US1588813A - Oscillation circuits - Google Patents
Oscillation circuits Download PDFInfo
- Publication number
- US1588813A US1588813A US497316A US49731621A US1588813A US 1588813 A US1588813 A US 1588813A US 497316 A US497316 A US 497316A US 49731621 A US49731621 A US 49731621A US 1588813 A US1588813 A US 1588813A
- Authority
- US
- United States
- Prior art keywords
- oscillation circuit
- inductance
- grid
- anode
- self
- 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
- H03—ELECTRONIC CIRCUITRY
- H03H—IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS
- H03H2/00—Networks using elements or techniques not provided for in groups H03H3/00 - H03H21/00
- H03H2/005—Coupling circuits between transmission lines or antennas and transmitters, receivers or amplifiers
- H03H2/006—Transmitter or amplifier output circuits
Definitions
- Thearrangement can be used notonly for thesending ofenergy but also as receiver in while Figs. 3 and 4 correspond with the modes of connection shown in Figs. 1 and 2 with the exception that between the anode andgrid afixed condenseris inserted.
- the cathode k and the anode a are coupled with the oscillable primary system (antenna), the cathode is and the anode a being connected with the antenna self-inductance 8 across the high-tension battery h provided with the parallel condenser.
- the primary oscillation system is" completed by the tuning condenser c.
- a self-inductance is inserted between cathode, and grid whereby the grid pressure difference with regard to 7c.v I
- the self-inductance which is coupled with the primary circuit (antenna) forms therefore a part'of the f
- the connection can be arranged so that grid 9 and cathode is are coupled'with the oscillable primary system s c by a self-inductance 8 whilst the anode is connected with the cathodeby the coil 8 across the battery k.
- the value of the self-inductance which does not formpart ot the voscillation system depends within certain limits on the wave which 'caserelay-action occurs in the well length but it is not critical. Under certain conditions the value of self-induction resulting from the connecting conduits be-- tween the electrodes will be sufficient.
- connections can be utilized, according to a further object of the invention, by bridging the anode and the grid over by a condenser, whilst only one of the self-inductances situated between the auxiliary electrode and cathode or between the anode and cathode is coupled with the oscillation circuit or forms part of the same.
- a special advantage of the mode of connection shown by Figs. '2 and '4 consists in this that the damping influence of a special return coupling coil is avoided in the oscillation circuit 0 8
- This arrangement permits further to connect, at the production of auxiliary oscillations, the auxiliary electrode 9 which is generally constructed as a grid with the total tension of the coil 8 of the oscillation circuit whereby under receiving conditions the maximum intensity of sound is realized.
- the mode of connection shown by Fig. 4 can be utilized obviously as a connection for heterodyne reception.
- I claim 1. In an electron tube system for the generation of electrical oscillations, the combination of an electron tube having grid,
- an oscillation circuit an inductance connected across said plate and filament electrodes and connected with said oscillation circuit, a fixed condenser connected between said grid and plate electrodes, and an inductance element connected between said grid and filament electrodes and substantially independent of said aforementioned inductance, said last mentioned inductance having such value that damping losses in said oscillation circuit are balanced and an alternating current resistance is established between said grid and filament electrodes for securing a potential difference between said grid and filament electrodes for setting up oscillations in said oscillation circuit.
- an oscillation circuit connected with said first mentioned inductance element, a fixed condenser connected in series with said second mentioned inductance element and shunted across said grid and plate electrodes, the values of said second mentioned inductance and said fixed condenser being so chosen that the damping losses in said oscillation circuit are "balanced and a potential difference is normally established between said grid and filament electrodes for setting up an alternating current resistance therebetween for the generation of oscillations in said oscillation circuit.
Description
June 15,1926. 1,588,813
w. SCHEPPMANN oscxnuwmn cmcuns F'z lled August 31, 1921 Fig.1. 8 Fig.2
Fig.3. Fig.4.
Jinn/0r:
Wilhelm Schoppmqnn,
[llama Patented June 15, 1926.
UNITED STA PATENTOF pics."
WILHELM SCHEIBPMANN, or nnnmn-nnurnmrnnnor, GERMANY, ASSIGNOR To o.
onnnz axrrnnensnnnsonarr, or eannzwne, 'BERLIN-TEMPELHOF, GERMANY.
osorLLArIon crncurrs Application filed August 31, 1921, Serial No.
ergy produced by the tube, and, on the other.
hand to conduct again to the tube, part of the oscillating energy which exists in the oscillation circuit to excite the tube'for pro- I ducing undamped oscillations; -Generally in this practice the two self induct'ances for the connection of the auxiliary electrode and of the anode with the filament are both in serted in oneoscillation circuit. These meth ods suffer from the inconvenience "that the energy which is returnedto the tube for the purpose of control must not exceed certain limits it the best efiiciency has'to be ensured.v These arrangements can therefore not be used for a great wave range and for different degrees of energywithout an alteration of the return coupling of the tube with the oscillation. circuit; This is particularly disturbing as, amongst'others, the alteration has to be made by relatively moving coupled coils whose position is'determined by the condition that they couple themselves in a degree determined by their relative positions.
A further'inconvenience is caused the coupled coils as comparatively a large amount of material is thus-introduced into the field of self-induction of'the oscillation circuit so that an unnecessary damping of this oscillation circuit and unnecessary-losses in thesame are caused which is noxious specially when the tube is used for receiving purposes; v I 8 These inconveniencies are avoided, according to this invention, by the arrangement that of the two self-inductances, of which one connects the auxiliary electrode and the other the anode with the cathode, only one;
is. coupled with the primary oscillation circuit or forms a part of this oscillationcircuit. Consequently the two self-inductances are connected only through the intermediary of the anode and of the auxiliary electrode (grid) in contradistinction to the arrangement mentioned above inwhich the two selfinductances are enclosed in one closed common circuit. The following result is obtained from the insertion of only one of the theoscillations are produced.
' c obtains 'a' same.
497,816," and in Germany November 29, 1917.
twooself-inductanc'es in the primary oscillation circuit or from the coupling ofthis one self-inductance with said primary oscillation circuit. In order to excite the tube for the production of oscillations it is necessary that between cathodea n'd anode or auxiliary electrode a periodic pressure difference be produced which determines the rhythm in which The rhythm itself is determined by the electric value of the circuits betweenthe cathode and anode and between the cathode and grid. To produce this necessary pressure difference it is sufficient to insert a self-inductance between the'oathode andone of the other electrodes, the, energy-produced being taken from the cathode and from the electrode which is still free 7 1 .i
Thearrangement can be used notonly for thesending ofenergy but also as receiver in while Figs. 3 and 4 correspond with the modes of connection shown in Figs. 1 and 2 with the exception that between the anode andgrid afixed condenseris inserted.
In ,the connection shown by Fig. 1 the cathode k and the anode a are coupled with the oscillable primary system (antenna), the cathode is and the anode a being connected with the antenna self-inductance 8 across the high-tension battery h provided with the parallel condenser. The primary oscillation system is" completed by the tuning condenser c. A self-inductance is inserted between cathode, and grid whereby the grid pressure difference with regard to 7c.v I
In this connection, the self-inductance which is coupled with the primary circuit (antenna) forms therefore a part'of the f According to-Fig. 2 the connection can be arranged so that grid 9 and cathode is are coupled'with the oscillable primary system s c by a self-inductance 8 whilst the anode is connected with the cathodeby the coil 8 across the battery k. V L
The value of the self-inductance which does not formpart ot the voscillation system depends within certain limits on the wave which 'caserelay-action occurs in the well length but it is not critical. Under certain conditions the value of self-induction resulting from the connecting conduits be-- tween the electrodes will be sufficient.
The hereinbefore described connections can be utilized, according to a further object of the invention, by bridging the anode and the grid over by a condenser, whilst only one of the self-inductances situated between the auxiliary electrode and cathode or between the anode and cathode is coupled with the oscillation circuit or forms part of the same.
By the bridging over of anode and auxiliary electrode by means of a capacity a mode of connection is obtained in which a circuit anode-cathode self-inductance is produced which is not coupled with the primary oscillation circuit and which serves exclusively for the control of the electron tube.
Herefrom result the forms of construction of the invention which are shown by way of example on Figs. 3 "and 4. They correspond with the modes of connection shown on Figs. 1 and 2 with the exception that between anode a and auxiliary electrode 7 a fixed condenser 0 is inserted. The coil 8 not coupled with the self-inductance s of the primary oscillation circuit '(c, 8,) is situated according to Fig. 3 between the cathode Jr and the auxiliary electrode g, and according to Fig. 4 between the cathode is and the anode a, c is the tuning capacity of the oscillation circuit, and e is a source of hightension with parallel-condenser.
The following operation results from this connection When the key indicated in the connection arrangements (Figs. 3 and 4) is depressed the condenser o is recharged from the high tension battery e across the coil 5, whereupon the condenser discharges over the electron tube and coil 8 In this manner a tension is produced at the auxiliary electrode 9 which can be utilized for the control of the electron tube.
A special advantage of the mode of connection shown by Figs. '2 and '4 consists in this that the damping influence of a special return coupling coil is avoided in the oscillation circuit 0 8 This arrangement permits further to connect, at the production of auxiliary oscillations, the auxiliary electrode 9 which is generally constructed as a grid with the total tension of the coil 8 of the oscillation circuit whereby under receiving conditions the maximum intensity of sound is realized. The mode of connection shown by Fig. 4 can be utilized obviously as a connection for heterodyne reception.
I claim 1. In an electron tube system for the generation of electrical oscillations, the combination of an electron tube having grid,
filament and plate electrodes, an oscillation circuit, an inductance connected across said plate and filament electrodes and connected with said oscillation circuit, a fixed condenser connected between said grid and plate electrodes, and an inductance element connected between said grid and filament electrodes and substantially independent of said aforementioned inductance, said last mentioned inductance having such value that damping losses in said oscillation circuit are balanced and an alternating current resistance is established between said grid and filament electrodes for securing a potential difference between said grid and filament electrodes for setting up oscillations in said oscillation circuit.
2. In a system for the production of electrical oscillations the combination of an electron tube having grid, filament and plate electrodes, a plurality of inductance elements, one of said inductance elements being connected between the plate and filament electrodes of said electron tube, and the other inductance element being connected between the grid and filament electrodes of said electron tube. an oscillation circuit connected with said first mentioned inductance element, a fixed condenser connected in series with said second mentioned inductance element and shunted across said grid and plate electrodes, the values of said second mentioned inductance and said fixed condenser being so chosen that the damping losses in said oscillation circuit are "balanced and a potential difference is normally established between said grid and filament electrodes for setting up an alternating current resistance therebetween for the generation of oscillations in said oscillation circuit.
3. In a system for the generation of electrical oscillations the combination of an electron tube having grid, filament and plate electrodes, a pair of inductance elements, one of said inductance elements being connected across said plate and filament electrodes and the other of said inductance elements being connected across said grid and filament electrodes, an oscillation circuit, and a connection between said oscillation circuit and said first mentioned inductance element only, a fixed capacity connected across said grid and plate electrodes, the values of said capacity and said second mentioned inductance each being selected to balance the losses existent in said oscillation circuit and to establish a phase displacement of 180 degrees between the currents in said first and second mentioned inductances for the generation of oscillations in said oscillation circuit.
In testimony whereof I have signed this .specification.
'WILHELM 'SCHEPPMANN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US108831A US1697328A (en) | 1921-08-31 | 1926-05-13 | Oscillation circuit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE1588813X | 1917-11-29 |
Publications (1)
Publication Number | Publication Date |
---|---|
US1588813A true US1588813A (en) | 1926-06-15 |
Family
ID=7736571
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US497316A Expired - Lifetime US1588813A (en) | 1917-11-29 | 1921-08-31 | Oscillation circuits |
Country Status (1)
Country | Link |
---|---|
US (1) | US1588813A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2727146A (en) * | 1950-02-28 | 1955-12-13 | Westinghouse Electric Corp | Sinusoidal oscillators |
-
1921
- 1921-08-31 US US497316A patent/US1588813A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2727146A (en) * | 1950-02-28 | 1955-12-13 | Westinghouse Electric Corp | Sinusoidal oscillators |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US1588813A (en) | Oscillation circuits | |
US2098386A (en) | Oscillation generator | |
US2226694A (en) | Neutralization circuit for short wave transmitters | |
US1982916A (en) | Transmitter | |
US2007662A (en) | Valve transmitter for short waves | |
US2609495A (en) | Push-pull mixing circuit arrangement | |
US2081425A (en) | High frequency transmission system | |
US1953775A (en) | Circuits for relaying or amplifying direct or alternating current energy | |
US2002201A (en) | Regenerative system and method of operating the same | |
US1848912A (en) | Signoes | |
US1673173A (en) | Crystal-calibrator apparatus | |
US1725721A (en) | Method and means for combining frequencies | |
US1961253A (en) | Multirange oscillator | |
US1848594A (en) | Fornia | |
US2124595A (en) | Oscillation system | |
US2187775A (en) | Push-pull tube arrangement | |
US2823305A (en) | Non-radiating frequency converter for a radio receiver | |
US1863798A (en) | Circuit arrangement for transmitter tubes | |
US2004171A (en) | Oscillation generator | |
US2250206A (en) | Amplifying system | |
US2995651A (en) | Mixing arrangement | |
US1726076A (en) | Oscillation circuits | |
US2036690A (en) | Superregenerative receiver | |
US1865574A (en) | Electron tube amplification system | |
US1764206A (en) | Electron-tube circuit |