DE1250524B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

HOIh

German class: 21c-35/02

Number: 1 250 524

File number: T 31739 VIII d / 21 c

Filing date: July 30, 1966

Opened on: September 21, 1967

Switching loads with current-dependent resistance using contacts with a limited load capacity causes difficulties; with an incandescent lamp z. B. the resistance increases as a result of the heating in operation too. If the circuit is dimensioned so that the necessary luminosity during operation Current intensity flows, then a much higher current must be switched when switching on, because in the cold state the resistance is much lower.

There is already an arrangement (German patent specification 227 964) known that when switching on or off a circuit breaker by connecting a resistor upstream, the switch-on or switch-off current surge reduced. For this purpose, the switching rod of a high-voltage disconnector is in the known arrangement connected to a rod-shaped resistor in such a way that when the relevant switch is inserted, the one to be closed Contact path is initially bridged by the rod-shaped resistor. By subsequent When the contact path closes, the relevant resistor is short-circuited.

Apart from the special construction that this switch requires and which only applies to large Can perform disconnectors, the arrangement also has the disadvantage that with each switching operation there is only a gradual change in resistance in the circuit. This will step into the Control circuits generate voltage jumps that destroy sensitive devices and undesired control processes can trigger. In addition, there is no monitoring of the when the switch is closed Switching contact flowing through current more instead.

The invention, which is also based on an arrangement in which the inrush current through a series resistor is limited, eliminates the mentioned disadvantages of the known arrangement in that this resistance is the high-resistance emitter-collector path of a transistor when the switch is open is connected in parallel, the base of which is caused by the voltage drop across the current-dependent resistor is controlled in such a way that when the current-dependent resistance changes, a corresponding however, there is a change in the respective series resistance in the opposite direction.

Some embodiments of the invention are shown in the drawing. Show it

F i g. 1 and 2 two circuit arrangements for switching on incandescent lamps.

The electric circuit of the incandescent lamp /? 4 runs through two resistors R 2 and A3; he can by means of the circuit arrangement for switching loads
with current-dependent resistor

Applicant:

Telephone construction and normal time G. m. B. H.,

Frankfurt / M., Mainzer Landstr. 134-146

Named as inventor:

Dipl.-Ing. Manfred Hanemann, Gernsheim

Contacts Kl and K2 are connected to the two poles of a voltage source UB . The emitter-collector path of a transistor Tr is connected to the series resistor R 2. The base of this transistor is connected to a voltage divider, which is formed from a resistor R1 and a Zener diode Z.

The inrush current flowing when the contacts Kl and Kl are closed is essentially determined by the series connection of the incandescent lamp R 4 in the cold state and the series resistors R 2 and R2>.

Due to the negative feedback resistor R 3 remains locked Tr at the maximum permissible current of the transistor, because the voltage drop across the resistor R is greater than 3 as the voltage across the zener diode Z. Assuming in operation, the resistance of the bulb R 4 as a result of warming, then takes the Current through the series resistors R 2 and R3 . As soon as the voltage at the series resistor R 3 is less than the voltage at the Zener diode Z, the transistor Tr begins to conduct and short-circuits the resistor R 2 , whereby the incandescent lamp R 4 is only fed via the low-resistance resistor R3. With the aid of the negative feedback resistor R 3, any desired maximum permissible current can be set in a simple manner in connection with the Zener voltage.

The Zener diode Z in the base circuit of the transistor Tr was used in the circuit of FIG. 1 was chosen to avoid that the base potential drops too much when the transistor is switched on. The base-emitter resistance of the transistor depends on the size of the base current, ie on the instantaneous switching state. This lowering of the base-emitter voltage corresponds to a direct current negative feedback and could possibly prevent the transistor from being switched on completely. With a low-resistance base voltage divider and a larger voltage drop across the series resistor R 3, the

709 648/249

Zener diode Z of the exemplary embodiment F i g. 1 can be replaced by an ohmic resistor R 5 , as in the exemplary embodiment F i g. 2 is shown. If a short circuit occurs due to improper use of an incandescent lamp R 4, the contacts K 1 and K 2 are not significantly overloaded in this case either, since the transistor Tr is blocked in the idle state and the current is limited via the series connection of the resistors R 2 and R 3 will.

Claims (3)

Claims: IO 1. Circuit arrangement for switching loads with current-dependent resistance by means of contacts with a limited load capacity, which are preceded by a series resistor limiting the inrush current, characterized in that this resistor (R 2) is the high-resistance emitter-collector path of a transistor when the switch (K2) is open ( 7Y) is connected in parallel, the base of which is controlled by the voltage drop across the current-dependent resistor (R 4) in such a way that when there is a change in the current-dependent resistor (R 4) there is a corresponding, but opposite, change in the respective series resistor (R2) . 2. Circuit arrangement according to Claim 1, characterized in that the base of the transistor (TV) is connected to a voltage divider and the emitter connected to one end of the limiting resistor (R2) is connected to the voltage source via a further resistor (R 3) in the load circuit connected is. 3. Circuit arrangement according to claim 1 and 2, characterized in that one branch of the Voltage divider contains a zener diode. Considered publications:
German patent specification No. 277 964. 1 sheet of drawings 709 648/249 9.67 Bundesdruckerei Berlin