Five-Gap Ceramic Thyratron
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E2V Technologies CX1594 Deuterium Filled, Hollow Anode, Five-Gap Ceramic Thyratron
The data to be r...
Description
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E2V Technologies CX1594 Deuterium Filled, Hollow Anode, Five-Gap Ceramic Thyratron
The data to be read in conjunction with the Hydrogen Thyratron Preamble.
Mechanical
Seated height (flange to flange) . . Clearance required below flanges . . . . Overall diameter (mounting flange) . . Net weight . . . . . Mounting position (see note Tube connections . . . . 566.0 mm (22.283 inches) max
ABRIDGED DATA
Hollow anode, deuterium filled, five-gap thyratron with ceramic envelope, featuring high peak current, high rate of rise of current, low jitter and voltage/current reversal. The patented hollow anode structure enables the tube to cope with inverse voltage and current without consequent reduction in its high voltage hold-off capability due to electrode damage. A reservoir normally operated from a separate heater supply is incorporated. The reservoir heater voltage can be adjusted to a value consistent with anode voltage hold-off in order to achieve the fastest rate of rise of current possible from the tube in the circuit.
. . 57.15 mm (2.250 inches) min . 152.4 mm (6.000 inches) nom . . . 13 kg (29 pounds) approx 3) . . . . . . . . . any . . . . . . . . see outline
Cooling
For all applications, cooling by oil or coolant immersion is desirable. Further information is contained in the relevant section of the Preamble. At and below 55 kV the CX1594 may be cooled by forced-air directed mainly onto the base, and the ceramic envelope should be maintained below the ...
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