US1505085A - Radio receiving apparatus - Google Patents
Radio receiving apparatus Download PDFInfo
- Publication number
- US1505085A US1505085A US575140A US57514022A US1505085A US 1505085 A US1505085 A US 1505085A US 575140 A US575140 A US 575140A US 57514022 A US57514022 A US 57514022A US 1505085 A US1505085 A US 1505085A
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- United States
- Prior art keywords
- transformer
- radio frequency
- core
- radio
- receiving apparatus
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F19/00—Fixed transformers or mutual inductances of the signal type
- H01F19/04—Transformers or mutual inductances suitable for handling frequencies considerably beyond the audio range
Definitions
- My invention relates broadly to radio receiving apparatus and more particularly to a radio frequency transformer for operating between the electron tube circuits of a radio .frequency electron tube amplifier.
- the object of my invention is to provide means in a radio frequency electron tube amplification circuit for reducing the interference oifered'by the tendency of the respective electron tube circuits to oscillate.
- Another object of the invention is to provide means between the respective electron tube circuits of a radio frequency amplifier responsive to a broad band of frequencies.
- Another object of the invention is to provide a construction of intervalve radio frequency transformer having low distributed capacity.
- a Astill further object of the invention is to provide a construction of radio frequency transformer of simple design and capable of manufacture in quantity production at minimum cost.
- Another object of the invention is to provide a radio frequency transformer which may be mounted in a composition or metal casing and suitably insulated therein, and a terminal block provided on the casing.
- Figure 1 is a top plan view of my transformer drawn to. actual size; Fig. 2 is a side elevation of the transformer; Fig. 3 is an end view of the transformer; Fig. 4: is a view of the transformer showing the primary and secondary windings in section; Fig. 5 is a perspective view of the transformer within a casing; Fig. 6 is a chart showing the characteristic curve of my transformer plotted with id voltage amplification as ordinates against frequency or wavelength in meters as abscissa as compared to the characteristic curves of transformers of usual construction; and Fig. 7 is a wiring diagram of a radio receiving apparatus showing the connection of my transformers between the electron tube radio frequency amplification circuits.
- radio frequency amplifiers having the intervalve circuits coupled by transformers have been limited for efficient operation to an extremely narrow band of frequencies.
- the characteristic curves for such transformers show maximum amplification on sharp peaks over a limited band of frequencies.
- radio frequency amplification such characteristics of the intervalve circuits tend to produce undesired interference by oscillation reacting between the circuits.
- I have designed a transformer which eliminates these undesired peak characteristics and responds to a broad band of frequencies.
- I employ a set of L shaped laminations opposite each other. I provide magnetic leaka the adjacent ends of the l. zhaped core members.
- On opposite legs of the core I wind primary and secondary windings, each consisting of a single layer of insulated wire.
- the magnetic leakage paths at the ends of the L shapedlaminations are chosen with respect to the size of the core and the size of the primary and secondary windings to insure operation of the transformer at maximum efciency over a relatively wide band of frequencies.
- the transformer may be mounted in a composition cr metal container serving to mechanically support the transformer, to provide terminals for the connection of the primary and secondary windings with the electron tube circuits, and to electrically insulate the transformer.
- reference character l indicates the L shaped core laminations for one leg of the transformer
- numeral 2 indicates the L shaped laminat-ions for the opposite leg of the transformer.
- the core laminations 1 are secured as a unit at 3 and 4.
- the core laminations 2 are mechanically connected at 5 and 6.
- Insulated members 7 and 8 are secured at I and 5 respectively to maintain the core members in position and providing In multistage 12 are wound on insulated members 11 and nitude.
- the ends of primary winding 14 are represented at 14a and. are electrically connected to terminal posts onthe transv former.
- the ends of secondary winding 12 are indicated at 12l and connect to terminal posts of the transformer.:
- the transformer may be mounted within a container as shown in Fig. 5 where the container' 17 mechanically supports the transformer; .1 and provides a ,terminal block for posts 14h and 12b of the 'primary and secondary windings respectively and at the same time provides an electrically in sulated casing for the transformer.V
- radio' frequency transformer is the result of extensive research.
- An adjustment is m-ade in my radio frequency transformer by the proper change of the air gap in such a way' that the coupling between the primary and secondary coil assumes the right mag-
- the number of ⁇ turns and the distributed capacity of the coils determine the wave length at which the two resonance points of the windings.
- I have determined that the critical dimension of this magnet-ic leakage gap is .O4 inches which is the value affording such lossesas to flatten the characteristic curve between the resonance points of each winding.
- Fig. 6 shows the relative characteristic curves of myv transformer and other types ordinate 22- represents values of grid voltage amplification.
- the abscissa 2t represents wavelength in meters or frequency. All of these curves were determined by connecting the different transformers in the same electron tube test circuit.
- Curve 21 is the characteristic of my transformer.
- Curves 18, 19 and 20 are the characteristic curves of other types of radio frequency transformers. It will be apparent that my construction of radiqfrequency transformer enables operationcf a radio frequency amplication circuit over a broad band lof wavelengths and does not have the disadvantage of sharp peaks as compared to the characteristic curves of other transformers which show undesired sharp peaks and which operate-over a more narrow band of wavelengths. l
- Fig. 7 represents al radio receiving apparatus showing the connection of a radio frequency amplifier employing my radio frequency transformers.
- a loop collector 25 is' employed tuned by condenser 26.
- Electron tube 27 is connected to amplify the incoming energy at radio frequency.
- Radio frequency transformer 28 has its primary winding connected in the output circuit of electron tube 27 and. its secondary winding connected to the input circuit of electron tube 2.9.
- the output circuit of electron tube 29 includes the primary winding of radio frequency transformer 30.
- the secondary winding of radio frequency transforme-r 3() connects to the input circuit of electron tube 31 which includes in its output circuit the primary winding of radio frequency transformer 32.
- the secondary Windingv of radio frequency transformer 32 connects to electron tube circuit 35 arranged as a rectifier with grid condenser and grid leak 34 in the grid circuit thereof.
- Telephone rereceivers 36 are represented in the output Icircuit of the detector.
- the plate circuits of all of the electron tubes are supplied from B battery 38.
- the filamentheating current for all of the electron tubes is supplied from A battery 110.
- Rheostat 39 controls the filament temperature of the electron tubes.
- Il have only represented the radio frequency amplification circuit with detector, but it will be understood that a multistage audio frequency amplifier may be connected after the detector circuit. y
- a radio frequency transformer comprising in combination a substantially closed magnetic core, a primary winding, and a secondary winding on said core in coupled relation, said Awindings having extremely small distributed capacity at the frequencies for which they are designed to operate, the core having a magnetic leakage gap therein of a size designed for introducing losses to a degree necessary to enable said transformer to operate effectively over a broad band of frequencies.
- a radio frequently transformer comprising a pair of L shape-core members arranged opposite each other, magnetic leakage gaps between the ends of said core members for broadening the amplification characteristic of said transformer, and single layer primary and secondary windings disposed one on each of said core members whereby extremely low distributed capacity between said windings exists at the frequency at which said windings are designed to operate.
- a radio electron tubes' comprising in combination a frequency transformer, comprising in coin-- substantially closed magnetic core, a single 30 v)in ation a sustantially closed magnetic core, a magnetic leakage gap in said core, a single layer primary winding on one side of said magnetic core and a substantially similar secondary winding on the other side of said mafnetic coresaid Windin s bein arran ed a a g in such position that extremely small distributed capacity exists between said windings at radio frequencies with said magnetic leakage gap operating to Hatten the ampliication characteristiccurve of said transforme-r.
- a radio frequency transformer comprising l. shape-- core members arranged opposite each other,
- a radio frequency transformer for coupling the input and" output circuits of layer primary windin on one side of said core and a substanti l similar secondary winding on the other sidi of said core closely coupled to said primar?7 winding, said windings having extreme y small distributed capacity at the frequencies for which they are designed to 4operate, and a magnetic leakage gap in said magnetic core of a size for introducing a degree of losses operating to ila-tten the characteristic curve of said transformer ⁇ between the resonance curves of each oit said windings whereby said transformereffectively transfers va broad band of frequencies.
- a radio frequency transformer comprising in combination a substantially closed magnetic core, and single layer ⁇ primary and secondary windings on the core in coupled relation, said windings having small distributed capacity at fre uencies for which they operate, said core inc uding a m age gap designed to introduce osses toa degree to enable the transformer to operate effectively over a broad band of frequencies.
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- Power Engineering (AREA)
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- Coils Or Transformers For Communication (AREA)
Description
Aug. 19 1924.
Q. E; BRIGHAM RADI O RECEI VING APPARATUS Filed July 15 1922 2 Sheets-Sheet l 1,505,085 C. E. BRGHAM RAMO REGMVING APPARATUS Filed July 15 waz 2 vsheets-shew 2 Aug 19 1924..
Patented Aug. v19, 1924.
UNITED sraras iseae lTENT OFF.
CEGID E. BBIG'HAM, OF WASHINGTON, DISTRICT OF COLUMBIA, ASSIGNO'R, :BY MESNE ASSIGNMENTS, TO DUBILIER CONDENSER & RADIO CORORATION, 0F NEW YORK,
N. Y., .A CORPORATION O'F DELAWARE.
RADIO RECEIVING APPARATUS.
Application filed July 15, 1922. Serial No. 575,140.
To all whom it may ooacem:
Be it known that I, CEGIL E. BRIGHAM,-
provement in Radio Receiving Apparatus,
of which the following is a specication.
My invention relates broadly to radio receiving apparatus and more particularly to a radio frequency transformer for operating between the electron tube circuits of a radio .frequency electron tube amplifier.
The object of my invention is to provide means in a radio frequency electron tube amplification circuit for reducing the interference oifered'by the tendency of the respective electron tube circuits to oscillate.
Another object of the invention is to provide means between the respective electron tube circuits of a radio frequency amplifier responsive to a broad band of frequencies.
Another object of the invention is to provide a construction of intervalve radio frequency transformer having low distributed capacity.
A Astill further object of the invention is to provide a construction of radio frequency transformer of simple design and capable of manufacture in quantity production at minimum cost. s
Another object of the invention is to provide a radio frequency transformer which may be mounted in a composition or metal casing and suitably insulated therein, and a terminal block provided on the casing.
Other and further objects of the invention will appear in the following specification and by reference to the accompanying drawings in which:
Figure 1 is a top plan view of my transformer drawn to. actual size; Fig. 2 is a side elevation of the transformer; Fig. 3 is an end view of the transformer; Fig. 4: is a view of the transformer showing the primary and secondary windings in section; Fig. 5 is a perspective view of the transformer within a casing; Fig. 6 is a chart showing the characteristic curve of my transformer plotted with id voltage amplification as ordinates against frequency or wavelength in meters as abscissa as compared to the characteristic curves of transformers of usual construction; and Fig. 7 is a wiring diagram of a radio receiving apparatus showing the connection of my transformers between the electron tube radio frequency amplification circuits.
' rllhe present embodiment of the invention has been found to be quite practical and capable o-f eicient operation.
Heretofore in the art radio frequency amplifiers having the intervalve circuits coupled by transformers have been limited for efficient operation to an extremely narrow band of frequencies. The characteristic curves for such transformers show maximum amplification on sharp peaks over a limited band of frequencies. radio frequency amplification such characteristics of the intervalve circuits tend to produce undesired interference by oscillation reacting between the circuits. In my present invention, I have designed a transformer which eliminates these undesired peak characteristics and responds to a broad band of frequencies. I employ a set of L shaped laminations opposite each other. I provide magnetic leaka the adjacent ends of the l. zhaped core members. On opposite legs of the core I wind primary and secondary windings, each consisting of a single layer of insulated wire. By this construction I secure an extremely low distributed capacity. The magnetic leakage paths at the ends of the L shapedlaminations are chosen with respect to the size of the core and the size of the primary and secondary windings to insure operation of the transformer at maximum efciency over a relatively wide band of frequencies.
. The transformer may be mounted in a composition cr metal container serving to mechanically support the transformer, to provide terminals for the connection of the primary and secondary windings with the electron tube circuits, and to electrically insulate the transformer.
Referring more particularly to the drawings, reference character l indicates the L shaped core laminations for one leg of the transformer, and numeral 2 indicates the L shaped laminat-ions for the opposite leg of the transformer.- The core laminations 1 are secured as a unit at 3 and 4. The core laminations 2 are mechanically connected at 5 and 6. Insulated members 7 and 8 are secured at I and 5 respectively to maintain the core members in position and providing In multistage 12 are wound on insulated members 11 and nitude.
' take place.
comprise a single layer of enamel covered.
copper wire. The ends of primary winding 14 are represented at 14a and. are electrically connected to terminal posts onthe transv former. The ends of secondary winding 12 are indicated at 12l and connect to terminal posts of the transformer.:
The transformer may be mounted within a container as shown in Fig. 5 where the container' 17 mechanically supports the transformer; .1 and provides a ,terminal block for posts 14h and 12b of the 'primary and secondary windings respectively and at the same time provides an electrically in sulated casing for the transformer.V
The present construction of radio' frequency transformer is the result of extensive research. An adjustment is m-ade in my radio frequency transformer by the proper change of the air gap in such a way' that the coupling between the primary and secondary coil assumes the right mag- At the same time the number of `turns and the distributed capacity of the coils determine the wave length at which the two resonance points of the windings There are certain. losses introduced in the iron and in the coils in such manner that the resonance points of the windings are not sharp but give a substantially fiat amplification curve over the entire range of desired wave lengths. I have determined that the critical dimension of this magnet-ic leakage gap is .O4 inches which is the value affording such lossesas to flatten the characteristic curve between the resonance points of each winding.
of radio frequency transformers.
Fig. 6 shows the relative characteristic curves of myv transformer and other types ordinate 22- represents values of grid voltage amplification. The abscissa 2t represents wavelength in meters or frequency. All of these curves were determined by connecting the different transformers in the same electron tube test circuit.' Curve 21 is the characteristic of my transformer. Curves 18, 19 and 20 are the characteristic curves of other types of radio frequency transformers. It will be apparent that my construction of radiqfrequency transformer enables operationcf a radio frequency amplication circuit over a broad band lof wavelengths and does not have the disadvantage of sharp peaks as compared to the characteristic curves of other transformers which show undesired sharp peaks and which operate-over a more narrow band of wavelengths. l
The
Fig. 7 represents al radio receiving apparatus showing the connection of a radio frequency amplifier employing my radio frequency transformers. A loop collector 25 is' employed tuned by condenser 26. Electron tube 27 is connected to amplify the incoming energy at radio frequency. Radio frequency transformer 28 has its primary winding connected in the output circuit of electron tube 27 and. its secondary winding connected to the input circuit of electron tube 2.9. The output circuit of electron tube 29 includes the primary winding of radio frequency transformer 30. The secondary winding of radio frequency transforme-r 3() connects to the input circuit of electron tube 31 which includes in its output circuit the primary winding of radio frequency transformer 32. The secondary Windingv of radio frequency transformer 32 connects to electron tube circuit 35 arranged as a rectifier with grid condenser and grid leak 34 in the grid circuit thereof. Telephone rereceivers 36 are represented in the output Icircuit of the detector. The plate circuits of all of the electron tubes are supplied from B battery 38. The filamentheating current for all of the electron tubes is supplied from A battery 110. Rheostat 39 controls the filament temperature of the electron tubes. Il have only represented the radio frequency amplification circuit with detector, but it will be understood that a multistage audio frequency amplifier may be connected after the detector circuit. y
While I have described the invention in Specific terms I intend no limitations other than are imposed by the scope of the ap pended claims.
Having described my invention, what I claim is,
1. A radio frequency transformer comprising in combination a substantially closed magnetic core, a primary winding, and a secondary winding on said core in coupled relation, said Awindings having extremely small distributed capacity at the frequencies for which they are designed to operate, the core having a magnetic leakage gap therein of a size designed for introducing losses to a degree necessary to enable said transformer to operate effectively over a broad band of frequencies.
2. In a radio receiving apparatus, a radio frequently transformer, comprising a pair of L shape-core members arranged opposite each other, magnetic leakage gaps between the ends of said core members for broadening the amplification characteristic of said transformer, and single layer primary and secondary windings disposed one on each of said core members whereby extremely low distributed capacity between said windings exists at the frequency at which said windings are designed to operate.
3. 'In a. radio receiving apparatus, a radio electron tubes', comprising in combination a frequency transformer, comprising in coin-- substantially closed magnetic core, a single 30 v)in ation a sustantially closed magnetic core, a magnetic leakage gap in said core, a single layer primary winding on one side of said magnetic core and a substantially similar secondary winding on the other side of said mafnetic coresaid Windin s bein arran ed a a g in such position that extremely small distributed capacity exists between said windings at radio frequencies with said magnetic leakage gap operating to Hatten the ampliication characteristiccurve of said transforme-r. i
4. In a radio receiving apparatus, a radio frequency transformer comprising l. shape-- core members arranged opposite each other,
magnetic leakage gaps, separating the ends of said c'ore members, a coil support carried on each ofsaid core lmembers and a single layer primary winding on one sup rt and a similar secondary winding on t e other support and arranged to have low distributed capacity at radio frequencies with a relatively fiat amplification characteristic curve.
5. A radio frequency transformer for coupling the input and" output circuits of layer primary windin on one side of said core and a substanti l similar secondary winding on the other sidi of said core closely coupled to said primar?7 winding, said windings having extreme y small distributed capacity at the frequencies for which they are designed to 4operate, and a magnetic leakage gap in said magnetic core of a size for introducing a degree of losses operating to ila-tten the characteristic curve of said transformer `between the resonance curves of each oit said windings whereby said transformereffectively transfers va broad band of frequencies.
6. A radio frequency transformer comprising in combination a substantially closed magnetic core, and single layer `primary and secondary windings on the core in coupled relation, said windings having small distributed capacity at fre uencies for which they operate, said core inc uding a m age gap designed to introduce osses toa degree to enable the transformer to operate effectively over a broad band of frequencies.
cEorL E. BR'IGHAM.
etic leak-
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US575140A US1505085A (en) | 1922-07-15 | 1922-07-15 | Radio receiving apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US575140A US1505085A (en) | 1922-07-15 | 1922-07-15 | Radio receiving apparatus |
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US1505085A true US1505085A (en) | 1924-08-19 |
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US575140A Expired - Lifetime US1505085A (en) | 1922-07-15 | 1922-07-15 | Radio receiving apparatus |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2505944A (en) * | 1947-01-07 | 1950-05-02 | Clark Norris Lee | Ultraviolet electrotherapeutic device |
US2560552A (en) * | 1949-06-29 | 1951-07-17 | Caliri Mfg Co Inc | Soldering gun |
US3886434A (en) * | 1973-09-07 | 1975-05-27 | Warwick Electronics Inc | Flyback transformer |
US4099510A (en) * | 1975-08-14 | 1978-07-11 | Societe Anonyme Pour L'equipement Electrique Des Vehicules S.E.V. Marchal | Ignition coil for internal combustion engine |
US4238753A (en) * | 1978-06-02 | 1980-12-09 | Trw Inc. | Transformer core gapping and lead anchoring arrangement |
US4602236A (en) * | 1985-02-08 | 1986-07-22 | Fl Industries, Inc. | Laminated ballast core |
-
1922
- 1922-07-15 US US575140A patent/US1505085A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2505944A (en) * | 1947-01-07 | 1950-05-02 | Clark Norris Lee | Ultraviolet electrotherapeutic device |
US2560552A (en) * | 1949-06-29 | 1951-07-17 | Caliri Mfg Co Inc | Soldering gun |
US3886434A (en) * | 1973-09-07 | 1975-05-27 | Warwick Electronics Inc | Flyback transformer |
US4099510A (en) * | 1975-08-14 | 1978-07-11 | Societe Anonyme Pour L'equipement Electrique Des Vehicules S.E.V. Marchal | Ignition coil for internal combustion engine |
US4238753A (en) * | 1978-06-02 | 1980-12-09 | Trw Inc. | Transformer core gapping and lead anchoring arrangement |
US4602236A (en) * | 1985-02-08 | 1986-07-22 | Fl Industries, Inc. | Laminated ballast core |
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