Electric lamp and discharge devices: systems – With cathode or cathode heater supply circuit
Patent
1997-08-04
2000-04-11
Vu, David H.
Electric lamp and discharge devices: systems
With cathode or cathode heater supply circuit
313592, 313595, H05B 3700, H01J 146
Patent
active
060491744
DESCRIPTION:
BRIEF SUMMARY
DESCRIPTION OF THE PRIOR ART
A thyratron is a known type of gas discharge device which, in a simple embodiment, includes a cathode, anode and intervening control electrode contained within a gas filled envelope. The thyratron is capable of holding off a voltage until a triggering pulse is applied to the control electrode and current is transmitted through the device.
SUMMARY OF THE INVENTION
Another type of device, described in EP-A-0 337 192, includes a gas discharge switch with at least a thermionic cathode, an anode and an electrode located therebetween.
The present invention seeks to provide a gas discharge device which is capable of handling large peak currents and high coulomb transfer.
According to the invention there is provided a gas discharge device comprising a gas filled envelope containing a thermionic cathode, an anode, and a first electrode which is electrically in parallel with the cathode and located between the anode and cathode wherein, during conduction through the device, electron current is initially derived from the cathode and subsequently, when the current reaches a sufficient magnitude, from a surface of the electrode in cold cathode mode.
By employing the invention a device may be provided having a triggering capability which is as reliable as that of a thyratron, but which also offers coulombic transfer capability at high peak current which may exceed existing thyratron capabilities by a factor of 10-100 in magnitude.
In one embodiment, electrical connection means between the first electrode and thermionic cathode is integral with the device and in another is provided by an external circuit in which the device is connected.
In a preferred embodiment, a second electrode is included and means for applying a triggering signal thereto for initiating conduction through the device.
Advantageous embodiments of the invention may hold-off positive (or negative) high voltage (up to 100 kV), and when triggered, conduct high peak currents (5-500 kA) with long pulse widths (10-100 microsecs). A device in accordance with the invention may act as a high coulombic switch in high energy capacitor banks and crowbar protection circuits for example .
BRIEF DESCRIPTION OF THE DRAWINGS
One way in which the invention may be performed is now described by way of example with reference to the accompanying drawing in which the sole FIGURE schematically illustrates a device in accordance with the invention .
DETAILED DESCRIPTION OF THE INVENTION
With reference to the FIGURE a sealed-off cylindrical device of metal and ceramic (or glass or other electrical insulator) construction includes an envelope which contains four electrodes, that is, an anode 1, thermionic cathode 4 and two electrodes 2 and 3 located between them. The device is filled with hydrogen or deuterium at a pressure in the region of 50-5000 mTorr, which is sustained by a titanium hydride heated reservoir 6. High voltage is held-off between the anode 1 and the adjacent electrode 2, in accordance with Paschen's Law.
The thermionic cathode 4 heated by a filament 5 provides a source of electrons to facilitate triggering and initiate conduction. The device is triggered by applying a positive pulse to electrode 3 with respect to the thermionic cathode 4. The applied positive pulse establishes a discharge in the region between the electrode and the thermionic cathode. The established discharge plasma diffuses through apertures in the electrode 3 and into the region between electrode 2 and electrode 3. The electric field from the high voltage gap between the anode 1 and the adjacent grid electrode 2 penetrates apertures in the grid electrode 2 and thus influences the plasma created by the trigger pulse. Electrons are accelerated by the influence of the high voltage field and cause further ionization which spreads plasma into the high voltage gap and initiates breakdown of the device. The high voltage applied between the anode 1 and electrode 2 falls rapidly to a low value and the switch becomes closed.
The conduction process then proceeds
REFERENCES:
patent: 4703226 (1987-10-01), Menown
patent: 5075592 (1991-12-01), Seeboeck et al.
Cook Kenneth
Pirrie Colin Archibold
Roberts Clive Anthony
Weatherup Cliff Robert
Casey Donald C.
EEV Limited
Vu David H.
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