US2953716A - Thyratrons - Google Patents
Thyratrons Download PDFInfo
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- US2953716A US2953716A US677611A US67761157A US2953716A US 2953716 A US2953716 A US 2953716A US 677611 A US677611 A US 677611A US 67761157 A US67761157 A US 67761157A US 2953716 A US2953716 A US 2953716A
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- base
- grid
- tetrode
- footstep
- thyratron
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J5/00—Details relating to vessels or to leading-in conductors common to two or more basic types of discharge tubes or lamps
- H01J5/50—Means forming part of the tube or lamps for the purpose of providing electrical connection to it
Definitions
- This invention relates to thyratrons and more specifically to thyratron tetrodes.
- Thyratron triodes are in eXtremely common use in many forms of electronic apparatus, the conventional form of thyratron triode having, of course, a gas filled envelope with a single grid situated between cathode and anode.
- the gas tetrode that is to say a tube having two successive grids, usually termed the inner and outer grids, between the cathode and anode, gives improved performance as compared to the triode and in particular a lower time jitterf a lower anode delay time and a lower anode delay time drift as well as requiring a lower grid firing voltage.
- the object of the present invention is to provide improved tetrode thyratrons so constructed and arranged that they may be used to replace triode thyratrons without any changes (other than mere replacement of one tube by another) in the apparatus-not even change of the tube holders being necessary.
- a thyratron tetrode is provided with a base having only four connector pins which are so positioned as to be adapted to plug into the four connection sockets of a normal thyratron valve holder, the two pins positioned to enter the two heater connection sockets and the pin positioned to enter the control grid connection socket of said holder being respectively connected within the tube base to the ends of the heater and to one of the two grids of the tetrode and the other grid of said tetrode being connected to said one grid through a coupling condenser housed in said base.
- the outer grid of the tetrode is connected directly through a connection in the base to the pin which is positioned to enter the control grid connection socket of the holder and the condenser in the base connects the inner and outer grids of the tetrode together.
- the condenser may conveniently be of the fiat strip type and may be fixed and connected directly between two of the normally provided connector leads coming through the footstep of the tetrode, one being an inner grid lead and the other an outer grid lead.
- the invention is illustrated in the accompanying drawing which shows in schematic perspective view, and so far as is necessary for an understanding of the invention, one embodiment thereof.
- the drawing shows the construction of the base of a thyratron tetrode in accordance with this invention, the said construction being broken away to show the internal base connections and the remainder of the tube above the base being omitted since it is of normal construction forming no part of this invention.
- the tetrode proper is of Patented Sept. 20, 1960 ice envelope; Theseleads are theleads'Hlboth'of whichv make connection to one end of the cathode heater and'" both' of'v which areV also connectedtusually internally in the tube)-' to the cathode thereof; the' leadV H2- ⁇ which* makes connection to the other end of the cathode heater; the lead C which connects with the cathode of the tube; the lead IG which connects to the inner grid; and the leads O'G both of which connect to the outer grid.
- the leads serve also in the usual way to provide mechanical support for the electrode system within the tube envelope which is why in some cases-in the case of the leads HI and the leads OG-they are duplicated.
- the tube is provided With a base having only four connection pins which are arranged in the patter or distribution at present standard for thyratron triodes so that the said pins will plug directly into the sockets of a standard thyratron triode holder.
- the four pins are marked PC, PG, PH1 and PHZ, and are positioned so as respectively to plug into the cathode socket, grid socket and the two heater connection sockets of a standard thyratron holder.
- direct connections are made between the heater connection HI and the heater pin PH1 the heater connection H2 and the heater pin PH2, the cathode connection C and the cathode pin PC, and the outer grid connection OG and the grid pin PG.
- a condenser K preferably as shown of the metal strip type, is soldered at its end terminals between the outer grid connection OG and the inner grid connector IG so that these two grids inside the tetrode envelope are directly coupled by the condenser.
- the illustrated arrangement though actually a hydrogen tetrode thyratron, has a base with pins like that of a hydrogen triode thyratron, and may be plugged directly into the sockets of a triode holder in substitution for a triode without requiring any other changes whatever in the apparatus of which it will then form part.
- a thyratron tetrode including an envelope enclosing tube electrodes including a first -and a second grid, a sleeve-like holder for said envelope, a footstep associated with said holder, a multiplicity of connector leads depending from said footstep within said sleeve-like holder and connected to respective ones of said electrodes, a base spaced below said footstep and carried by said sleevelike holder, connection pins carried by said base and depending downwardly therefrom, the number of connection pins on said base being less than the number of said connector leads on said footstep, connections extending from the connector leads on said footstep to the connection pins on said base through the space intervening between said footstep and ⁇ said base and a condenser located beneath said footstep and supported by and electrically connected between the connector leads to said grids and depending from said footstep, said condenser extending through the space beneath said footstep and above said base.
- An electron tube having a plurality of electrodes therein including a pair of grids, comprising an envelope and a base, a footstep at one end of said envelope and between said envelope and said base, a plurality of connecting pins extending through said footstep and defining connections to each of said electrodes, a plurality of pins said capacitor means defines an electrical coupling between said inner and outer grids.
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Description
Sept. 20, 1960 R. E. LAKE ET AL 2,953,716
THYRATRONS Filed Aug. 12, 1957 lNvaNToQSI WW w M1 Ronald Ernest- Lake and- Hugh- Menown, Chelmsford, England, assignorsv to English ElectricValve Company Limited, London, England, a companyof Great Britain Filed Aug. 12, 1957, Ser. No. 677,611
Claims priority, application Great Britain Nov. 12, 19'56 Claims. (Cl. 315-'59) This invention relates to thyratrons and more specifically to thyratron tetrodes.
Thyratron triodes are in eXtremely common use in many forms of electronic apparatus, the conventional form of thyratron triode having, of course, a gas filled envelope with a single grid situated between cathode and anode. However, in many cases, the gas tetrode, that is to say a tube having two successive grids, usually termed the inner and outer grids, between the cathode and anode, gives improved performance as compared to the triode and in particular a lower time jitterf a lower anode delay time and a lower anode delay time drift as well as requiring a lower grid firing voltage. It therefore follows that, in many forms of apparatus designed to employ gas triodes, improved results can be obtained by substituting gas tetrodes for the triodes. It is, however, often practically difficult to substitute tetrodes for triodes because of the changes required in the connections and in the tube holders.
The object of the present invention is to provide improved tetrode thyratrons so constructed and arranged that they may be used to replace triode thyratrons without any changes (other than mere replacement of one tube by another) in the apparatus-not even change of the tube holders being necessary.
According to this invention a thyratron tetrode is provided with a base having only four connector pins which are so positioned as to be adapted to plug into the four connection sockets of a normal thyratron valve holder, the two pins positioned to enter the two heater connection sockets and the pin positioned to enter the control grid connection socket of said holder being respectively connected within the tube base to the ends of the heater and to one of the two grids of the tetrode and the other grid of said tetrode being connected to said one grid through a coupling condenser housed in said base.
In a preferred construction the outer grid of the tetrode is connected directly through a connection in the base to the pin which is positioned to enter the control grid connection socket of the holder and the condenser in the base connects the inner and outer grids of the tetrode together.
The condenser may conveniently be of the fiat strip type and may be fixed and connected directly between two of the normally provided connector leads coming through the footstep of the tetrode, one being an inner grid lead and the other an outer grid lead.
The invention is illustrated in the accompanying drawing which shows in schematic perspective view, and so far as is necessary for an understanding of the invention, one embodiment thereof. The drawing shows the construction of the base of a thyratron tetrode in accordance with this invention, the said construction being broken away to show the internal base connections and the remainder of the tube above the base being omitted since it is of normal construction forming no part of this invention.
Referring to the drawing, the tetrode proper is of Patented Sept. 20, 1960 ice envelope; Theseleads are theleads'Hlboth'of whichv make connection to one end of the cathode heater and'" both' of'v which areV also connectedtusually internally in the tube)-' to the cathode thereof; the' leadV H2-` which* makes connection to the other end of the cathode heater; the lead C which connects with the cathode of the tube; the lead IG which connects to the inner grid; and the leads O'G both of which connect to the outer grid. The leads serve also in the usual way to provide mechanical support for the electrode system within the tube envelope which is why in some cases-in the case of the leads HI and the leads OG-they are duplicated.
The tube is provided With a base having only four connection pins which are arranged in the patter or distribution at present standard for thyratron triodes so that the said pins will plug directly into the sockets of a standard thyratron triode holder. The four pins are marked PC, PG, PH1 and PHZ, and are positioned so as respectively to plug into the cathode socket, grid socket and the two heater connection sockets of a standard thyratron holder. Internally within the valve base direct connections are made between the heater connection HI and the heater pin PH1 the heater connection H2 and the heater pin PH2, the cathode connection C and the cathode pin PC, and the outer grid connection OG and the grid pin PG. A condenser K, preferably as shown of the metal strip type, is soldered at its end terminals between the outer grid connection OG and the inner grid connector IG so that these two grids inside the tetrode envelope are directly coupled by the condenser.
It will be seen that the illustrated arrangement, though actually a hydrogen tetrode thyratron, has a base with pins like that of a hydrogen triode thyratron, and may be plugged directly into the sockets of a triode holder in substitution for a triode without requiring any other changes whatever in the apparatus of which it will then form part.
We claim:
1. A thyratron tetrode including an envelope enclosing tube electrodes including a first -and a second grid, a sleeve-like holder for said envelope, a footstep associated with said holder, a multiplicity of connector leads depending from said footstep within said sleeve-like holder and connected to respective ones of said electrodes, a base spaced below said footstep and carried by said sleevelike holder, connection pins carried by said base and depending downwardly therefrom, the number of connection pins on said base being less than the number of said connector leads on said footstep, connections extending from the connector leads on said footstep to the connection pins on said base through the space intervening between said footstep and `said base and a condenser located beneath said footstep and supported by and electrically connected between the connector leads to said grids and depending from said footstep, said condenser extending through the space beneath said footstep and above said base.
2. A thyratron tetrode as set forth in claim l wherein said condenser is relatively flat and is disposed in a plane extending substantially normal to the plane of said footstep and substantially diametrcally across the center thereof.
3. An electron tube having a plurality of electrodes therein including a pair of grids, comprising an envelope and a base, a footstep at one end of said envelope and between said envelope and said base, a plurality of connecting pins extending through said footstep and defining connections to each of said electrodes, a plurality of pins said capacitor means defines an electrical coupling between said inner and outer grids.
5. An electron tube as defined in clairn 4, wherein said capacitor means is a fiat strip-type capacitor.
References Cited in the file of this patent UNITED STATES PATENTS 1,871,537 Lederer Aug. 16, 1932 10 2,051,179 Rome Aug. 18, 1938 2,712,096 MacKenzie June 28, 1955
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB2953716X | 1956-11-12 |
Publications (1)
Publication Number | Publication Date |
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US2953716A true US2953716A (en) | 1960-09-20 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US677611A Expired - Lifetime US2953716A (en) | 1956-11-12 | 1957-08-12 | Thyratrons |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1871537A (en) * | 1925-10-22 | 1932-08-16 | Westinghouse Lamp Co | Electron discharge device |
US2051179A (en) * | 1932-05-02 | 1936-08-18 | Telefunken Gmbh | Constant control gas discharge tube |
US2712096A (en) * | 1955-06-28 | Vacuum tube |
-
1957
- 1957-08-12 US US677611A patent/US2953716A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2712096A (en) * | 1955-06-28 | Vacuum tube | ||
US1871537A (en) * | 1925-10-22 | 1932-08-16 | Westinghouse Lamp Co | Electron discharge device |
US2051179A (en) * | 1932-05-02 | 1936-08-18 | Telefunken Gmbh | Constant control gas discharge tube |
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