7 pages in the catalogue
Transformer Design for Charging Defibrillator Capacitors |
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Transformer Design for Charging Defibrillator Capacitors p 1 TRANSFORMER DESIGN FOR CHARGING DEFIBRILLATOR CAPACITORS ByKirby Creel Senior Design Engineer Datatronics Generating high voltage by means of flyback topology is a common approach. Using the generated... |
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Transformer Design for Charging Defibrillator Capacitors p 2 TRANSFORMER DESIGN FOR CHARGING DEFIBRILLATOR CAPACITORS By Kirby Creel ... |
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Transformer Design for Charging Defibrillator Capacitors p 3 TRANSFORMER DESIGN FOR CHARGING DEFIBRILLATOR CAPACITORS By Kirby Creel The energy stored in the inductance is: F(3) J = L(Ip) 2 Where energy J is in Joules, L is in henries 2 and Ip is the peak curr... |
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Transformer Design for Charging Defibrillator Capacitors p 4 TRANSFORMER DESIGN FOR CHARGING DEFIBRILLATOR CAPACITORS By Kirby Creel CAUTION: The charged capacitor used in the example can provide a LETHAL shock. Capacitor = 100 uF Charge Voltage = 2,000 VDC Cha... |
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Transformer Design for Charging Defibrillator Capacitors p 5 By Kirby Creel Step (3) F(6) Energy per pulse (J) = Joules Calculate the energy required per charging pulse N J = 200 500,000 J = 400 uJ / pulse Step (4) Make an estimate of the circuit efficiency and... |
