DE1062796B - Thermistor delay arrangement independent of the ambient temperature - Google Patents

Description

GERMAN

It is well known that the effectiveness of a thermistor is heavily dependent on the ambient temperature. If the thermistor is to be used in particular as a delay thermistor, the delay time depends on its starting temperature, ie on the ambient temperature; because the higher the start temperature, the shorter the time it takes to heat up to the critical temperature at which the switching process to be triggered starts due to the conductivity assumed by the thermistor. Attempts have hitherto been made to avoid this disadvantage by largely protecting the thermistor arrangement from the effects of the outside temperature, for example by accommodating it in a type of thermostat. It is also known to give the thermistor such a characteristic that the change in resistance of the thermistor with the temperature in the vicinity of the ambient temperature is small and only from a certain temperature, which is about 10 to 100 ° C above the ambient temperature, a normal , assumes the usual value for thermistors. This measure makes the delay time largely, but not completely, independent of the ambient temperature. The same applies to an already known arrangement with two connected in parallel and connected to the consumer, e.g. B. a motor, series-connected thermistors, of which the actual starting thermistor is heated to a high threshold temperature by a heating resistor in series with the other thermistor after switching on the arrangement above its threshold temperature. Since the auxiliary thermistor is intended to ensure that the consumer can be started immediately in the event of a network failure, it must cool down immediately for this purpose as soon as the threshold temperature of the starting thermistor is exceeded. In accordance with this task, the auxiliary thermistor is self-heating and therefore has a low threshold temperature, so that its initial resistance value depends to a considerable extent on fluctuations in the ambient temperature and thus the initial current flowing through the heating resistor and the time it takes for the tempering thermistor to reach its threshold temperature reach, is also determined by fluctuations in the ambient temperature.

It is the object of the invention to specify a thermistor delay arrangement in which the achieved Delay time is largely independent of the respective value of the ambient temperature.

The invention relates to a thermistor delay arrangement, preferably a relay delay arrangement, with one the delay

From the ambient temperature
independent thermistor delay arrangement

Applicant:
Siemens & Halske Aktiengesellschaft,
Berlin and Munich,
Munich 2, Wittelsbacherplatz 2

Dr. Gerhard Ruthemann, Munich,
has been named as the inventor

acting thermistor - possibly including a suitable one connected in series or in parallel with it Series resistor and / or relay - to which a second NTC thermistor is connected in parallel. According to According to the invention, the second thermistor is dimensioned with regard to heat capacity and / or heat dissipation so that that it is practically always at ambient temperature and with a common series resistor forms a temperature-dependent potentiometer.

With reference to the figures, in which two embodiments of the hot conductor assembly according to the invention are shown for example, the idea of the invention will be explained in more detail.

In Fig. 1, R denotes a relay, which is preceded by an NTC thermistor H ₁ , which is intended to cause a delayed pickup of the relay. According to the invention the delay thermistor H is a second thermistor H _{1 2} connected in parallel, which has such a large heat dissipation, that it virtually always remains at ambient temperature. The thermistor H _1, on the other hand, has a small heat capacity and only little heat dissipation to the environment. W ₂ is a series resistor. W ₂ and H ₂ are dimensioned so that they have approximately the same resistance at average ambient temperature.

The mode of operation of the arrangement according to FIG. 1 is as follows: The thermistor H ₂ forms a temperature-dependent potentiometer with the resistor W ₂ , which causes the voltage at the thermistor H ₁

909 580/307

Claims (2)

and relay R decreases with increasing temperature, since the resistance value of H2 is essentially determined by the ambient temperature. This has the effect that as the ambient temperature rises, H1 must be heated to an even higher temperature so that the relay responds. With appropriate dimensioning of all participating resistance values relative to one another, it can be achieved that the delay time is practically independent of this in a certain range of the ambient temperature. In Fig. 2, a corresponding arrangement for a delayed fall of the relay R is shown. H1 and H2 again mean “the two thermistors, of which H1 is the actual tempering thermistor. W1 and W2 mean ohmic series resistors. The mode of operation corresponds to the circuit shown in FIG. 1. The thermistor delay arrangement according to the invention is not restricted to use in relay arrangements, but can also be used with advantage for the temperature-independent starting of tube heaters, machines and the like. Claims. 1. NTC thermistor delay arrangement, preferably relay delay arrangement, with an NTC thermistor effecting the delay - possibly including a series resistor and / or relay connected in series or in parallel with it - to which a second NTC thermistor is connected in parallel, characterized in that the second NTC thermistor (H ₂ ) with regard to heat capacity and / or heat dissipation is dimensioned so that it is practically always kept at ambient temperature and forms a temperature-dependent potentiometer with a common A ^ or resistance (W ₂ ). 2. NTC thermistor delay arrangement according to claim 1, characterized in that the series resistor (W ₂ ) is approximately equal to the NTC thermistor resistance (H ₂ ) at average ambient temperature. Considered publications:
German Patent No. 726 791;
Swiss patent specification No. 196 449. 1 sheet of drawings © 909 580/307 7.59