SU746764A1 - Timer - Google Patents

Description

(54) RELAY BLACK

Claims (2)

one , . The invention relates to a pulse technique. It can be used in automation, telemechanics and communication devices. A time relay is known that contains an RC driver circuit, consisting of a resistor and two capacitors having a common point and connected to different poles of the power source, a threshold stage with an actuating element l7. The capacitors of the time setting of the RC circuit of such relays are preliminarily {until the beginning of the exposure) are charged to certain voltage levels and from the wet (the onset of time delay is recharged to compensate for leakage currents. This reduces the error in the time delay from aging and changing ambient temperature Reduction of the time available for the repetition of such relays is limited by the necessity of prior to the time of exposure, charging the time of the reference capacitors to certain voltage levels. It is also known a time relay, containing a preset RC circuit connected through a differentiating circuit to a pulse generator, a threshold ascade with an actuator, dividing diodes 27. The capacitor time of the driving RG circuit of such relays is charged from a voltage source to which Differentiated impulses from the generator are superimposed. To trigger the threshold stage, the relay uses not the energy of the RC circuit, but the energy of the pulse generator, which allows for greater accuracy of operation and a small amount of spread rzhek. The use of a silicon diode with high reverse resistance in combination with the above features in the threshold device allows the use of high-impedance resistors and small capacitors in the RC circuit x at given time delays. This generally makes it possible for large time exposures (on the order of several minutes) to use non-electrolytic capacitors, which have better stability and lower absorption coefficient than electrolytic ones, without much damage in size. The use of capacitors small capacitance helps reduce the time r ready to re-action time relay. The disadvantage of such a relay is a significant change in the leakage current, the time of the driving capacitor during the aging process and from ambient temperature, which leads to instability of the time delay and a change in its value relative to the initial value. Another disadvantage of the relay is the considerable re-action time due to the need for a full discharge time set by the condenser before the next exposures (starting with the second). Non-observance of this requirement, i.e. The non-polyd discharge time of the driver capacitor is the cause of the significant time lag instabilities. Since the time of full discharge of a capacitor equals more than h & 3 times the value of its constant time -. discharge circuit, this leads to large values of the relay readiness time for repeated operation), despite the use of low-resistance discharge circuits. The aim of the invention is to increase the stability of the time delay and reduce the time the relay is ready for repetitive action. To achieve this goal, in the fipeMeira relay, which contains a sequential time master circuit connected through a differentiating circuit to the output of the pulse generator, a threshold stage with an actuator connected to the time output of the master RC circuit separating the delayed key, for example, , on the transistor with an additional HC circuit in the base circuit, additional time specifies the capacitor and the voltage divider of the power source, for example, on zener diodes, the collector of the transistor being connected Yuchen to the combined plates of two capacitors. bp of the master RC circuit connected to the opposite buses of the power supply, the indicated capacitor plates are connected via a series-connected separation diode and a transistor load resistor to the common bus, and through another separation diode to the first output of the voltage divider of the power supply, to the second output the emitter of the transistor is connected, parallel to the capacitor of an additional I C-circuit, an actuating element of the threshold stage is switched on, for example, a normally open KOHTaKt relay .. Application time The circuit, consisting of a resistor and two capacitors, makes it possible to compensate for the leakage currents of the driver capacitors during the aging process and changes in the ambient temperature. Application of electronic key with a delay connected. in a certain way to two time driving capacitors, allows, on the one hand, charging the time of driving capacitors to certain (fixed) voltage levels, which, together with the time of the driving circuit, consisting of a resistor and two capacitors, allows increasing time stability. On the other hand, the presence in the electronic key of an additional RC circuit allows one to obtain the time delay, the time required for charging the master capacitors to certain voltage levels and the subsequent (after the end of the time delay) their recharging through the resistor master circuit time during the process of working out a predetermined voltage. time exposure. Charging time: the time of the reference capacitors to certain voltage levels and the time of their recharging through a resistor; the time of the driving circuit before the actuation of the actuator constitutes the specified shutter speed; of time. , In known devices, the time of the required pre-charge (discharge) does not enter during the time delay of the time relay and determines a rather large time of the relay's availability for re-action. The latter is already determined not by the time required for the set capacitors to return to the initial state, but by the discharge time of the additional RC circuit capacitor, which creates a delay. Using the amplifying properties of an electronic key (the pre-aapsis of the two driving capacitors is carried out through the low-impedance collector load of the transistor, and the charge of the additional I – C circuit capacitor through the high base resistor) allows an order and more reduction in the capacitance of the additional RC capacitor -Circuit in comparison with the capacitance of the capacitors, the time of the specifying RC -circuit, which contributes to a significant reduction in the ready time, relate to repeated action as compared to the existing relay. In order to accelerate the discharge of the capacitor of an additional RC circuit, and consequently, and reduce the time the relay is ready for re-action after a time delay, it is shunted by an actuating element of the threshold stage, for example, a normally open relay contact. In the known time relays, to reduce the time the relays are ready for re-action after the end of the time delay by the actuating element of the threshold helmet; yes it is shunted. condensate ator time of the setting RC circuit. Taking into account that the capacitance of the capacitor of the additional R C circuit is an order of magnitude less than the capacitance of the time of the master circuit, and the absence of the need for the full discharge of the capacitor of the additional RC circuit due to the fact that neither is the relay time delay, since the delay time is 0.01 O, OO1 is part of the time delay of the relay, the ready time offers an ogb time relay for repeated action much less than the known ones. In order to reduce the charge time of two capacitors, the time of the driving RC circuit to certain voltage levels, and therefore, the influence of the instability of the delay time during which the capacitors are charged, on the stability of the time delay of the relay, their combined plates connected via one isolating diode and an electronic key load resistor to the common bus, and through a second isolating diode to a voltage divider made, for example, on zener diodes. Moreover, the charge of the capacitors stops at the steep sections of the charge exponentials, which drastically reduces the charge time of their charge. Fig. 1 is a schematic diagram of a relay "y". The time relay contains an RC driver circuit consisting of a resistor 1 and two capacitors 2 and 3, a differentiating circuit on resistor 4 and a capacitor 5, a generator of 6 pulses, a threshold stage consisting of diode 7, a resistor 8, trigger 9, an executive element 10, for example, a relay, decoupling diodes 11 and 12, an electrospection 1st switch with a delay, flashed on a transistor 13 with an additional RC. chain consisting of a resistor 14 and a capacitor 15, in the base circuit, a voltage divider of a power supply source on zener diodes 16-18 , resistor 19, load transistor, ny zkoomny resistor 20, through which the plates are connected to the time of the driving capacitors 2 and 3, normally open contact 21 of the relay. FIG. 2 shows the graphs explaining the principle of recharging and setting the capacitors during the time delay of the relay. Here I is the voltage on zener diodes 16-18; Hg is the voltage at zener diodes 17 and 18; B then - voltage at which the threshold cascade is triggered (diode 7 opens, and capacitor 2 charge curve; capacitor 3 charge curve; c — capacitor 2 discharge and capacitor 3 charge through resistor 1 after the end of time delays t, delay time delay; t time delay end timer, charging curves for capacitors 2 and 3 if they were charged to the required voltage levels by an exponential. Constant charge time additional time is chosen to be significantly less than constant timeRC master circuit time. The constant RC master circuit time during accelerated charging is chosen to be less than the constant charge time of the additional AND circuit. Instead of a trigger, an electronic key with memory can be used. power supply to the time relay. In this case, the electronic key capacitor 15 is discharged and the key is closed (there is a positive potential at the base of the transistor relative to the emitter). A charge of 74 setpoint capacitors begins. Krnden; the capacitor 3 is charged along the + t / circuit, the capacitor 3, the diode 11 ,. the resistor 19 on the circuit - V The capacitor 2 is charged on the circuit + Ufj, the capacitor 3, the resistor 2O, the capacitor 2 and the resistor 4 on the circuit - and. In this case, shyud 12 is closed, since nonokirrenbHbifl potential is applied to its cathode. When the voltage on the capacitor 3 reaches the voltage on the zener diodes 17 and 18, diode 12 opens, and the process of charging the capacitors stops. When this is done, yeah on the yundonsator 2 is approximately equal to the voltage on the zener diode 16. When the voltage on the capacitor 15 of the additional RC circuit reaches the threshold of operation of the electronic key 13, the last 1 sec; An impeller separator diode 11 included in the accelerated charging circuit of capacitors 3 and 2. From this point on, capacitor 2 is discharged, and capacitor 2 is charged through the resistor 1 by the time of the RC circuit. When the voltage at the common point of the capacitors 2 and 3 reaches the magnitude of the voltage unlocking the diode 7 removed from the resistor 8 of the KaScSffai daod unlocked, and the differentiated pulses from the pulse generator 6 arrive at the input of the trigger 9, tpftrrep tilts, turns on relay 1O, which is connected. 21 bypasses the capacitor 15 of an additional R C-chain. After discharge of the capacitor 15, the device is ready for re-action. Thus, pre- pinging the nodTpoe nye time relay increases the stability of the time delay and reduces the aging error from aging the time of setting the capacitors and changing the TOvin environment, reduces the relay availability time for repetitive action, which significantly increases the scope of the relay and eliminates the need for periodic adjustment it before use during long-term operation. The invention of the time relay containing a consecutive time setting chain connected through a differentiating circuit to the output of the pulse generator, a threshold stage with an actuator connected to the output time of the master RC circuit, dividing diodes, in order to increase stability and decrease -, the readiness time of the relay for repetitive action, an electronic key with a delay, made, for example, on a transistor with an additional RC circuit in the base circuit, is entered into it, the additional time specifying capacitor and power supply voltage divider, for example, on zener diodes, the transistor collector being connected, to the combined plates of two capacitors, the driving RC circuit, connected to dissimilar power supply buses, indicated capacitor plates connected through a series of separator diode and load resistor transistor to the common bus, and through another separation diode to the first output of the power supply voltage divider, to the second output of which the emitter of the transistor is connected a parallel capacitor more RC -chain enabled actuator threshold stage, such as a normally open contact of the relay of information sources, gfin Tide into account in the examination 1.Avtorskoe .svidetelstvo USSR number 189 488, Cl. H O1 H 47/18, 14.10.64. 2. Time Relay VL-27 TU 16.523.453-74 (prototype).