SU788220A1 - Timer - Google Patents

Description

(54) TIME RELAY

The invention relates to a pulse technique, in particular to a capacitor time relay, and can be used in automation devices.

A time relay device is known that contains a time pendulum with a capacitor discharge unit, a null organ, and an incoming electromagnetic relay p.J.

A time relay device containing a bridge circuit with a time driving circuit and a resistor divider is known to be a null-organ in the bridge arms, equivalent to a two-base diode, resistors, controllable switch f2}.

The disadvantage of the considered devices, j turn-off time is the low stability of the time delay when restarting.

The purpose of the invention is to increase the stability of the device time delay at 20 re-inclusions.

Claims (2)

The goal is achieved by the fact that in a time relay containing a bridge circuit with a time setting 1 C-circuit and a resistive voltage divider in the arms of the bridge, a zero-organ on the equivalent of a two-base diode on transistors of different types of conductivity in the diagonal of the bridge, the source the key is controlled by the input by an external signal, the first output of which is connected to the connecting point: the emitter of one of the zero-uzgan transistors and one of the resistor terminals, the other terminal of the said resistor is connected to the common time point of the RC circuit, and the second output of the controllable key is connected to one of the poles of the bias source, the other pole of which is connected to the common circuit wire connected to one of the supply voltage buses, with the polarity of the bias source opposite to the polarity of the supply voltage of the device. The controllable key is made on a transistor, the base-emitter transition of which, through the limits of the resistor, is connected to the input, and the collector-emitter transition is the key output. In the drawing, the electrical circuit of the proposed time switch is in principle. The time relay contains a bridge circuit 1 with an RC circuit 2, consisting of successively connected resistors 3 and a capacitor 4 and of a resistive divider 5, consisting of two series-connected resistors b and 7, a zero-org 8 on the equivalent of a two-base diode, assembled on transistors 9 and 10 of different types of conductivity and controllable key 11, which includes transistor 12 and resistors 13 and 14, the first of which is connected in parallel with the base-emitter junction of transistor 12, and the second is connected to the key input. The emitter of transistor 12 is connected to an bias source 15, the second output of which is connected to the common wire of the circuit connected to one of the busbars, a capacitor 4 of the KS circuit 2 and a resistive divider 5. The polarity of the voltage of the bias source 15 is opposite to polarity power supply voltage relay (relative to the common wire), the output of the time relay is the emitter of the transistor 10, the base and collector of which are connected respectively to the collector and the base of the transistor 9. In this case, the common point of the emitter of trans} 1 nzistora 12 through the resistor 16 is connected to the common point of the resistor 3 and capacitor 4, and the base of the transistor 9 and 1O yGodklyucheny transistor collector to the common point of resistors 6 and 7 a resistive divider 5. The time switch operates as follows. When a supply voltage is applied to the time relay, the charging time of the setting capacitor-4 begins, and the transistors 9 and 1O and the control key 11 are closed. When the voltage is on condensation. the torus 4 reaches the voltage removed from the divider 5, the transistors 9 and 1O open like an avalanche, connecting the load. To turn off the time relay (without removing the power supply voltage), a reset signal is applied to the input of the control key (in this particular embodiment of a specific positive polarity), which opens transistor 12 and reduces the voltage at the emitter of transistor 9 to less than removed from the divider 5. The transistor 9, then the transistor 1O is closed, and the current through the load is stopped. The capacitor 4 is discharged through the resistor 16 and the transistor 12. As the capacitor discharges, the voltage across it tends to a potential determined by the value of the resistors 3 and 16, the supply voltage and the bias source voltage. The distribution of the potential (relative to the common wire of the circuit) over the positive-polarity supply circuit through resistors 3 and 16 and resistor 12 to the output of the negative polarity bias source is such that in the portion of the indicated potential-i ap circuit it takes a zero value. The values of resistors 3 and 16 and the voltage of the bias source 15 are chosen so that at a given supply voltage the point of zero potential corresponds to the point of connection to the resistors 3 and 16 of the capacitor 4, which is discharged to zero. The circuit will be in the off state for the entire duration of the reset signal, after which the transistor 12 closes and the new peJie cycle of time, starting with charging, the capacitor 4 through the resistor 3, is repeated. the time relay during each power cycle will be the same as during the initial power up (from the moment the power supply is applied when there is no reset signal). The proposed relay device allows to obtain stable time delays for repeated switching on. Claim 1. Time relay containing a bridge circuit with a time setting RC circuit and a resistive voltage divider in the bridge arms, a null organ on the equivalent of a two-base diode on transistors of different conductivity types in a bridge diagonal, bias source, an input controlled key An external signal, the first output of which is connected to the junction point of the emitter, one of the zero-organ transistors and one of the resistor terminals, is characterized in that, in order to increase the stability of the time delay during repeated switching on, the other Agim said resistor is connected to the common point zadakltsey RCtsepi time, and a second terminal controllable switch connected to one of the poles of the bias source, the other pole of which is connected to the common wire of the circuit connected to one of the supply voltage buses, the polarity of the bias source opposite to the polarity of the power supply voltage of the device. 2. Relay according to claim 1, characterized in that the controlled key is made on a transistor, the base-emit-10 transition the ter of which is connected to the input through a limiting resistor and the collector-emitter junction is a switch output. Sources of information taken into account in the examination 1. USSR author's certificate NO 420005, Cl. H O1 H 47/18, 1974. 2. Authors certificate of the USSR 544OO9, cl. H 01 H 47/18, 1977. P .p CA) -HZDш I  Siena / 3 J c5rosa