JPH0141066B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a remote control system, and its purpose is to control dimming by stopping transmission of a transmission signal from a base unit or by disconnecting a signal line. To provide a remote control system in which a lighting load is automatically turned on in a fully lit state.

Examples will be described below using figures. 1 to 3 show one embodiment of the present invention,
1 is a main unit, 2 is a terminal device that dims the lighting load 4, and a plurality of terminal devices 2 are connected to one main unit 1.
It is connected by the main signal line 3. FIG. 4 shows a transmission signal V _s that is sent cyclically from base unit 1 to each terminal 2 in sequence. The transmission signal V _s includes a start signal ST indicating the start point, and an address signal for individually calling each terminal 2. It is composed of AD and a dimming control signal CD that sets the firing phase of the dimming thyristor (bidirectional three-terminal thyristor) 7.
This transmission signal V _s is formed by a multipolar signal (AC signal) and is used as an address signal AD and a dimming control signal CD.
The data is transmitted using pulse width modulation. In addition,
A return waiting section is provided after the dimming control signal CD,
Data for monitoring the operating state may be sent back from the terminal device 2 to the base device 1 during this interval. 5
is an address discrimination circuit that outputs an address match signal V _A when the address data sent by the address signal AD matches its own address, and the address of the terminal device 2 is set by the address setting switch S _A. . 6 is a control circuit which takes in the dimming control signal CD following the address signal AD when the address match signal V _A is obtained and outputs a trigger output V _T to control the thyristor 7; Terminal circuit 8 such as circuit 6 is 1
It is formed using chip LSI. 9 is a power supply circuit that rectifies and smoothes the received transmission signal V _S to form a DC power supply V _DD , and includes a diode bridge DB ₁ ,
Power is supplied to a terminal circuit 8 consisting of a capacitor _C1 and a Zener diode _ZD1 . 15 is a zero-cross pulse generation circuit consisting of a diode bridge DB ₂ and a photocoupler PC, and supplies a zero-cross pulse V _Z to the terminal circuit 8. 12 is a latching relay, and a latching contact 12a of the latching relay 12 is connected to the thyristor 7 in parallel. Reference numeral 11 denotes a capacitor for driving the latching relay, which is charged at the output of the power supply circuit 9 via a reverse current blocking diode 10.
16 is a signal stop detection circuit that outputs a signal stop signal V _P when the output of the power supply circuit 9 becomes lower than a preset voltage, and is formed by a Zener diode ZD ₂ that sets the operating level and a comparator CP. The signal stop signal V _P is connected to the terminal circuit 8.
is input to stop the operation of the logic circuit of the terminal circuit 8, and causes the terminal circuit 8 to output a reset signal _VR . 13 is latching relay 1
This is a set circuit formed by a transistor _Q1 connected in series to the on-coil 17a of the power supply circuit 2 and controlled by a reset signal V _R , and when the output of the power supply circuit 9 becomes lower than a preset voltage, the transistor _Q1 is turned on, the charge in the capacitor 11 is discharged through the on-coil 17a of the latching relay 12, and the latching contact 12a is turned on. 14 is connected in series to the off-coil 17b of the latching relay 12 and outputs an address match signal V _A
This is a reset circuit formed by a transistor _Q2 that is controlled by a relay drive signal _RD formed based on When the transistor _Q2 is turned on, the off-coil 17b is energized and the latch contact 12a is turned off. In the diagram, AC is commercial power supply,
PT is a pulse transformer that applies the trigger output V _T output from the terminal circuit 8 to the thyristor 7.

The operation of the embodiment will be described below. now,
When the transmission signal V _S is sent from the base unit 1 to the signal line 3 and the terminal device 2 is connected to the signal line 3, the transmission signal V _S received by the terminal device 2 is rectified by the power supply circuit 9. Since the smoothed regular DC power supply V _DD is supplied to the terminal circuit 8, the terminal circuit ₈ operates normally, and the thyristor 7 The lighting phase of the lighting load 4 is set so that the lighting load 4 is dimmed. Since the power supply circuit 9 output is at a normal voltage, the signal stop detection circuit 16 does not output the signal stop signal V _P , and the terminal circuit 8 does not output the reset signal V _R , so the transistor Q ₁
is not turned on, and the latching relay 12 is not turned on. In addition, the relay drive signal DR synchronized with the address match signal V _A turns on the transistor Q ₂ and turns off the latching relay 12, so that the transmission signal V _S is normally received and the address is When the coincidence signal V _A is obtained, the latching contact 1 of the latching relay 12 is always activated.
2a will be turned off. Next, if you turn off the power to base unit 1 and stop sending out the transmission signal V _S ,
Alternatively, if the transmission line 3 connected to the terminal device 2 is removed, the terminal device 2 will no longer receive the transmission signal V _S , so the power supply that rectifies and smoothes the transmission signal V _S to form the DC power supply V _DD The circuit 9 output drops rapidly. When the output of this power supply circuit 9 drops below a predetermined voltage set by the Zener diode ZD ₂ , the signal stop detection circuit 16 outputs a signal stop signal V _P
is output. When this signal stop signal V _P is input to the terminal circuit 8, the operation of the logic circuit of the terminal circuit 8 is stopped and at the same time a reset signal V _R is output. Transistor Q ₁ is turned on by this reset signal V _R , and by then capacitor 1
1 is discharged through the on-coil 17a of the latching relay 12, and the latching contact 12a is switched to the on side. Since the thyristor 7 is short-circuited at the latch contact 12a, the commercial power AC is directly applied to the lighting load 4, and the lighting load 4 is fully lit. In addition, when the transmission signal V _S is normally received by the terminal device ₂ , that is, when the system failure etc. is restored, the automatic At the same time, the latching relay 12 is turned off so that the main unit 1 can perform dimming control.

The present invention is configured as described above, and a base unit cyclically calls a plurality of terminals in sequence, transmits a dimming control signal to dim the lighting load, and rectifies and smoothes the transmission signal from the base unit. In a remote control system, the latching contact of the latching relay is connected in parallel to the thyristor that dims the lighting load, and the latching contact of the latching relay is connected in parallel to the thyristor that dims the lighting load. A charged capacitor for driving the latching relay is provided, and when the power supply circuit output becomes lower than a preset voltage, the capacitor's charge is discharged through the on-coil of the latching relay to close the latching contact. In addition to providing a set circuit that turns on and sets the lighting load to full lighting, the off-coil of the latching relay is energized by the address match signal, and when the terminal device is accessed from the base unit, the latching contact is turned off and the lighting is turned on. It is equipped with a reset circuit that resets the load when it is fully lit.
When the transmission signal from the base unit is stopped or the signal line is disconnected, and the transmission signal is no longer input to the terminal unit, the set circuit operates and the latching contact of the latching relay turns on, causing the thyristor to turn on. As a result, dimmed lighting loads are automatically turned on to full capacity. Therefore, if the remote control system becomes uncontrollable due to some kind of trouble, you can either turn off the power to the base unit and stop transmitting signals, or remove the terminal from the signal line to completely remove the lighting load. This has the effect of ensuring the minimum necessary lighting function until the problem is resolved, although the dimming function is impaired.Furthermore, the transmission signal for accessing the terminal device can be maintained until the problem is resolved. When the light is sent out, it can automatically return to the dimming control state and is easy to use.

[Brief explanation of drawings]

Fig. 1 is a schematic configuration diagram of an embodiment of the present invention, Fig. 2 is a block circuit diagram of the main part of the same, Fig. 3 is a specific circuit diagram of the main part, and Fig. 4 is a diagram showing an example of the transmission signal of the same. be. 1 is a base unit, 2 is a terminal device, 3 is a signal line, 4 is a lighting load, 5 is an address discrimination circuit, 6 is a control circuit, 7
is a thyristor, 8 is a terminal circuit, 9 is a power supply circuit, 1
0 is a reverse current blocking diode, 11 is a capacitor,
12 is a latching relay, 12a is a latching contact,
13 is a set circuit, and 14 is a reset circuit.

Claims (1)

[Claims] 1. Dimming control that connects the base unit and multiple terminal devices that dim the lighting loads using signal lines, and sets the address signal that calls the terminal units individually from the base unit and the firing phase of the dimming thyristor. A transmission signal consisting of a signal is sent out cyclically to each terminal device in sequence,
An address discrimination circuit that outputs an address match signal when the address data sent by the address signal matches its own address, and a thyristor that takes in the dimming control signal following the address signal when the address match signal is obtained. and a power supply circuit that rectifies and smoothes the received transmission signal to form a DC power source for terminal circuits such as an address discrimination circuit and a control circuit. The latching contacts of the latching relay are connected in parallel to the latching relay, and a capacitor for driving the latching relay, which is charged by the power supply circuit output via a reverse current blocking diode, is installed, so that the power supply circuit output becomes lower than a preset voltage. A setting circuit is provided which discharges the charge in the capacitor through the on-coil of the latching relay and turns on the latching contact to set the lighting load to full lighting condition. 1. A remote control system comprising a reset circuit that excites the off-coil of a terminal device and turns off a latch contact when a terminal device is accessed from a parent device to reset the full lighting state of a lighting load.