flt a particular range, it would be difficult to employ a radio protective system arranged to scan an irregular area to be protected.
- One of the objects of the' present invention is to provide an improved radio protective system. Another object is to provide an improved radio protective system for scanning an irregular area to be protected. Another object is to provide an improved radio protective system in which the effective range is limited to the boundaries of the area to be protected.
- Figure 1 is a circuit diagram of one embodiment of the invention
- Figure 2 is a circuit diagram of a delay circuit employed in the invention
- Fig- 5 to a radio receiver It in whose output circuit ure 3 is a schematic diagram of a modification of the invention
- a. pulse generator i is connected to key a radio frequency oscillator 8 whose output circuit is connected through a transmitreceive device 5 through slip-rings I to a dipole antenna 8 which is arranged within a suitable reflector II.
- the reflector and the dipole antenna establish a sharply defined beam of radio energy which is radiated to scan the area to be protected.
- the antenna also acts as a receiving means which picks up the signals reflected from an intruder represented by X.
- the received signals are applied through the transmit-receive device are connected one or more warning devices ll. 11.
- the pulse generator includes a pair of connections i9 and ii which are arranged, respectively, to turn on and oi! a receiver control device 23.
- the off circuit includes a controlled delay means 25 which will be described hereinafter by reference to Fig. 2.
- Fig. 2 shows one embodiment of a filter or delay circuit in which magnetic cores 21 are inserted within inductors 28.
- the cores 21 are controlled by a cam member 8! in which is included a. cam slot 33.
- a cam follower 3B is arranged within the slot so that it simultaneously adjusts the cores 21 and a terminating resistor 31.
- the purpose of the filter network is to provide a transmission line which is properly terminated to provide the required delay.
- a square cam 39 is used to control a cam follower M.
- the cam is adjusted in synchronism with the rotating beam by a, motor 42 which rotates the radio scanning beam.
- the mode of operation of the system of Fig. 1 is essentially as follows:
- the pulse generator I keys on the oscillator 3 so that a pulse of radio energy is radiated from the directive antenna 8,
- the receiver is turned on through the receiver control which corresponds to an automatic volume circuit.
- the receiver is thus made responsive to the reflected pulse energy which is applied to the warning device it.
- the receiver control circuit is turned off so that signals from objects beyond the boundaries are not received and thus the effective range of the device is limited to the area to be protected.
- may be shaped to correspond to any irregular area such as indicated by the cam 33 of Fig. 2.
- the irregular area is defined by a line disposed at varying distances from the point of origin of said beam, or by a line formed by apoint rotated at a non-uniform distance about the point of origin of said beam.
- the warning device may consist of a light, flashlight or audible alarm.
- the warning device may even take the form of a repeating shotgun which isaimed in synchronis'm with the radio beam whereby a warning shot may be fired toward the intruder. It is assumed that such drastic means would only be used to protect a fenced;
- warning device can take on diflerent forms to obtain the desired warning or protective results.
- a frequency varying device 43 is connected to a radio frequency oscillator 45 whereby the oscillator frequency is varied throughout a predeterminedcycle.
- the radio frequency power is applied through slip-rings 41 or other suitable means to a dipole antenna 49.
- the reflector and antenna are mounted on the shaft 53 which is driven by a motor 55.
- a second antenna- 51 which may also be made directive, is mounted on the shaft 53 and connected through sliprings 59 to a radio receiver (ii.
- a connection is made from the oscillator 45 through an attenuator 63 to the receiver, whereby the outgoing radio frequency current is mixed with the incoming radio frequency signal to establish 8. current whose frequency corresponds to the difierence in frequency of the outgoing and incoming signals.
- These currents are applied through a filter 65 to a rectifier 61 and hence to a relay 69' which operates the warning device 1 I
- the filter 65 includes variable elements 13 which are controlled by the rod 15.
- the rod is connected to a cam follower H which engagesthe cam 19 which is driven by the motor 55.
- the function of the adjustable filter is to limit the currents from the receiver output to the frequency range including the frequencies which are derived from reflections at the boundaries of the area to be protected. While the cam shape in the instant arrangement is that of a rectangle, it should be understood that it may takeon any other desired form whereby the receiver output corresponds only to signals received from reflections from objects within the limited range.
- the invention has been described as a radio protective system in which a beam of radio frequency energy is made to scan the area to be protected. Reflections from objects or intruders within the protected area are-received and applied to operate a warning device.
- a cam operated in synchronism with the scanning beam the system is limited to theefiective range defined by the boundaries of the protected area. While the eifective range is determined primarily by controllin the receiver, it is also recognized that the relative rates of the transmitter cycle and the rate of scanning the area may be used to control further the effective range. For example,-if the scanning is rapid, the directive characteristics of the beam will eliminate reflected signals which will then lie outside the response pattern of the antenna.
- a radio protective system including means for radiating a continuously rotating radio beam to scan an area to be protected, said area being bounded by a line disposed at varying distances from the point ol origin of said beam, means for receiving said radio beam after reflection from an object within said area, means responsive to the output of said receiver for indicating the radio beam reflected from and hence the presence of said object, and means synchronized with said continuously rotating radiating ,means for limiting the efiective radio range to the boundaries of the region to be protected.
- a radio protective system including means for radiating a continuously rotating beam of radio energy, means for directing said beam thereby to scan an area to be protected, said area being bounded by a line disposed at varying distances from the point or origin of said beam, means for receiving said radio beam after reflection from an'object within said area, means responsive to the output of said receiver for indicating the radio energy reflected from said object, and means synchronized with said continuously rotating radiating means for limiting the effective radio range to the boundaries of the region to be protected.
- a radio protective system including means for radiating a. continuously rotating beam of radio energy, means for directing said beam thereby to scan an area to be protected. said area being bounded by a line disposed at varying distances from the point of origin of said beam, means for receiving said radio beam after reflection from an intruder within said area, means responsive to the output of said receiver for establishing a warning signal indicating the presence of said intruder, and means synchronized with said continuously rotating radiating means for limiting the effective maximum radio range to the boundaries of the region to be protected.
- a radio protective system including means for radiating a continuously rotating sharply defined radio beam to scan an area to be protected, said area being defined by a line formed by a point rotated at a non-uniform distance about the point of origin of said beam, means for receiving said radio beam after reflection from an object within said area, means responsive to the output of said receiver for indicating the radio beam reflected from and hence the presence of said object, and means synchronized with said continuously rotating radiating means for limiting the effective maximum radio range to the boundaries of the region to be protected.
- a radio protective system including means for radiating a continuously rotating beam of radio frequency energy to scan an area to be protected, said area being defined by the line formed by a point rotated at a varying distance about the point of origin of said beam, means for receiving said radio frequency energy refiected from an intruding object within said area.
- an indicator including an alarm connected to said receiver output and responsive thereto, and means synchronized with said continuously rotating radiating means for controlling the receiver response to limit the effective maximum range to the radio frequency energy reflected from objects along said line defining said area.
- a radio protective system including means for radiating a continuously rotating beam of radio frequency pulses of radio frequency energy to form a sharply defined beam to scan an area irregularly disposed about the point of origin 01 said beam, means for receiving said radio frequency energy reflected from an intruding object within said area, an indicator including an alarm connected to said receiver output and responsive thereto, and means synchronized with said continuously rotating radiating means for controlling the receiver response in time relation to the radiation of said pulses to limit the efiective maximum range to the radio frequency energy reflected from objects located on the boundary line of said irregularly disposed area.
- a radio protective system including a transmitter for radiating a continuously rotating a beam, a receiver beam of radio frequency energy throughout an area to be protected, said area being irregularly disposed with respect to the point of origin of said beam, a receiver responsive to said ener after the energy is reflected from intruding objects within said area, and means synchronized with said rotating beam for limiting the effective response of said receiver to the difierent ranges defined by the diflerent times taken for said energy to travel from said transmitter to the boundaries of said area and back to said receiver.
- a radio protective system including a trans-'- mitter for radiating a continuously rotating beamof radio frequency energy throughout an area to be protected, said area being irregularly disposed with respect to the point of origin of said responsive to said energy after the energy is reflected from intruding objects within said area. and means synchronized with said rotating beam and connected to said trans mitter and receiver for limiting the efiective response of said receiver to the different ranges defined by the different times taken for said' energy to travel from said transmitter to the boundaries of said area and back to said receiver.
- a radio protective system including means for generating radio frequency energy, means for radiating said energy in a sharply defined beam, means for scanning an area to be protected by applying thereto said beam, a receiver responsive to said radiated energy after reflection from ob-.
- cam means operated in synchronism with said scanning means, control means connected to said receiver and to said cam means for controlling the response of said receiver to limit its effectiveness to reflections from objects within said area.
- a radio protective system including means' for radiating a beam of radio frequency energy to scan an area to be protected, said area being irregularly disposed with respect to the point of origin of said beam, means for varying the frequency of said energy as a function of time, means for receiving said radio frequency energy reflected from an intruding object within said area, an indicator including an alarm connected to said receiver output and responsive thereto; and cam means operated in synchronism with said scanning beam for controlling the receiver response as a function of frequency to limit the effective maximum range to the radio frequency energy reflected from objects located along the boundaries of said irregular area.
Description
June 1, 1948. w. R. KOCH 7 2,442,695
RADIO PROTECTIVE SYSTEM Filed Jan. 30, 1943 FGo in 5 Pups; rim/van X Ewzmv'm osc. Zflff 1 15 15 7 21 w lzwfi RECEIVE]? 17 A i A 26 01v J v RECEIVE)? mew/mm I cournan ama gam/v41 F'FEWIIEHC VJ)? YING D5 VI 65 V mas/van 3noentor I m'n gezd H. Koch {firm-man nan/1y 237g u z 6 7 71 attorncg Patented June 1, 1948 UNI 2.442.695 asmo PROTECTIVE srs'ram Winfield a. 1mm, Haddoniield, N. Radio Corporation of America,
of Delaware 8., minor to a corporation Application January 30, 1948, Serial No. 474,147 Claims. (CL 34H) This invention relates to radio protective systems and more especially to a protective system in which a beam of radio frequency energy is arranged to scan only the area to be protected so that reflected signals from within the area indicate the presence of an intruder.
Radio waves have been used to protect an area by establishing standingwave patterns so arranged that a change of pattern indicates the presence of an intruder. An example of this type of system is found in Wolff Patent 2,197,028. An-
other'form of radio protective device employs a beam of radio frequency energy which is reflected from an object to be detected. In general, not only is the reflection an indication of an object within the beam but also the time taken for the energy to travel from the transmitter to the ob- Ject and back to the receiver is a measure of the distance of the intruder or object. While the power employed in such systems may be used to regulate the effective range, it is very diflicult, if not impossible, to adjust the power whereby the range is limited. Moreover, even if the power is adjusted to flt a particular range, it would be difficult to employ a radio protective system arranged to scan an irregular area to be protected.
One of the objects of the' present invention is to provide an improved radio protective system. Another object is to provide an improved radio protective system for scanning an irregular area to be protected. Another object is to provide an improved radio protective system in which the effective range is limited to the boundaries of the area to be protected.
The invention will be described by referring to the accompanying drawing, in which Figure 1 is a circuit diagram of one embodiment of the invention, Figure 2 is a circuit diagram of a delay circuit employed in the invention, and Fig- 5 to a radio receiver It in whose output circuit ure 3 is a schematic diagram of a modification of the invention,
Referring to Fig. 1, a. pulse generator i is connected to key a radio frequency oscillator 8 whose output circuit is connected through a transmitreceive device 5 through slip-rings I to a dipole antenna 8 which is arranged within a suitable reflector II. The reflector and the dipole antenna establish a sharply defined beam of radio energy which is radiated to scan the area to be protected.
The antenna also acts as a receiving means which picks up the signals reflected from an intruder represented by X. The received signals are applied through the transmit-receive device are connected one or more warning devices ll. 11. The pulse generator includes a pair of connections i9 and ii which are arranged, respectively, to turn on and oi! a receiver control device 23. The off circuit includes a controlled delay means 25 which will be described hereinafter by reference to Fig. 2.
Fig. 2 shows one embodiment of a filter or delay circuit in which magnetic cores 21 are inserted within inductors 28. The cores 21 are controlled by a cam member 8! in which is included a. cam slot 33. A cam follower 3B is arranged within the slot so that it simultaneously adjusts the cores 21 and a terminating resistor 31. The purpose of the filter network is to provide a transmission line which is properly terminated to provide the required delay.
If the system in question is to be used at the center of a rectangular area, a square cam 39 is used to control a cam follower M. The cam is adjusted in synchronism with the rotating beam by a, motor 42 which rotates the radio scanning beam.
The mode of operation of the system of Fig. 1 is essentially as follows: The pulse generator I keys on the oscillator 3 so that a pulse of radio energy is radiated from the directive antenna 8,
I i. Just after the radiation the receiver is turned on through the receiver control which corresponds to an automatic volume circuit. The receiver is thus made responsive to the reflected pulse energy which is applied to the warning device it. After an interval oftime suiilcient for the pulse to travel to the boundary of the area to be protected and back to the receiver, the receiver control circuit is turned off so that signals from objects beyond the boundaries are not received and thus the effective range of the device is limited to the area to be protected.
It should be understood that the cam device 89, 4| may be shaped to correspond to any irregular area such as indicated by the cam 33 of Fig. 2. The irregular area is defined by a line disposed at varying distances from the point of origin of said beam, or by a line formed by apoint rotated at a non-uniform distance about the point of origin of said beam. Moreover, the warning device may consist of a light, flashlight or audible alarm. The warning device may even take the form of a repeating shotgun which isaimed in synchronis'm with the radio beam whereby a warning shot may be fired toward the intruder. It is assumed that such drastic means would only be used to protect a fenced;
area or to operate against an enemy in war-- time. It is clear that the warning device can take on diflerent forms to obtain the desired warning or protective results. i
In the modification shown in Fig. 3, a frequency varying device 43 is connected to a radio frequency oscillator 45 whereby the oscillator frequency is varied throughout a predeterminedcycle. In accordance with the disclosure of Bentley's U. S. Patent 2,011,392 the radio frequency power is applied through slip-rings 41 or other suitable means to a dipole antenna 49.
arranged within a suitable reflector 5|. The reflector and antenna are mounted on the shaft 53 which is driven by a motor 55. A second antenna- 51, which may also be made directive, is mounted on the shaft 53 and connected through sliprings 59 to a radio receiver (ii. A connection is made from the oscillator 45 through an attenuator 63 to the receiver, whereby the outgoing radio frequency current is mixed with the incoming radio frequency signal to establish 8. current whose frequency corresponds to the difierence in frequency of the outgoing and incoming signals. These currents are applied through a filter 65 to a rectifier 61 and hence to a relay 69' which operates the warning device 1 I The filter 65 includes variable elements 13 which are controlled by the rod 15. The rod is connected to a cam follower H which engagesthe cam 19 which is driven by the motor 55. The function of the adjustable filter is to limit the currents from the receiver output to the frequency range including the frequencies which are derived from reflections at the boundaries of the area to be protected. While the cam shape in the instant arrangement is that of a rectangle, it should be understood that it may takeon any other desired form whereby the receiver output corresponds only to signals received from reflections from objects within the limited range.
Thus the invention has been described as a radio protective system in which a beam of radio frequency energy is made to scan the area to be protected. Reflections from objects or intruders within the protected area are-received and applied to operate a warning device. By means of a cam operated in synchronism with the scanning beam, the system is limited to theefiective range defined by the boundaries of the protected area. While the eifective range is determined primarily by controllin the receiver, it is also recognized that the relative rates of the transmitter cycle and the rate of scanning the area may be used to control further the effective range. For example,-if the scanning is rapid, the directive characteristics of the beam will eliminate reflected signals which will then lie outside the response pattern of the antenna.
I claim as my invention:
1. A radio protective system including means for radiating a continuously rotating radio beam to scan an area to be protected, said area being bounded by a line disposed at varying distances from the point ol origin of said beam, means for receiving said radio beam after reflection from an object within said area, means responsive to the output of said receiver for indicating the radio beam reflected from and hence the presence of said object, and means synchronized with said continuously rotating radiating ,means for limiting the efiective radio range to the boundaries of the region to be protected.
2. A radio protective system including means for radiating a continuously rotating beam of radio energy, means for directing said beam thereby to scan an area to be protected, said area being bounded by a line disposed at varying distances from the point or origin of said beam, means for receiving said radio beam after reflection from an'object within said area, means responsive to the output of said receiver for indicating the radio energy reflected from said object, and means synchronized with said continuously rotating radiating means for limiting the effective radio range to the boundaries of the region to be protected.
3. A radio protective system including means for radiating a. continuously rotating beam of radio energy, means for directing said beam thereby to scan an area to be protected. said area being bounded by a line disposed at varying distances from the point of origin of said beam, means for receiving said radio beam after reflection from an intruder within said area, means responsive to the output of said receiver for establishing a warning signal indicating the presence of said intruder, and means synchronized with said continuously rotating radiating means for limiting the effective maximum radio range to the boundaries of the region to be protected.
4. A radio protective system including means for radiating a continuously rotating sharply defined radio beam to scan an area to be protected, said area being defined by a line formed by a point rotated at a non-uniform distance about the point of origin of said beam, means for receiving said radio beam after reflection from an object within said area, means responsive to the output of said receiver for indicating the radio beam reflected from and hence the presence of said object, and means synchronized with said continuously rotating radiating means for limiting the effective maximum radio range to the boundaries of the region to be protected.
5. A radio protective system including means for radiating a continuously rotating beam of radio frequency energy to scan an area to be protected, said area being defined by the line formed by a point rotated at a varying distance about the point of origin of said beam, means for receiving said radio frequency energy refiected from an intruding object within said area. an indicator including an alarm connected to said receiver output and responsive thereto, and means synchronized with said continuously rotating radiating means for controlling the receiver response to limit the effective maximum range to the radio frequency energy reflected from objects along said line defining said area.
6. A radio protective system including means for radiating a continuously rotating beam of radio frequency pulses of radio frequency energy to form a sharply defined beam to scan an area irregularly disposed about the point of origin 01 said beam, means for receiving said radio frequency energy reflected from an intruding object within said area, an indicator including an alarm connected to said receiver output and responsive thereto, and means synchronized with said continuously rotating radiating means for controlling the receiver response in time relation to the radiation of said pulses to limit the efiective maximum range to the radio frequency energy reflected from objects located on the boundary line of said irregularly disposed area.
7. A radio protective system including a transmitter for radiating a continuously rotating a beam, a receiver beam of radio frequency energy throughout an area to be protected, said area being irregularly disposed with respect to the point of origin of said beam, a receiver responsive to said ener after the energy is reflected from intruding objects within said area, and means synchronized with said rotating beam for limiting the effective response of said receiver to the difierent ranges defined by the diflerent times taken for said energy to travel from said transmitter to the boundaries of said area and back to said receiver.
8. A radio protective system including a trans-'- mitter for radiating a continuously rotating beamof radio frequency energy throughout an area to be protected, said area being irregularly disposed with respect to the point of origin of said responsive to said energy after the energy is reflected from intruding objects within said area. and means synchronized with said rotating beam and connected to said trans mitter and receiver for limiting the efiective response of said receiver to the different ranges defined by the different times taken for said' energy to travel from said transmitter to the boundaries of said area and back to said receiver.
9. A radio protective system including means for generating radio frequency energy, means for radiating said energy in a sharply defined beam, means for scanning an area to be protected by applying thereto said beam, a receiver responsive to said radiated energy after reflection from ob-.
6 jects within said area, cam means operated in synchronism with said scanning means, control means connected to said receiver and to said cam means for controlling the response of said receiver to limit its effectiveness to reflections from objects within said area.
10. A radio protective system including means' for radiating a beam of radio frequency energy to scan an area to be protected, said area being irregularly disposed with respect to the point of origin of said beam, means for varying the frequency of said energy as a function of time, means for receiving said radio frequency energy reflected from an intruding object within said area, an indicator including an alarm connected to said receiver output and responsive thereto; and cam means operated in synchronism with said scanning beam for controlling the receiver response as a function of frequency to limit the effective maximum range to the radio frequency energy reflected from objects located along the boundaries of said irregular area.
R, KOCH.
REFERENCES CITED FOREIGN PATENTS Country Number Date Australia June 2, 1941
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US474147A US2442695A (en) | 1943-01-30 | 1943-01-30 | Radio protective system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US474147A US2442695A (en) | 1943-01-30 | 1943-01-30 | Radio protective system |
Publications (1)
Publication Number | Publication Date |
---|---|
US2442695A true US2442695A (en) | 1948-06-01 |
Family
ID=23882356
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US474147A Expired - Lifetime US2442695A (en) | 1943-01-30 | 1943-01-30 | Radio protective system |
Country Status (1)
Country | Link |
---|---|
US (1) | US2442695A (en) |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2650358A (en) * | 1951-02-21 | 1953-08-25 | Gilfillan Bros Inc | Oscillation network with circuits for developing voltages in accordance with angular positions of radiated antenna beams |
US2682048A (en) * | 1945-04-07 | 1954-06-22 | Us Sec War | Radio object detection apparatus |
US2737655A (en) * | 1950-03-29 | 1956-03-06 | Philco Corp | Energy radiation system |
US2969599A (en) * | 1946-05-09 | 1961-01-31 | Nye Robert Glen | Group trainer for operators of echo-ranging equipment |
US3021806A (en) * | 1950-10-04 | 1962-02-20 | Paul C Gardiner | Range blank for echo-controlled torpedo |
US3022760A (en) * | 1950-10-04 | 1962-02-27 | Paul C Gardiner | Echo range limitation equipment |
US3047856A (en) * | 1958-04-14 | 1962-07-31 | Lab For Electronics Inc | Radar guidance techniques |
US3193823A (en) * | 1961-03-28 | 1965-07-06 | American District Telegraph Co | Method and apparatus for detecting motion |
US3271755A (en) * | 1964-03-16 | 1966-09-06 | Specialties Dev Corp | Doppler type intruder detection system arranged to eliminate extraneous air turbulence effects |
US3353179A (en) * | 1966-02-16 | 1967-11-14 | Babcock Electronics Corp | Distance indicating radio apparatus |
US3522605A (en) * | 1962-09-20 | 1970-08-04 | Us Navy | Mti radar low-power hardening |
-
1943
- 1943-01-30 US US474147A patent/US2442695A/en not_active Expired - Lifetime
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2682048A (en) * | 1945-04-07 | 1954-06-22 | Us Sec War | Radio object detection apparatus |
US2969599A (en) * | 1946-05-09 | 1961-01-31 | Nye Robert Glen | Group trainer for operators of echo-ranging equipment |
US2737655A (en) * | 1950-03-29 | 1956-03-06 | Philco Corp | Energy radiation system |
US3021806A (en) * | 1950-10-04 | 1962-02-20 | Paul C Gardiner | Range blank for echo-controlled torpedo |
US3022760A (en) * | 1950-10-04 | 1962-02-27 | Paul C Gardiner | Echo range limitation equipment |
US2650358A (en) * | 1951-02-21 | 1953-08-25 | Gilfillan Bros Inc | Oscillation network with circuits for developing voltages in accordance with angular positions of radiated antenna beams |
US3047856A (en) * | 1958-04-14 | 1962-07-31 | Lab For Electronics Inc | Radar guidance techniques |
US3193823A (en) * | 1961-03-28 | 1965-07-06 | American District Telegraph Co | Method and apparatus for detecting motion |
US3522605A (en) * | 1962-09-20 | 1970-08-04 | Us Navy | Mti radar low-power hardening |
US3271755A (en) * | 1964-03-16 | 1966-09-06 | Specialties Dev Corp | Doppler type intruder detection system arranged to eliminate extraneous air turbulence effects |
US3353179A (en) * | 1966-02-16 | 1967-11-14 | Babcock Electronics Corp | Distance indicating radio apparatus |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2410424A (en) | Obstacle detection system | |
US2412702A (en) | Object detection and location | |
US2442695A (en) | Radio protective system | |
US2459482A (en) | Instrument landing system | |
US2427905A (en) | Radio locating equipment | |
US2473175A (en) | Radio direction-finding system | |
US2895127A (en) | Directive diplex antenna | |
US2494339A (en) | Noise-reducing pulse-echo locating equipment | |
US2455673A (en) | Distance selective system | |
US2510299A (en) | Pulse-echo testing system | |
US2568265A (en) | Radio beacon and system utilizing it | |
US2594916A (en) | Automatic gain control circuits | |
US2445213A (en) | Obstacle detector | |
US2530418A (en) | Radio-echo detection and location apparatus for approaching hostile craft | |
US3427621A (en) | Antenna system for a secondary radar installation | |
US3246322A (en) | Distance measuring equipment | |
US2682048A (en) | Radio object detection apparatus | |
US3916406A (en) | Jamming cancellation device | |
US2422069A (en) | Automatic gain control for pulseecho systems | |
US2474875A (en) | Pulse echo volume compensating system | |
US3896438A (en) | Tracking radar countermeasure | |
US5223839A (en) | Radar identification | |
US2671895A (en) | Automatic beacon range indicator | |
US3119998A (en) | Object locating systems | |
US2489075A (en) | Pulse echo testing apparatus |