US1979315A - Radio apparatus - Google Patents
Radio apparatus Download PDFInfo
- Publication number
- US1979315A US1979315A US700049A US70004933A US1979315A US 1979315 A US1979315 A US 1979315A US 700049 A US700049 A US 700049A US 70004933 A US70004933 A US 70004933A US 1979315 A US1979315 A US 1979315A
- Authority
- US
- United States
- Prior art keywords
- conductor
- receiver
- antenna
- power line
- conductors
- 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
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B3/00—Line transmission systems
- H04B3/54—Systems for transmission via power distribution lines
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B2203/00—Indexing scheme relating to line transmission systems
- H04B2203/54—Aspects of powerline communications not already covered by H04B3/54 and its subgroups
- H04B2203/5429—Applications for powerline communications
- H04B2203/545—Audio/video application, e.g. interphone
Definitions
- This invention relates to improvements in radio apparatus and more particularly to apparatus for employing the conductors of a lighting or power circuit for conveyance of high frequency signals.
- An object of the invention is to provide means for enabling a receiving antenna to be connected to a power or lighting circuit at any available outlet and for enabling the receiver to be similarly connected to the same circuit at another convenient outlet, so that the signals received can be conducted from the antenna to the receiver over a power conductor as a transmission line; and by suitable appliances to transfer the output of the receiver over a conductor of the power or lighting circuit to suitable apparatus, such as a loud speaker, by which a program can be rendered audible.
- a further object of the invention is to provide a system of this type which can be easily produced at relatively low cost, easily connected and operated in a practical manner with certainty and efliciency.
- the figure is a circuit diagram showing how the invention is connected.
- the numerals 1 and 1 indicate a pair of conductors for a light or power circuit which supply current for lamps or other translating devices indicated at 2. These conductors are connected to a suitable source of current, and the conductor 1 on the low side of the line is grounded at 3. Between the ground point and the translating devices 2 are reactor coils 4, one of which is in the line of each of the conductors 1 and 1', and the grounded connection 3 must be placed between these reactors and the source of energy which supplies the conductors 1 and 1'.
- the coils 4 are inductively related and operate as set forth in the application of Marion C. Bond and myself, for patent on a Program distribution system, filed March 23, 1933, Serial No. 662,252, which states that they are wound in opposition to one another, and the resultant of the magnetic fields created by power current is zero. Higher fg eguen cies flowing 8, 1933, Serial No. 700,049
- a receiving antenna is indicated at 5 and radio signal oscillations picked up by this antenna are passed along over the conductor 1 and a conductor 6 to the antenna terminal of a radio receiver.
- the output of this receiver is impressed upon the conductor 1 and is led ofi by way of conductors '7 to loud speakers or miscellaneous equipment or other program reproducing apparatus.
- the antenna can be connected to any convenient outlet of the power or lighting circuit and the receiver can likewise be connected thereto at another point; while the loud speakers or such can be joined to the power line at other points.
- the antenna might be connected in one room, and the receiver may be in another room connected to the power line at a socket or outlet therein; and finally the' conductors 7 may be united to the conductor 1 in still other rooms of the house or building. Then when the radio set is in operation, high frequency oscillations will be conducted to it over the antenna 5, conductor 1 and lead 6; and audiofrequency oscillations from the receiver will be imposed upon the conductor 1 and transmitted to the conductors 7.
- an auto-transformer 8 connected by a tap 9 directly to the conductor 1 at any point thereon so that the coils 4 will be between this point and the source of supply.
- condensers 10 and 11 At the ends of the transformer 8 and in series therewith are condensers 10 and 11, the latter being grounded at 12.
- the transformer is thus coupled in the conventional way to the low tension side of the power line and the transformer 8 matches the impedance of the antenna circuit with the low impedance of the power line.
- a conductor 13 joins to the low tension conductor of the power line another transformer 14; this conductor being united to the conductor 1 at any point so that the coils 4 may be between it and the source of supply; and the other end of this conductor being connected to a suitable tap in the transformer 14.
- condensers 10 and 11 In series with this transformer are condensers 10 and 11, the former being between this transformer and the conductor 6 and the latter between the transformer and the ground connection 12.
- the transformer 14 matches the low impedance of the line with the higher input imped
- the signal oscillations of audiofrequency are impressed upon the conductor 1 by a conductor, not shown, connected to said conductor 1, at any point so that the coils 4 may be between it and the source of supply; and these oscillations pass through radiofrequency choke coils 15 *to the conductors 7.
- the conductors '7 and coils 15 are of course joined to the conductor 1 at any suitable point so that the coils 4 will lie between the source of supply for the conductors 1 and the conductors 7.
- the receivedoscillations come in by way of the antenna 5 and pass by way of the conductor 9 to the conductor 1 and thence to the conductor 13 and transformer 14. They are conveyed over the conductor 6 to the receiveri which impresses audiofrequncy oscillations on the conductor 1. These low frequency oscillations alone can pass out over the conductors 7, because the radiofrequency oscillations are stopped by the coils 15.
- the transformer 8 with the condensers 10 and 11 and the transformer 14 with the condensers 10 and 11 are both enclosed in a casing 16 of such material that it acts as a shield and protects these transformers against disturbances.
- An apparatus for receiving radio signals comprising an antenna, means for cgnphng the same to the ductor, means for changing the frequency of said signals, means for impressing said changed signals on said conductor, and connections from said conductor to convey said changed signals to one or more desired points, said connections having means therein for obstructing the passage of radiofrequency oscillations thereon.
- Radio receiving apparatus comprising an antenna, means for coupling the antenna to the grounded conductor of a power line, means for coupling to said conductor a radio receiving set means for changing said signals to audiofrequencies, means for impressing said audiofrequencies on said conductor, and connections containing radiofrequency choke coils to convey the output of said receiver from said conductor to one or more desired points.
- Radio signal receiving apparatus comprising an antenna, means for coupling said antenna to the grounded conductor of a power line, a receiving set having a detector coupled'to said conductor, means for impressing said receiver output on said conductor, a translating device connected to said conductor, and means for restraining said signals and said receiver output to a predetermined portion of said grounded conductor, said means comprising a reactance coil in each side of said power line, said coils being wound to be in magnetic opposition.
Description
Examiner Nov. 6,-1934.
w. F. COTTER Q RADIO APRARATUS \liilcd Nov. 28, 19:53
' INVENTOR. my, E Co fier- LLPHONY.
Patented Nov. 6, 1934 UNITED STATES llXdfiliii-B,
PATENT OFFICE RADIO APPARATUS Application November 2 6 Claims.
This invention relates to improvements in radio apparatus and more particularly to apparatus for employing the conductors of a lighting or power circuit for conveyance of high frequency signals.
An object of the invention is to provide means for enabling a receiving antenna to be connected to a power or lighting circuit at any available outlet and for enabling the receiver to be similarly connected to the same circuit at another convenient outlet, so that the signals received can be conducted from the antenna to the receiver over a power conductor as a transmission line; and by suitable appliances to transfer the output of the receiver over a conductor of the power or lighting circuit to suitable apparatus, such as a loud speaker, by which a program can be rendered audible.
A further object of the invention is to provide a system of this type which can be easily produced at relatively low cost, easily connected and operated in a practical manner with certainty and efliciency.
On the drawing the figure discloses one or more embodiments of the invention; but the right is of course reserved to make any changes which do not depart from the principle of the invention or exceed the scope and spirit of the appended claims.
5 is not hus'treatcr On the drawing:
The figure is a circuit diagram showing how the invention is connected.
The numerals 1 and 1 indicate a pair of conductors for a light or power circuit which supply current for lamps or other translating devices indicated at 2. These conductors are connected to a suitable source of current, and the conductor 1 on the low side of the line is grounded at 3. Between the ground point and the translating devices 2 are reactor coils 4, one of which is in the line of each of the conductors 1 and 1', and the grounded connection 3 must be placed between these reactors and the source of energy which supplies the conductors 1 and 1'. The coils 4 are inductively related and operate as set forth in the application of Marion C. Bond and myself, for patent on a Program distribution system, filed March 23, 1933, Serial No. 662,252, which states that they are wound in opposition to one another, and the resultant of the magnetic fields created by power current is zero. Higher fg eguen cies flowing 8, 1933, Serial No. 700,049
A receiving antenna is indicated at 5 and radio signal oscillations picked up by this antenna are passed along over the conductor 1 and a conductor 6 to the antenna terminal of a radio receiver. The output of this receiver is impressed upon the conductor 1 and is led ofi by way of conductors '7 to loud speakers or miscellaneous equipment or other program reproducing apparatus. Hence with this system the antenna can be connected to any convenient outlet of the power or lighting circuit and the receiver can likewise be connected thereto at another point; while the loud speakers or such can be joined to the power line at other points. Thus the antenna might be connected in one room, and the receiver may be in another room connected to the power line at a socket or outlet therein; and finally the' conductors 7 may be united to the conductor 1 in still other rooms of the house or building. Then when the radio set is in operation, high frequency oscillations will be conducted to it over the antenna 5, conductor 1 and lead 6; and audiofrequency oscillations from the receiver will be imposed upon the conductor 1 and transmitted to the conductors 7.
In the line of the antenna 5 is an auto-transformer 8 connected by a tap 9 directly to the conductor 1 at any point thereon so that the coils 4 will be between this point and the source of supply. At the ends of the transformer 8 and in series therewith are condensers 10 and 11, the latter being grounded at 12. The transformer is thus coupled in the conventional way to the low tension side of the power line and the transformer 8 matches the impedance of the antenna circuit with the low impedance of the power line. A conductor 13 joins to the low tension conductor of the power line another transformer 14; this conductor being united to the conductor 1 at any point so that the coils 4 may be between it and the source of supply; and the other end of this conductor being connected to a suitable tap in the transformer 14. In series with this transformer are condensers 10 and 11, the former being between this transformer and the conductor 6 and the latter between the transformer and the ground connection 12. The transformer 14 matches the low impedance of the line with the higher input impedance of the receiver.
From the output end of the receiver the signal oscillations of audiofrequency are impressed upon the conductor 1 by a conductor, not shown, connected to said conductor 1, at any point so that the coils 4 may be between it and the source of supply; and these oscillations pass through radiofrequency choke coils 15 *to the conductors 7. The conductors '7 and coils 15 are of course joined to the conductor 1 at any suitable point so that the coils 4 will lie between the source of supply for the conductors 1 and the conductors 7.
In practice, the receivedoscillations come in by way of the antenna 5 and pass by way of the conductor 9 to the conductor 1 and thence to the conductor 13 and transformer 14. They are conveyed over the conductor 6 to the receiveri which impresses audiofrequncy oscillations on the conductor 1. These low frequency oscillations alone can pass out over the conductors 7, because the radiofrequency oscillations are stopped by the coils 15.
The transformer 8 with the condensers 10 and 11 and the transformer 14 with the condensers 10 and 11 are both enclosed in a casing 16 of such material that it acts as a shield and protects these transformers against disturbances.
'I-Iaving described the invention what is claimed is: a
1. The method of receiving radio signals which consists in impressing the same on a power line, conveying them to a receiver, c anging the frequency of said signals, conducting the output of said receiver to said power line and transmitting the output of the receiver from said power line to a desired point, and means for confining said signals and receiver output to a predetermined section of said power line.
2. The method of receiving radio signals which consists in impressing radiofrequency oscillations upon the conductor of a power line, transmitting said signals to a radio receiver, detecting said signals, impressing the audiofrequency oscillations delivered by said receiver upon said power line, and conducting said audiofrequency oscillations from the power line to one or more desired points, and at the same time ohstructing the transmission of radiofrequency oscillations to said points.
3. An apparatus for receiving radio signals comprising an antenna, means for cgnphng the same to the ductor, means for changing the frequency of said signals, means for impressing said changed signals on said conductor, and connections from said conductor to convey said changed signals to one or more desired points, said connections having means therein for obstructing the passage of radiofrequency oscillations thereon.
4. Radio receiving apparatus comprising an antenna, means for coupling the antenna to the grounded conductor of a power line, means for coupling to said conductor a radio receiving set means for changing said signals to audiofrequencies, means for impressing said audiofrequencies on said conductor, and connections containing radiofrequency choke coils to convey the output of said receiver from said conductor to one or more desired points. i
5. Radio signal receiving apparatus comprising an antenna, means for coupling said antenna to the grounded conductor of a power line, a receiving set having a detector coupled'to said conductor, means for impressing said receiver output on said conductor, a translating device connected to said conductor, and means for restraining said signals and said receiver output to a predetermined portion of said grounded conductor, said means comprising a reactance coil in each side of said power line, said coils being wound to be in magnetic opposition.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US700049A US1979315A (en) | 1933-11-28 | 1933-11-28 | Radio apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US700049A US1979315A (en) | 1933-11-28 | 1933-11-28 | Radio apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
US1979315A true US1979315A (en) | 1934-11-06 |
Family
ID=24811982
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US700049A Expired - Lifetime US1979315A (en) | 1933-11-28 | 1933-11-28 | Radio apparatus |
Country Status (1)
Country | Link |
---|---|
US (1) | US1979315A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2611895A (en) * | 1948-12-08 | 1952-09-23 | Lacey Edward | Multiplex antenna distribution system |
US2861265A (en) * | 1953-06-12 | 1958-11-18 | Alliance Mfg Company Division | Rotator |
US3264633A (en) * | 1961-03-22 | 1966-08-02 | Gen Electric | Automatic power meter reading over neutral power transmission line |
-
1933
- 1933-11-28 US US700049A patent/US1979315A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2611895A (en) * | 1948-12-08 | 1952-09-23 | Lacey Edward | Multiplex antenna distribution system |
US2861265A (en) * | 1953-06-12 | 1958-11-18 | Alliance Mfg Company Division | Rotator |
US3264633A (en) * | 1961-03-22 | 1966-08-02 | Gen Electric | Automatic power meter reading over neutral power transmission line |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4004110A (en) | Power supply for power line carrier communication systems | |
US2756282A (en) | Directional amplifier system and apparatus | |
US2789282A (en) | Automatic approach alarm | |
US2411786A (en) | Communications system | |
US1979315A (en) | Radio apparatus | |
US3488632A (en) | Infinitely variable inductive remote control system | |
US2268812A (en) | Program distribution system | |
US2159927A (en) | Neutralization of inductive interference | |
US1690228A (en) | High-frequency transformer | |
US1840013A (en) | Radio receiving and reproduction system | |
US1962611A (en) | Radio communication | |
US1677268A (en) | High-frequency signaling system | |
US3042750A (en) | Remote listening and control system | |
US1375675A (en) | Signaling method and system | |
US1979314A (en) | Power line reactor | |
US1979313A (en) | Program distribution system | |
US2202141A (en) | Signal receiving system | |
US2448540A (en) | Electrophysiotherapeutic apparatus | |
US1946582A (en) | Radio receiving system | |
Brown | Power-line carrier channels | |
US2824955A (en) | Radio transmitting system | |
US1769256A (en) | Radioreceiver | |
US1751485A (en) | Frequency-changing method and means | |
US1842558A (en) | Amplifier energizing system | |
US1723485A (en) | Coupling circuit |