EP0044894A1 - Surge voltage arrester with ventsafe feature - Google Patents
Surge voltage arrester with ventsafe feature Download PDFInfo
- Publication number
- EP0044894A1 EP0044894A1 EP80302592A EP80302592A EP0044894A1 EP 0044894 A1 EP0044894 A1 EP 0044894A1 EP 80302592 A EP80302592 A EP 80302592A EP 80302592 A EP80302592 A EP 80302592A EP 0044894 A1 EP0044894 A1 EP 0044894A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- arrester
- electrode
- air gap
- gas tube
- surge
- 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.)
- Granted
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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T1/00—Details of spark gaps
- H01T1/14—Means structurally associated with spark gap for protecting it against overload or for disconnecting it in case of failure
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01C—RESISTORS
- H01C7/00—Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material
- H01C7/10—Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material voltage responsive, i.e. varistors
- H01C7/12—Overvoltage protection resistors
Definitions
- This invention relates to improvements surge voltage arresters for line protectors of rhe type used for protecting telephone lines and like communication lines from over-voltage and over-current conditions.
- Surge voltage arrester of the cold cathode gas discharge tube type serve as the primary arrester and source of protection in various line protectors of the station or central office type.
- Such line protectors may also include a carbon or other type of air gap back-up protector in the even of a filure of the primary surge arrester as a result of leakage of gas from the tube due to a broken seal or similar damage.
- a gas tube arrester which has failed in this manner will be difficult to detect because the line to which it is connected continues to operate properly.
- Line protectors embodying these surge voltage arresters are frequently installed under conditions wherein dust, moisture and other contaminants can enter the secondary air gap. This can alter the breakdown voltage_characteristics of the air gap.
- the ideal situation is to construct the air gap with a breakdown surge voltage that is slightly above the breakdown surge voltage of the gas tube arrester. In this way the secondary air gap is not utilized so long as the gas tube is functioning properly.
- the idealized situation is not attainable on a mass production basis. Thus, there is always a range over which the gas tube breaks down, and this will depend upon many factors, including production tolerances as well as the number of times the gas tube has fired. Likewise, as far as the air gap is concerned, production tolerances, electrode surface conditions, and other factors will result in a variation of breakdown voltages from unit to unit.
- the breakdown voltage of the air gap may in some cases be below that of the gas tube, in which event the air gap would break down while the gas tube is still functioning properly.
- the air gap will short out after one or a few discharges, leaving a surge arrester unit that has short-circuited the line but which nevertheless has a.properly functioning gas tube.
- the air gap is madelarge in an attempt to prevent short circuitry, its breakdown voltage may be so high that it exceeds the specifications or requirement of the user. Therefore, in surge arresters having facing metal surfaces that define the secondary arc gap a compromise has been attempted so as to provide an arc gap which is small enough to break down at a low enough voltage for useful purposes, but which breakdown voltage is nevertheless above the breakdown voltage of the gas tube.
- An object of this invention is to provide an improved surge voltage arrester assembly that utilizes a gas tube as a primary surge arrester and an air gap or secondary surge arrester in the event of failure of the gas tube arrester due to leakage or from other causes.
- the assembly may be of the type having either a two electrode or a three electrode gas tube and in each case the air gap has facing metal electrode surfaces, one of which is roughened and coated with graphite or the like.
- the surge voltage arrester assembly whether of the two or three electrode type, has a primary surge arrester of the cold cathode gas tube type and a secondary arrester of the air gap type.
- the breakdown voltage of the secondary arrester is greater than the breakdown voltage of the primary arrester.
- the arresters are adapted to be connected to form parallel electric circuits from a line to be protected to ground.
- the secondary arrester has the air gap defined by an annular portion of a metallic cup that contains the gas tube and also by the rim of an electrode that forms part of the gas tube..
- the annular cup portion of the cup at the air gap is sand blasted to provide a roughened surface to which graphite or a like voltage breakdown-enhancing substance is applied.
- the air gap is annular in configuration. Means including an annular ring are provided for sealing the gas tube in the cup so as to prevent contaminants from entering the air gap.
- the protector comprises a sheet metal housing or cap 12 having an annular sidewall portion 14 containing an annular flange or stop-shoulder 16. Below the shoulder 16, the sidewall 14 is formed with a screw thread 18 for threading into the well 61 of a protector block 62, as will be presently more fully described.
- the cap 12 also includes an end wall 20 which is opposite to the open end of the cap 12.
- the cap 12 Mounted within the cap 12 are several coaxial parts which provide the primary and secondary surge arrester assembly of the invention. More specifically, there is a gas tube 22 having opposed electrodes 24, 26 that define an arc gap 28 therebetween. The electrodes 24, 26 are separated by a tubular insulator 30 of ceramic or the like to which the electrodes 24, 26 are brazed or soldered in the usual manner. Thus, the electrodes respectively have annular electrode flanges 32, 34 at which the electrodes 24, 26 are silver soldered to the ends of the insulator 30 by rings 27.
- the gas tube 22 is coaxially housed within a tubular structure that is in the form of a metallic cup 36 having a cylindrical sidewall 38.
- the gas tube 22 fits closely within the confines of the cup 36 although the gas tube and parts assembled therewith may slide relative. to the cup so as to facilitate assembly of those parts.
- the sidewall 38 has diametrally enlarged annular cylindrical skirt or end portion 40 which surrounds the peripheral edge surface 45 of the electrode flange 34.
- This end portion 40 defines the open end of the cup 36 and is radially spaced from the surface 45 of the electrode flange 34; thereby defining a secondary air gap 42 of annular configuration.
- This arrangement provides a secondary or back-up surge arrester.
- the end portion 40 Prior to assembly of the parts of the protector 10, the end portion 40 is roughened on its inner cylindrical surface at least in the region that will be presented to the air gap 42 when the parts are assembled. This roughening may be done by sandblasting. A coating of carbonacious material such as graphite 43 is then applied to the roughened area which makes adherence of the graphite to the metal possible.
- the graphite may be applied as an annular band by rubbing a pencil or other graphite- containing tool against the roughened surface and then blowing off the excess with air.
- the graphite band 43 is thus opposite to the peripheral-surface 45 of the electrode flange 34 and generally coextensive therewith.
- the surface 45 may or may not be sandblasted and coated with graphite.
- the band 43 it is within the scope of this invention to apply other voltage breakdown enhancing materials as the band 43.
- the graphite might possibly be applied as a suspension that is painted on the end portion 40. In any event the effect of the graphite 43 is to permit a wider gap 42 for the same breakdown voltage than would be possible in the absence of the graphite.
- the end of the electrode flange 34 has a metal contact 48 thereagainst with an annular groove 52 for receiving an annular 0-ring 53.
- the 0-ring 53 is of pliable material, preferably an elastomer, for example silicone rubber, although other elastomers might also be suitable.
- the 0-ring is of a diameter such that it seals against the inside surface of the end portion 40 near its lower end.
- the metallic cup 36 is coaxially housed within a metallic grounding cage 50 having an end wall:52 and a plurality of circumferentially spaced, spring-like fingers 54.
- the spring fingers are compressed radially inwardly when the cup 36, together with the arrester assembly, are inserted as a unit within the open end of the cap sidewall 14.
- a solder pellet 56 is inserted into the cage 50 prior to insertion of the assembled cup and gas tube so that the solder pellet lies between the end wall of the cup 36 and the end wall 52 of the cage 50.
- a coil compression spring 58 bears at one end on the end wall 20 and at its opposite end against the flat end wall 52 of the grounding cage.
- the protector 10 is adapted to be mounted in the well 61 of the dielectric block or receptacle 62.
- This block which is of known construction, has a metallic contact member 64 with an internal thread as shown for receiving the cap thread 18.
- This contact member 64 is usually connected to ground.
- a metallic contact 66 which is electrically connected to the electrode 26 through the metal contact 48.
- Contact 66 is connected to the line to be protected. In threading the protector 10 into the ground contact member 64 to the limit of the stop-shoulder 16, the extreme end surface of the contact,48 will firmly engage the line contact 66 by reason of the force of the spring 58.
- the arc gaps 28 and 42 are electrically coupled in parallel circuits from the line contact 66 to the ground contact 64.
- the width of the arc gap 42 is such that its breakdown voltage is greater than that of the breakdown voltage across the arc gap 28 of the gas tube 22. Consequently, when the gas tube arrester is operating properly as a primary surge arrester an over-voltage on the line to be protected will result in a discharge across the gas tube arc gap 28 to ground.
- the secondary surge arrester will not discharge across the air gap 42. However, if the gas tube should fail due to leakage, some protection will be afforded by a discharge to ground across the air gap 42 even though the breakdown voltage thereacross is somewhat higher than the breakdown voltage across the gas tube when the latter is functioning normally. Because of the widened gap 42 with the graphite surfaced electrode, there is less likelihood of the arc gap 42 shorting out prematurely.
- the primary or gas tube surge arrester comprises opposed line electrodes 70, 70 and a center or ground electrode 72.
- the several electrodes are insulated from each other by ceramic insulators 74, 74 which are soldered by rings 76 to the respective electrodes.
- the center or ground electrode 72 is hollow to provide communicating coaxial cavities 77, 77 that receive stem portions 78, 78 of the line electrodes 70, 70.
- the stem portions 78, 78 cooperate with the ground electrode to provide primary arc gaps 79, 79 from each line electrode to ground.
- a secondary air gap 86 is also provided between each line electrode 70 and the ground electrode 72.
- a metallic cup 80 similar to cup 36, receives and contacts a line electrode such that the open ends of the cups 80, 80 face each other.
- Each cup has a cylindrical sidewall 81 with a diametrally enlarged annular cylindrical end portion 82 that is spaced from a rim 84 of the ground electrode 72 to provide the annular secondary air gap 86.
- Each cup 80 is sandblasted and has a band of graphite 83 applied thereto in the region of the gap 86.
- each air gap 86 also utilizes a pliable elastomeric annular 0-ring 88 and may also use a sealing compound 90.
- the 0-ring fits into an annular groove 92 in the ground electrode and is sized to engage the end portion 82.
- the sealing compound 90 if used is disposed in a second annular groove 94 in the ground electrode 72 and seals against that electrode as well as against the 0-ring 88 and the end portion 82.
- the cups 80, 80 may be sized to fit into a clip type receptacle for respective connections to the two sides of the telephone line to be protected.
- the center electrode may receive a clip or other connector in the region between the two 0-rings or the bands of sealing compound 90, 90.
- Other conventional mountings for the gas tube may be made as it is essentially cylindrical in configuration and so lends itself to ready adaption to known mountings.
- the primary arc gaps 79, 79 have breakdown voltages less than that of the secondary air gaps 86, 86 except when the gas tube becomes vented, in which case the air gaps have the lower breakdown voltage.
- “ventsafe" protection is provided for each side of the protected line.
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Thermistors And Varistors (AREA)
- Emergency Protection Circuit Devices (AREA)
Abstract
Description
- This invention relates to improvements surge voltage arresters for line protectors of rhe type used for protecting telephone lines and like communication lines from over-voltage and over-current conditions.
- Surge voltage arrester of the cold cathode gas discharge tube type serve as the primary arrester and source of protection in various line protectors of the station or central office type. Such line protectors may also include a carbon or other type of air gap back-up protector in the even of a filure of the primary surge arrester as a result of leakage of gas from the tube due to a broken seal or similar damage. A gas tube arrester which has failed in this manner will be difficult to detect because the line to which it is connected continues to operate properly. Thus, it is desirable to provide some type of air gap or secondary surge arrester as a "back-up" or ventsafe feature in the event of failure of the gas tube arrester. Line protectors embodying these surge voltage arresters are frequently installed under conditions wherein dust, moisture and other contaminants can enter the secondary air gap. This can alter the breakdown voltage_characteristics of the air gap.
- In providing secondary or back-up protection of the air gap type the ideal situation is to construct the air gap with a breakdown surge voltage that is slightly above the breakdown surge voltage of the gas tube arrester. In this way the secondary air gap is not utilized so long as the gas tube is functioning properly. However, the idealized situation is not attainable on a mass production basis. Thus, there is always a range over which the gas tube breaks down, and this will depend upon many factors, including production tolerances as well as the number of times the gas tube has fired. Likewise, as far as the air gap is concerned, production tolerances, electrode surface conditions, and other factors will result in a variation of breakdown voltages from unit to unit.
- Where the air gap is made quite small in order to provide a low breakdown voltage, there is the possibility that the breakdown voltage of the air gap may in some cases be below that of the gas tube, in which event the air gap would break down while the gas tube is still functioning properly. Moreover, in a typical arrangement in which the electrodes of the air gap are of metal, the air gap will short out after one or a few discharges, leaving a surge arrester unit that has short-circuited the line but which nevertheless has a.properly functioning gas tube. On the other hand, if the air gap is madelarge in an attempt to prevent short circuitry, its breakdown voltage may be so high that it exceeds the specifications or requirement of the user. Therefore, in surge arresters having facing metal surfaces that define the secondary arc gap a compromise has been attempted so as to provide an arc gap which is small enough to break down at a low enough voltage for useful purposes, but which breakdown voltage is nevertheless above the breakdown voltage of the gas tube.
- An object of this invention is to provide an improved surge voltage arrester assembly that utilizes a gas tube as a primary surge arrester and an air gap or secondary surge arrester in the event of failure of the gas tube arrester due to leakage or from other causes. The assembly may be of the type having either a two electrode or a three electrode gas tube and in each case the air gap has facing metal electrode surfaces, one of which is roughened and coated with graphite or the like.
- In accordance with the foregoing objects, the surge voltage arrester assembly, whether of the two or three electrode type, has a primary surge arrester of the cold cathode gas tube type and a secondary arrester of the air gap type. The breakdown voltage of the secondary arrester is greater than the breakdown voltage of the primary arrester. The arresters are adapted to be connected to form parallel electric circuits from a line to be protected to ground. The secondary arrester has the air gap defined by an annular portion of a metallic cup that contains the gas tube and also by the rim of an electrode that forms part of the gas tube..The annular cup portion of the cup at the air gap is sand blasted to provide a roughened surface to which graphite or a like voltage breakdown-enhancing substance is applied. The air gap is annular in configuration. Means including an annular ring are provided for sealing the gas tube in the cup so as to prevent contaminants from entering the air gap.
-
- FIG. I is a sectional view of a surge voltage arrester assembly of the present invention and shown embodied in a known type of line protector;
- FIG. 2 is a fragmentary sectional view on an enlarged scale taken along line 2-2 of FIG. 1;
- FIG. 3 is an enlarged fragmentary portion of FIG. 1;
- FIG. 4 illustrates a three element gas tube form of the invention and with the section line taken along the longitudinal axis of the tube; and
- FIG. 5 is an enlarged fragmentary portion of FIG. 3.
- Referring now to the drawing there is shown a station protector 10 embodying a surge voltage arrester assembly of the invention. The protector comprises a sheet metal housing or
cap 12 having anannular sidewall portion 14 containing an annular flange or stop-shoulder 16. Below theshoulder 16, thesidewall 14 is formed with ascrew thread 18 for threading into thewell 61 of aprotector block 62, as will be presently more fully described. Thecap 12 also includes anend wall 20 which is opposite to the open end of thecap 12. - Mounted within the
cap 12 are several coaxial parts which provide the primary and secondary surge arrester assembly of the invention. More specifically, there is agas tube 22 having opposedelectrodes arc gap 28 therebetween. Theelectrodes tubular insulator 30 of ceramic or the like to which theelectrodes annular electrode flanges electrodes insulator 30 byrings 27. - The
gas tube 22 is coaxially housed within a tubular structure that is in the form of ametallic cup 36 having acylindrical sidewall 38. Thegas tube 22 fits closely within the confines of thecup 36 although the gas tube and parts assembled therewith may slide relative. to the cup so as to facilitate assembly of those parts. - Near the open end of the
cup 36 thesidewall 38 has diametrally enlarged annular cylindrical skirt orend portion 40 which surrounds theperipheral edge surface 45 of theelectrode flange 34. Thisend portion 40 defines the open end of thecup 36 and is radially spaced from thesurface 45 of theelectrode flange 34; thereby defining asecondary air gap 42 of annular configuration. This arrangement provides a secondary or back-up surge arrester. - Prior to assembly of the parts of the protector 10, the
end portion 40 is roughened on its inner cylindrical surface at least in the region that will be presented to theair gap 42 when the parts are assembled. This roughening may be done by sandblasting. A coating of carbonacious material such asgraphite 43 is then applied to the roughened area which makes adherence of the graphite to the metal possible. The graphite may be applied as an annular band by rubbing a pencil or other graphite- containing tool against the roughened surface and then blowing off the excess with air. Thegraphite band 43 is thus opposite to the peripheral-surface 45 of theelectrode flange 34 and generally coextensive therewith. Thesurface 45 may or may not be sandblasted and coated with graphite. - It is within the scope of this invention to apply other voltage breakdown enhancing materials as the
band 43. Also, the graphite might possibly be applied as a suspension that is painted on theend portion 40. In any event the effect of thegraphite 43 is to permit awider gap 42 for the same breakdown voltage than would be possible in the absence of the graphite. - The end of the
electrode flange 34 has ametal contact 48 thereagainst with anannular groove 52 for receiving an annular 0-ring 53. The 0-ring 53 is of pliable material, preferably an elastomer, for example silicone rubber, although other elastomers might also be suitable. The 0-ring is of a diameter such that it seals against the inside surface of theend portion 40 near its lower end. - The
metallic cup 36 is coaxially housed within ametallic grounding cage 50 having an end wall:52 and a plurality of circumferentially spaced, spring-like fingers 54. The spring fingers are compressed radially inwardly when thecup 36, together with the arrester assembly, are inserted as a unit within the open end of thecap sidewall 14. In this regard asolder pellet 56 is inserted into thecage 50 prior to insertion of the assembled cup and gas tube so that the solder pellet lies between the end wall of thecup 36 and theend wall 52 of thecage 50. Acoil compression spring 58 bears at one end on theend wall 20 and at its opposite end against theflat end wall 52 of the grounding cage. During assembly of the protector, thesealing ring 53 and thecontact 48 prevent thegas tube 22 from coming out of thecup 36. - The protector 10 is adapted to be mounted in the
well 61 of the dielectric block orreceptacle 62. This block, which is of known construction, has ametallic contact member 64 with an internal thread as shown for receiving thecap thread 18. Thiscontact member 64 is usually connected to ground. At the bottom of thewell 61 is ametallic contact 66 which is electrically connected to theelectrode 26 through themetal contact 48.Contact 66 is connected to the line to be protected. In threading the protector 10 into theground contact member 64 to the limit of the stop-shoulder 16, the extreme end surface of the contact,48 will firmly engage theline contact 66 by reason of the force of thespring 58. - The
arc gaps line contact 66 to theground contact 64. The width of thearc gap 42 is such that its breakdown voltage is greater than that of the breakdown voltage across thearc gap 28 of thegas tube 22. Consequently, when the gas tube arrester is operating properly as a primary surge arrester an over-voltage on the line to be protected will result in a discharge across the gastube arc gap 28 to ground. The secondary surge arrester will not discharge across theair gap 42. However, if the gas tube should fail due to leakage, some protection will be afforded by a discharge to ground across theair gap 42 even though the breakdown voltage thereacross is somewhat higher than the breakdown voltage across the gas tube when the latter is functioning normally. Because of the widenedgap 42 with the graphite surfaced electrode, there is less likelihood of thearc gap 42 shorting out prematurely. - In an overcurrent condition on the line due, for example, to a prolonged voltage at the arcing voltage of the gas tube, the heat within the protector 10 will cause the
solder pellet 56 to melt whereupon the force of thespring 58 will press thetips 60 of the grounding cage into direct metallic contact with theline contact 66. This results in a direct metallic connection of the line to be protected from theline contact 66 to theground contact member 64. - A three element gas tube version of the arrester assembly is shown in Fig. 4. The primary or gas tube surge arrester comprises opposed
line electrodes ceramic insulators rings 76 to the respective electrodes. The center or ground electrode 72 is hollow to provide communicatingcoaxial cavities stem portions line electrodes stem portions primary arc gaps - A
secondary air gap 86 is also provided between eachline electrode 70 and the ground electrode 72. Ametallic cup 80, similar tocup 36, receives and contacts a line electrode such that the open ends of thecups cylindrical sidewall 81 with a diametrally enlarged annularcylindrical end portion 82 that is spaced from arim 84 of the ground electrode 72 to provide the annularsecondary air gap 86. Eachcup 80 is sandblasted and has a band ofgraphite 83 applied thereto in the region of thegap 86. - The sealing arrangement for each
air gap 86 also utilizes a pliable elastomeric annular 0-ring 88 and may also use a sealingcompound 90. The 0-ring fits into anannular groove 92 in the ground electrode and is sized to engage theend portion 82. The sealingcompound 90 if used is disposed in a secondannular groove 94 in the ground electrode 72 and seals against that electrode as well as against the 0-ring 88 and theend portion 82. - The
cups compound - As in Figs. 1 - 3, the
primary arc gaps secondary air gaps
Claims (6)
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE8080302592T DE3070613D1 (en) | 1980-07-30 | 1980-07-30 | Surge voltage arrester with ventsafe feature |
EP80302592A EP0044894B1 (en) | 1980-07-30 | 1980-07-30 | Surge voltage arrester with ventsafe feature |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP80302592A EP0044894B1 (en) | 1980-07-30 | 1980-07-30 | Surge voltage arrester with ventsafe feature |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0044894A1 true EP0044894A1 (en) | 1982-02-03 |
EP0044894B1 EP0044894B1 (en) | 1985-05-08 |
Family
ID=8187231
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP80302592A Expired EP0044894B1 (en) | 1980-07-30 | 1980-07-30 | Surge voltage arrester with ventsafe feature |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP0044894B1 (en) |
DE (1) | DE3070613D1 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0060530A1 (en) * | 1981-03-12 | 1982-09-22 | General Instrument Corporation | Electrical circuit protector |
GB2200243A (en) * | 1987-01-27 | 1988-07-27 | English Electric Valve Co Ltd | Overvoltage protection device |
GB2205992A (en) * | 1987-05-01 | 1988-12-21 | Dubilier Plc | Gas-filled surge arrestor with external back-up air gap |
WO2000039901A1 (en) * | 1998-12-23 | 2000-07-06 | Jensen Elektronik Ab | Gas discharge tube |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3755715A (en) * | 1972-10-11 | 1973-08-28 | Reliable Electric Co | Line protector having arrester and fail-safe circuit bypassing the arrester |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1488936A (en) * | 1916-05-08 | 1924-04-01 | Frederick R Parker | High-potential electricity-arrester electrode |
US4148089A (en) * | 1977-12-22 | 1979-04-03 | Bell Telephone Laboratories, Incorporated | Voltage surge protector |
US4208694A (en) * | 1978-10-11 | 1980-06-17 | Reliable Electric Company | Line protector |
US4241374A (en) * | 1979-01-29 | 1980-12-23 | Reliable Electric Company | Surge voltage arrester with ventsafe feature |
-
1980
- 1980-07-30 EP EP80302592A patent/EP0044894B1/en not_active Expired
- 1980-07-30 DE DE8080302592T patent/DE3070613D1/en not_active Expired
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3755715A (en) * | 1972-10-11 | 1973-08-28 | Reliable Electric Co | Line protector having arrester and fail-safe circuit bypassing the arrester |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0060530A1 (en) * | 1981-03-12 | 1982-09-22 | General Instrument Corporation | Electrical circuit protector |
GB2200243A (en) * | 1987-01-27 | 1988-07-27 | English Electric Valve Co Ltd | Overvoltage protection device |
GB2200243B (en) * | 1987-01-27 | 1990-09-05 | English Electric Valve Co Ltd | Protection device |
GB2205992A (en) * | 1987-05-01 | 1988-12-21 | Dubilier Plc | Gas-filled surge arrestor with external back-up air gap |
GB2205992B (en) * | 1987-05-01 | 1991-07-17 | Dubilier Plc | Gas-filled surge arrestor |
WO2000039901A1 (en) * | 1998-12-23 | 2000-07-06 | Jensen Elektronik Ab | Gas discharge tube |
US7053536B1 (en) | 1998-12-23 | 2006-05-30 | Jensen Devices Ab | Gas discharge tube having electrodes with chemically inert surface |
Also Published As
Publication number | Publication date |
---|---|
DE3070613D1 (en) | 1985-06-13 |
EP0044894B1 (en) | 1985-05-08 |
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