SU608185A1 - Fire alarm - Google Patents

Description

The invention is intended to control environmental parameters (temperature of light, etc.) and can be used in fire alarm systems, remote control of temperature, humidity, light, etc. A device consisting of a semiconductor device, connected together with an amplifier and a supporting element (Zener diode), is known to increase the sensitivity to changes in measured values (temperature, light) and to increase the output signal power, as well as to more accurately determine the response threshold. and increasing the slope of the "output (" input) "characteristic). However, these devices cannot be connected several pieces into one circuit and do not have the ability to monitor the operability of connecting devices. x wires. The closest in technical essence is a device for fire alarm, containing a series-connected sensing element and a correction resistor, to the connection point of which the base of the first transistor, the second transistor, and the reference part 1 are connected (M1t and resistors 2 |. However, such a device is not allows the inclusion of several sensitive elements in one line, uses electromagnetic relays with their low vibration and impact resistance, limited service life, the presence of contacts, as well as time-consuming The purpose of the invention is to improve the reliability of the device. This is achieved by the fact that the switch element is connected to the emitter of the second transistor, and the collector of the second transistor is connected to the collector of the second transistor, the emitter of which is connected to the base of the second transistor. FIG. 1 shows the electrical circuit of the proposed device; in fig. 2 is a graph of current versus resistance. The proposed knife signaling device consists of a sensing element i (a thermistor, a phase cutter, and so-called), a correction resistor 2, twin transistors 3 and 4, a support element (Zener diode) S, a resistor 6, and a resistor 7 to create an initial current. The scheme works as follows | If the temperature (ocepto1 p,) at the measurement point is lower than the specified value, then the resistance is sensitive e; ement tgjono. what

the voltage drop across resistor 2 is greater than the voltage of the breakdown of Zener diode 5, therefore, the current through the base-emitter. The transition of both transistors is absent. The transistors are closed and the current from the power source passes only through the resistor 7, to the evidence of the good condition of the lead wires 1 °.

When the temperature rises (illumination) at the control point to a predetermined potential. The base of the first transistor 3 becomes more positive, its resistance decreases, and when the voltage drop across resistor 2 becomes greater than the breakdown voltage of the zener diode 5 the emitter of transistor 3 will go current, the transistor will open and current will flow through the load resistance 6 of the collector-emitter of transistor 4 and the zener diode 5.

The magnitude of this current can be determined from the expression 11, Uite is the silicon voltage with the tabilitron.

Due to the large gain factor of the dual transistors, an insignificant change in the resistance of the photosensitive element 1 (after reaching the trigger threshold) leads to a sharp, though not abrupt, increase in the current consumed by the circuit.

If you change a little, for example, to increase the supply voltage, then the potential of the base

the transistor increases, and to reach the threshold of the circuit, the decrease in the resistance of the sensitive element 1 may be less (curve I in Fig. 2) i.e. By varying the supply voltage, you can remotely adjust the threshold of the circuit.

Thus, according to the magnitude of the current in the line, one can easily distinguish the normal, emergency, and other state of the circuit.

Claims (2)

1. “Energetic, 1974, № 7, p. 74. 2. USSR author's certificate number 223620, cl. G 08 B 17/06, 03.01.66.