CX1594 Datasheet, PDF(1/7 Page) List of Unclassifed Manufacturers – Deuterium Filled, Hollow Anode, Five-Gap Ceramic Thyratron

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CX1594 Datasheet, PDF (1/7 Pages) List of Unclassifed Manufacturers – Deuterium Filled, Hollow Anode, Five-Gap Ceramic Thyratron

E2V Technologies

CX1594 Deuterium Filled,

Hollow Anode, Five-Gap Ceramic Thyratron

The data to be read in conjunction with the Hydrogen

Thyratron Preamble.

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.

Modulator Service

Peak anode voltage (see note 1) . . . . 150

Peak forward anode current . . . . . . 10

Peak reverse anode current . . . . . . . 5

Average anode current . . . . . . . . 3.0

kV max

kA max

A max

Crowbar Service

Peak anode voltage (see note 1) . . . . 125

Peak forward anode current . . . . . . 40

Peak reverse anode current . . . . . . 20

Conducted charge . . . . . . . . . 18

kV max

kA max

C max

GENERAL

Electrical

Cathode (connected internally

to one end of heater) . . . . . . . . oxide coated

Cathode heater voltage

6.3

0.3

0.0

Cathode heater current . . . . . . . 40

Reservoir heater voltage (see note 2) . . . . 5.0

Reservoir heater current . . . . . . . 10

Tube heating time (minimum) . . . . . 15

min

Inter-electrode capacitances

(each gap) . . . . . . . . . . . 40 pF approx

Mechanical

Seated height

(flange to flange) . . . 566.0 mm (22.283 inches) max

Clearance required

below flanges . . . . . . 57.15 mm (2.250 inches) min

Overall diameter

(mounting flange) . . . 152.4 mm (6.000 inches) nom

Net weight . . . . . . . . 13 kg (29 pounds) approx

Mounting position (see note 3) . . . . . . . . . any

Tube connections . . . . . . . . . . . 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 maximum rated temperature. An air

flow of at least 2.83 m3/min (100 ft3/min), depending on the

mechanical layout, will be necessary to keep the tube operating

temperatures under the limits specified below.

In addition to 300 W of heater power, the tube dissipates from

100 W per ampere average anode current, rising to 300 W/A at

the highest rates of rise and fall of anode current.

The cathode end of the tube must be cooled whenever heater

voltages are applied, since the cathode flange will reach a

temperature of 120 8C above ambient in the absence of cooling.

Envelope temperature:

ceramic, anode and grids . . . . . . 150

cathode flange and base . . . . . . 120

8C max

E2V Technologies Limited, Waterhouse Lane, Chelmsford, Essex CM1 2QU England Telephone: +44 (0)1245 493493 Facsimile: +44 (0)1245 492492

e-mail: enquiries@e2vtechnologies.com Internet: www.e2vtechnologies.com Holding Company: E2V Holdings Limited

E2V Technologies Inc. 4 Westchester Plaza, PO Box 1482, Elmsford, NY10523-1482 USA Telephone: (914) 592-6050 Facsimile: (914) 592-5148

e-mail: enquiries@e2vtechnologies.us

#E2V Technologies Limited 2002

A1A-CX1594 Issue 2, October 2002

527/5640

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