High Voltage Circuit Diagram
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The high current source, as mentioned before, is composed of a short circuit generator, a backup circuit breaker for the protection of the test generator, a set of current limiting reactors, a high speed making switch and an additional component, an isolation circuit breaker (IB) whose purpose, as its name implies, is to effectively separate, or isolate, the current circuit from the high voltage circuit. The high The same holds good when the overcurrent relay indicates overloading of the power supply circuit. 2.3.2 Setting up HighVoltage Circuits The electrical circuit diagram of highvoltage circuits is usually quite simple, since, apart from the measuring.equipment, only comparatively few elements are involved. One particular difficulty, however, is that the specified clearances within the setup and to the surroundings have to be allowed for. For this reason the electrical circuit diagram alone is The highvoltage system can be applied to electromagnetic , electrohydraulic and piezolectric shock wave generators that produce shock waves. The details of materials and design methods used will be described. Control procedures for the designed shock wave therapy machine will be explained as flow charts. Schematic diagrams for all designed circuits and dimensions will be illustrated. Each single control procedure for the highvoltage system was validated by a time Hence, the effect.of a short circuit is obtained as regards to the intensity of the current and the recovery voltage as a combination of the effects of two sources, one of which supplies the ae current and the other the highvoltage. In the initial period of the short circuit test, the ac current source supplies the heavy current at a low voltage, and then the recovery voltage is simulated by a source of comparatively high voltage of small current capacity. A schematic diagram of a synthetic testing 4.27 Basic circuit diagram of second (Yamashita et al., 1989. © IEEE.) Voltage source circuit and thirdphase synthetic test. of the current sources are set in accordance with the earthing factor of the effectively grounded system. This permits threephase.interruptions at different (B) Vacuum Circuit Breaker Tests A vacuum circuit breaker can interrupt the current even if the rate of current change at a currentzero point is very high. It is reported that interruption is possible at a current With Eq. (6.2.15), the following values are obtained for different load capacitances: Simplified transformer equivalent circuit diagram (leakage impedance only) for a test transformer with capacitive load jXLI IRW V1' jXLI V 2 IR W Note: Cable test illustrated in Figure 6.2.17 is conducted with. 1.) At first, the elements of the transformer equivalent circuit diagram related to the high voltage side must be determined: With Eq. (6.2.12), RW is = 124 kΩ. In the shortcircuit test, the.current 3.6 Power Supplies and Metering The schematic circuit diagram of the POWER SUPPLIES AND METERING for the control module is shown in figure 13. 4. CIRCUIT DETAILS OF HIGHVOLTAGE AMPLIFIER MODULE A schematic diagram of the power supplies and switching for the HVAM is shown in figure 14. The highvoltage amplifier consists of two substantially identical amplifiers, one of which is driven in the positive direction while the other is driven in the negative direction, and More general applications were appreciated as time went on. The development of this technique will be demonstrated based upon some circuits shown in Fig. 2.19. The capacitance C, represents the almost pure capacitive load of the test objects. In Fig. 2.19(a).a continuously variable inductance (reactor) is connected to the l.v. winding of a stepup transformer, whose secondary winding is rated for the full test voltage. By this means, the impedance of the reactor is converted to the h. v. DIAGRAMS Continued Level lights control circuit 40 AC distribution circuit diagram 4146 27 volt DC distribution 4749 Lowvoltage power supply PP21 66/TPS25 51 52 Transmitter and RF systems block diagram 5354 Transmitter control circuits, simplified 5556 Highvoltage, trigger generator, and modulator channels 5758 Transmitter and RF systems circuit diagram 5960 Feedhorn switching circuits 6162 Receiver system block diagram 6364 Transmitter, RF, and frequency network before commutation HV load 1 and.restored low voltage circuit after commutation of HV load. The problem of the switching capacity increase can be generally solved also by reed switch synchronous commutation for the AC application, and by putting the reed switch into the control circuit of file solidstate (amplifying) key for the DC and AC applications. 3.4 HYBRID HV COMMUTATION DEVICES The arcfree high voltage commutation device, Fig. 3.15, consists of the