| 摘要 |
<p>1,166,357. Protective arrangements. SIEMENS A.G. 22 Sept., 1967 [23 Sept., 1966], No. 43146/67. Heading H2K. [Also in Division H3] In a circuit in which the on and off state of an electronic switch is controlled by an oscillator, excessive switch current causes a second electronic switch to damp the oscillator and reduce or interrupt the switch current. One or other of the transistors T5, T6 oscillates, according to the polarity of the input signal, and the output from its winding 1 is rectified to bias the corresponding transistor T1, T2 conducting whereby the negative or positive supply is - U, + U connected to output terminals A. The output current flows through a small resistor R1 or R2 and if, for example, the current through R1 is excessive the voltage thereacross renders a transistor T3 conductive. This damps the output circuit of the oscillator, reducing the drive to T1 and thus the current therethrough. Damping transistor T3 is reverse biased by a potentiometer R3, R5 in dependence upon the voltage across the load so that if the load is short-circuited the reverse bias is reduced and a small current through R1 is sufficient to render the damping transistors T3 conducting. A capacitive load would draw a large current when the transistors T1 and T2 switch on and capacitors C4 and C5 prevent this current rendering T3 and T4 conducting. Diode D1 protects T3 against excessive reverse base voltage, D3 provides a threshold voltage and D1, which alternatively may be connected across T1 protects against interference voltages received from the output line connected to A. A capacitor in the input circuit C1 slows conduction changeover to prevent both output transistors conducting together. In Fig. 1 (not shown), the damping transistors T3 and T4 are replaced by thyristors and these so reduce the output of the oscillator as to cause transistors T1 and T2 to cease conduction.</p> |
