SU1088156A1 - Device for switching-off delay of illuminating lamp - Google Patents

Abstract

A DEVICE FOR DELAYING LIGHTING LAMPS, containing the first and second diodes, the earad resistor connected to the common bus with one pin, the chain of parallel connected time of the driving capacitor and the series-connected discharge resistor and control key, the rectifying bridge diagon-. When ac is connected to the power supply buses, the thyristor is switched on to the diagonal of the rectified current, characterized in that in order to increase the control range of the off-delay time and increase the utilization rate of the power supply, an additional RC circuit, a source follower generator pulses and a parametric voltage regulator, the input of which is connected parallel to the thyristor, and the output to the first plate of the time specifying the condensate. Pa and to the buses of the power source of the pulse generator and the source follower, the control input of which is connected to the second output of the charging resistor and through the first diode to the second facing, the time of the driving capacitor, and the output through the second diode @ to the signal output of the generator input (L pulses, output which is connected to the control electrode of the thyristor, and with an additional RC circuit connected in parallel to the parametric stabilizer resistor.

Description

The invention relates to a pulse technique and can be used in lighting networks for household premises. A device for delaying switching off of lighting lamps is known, comprising a rectifying bridge with a load in the diagonal of rectified current, a thyristor control circuit consisting of a diode, a charging resistor, a capacitor and the discharge resistor, and the control switch is connected in parallel with the rectifying bridge. The disadvantage of this device is that it does not provide repeated decelerations of switching off the illumination lamps, since during short-term switching on the capacitor of the thyristor control circuit does not have time to discharge and the next deceleration will be shortened or will be absent completely. The proposed invention is a "device for delaying the switching-off of J illumination lamps, containing a forward and a second diode, a control key, a charging resistor, one of whose terminals is connected to a common busbar oh, a chain of parallel-connected times of the driving capacitor — and a series-connected discharge resistor and control switch; a rectifier bridge, the diagonal of the alternating current of which is connected to the power supply bus, the C 23 thyristor is connected to the diagonal of the current; All of these relate to small time delays and low utilization rates of the power supply voltage, since the thyristor is turned on n at the moment of the transition of the sinusoid, it supplies the voltage across zero. The purpose of the invention is to increase the range of control of the off-delay time and increase the utilization rate of the power source. A connection is achieved in that the device for delaying the turn-off of the illumination lamps, containing the first and second diodes, the charging resistor one of whose terminals is connected to the common bus, a chain of parallel connected time of the driving capacitor and the series-connected discharge resistor and control key , a rectifying bridge, the ac diagonal of which is connected to the power supply bus, the thyristor is included in the rectified current diagonal, an additional Ccep, a source follower, a generator a pulse and a parametric voltage regulator, the input of which is connected in parallel to the thyristor, and the output to the first plate of the time of the driving capacitor and to the power supply buses of the pulse generator and a current repeater, the control input of which is connected to the second output of the charging resistor and through the first diode to the second time is the time of the setting capacitor, and the output through the second diode is connected to the signal input of the pulse generator, the output of which is connected to the control electrode of the thyristor, and the additional to the RC circuit connected in parallel with the parametric stabilizer resistor. Due to the fact that the time setting capacitor is discharged to a large input resistance of the field-effect transistor, the control range can be obtained from units of seconds to units and tens of minutes. The presence of a pulse generator allows the thyristor to be switched on practically at the time of the transition of the sinusoidal input voltage across zero, which increases the utilization rate of the power supply voltage. The drawing shows a circuit diagram of the device. The device contains a rectifying bridge 1, connected by a diagonal of an alternating current with the power supply source and a load 2, a thyristor 3 is connected to the j diagonal of the rectified current, in parallel to which a parametric voltage regulator 4 is installed, which includes a resistor 5 and a stabilizer 6. To output the stabilizer 4 is connected to the time setting the capacitor 7, the discharge resistor 8 and the control switch 9, through diode 10 connected to the input of the source follower 11, output through the diode 12 connected to the input of the generator 13 pulses, a transistor 14, a charging resistor 15 and a capacitor 16 enter automatically. The output of the pulse generator is connected to the thyristor control junction, and a chain of a capacitor 17 and a resistor 18 is installed parallel to the voltage regulator resistor. The device works as follows. In the initial state, the capacitor 7 is charged until the voltage supplied by the stabilizer 4 is voltage. The voltage at the output of the source follower 11 is thus zero, and its output through the open diode 12 bypasses the capacitor 16 of the generator 13 pulses. There are no pulses at the output of the pulse generator, the thyristor 3 is in the locked state, which determines the absence of current through the load. When the key 9 is turned on, the fast discharge of the capacitor 7 through the

a resistor 8, the voltage at the output of the source follower increases and diode 12 is closed. After charging the capacitor 16 to the voltage of the breakdown of the p-p-junction of the single junction transistor 14, it is discharged through the control transition of the thyristor 3. The latter opens, the voltage on it becomes approximately 2 V. At the end of the half-period of the supply voltage through the thyristor 3 drops to zero and ort is locked.

The occurrence of the next half-cycle of voltage causes a fast charge of the capacitor 16 along the circuit: the output of the rectifying bridge 1, the capacitor 17, the resistor 18, the resistor 15, the capacitor 16. This causes the subsequent switching on of the thyristor 3 to occur almost near the junction of a sinusoidal voltage through zero. Such a circuit solution allows to increase the utilization rate of the power supply source, and also reduces the level of impulse noise induced by the device, since the thyristor is turned on at a small value of the instantaneous value of the current consumed by the load. After unlocking the key

9, a high voltage level at the output of the source follower 11 is maintained at the expense of the charge of the capacitor 7. It should be noted that the charge of the capacitor 7 occurs only when the thyristor-3 state is locked, the time interval of which occupies a very small part of the supply voltage half-period. Such a mode of operation of a capacitor makes it possible to further reduce the value of its capacitance, which also reduces the dimensions of the device.

As the capacitor 7 is charged, the voltage at the output of the source follower 11 decreases and, with the opening of diode 12, the potential of the upper plate of the capacitor 16 is fixed at this level and the pulse generator 13 is closed. The circuit returns to its original state.

The device allows an increase in the off-delay time and an increase in the utilization rate of the supply voltage.

- Increased power losses in the working state on diode 1 and thyristor 3 can be reduced by using the semistor as a power controlled switch.

Claims (1)

DEVICE FOR DELAY OFF THE LIGHTING LAMPS, containing the first and second diodes, a radiator resistor connected to a common bus with one pin, a chain of parallel-connected timing capacitors and series-connected discharge resistor and control key, a rectifier bridge, a diagonal, an AC line connected to the buses of a power source, a thyristor is included in the diagonal of the rectified current, characterized in that, in order to increase the range of regulation of the time delay off and increase the coefficient use of the power source, an additional RC circuit, a source follower, a pulse generator and a parametric voltage regulator are introduced into it, the input of which is connected in parallel with the thyristor, and the output is to the first lining of the time-setting condensate. to the buses of the power source of the pulse generator and the source follower, the control input of which is connected to the second output of the charging resistor and through the first diode to the second lining of the time _- consuming capacitor, and the output through the second diode & to the signal input of the pulse generator, the output of which is connected to thyristor control electrode ^; An additional RC circuit is connected in parallel with the parametric stabilizer resistor. ABOUT