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| E2V Technologies FX2505 Hydrogen Thyratron The data to be read in conjunction with the Hydrogen Thyratron Preamble. Min Max Grid Unloaded grid drive pulse voltage (see note 5) . . . . . . Grid pulse duration . . . . . Rate of rise of grid pulse (see note 4) . . . . . . Peak inverse grid voltage . . . Loaded grid bias voltage . . . Forward impedance of grid drive circuit . . . . . . 175 . . 2.0 . 160 .. - .. 0 .. - - - - 200 7120 1500 V ms V/ms V V O ABRIDGED DATA Hydrogen-filled triode thyratron, positive grid, for pulse operation. A hydrogen reservoir is incorporated. Electrically superior to 4C35A. Peak forward anode voltage . . . . . . 10 kV max Peak anode current . . . . . . . . 100 A max Average anode current . . . . . . . 125 mA max Anode heating factor . . . . . . 2.8 x 109 VApps max Peak output power . . . . . . . . . 0.5 MW max Cathode GENERAL Electrical oxide coated + 5% Heater voltage . . . . . . . . . . 6.3 V 7 10% Heater current . . . . . . . . . . 6.1 A Tube heating time (minimum) . . . . . . 3.0 min Cathode (connected internally to one end of heater) . . . . . . . . Heater voltage ........ Tube heating time . . . . . . . + 5% 710% 3.0 - 6.3 V min Environmental Ambient temperature . . . . . 750 Altitude . . . . . . . . . . - - +90 3 10 000 8C km ft Mechanical Overall length . Overall diameter . Net weight . . Mounting position Base . . . . Top cap . . . Cooling ... ... ... (see note ... ... . . . 1) . . . . . . . 174.6 mm (6.875 inches) max 65.1 mm (2.562 inches) max . 260 g (9 ounces) approx . . . . . . . . any . . . . . B4D, bayonet ..... BS 448-CT3 natural CHARACTERISTICS Min Typical Max Critical DC anode voltage for conduction (see note 6) . Anode delay time (see notes 6 and 7) . . . Anode delay time drift (see notes 6 and 8) . . . Time jitter (see notes 6 and 9) Recovery time . . . . . Heater current (at 6.3 V) . . . . - - 0.3 0.35 1.0 0.6 kV ms ............... PULSE MODULATOR SERVICE MAXIMUM AND MINIMUM RATINGS (Absolute values) Min Max . - . - .. see . 5.5 0.03 0.1 ms 3.0 5.0 ns note 10 and curves 6.1 6.7 A Anode Peak forward anode voltage (see note 2) . . . . . Peak inverse anode voltage (see note 3) . . . . . Peak anode current . . . Average anode current . . Rate of rise of anode current (see note 4) . . . . . Anode heating factor . . . ... ... ... ... ... ... - - - - - - 10 10 100 125 kV kV A mA 1500 A/ms 2.8 x 109 VApps 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: Redwood 2002 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-FX2505 Issue 3, September 2002 527/5617 NOTES 1. The tube should preferably be clamped by the base only. Any clamps used on the bulb must not extend beyond 63.5 mm (2 1/2 inches) above the top of the base and should be made from material of low thermal conductivity. 2. For instantaneous starting applications the maximum permissible peak forward voltage is 8.0 kV and there must be no overshoot. 3. In pulsed operation the peak inverse anode voltage, exclusive of a spike of 0.05 ms duration, must not exceed 2.5 kV during the first 25 ms after the pulse. 4. This rate of rise refers to that part of the leading edge of the pulse between 25% and 75% of the pulse amplitude. 5. Measured with respect to cathode potential. 6. The typical figures are obtained on test using conditions of minimum grid drive. Improved performance can be expected by increasing the grid drive. 7. The time interval between a point on the leading edge of the unloaded grid pulse at 25% of the pulse amplitude and the point where anode conduction takes place. 8. Normally taken as the drift in delay time over a 5-minute run at full ratings between the second and seventh minutes of operation. 9. The variation of firing time measured at 50% of current pulse amplitude. 10. The recovery characteristics are controlled on a sampling basis. HEALTH AND SAFETY HAZARDS E2V Technologies hydrogen thyratrons are safe to handle and operate, provided that the relevant precautions stated herein are observed. E2V Technologies does not accept responsibility for damage or injury resulting from the use of electronic devices it produces. Equipment manufacturers and users must ensure that adequate precautions are taken. Appropriate warning labels and notices must be provided on equipments incorporating E2V Technologies devices and in operating manuals. High Voltage Equipment must be designed so that personnel cannot come into contact with high voltage circuits. All high voltage circuits and terminals must be enclosed and fail-safe interlock switches must be fitted to disconnect the primary power supply and discharge all high voltage capacitors and other stored charges before allowing access. Interlock switches must not be bypassed to allow operation with access doors open. X-Ray Radiation All high voltage devices produce X-rays during operation and may require shielding. The X-ray radiation from hydrogen thyratrons is usually reduced to a safe level by enclosing the equipment or shielding the thyratron with at least 1.6 mm ( 1/16 inch) thick steel panels. Users and equipment manufacturers must check the radiation level under their maximum operating conditions. MAXIMUM RECOVERY CHARACTERISTICS 40 3607A PEAK ANODE CURRENT 100 A RE-APPLIED ANODE VOLTAGE 1 kV 36 32 28 GRID VOLTAGE = 0 V 24 7 12 .5 20 25 0 16 MAXIMUM RECOVERY TIME (ms) 7 75 12 71 00 8 4 0 0.1 0.5 GRID RECOVERY IMPEDANCE (kO) 1.0 5.0 10 50 100 FX2505, page 2 #E2V Technologies OUTLINE (All dimensions without limits are nominal) 3550A 1D Ref C Millimetres 174.6 max 65.1 max 9.53 min 14.38 + 0.18 4.750 + 0.076 25.4 14.27 19.05 15.88 Inches 6.875 max 2.563 max 0.375 min 0.566 + 0.007 0.187 + 0.003 1.000 0.562 0.750 0.625 1B A A B C D E F G H J J BASE B4D WITH BAYONET (JEDEC A4-18) Inch dimensions have been derived from millimetres. Pin 1 2 3 4 Top cap Element Grid Heater, Cathode Heater Cathode Anode 4 PINS 1E ON F PCD G 3 4 H 2 1 Whilst E2V Technologies has taken care to ensure the accuracy of the information contained herein it accepts no responsibility for the consequences of any use thereof and also reserves the right to change the specification of goods without notice. E2V Technologies accepts no liability beyond that set out in its standard conditions of sale in respect of infringement of third party patents arising from the use of tubes or other devices in accordance with information contained herein. #E2V Technologies Printed in England FX2505, page 3 |
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