CS230064B1 - Connexion for safety semiconductor switch - Google Patents

Description

The invention solves the connection of a safe AC or DC semiconductor switch.

The hitherto known cell switch connections place the semiconductor switching triple in parallel or in series with the load. A significant disadvantage of the first solution is the considerable energy consumption. The second solution cannot be used for safety reasons where there is a risk of electric shock or equipment damage. Indeed, an essential and common drawback of all known semiconductor switching tripoles is their susceptibility to spontaneous switching or breakdown and the fact that a small current flows through the tripping pole even in the open state.

The above drawbacks are overcome by the connection of a safe DC or AC voltage semiconductor switch with triple poles according to the invention. It consists in that the first working electrode of the first switching triple is connected to the first terminal of the power supply and through protective impedance to the node point to which the control electrode of the first switching triple is connected, the first electrode of a nonlinear or linear element. with a second working electrode of the first switching triples. The first working electrode of the second switching triple is connected to the node, the second working electrode being connected to the second terminal of the power supply.

The control electrode of the second switching triple forms the control terminal of the switch and the second working electrodes of the first switching triple and the second switching triple are the terminals for load connection ·

230 004

This means that in the open state the first switching triple is closed and no current flows through the circuit. Even in the case of accidental opening or breakdown of this first switching triple, no dangerous voltage can occur in the load circuit. it is drained to the ground, possibly until the next upstream protection is switched off. In the connected state, the first switching triple is open and the second is closed, so that the full voltage is applied to the load.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail with reference to the accompanying drawings, in which FIG. 1 shows the wiring of a safe semiconductor AC voltage switch and FIG.

The secure DC semiconductor switch of FIG. 1 is formed by a first switching triple 3, realized by a first transistor, the collector of which is connected to the first terminal 1 of the voltage source. The base of the first transistor is connected via a protective impedance 7 formed by a resistor, to the first terminal 1 of the voltage source and to the collector of the second transistor, which represents the second switching triple 4. The emitter of the first transistor is connected via β through the second terminal 2 of the voltage source. emitter of the second transistor. A linear or non-linear element 6, in particular a diode, is connected between the base and the emitter of the first transistor. The base of the second transistor forms the control terminal of the switch.

The safe alternating current semiconductor switch of Fig. 2 has the first and second switching triplets 2 ® 4 realized by the first and second mark and the linear or non-linear element 6 consists of a pair of anti-series connected Zener diodes.

The safe semiconductor switch according to the invention is in the open state when the first switching triple 3 is closed and the second switching triple 4 is open. In the connected state, the first switching tape 2 is opened and the second switching triple 4 is closed, so that the voltage is applied to the load 21.

Claims (2)

SCOPE OF THE INVENTION 230 084 1. Connection of a safe semiconductor voltage switch with triple poles, characterized in that the first working electrode of the first triple pole (5) is connected to the first terminal A / of the power supply and via protective impedance / 7 / to the node to which they are connected the control electrode of the first switching triple (5), the first electrode of the non-linear or linear element (6), the second electrode of which is connected to the second working electrode of the first switching triple (5), and the first working electrode of the second switching triple / whose second working electrode is connected to the second terminal / 2 / of the power supply · Wiring according to claim 1, characterized in that the second working electrodes of the first switching triple (5) and the second switching triple (4) form a load connection terminal (5) and the control electrode (8) of the second switching triple (4) forms a control terminal switches.