JP4565533B2 - Wired remote control - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wired remote controller used for controlling, for example, an audio device or a hot water supply device provided in a system bus.
[0002]
[Prior art]
Conventionally, as this type of wired remote controller, for example, the one shown in FIGS. 6 to 8 is used. That is, first, the wired remote controller 1 shown in FIG. 6 shows a case of three-wire communication (half-duplex communication), and is provided in a main body microcomputer 2 provided in a main device (not shown) and a remote controller (not shown). The remote control microcomputer 3 is connected to the remote control power supply line 5 to which the remote control power supply terminal 4 is connected, the serial signal line 6 and the GND line 7.
[0003]
A signal output transistor 8 is connected to the output terminal of the main body microcomputer 2, a signal output transistor 9 is connected to the output terminal of the remote control microcomputer 3, and an LED 10 is connected to each terminal of the remote control microcomputer 3. And various switches 11 including operation switches are connected. Reference numeral 34 in the figure denotes a voltage regulator, which drops, for example, a 12V voltage at the remote control power supply terminal 4 to 5V and supplies it to the remote control microcomputer 3.
[0004]
7 shows a case of four-wire communication (full-duplex communication), and a remote control power supply line 5 to which a remote control power supply terminal 4 is connected between the main body microcomputer 2 and the remote control microcomputer 3 is shown. And two serial signal lines 6 a and 6 b and a GND line 7. Then, various switches 11 including the transistors 8 and 9, the LED 10, and the operation switch are connected to the terminals of the main body microcomputer 2 and the remote control microcomputer 3 as in FIG.
[0005]
Further, the wired remote controller 1 shown in FIG. 8 shows a case of two-wire communication (high frequency modulation half duplex, full duplex), and a choke coil 12 is interposed between the main body microcomputer 2 and the remote controller microcomputer 3. The remote control power supply terminal 4 is connected to the serial signal superimposed remote control power supply line 16 to which the high frequency modulation / demodulation circuit 14 is connected via the capacitor 13 and the GND line 7 is connected. The high frequency modulation / demodulation circuit 14 is connected to the input / output terminal of the main body microcomputer 2, and the high frequency modulation / demodulation circuit 15 is connected to the input / output terminal of the remote control microcomputer 3. The remote control microcomputer 3 has a voltage reset circuit 17 connected to its reset terminal and various switches 11 including a coil 18, the LED 10, and an operation switch connected to each terminal.
[0006]
[Problems to be solved by the invention]
However, in these wired remote controllers 1, the operation switch is directly connected to the remote control microcomputer 3, and the operation switch signal is a serial signal from the remote control microcomputer 3 to the serial signal lines 6, 6b or the serial signal superimposed remote control power supply line. 16, it is necessary to monitor the state of the operation switch with the remote control microcomputer 3 always operating even during standby when the main body is stopped. For this reason, there is a problem that current is constantly consumed by the remote control microcomputer 3 and the standby power consumption of the system using the wired remote control 1 tends to increase.
[0007]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a wired remote controller that can stop the operation of a remote control microcomputer or the like when operation is stopped to reduce standby power consumption and reliably resume operation. It is to provide.
[0008]
[Means for Solving the Problems]
In order to achieve this object, the invention according to claim 1 of the present invention is a wired remote controller in which a main body microcomputer and a remote control microcomputer are connected by at least a signal line for serial communication, and is connected to the remote control microcomputer side of the signal line. with connecting operation switch, the main body microcomputer, provided the remote power control unit for controlling the power supply to the remote control microcomputer detects the operating state of the operation switch without passing through the remote control microcomputer at least a remote control microcomputer stops, the remote control When the power control means detects the input of the operation switch at the time of operation, it cuts the supply voltage to the remote control microcomputer or lowers it to the operating voltage or less, and when detecting the input of the operation switch at the time of stop, It is characterized by reviving the supply voltage to the remote control microcomputer .
[0009]
With this configuration, the operation switch is connected to the remote control microcomputer side of the serial communication signal line, and the operation state of the operation switch is detected by the remote control power control means provided in the remote control body via the signal line. The Then, since the power supplied to the remote control microcomputer is controlled by the remote control power control means according to the state of the operation switch, the remote control microcomputer needs to be always in an operating state at a conventional high remote control voltage when the operation is stopped. This reduces the standby power consumption of a system that uses a wired remote control.
[0010]
In addition, the remote controller power supply control means that the supply voltage of the remote control microcomputer is cut or lower than the operating voltage when the operation switch is turned on during operation, and the supply voltage to the remote control microcomputer is restored when the operation switch is turned off when the operation is stopped. Thus, the standby power consumption can be further reduced and the operation can be reliably restarted.
[0011]
The invention described in claim 2 is characterized in that a power supply circuit different from the main body microcomputer is provided on the main body microcomputer side. With this configuration, by using, for example, a power supply relay circuit as the power supply circuit, power supply to the standby main microcomputer can also be stopped, and standby power consumption can be further reduced.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
1 and 2 show an embodiment of a wired remote controller according to the present invention. FIG. 1 is a circuit diagram thereof, and FIG. In addition, the same code | symbol is attached | subjected and demonstrated to the site | part same as the site | part shown in FIG.
[0013]
The wired remote controller 1 shown in FIG. 1 shows a case of three-wire communication (half duplex communication), and has a main body microcomputer 2 and a remote controller microcomputer 3. The microcomputers 2 and 3 are connected by a remote control power supply line 5 to which a voltage V1 is supplied, a serial signal line 6 to which a serial signal is transmitted, and a GND line 7. The main body microcomputer 2 has a signal output transistor 8 connected to its input / output terminal and a voltage terminal 21 (V1 ≧ V2) to which a voltage V2 is supplied via a resistor 20 connected to an input terminal. Yes.
[0014]
Further, the base of the transistor 22 is connected to the voltage control terminal 2 a of the main body remote controller 2, the remote control power supply terminal 4 is connected to the collector of the transistor 22, and the remote control power supply line 5 is connected to the emitter. The transistor 22 constitutes the remote control power supply control means of the present invention, and the supply voltage to the remote control microcomputer 3 is controlled as will be described later.
[0015]
On the other hand, the remote control microcomputer 3 has a signal output transistor 9 connected to its output terminal via a resistor 23, and a transistor 24 for preventing voltage from being applied to the microcomputer port when the voltage to the remote control microcomputer 3 is cut to the input terminal. The resistors 25 and 26 are connected. An operation switch 27 is connected between the serial signal line 6 and the GND line 7 connected to the input terminal of the remote control microcomputer 3, and this operation switch 27 is provided on an operation panel (not shown) of the remote control. For example, it is formed of a push button type switch that is turned on only when a push operation is performed. The LED 10 and various switches 11 (except for the operation switch) are connected to each terminal of the remote control microcomputer 3.
[0016]
As shown in FIG. 2, the wired remote controller 1 is operated during operation of the main body microcomputer 2 in which a main body device such as a system bus acoustic device, a hot water supply device or a jet bath pump to which the main body microcomputer 2 is connected is operating. For example, a serial signal S of 1 to 10 ms is transmitted at a predetermined cycle (for example, 0.1 to 1 s) to control the operation of the main device. At this time, the transistor 22 connected to the voltage control terminal 2a of the main body microcomputer 2 is turned on, and the voltage V5 (remote control power line voltage) based on the voltage V1 of the remote control power supply terminal 4 is supplied to the remote control microcomputer 3. .
[0017]
In this state, when the operation switch 27 provided on the operation panel of the remote control is turned on (that is, a stop signal is output) at time t1, the microcomputer 2 detects the on state of the operation switch 27 and the predetermined time t0. Later, a signal is output from the power supply control terminal 2a, the transistor 22 is turned off at time t2 (t1 + t0), and the supply of the voltage V1 to the remote control microcomputer 3 is stopped (disconnected). As a result, a stop state in which both the main body microcomputer 2 and the remote control microcomputer 3 are stopped is obtained. At time t3, the voltage V6 (serial signal line voltage) based on the voltage V2 of the voltage terminal 21 lower than the voltage V5 is the main body microcomputer 2. And the state of the operation switch 27 is monitored.
[0018]
During this stop, when the operation switch 27 is turned on (that is, the operation signal is output) at time t4, the main body microcomputer 2 detects this on state, and at time t5 after a predetermined time t0, A control signal is output from the voltage control terminal 2a to turn on the transistor 22, and the voltage V5 is supplied from the remote control power supply terminal 4 to the remote control microcomputer 3 via the remote control power supply line 5. Further, when the operation switch 27 is turned on, the main body microcomputer 2 is also operated at time t6, and the serial signal S is transmitted to control the main body device to a predetermined level.
[0019]
That is, when the system of the wired remote controller 1 including the main device is on standby (stopped), the supply of the voltage V5 to the remote controller microcomputer 3 is cut off by turning off the transistor 22, and the main microcomputer 2 is lower than the voltage V5. Since the voltage V6 is supplied and the state of the operation switch 27 is monitored, the power consumption during system standby is reduced as compared with the conventional method in which the voltage V5 is constantly supplied to the remote control microcomputer 3. .
[0020]
The predetermined time t0 is based on the processing time in the main body microcomputer 2 of the ON signal of the operation switch 27, and at least the operation of the system is judged by the main body microcomputer 2 (the operation can be turned off by the remote control microcomputer 3). However, in this case, in order to distinguish it from a normal serial signal, the operation is considered to be on when a certain time or more has elapsed.
[0021]
As described above, in the wired remote controller 1 of the above embodiment, the operation switch 27 is connected between the serial signal line 6 and the GND line 7 connected to the remote controller microcomputer 3, and the transistor is connected to the voltage control terminal 2a of the main body microcomputer 2. 22 is connected and the transistor 22 is turned off according to the state of the operation switch 27 to cut off the voltage supply to the remote control microcomputer 3, so that the voltage V1 (voltage V5) is always supplied to the remote control microcomputer 3 during the standby of the system. Therefore, it is possible to constantly monitor the state of the operation switch 27 with the voltage V2 (voltage V6) lower than the voltage V1 supplied to the main body microcomputer 2.
[0022]
As a result, the power consumption during standby of the system can be made lower than the power consumption corresponding to the conventional voltage V1, and the reduction can be achieved. In addition, the connection position of the operation switch 27 to the remote control microcomputer 3 can be changed, and the remote control power source control means can be constituted by a relatively inexpensive one transistor 22 or the like. Can be easily applied to existing products.
[0023]
3 and 4 are circuit diagrams showing other embodiments of the wired remote controller according to the present invention. In the following description, the same parts as those in the above embodiment and FIGS. First, the wired remote controller 1 of the embodiment shown in FIG. 3 shows a case of four-wire communication (full-duplex communication), and a serial signal line on the remote controller microcomputer 3 side that communicates a serial signal from the remote controller microcomputer 3 to the main body microcomputer 2. The operation switch 27 is connected between 6b and the GND line 7, and the transistor 22 is connected to the voltage control terminal 2a of the main body microcomputer 2.
[0024]
The collector of the transistor 8 connected to the output terminal of the main body microcomputer 2 is connected to the emitter of the transistor 22 via the resistor 28, and the predetermined voltage terminal 33 is connected to the input terminal of the main body microcomputer 2 via the resistor 32. Has been. The wired remote controller 1 of this embodiment also operates in substantially the same manner as the three-wire wired remote controller 1 and can reduce power consumption during system standby.
[0025]
Also, the wired remote controller 1 of the embodiment shown in FIG. 4 shows the case of two-wire communication (high frequency modulation type half duplex, full duplex), and the operation switch 27 is connected to the serial signal superimposed remote control power line 16 of the remote control microcomputer 3. Are connected to the voltage control terminal 2a of the main body microcomputer 2 and the voltage terminal 21 is connected to the input terminal of the main body microcomputer 2 through the resistor 29 and the diode 30. Is.
[0026]
Then, by setting the resistance value of the operation switch resistor 33 to a relatively small value compared to the resistance 35 of the other switch 11 connected in parallel, the resistance 29 and the resistance 33 are turned on when the operation switch 27 is turned on / off. The voltage value determined by the ratio is discriminated at the input port of the main body microcomputer 2 (and the latch relay coil of the power supply relay circuit 31 described later is latched). 4 modulates a serial communication signal between the main body microcomputer 2 and the remote control microcomputer 3 to a high frequency of several tens KHZ to several hundred KHZ and superimposes it on the DC voltage of the remote control power supply terminal 4. A demodulator, and the voltage reset circuit 17 is a circuit for stopping the operation of the remote control microcomputer 3 when the voltage becomes V2 or less.
[0027]
According to the wired remote controller 1, as shown in FIG. 5, when the operation switch 27 is turned on at time t11 during operation, the transistor 22 is turned off at time t12 after a predetermined time, and the voltage based on the voltage V1. The supply of V16 (serial signal superimposed remote control power supply line voltage) to the remote control microcomputer 3 is cut off. At this time, the serial signal superimposed remote control power supply line 16 is always supplied with the voltage V2 from the voltage terminal 21, and this voltage V2 is supplied to the remote control microcomputer 3. Further, when the operation switch is turned on at time t13 at the time of stop, the transistor 22 is turned on at time t14 after a predetermined time, and the voltage V1 is supplied to the remote control microcomputer 3 to enter the operation state.
[0028]
Also in this embodiment, the voltage V2 lower than the voltage V1 (voltage V16) can be supplied to the remote control microcomputer 3 during standby of the system, and the power consumption during standby can be reduced. By the way, in this embodiment, as shown in FIG. 4, when the power supply relay circuit 31 is connected to the main body side as a separate circuit from the main body microcomputer 2, the main body is in a standby state by the latch relay coil 32 or the like. The voltage supply to the microcomputer 2 can also be stopped, and the power consumption can be further reduced.
[0029]
In each of the above embodiments, there may be a case where the serial signal and the signal of the operation switch 27 are input at the same port of the main body microcomputer 2, but in this case, the input signal of the operation switch 27 is a high-speed voltage unlike the serial signal. Since it does not change, it is confirmed that it can be easily distinguished from a serial signal in terms of hardware or software, and there is no practical problem. In each of the above embodiments, the wired remote controller 1 used for the system bus has been described as an example. However, the present invention is not limited to this, and may be applied to other various wired remote controllers. In addition, other appropriate forms can be used as the operation switch 27.
[0030]
【The invention's effect】
As described above in detail, according to the first aspect of the present invention, the operation switch is connected to the remote control microcomputer side of the signal line for serial communication, and the operation state of the operation switch is provided in the remote control body. Since the power supplied to the remote control microcomputer is controlled by the means, it is not necessary to keep the remote control microcomputer always in operation, for example, with a relatively high remote control voltage when the operation is stopped, and a system using a wired remote controller The standby power consumption can be reduced.
[0031]
In addition, the remote controller power supply control means that when the operation switch during operation is turned on, the supply voltage of the remote control microcomputer is cut or less than the operating voltage, and when the operation switch during stop is turned on, the supply voltage to the remote control microcomputer is restored. The standby power consumption of the system can be further reduced and the operation can be reliably restarted.
[0032]
Further, according to the invention described in claim 2 , in addition to the effect of the invention described in claim 1, by using a power relay circuit as the power circuit, for example, the power supply to the main microcomputer in standby can be stopped. It is possible to further reduce the standby power consumption of the system .
[Brief description of the drawings]
FIG. 1 is a circuit diagram showing an embodiment of a wired remote controller according to the present invention. FIG. 2 is an operation explanatory diagram thereof. FIG. 3 is a circuit diagram showing another embodiment of a wired remote controller according to the invention. 4 is a circuit diagram showing still another embodiment of the wired remote controller according to the present invention. FIG. 5 is a diagram for explaining the operation thereof. FIG. 6 is a circuit diagram showing a conventional wired remote controller. FIG. 8 is a circuit diagram showing still another example of a conventional wired remote controller.
1 ... Wired remote control 2 ... Main body microcomputer 2a ... Voltage control terminal 3 ... Remote control microcomputer 4 Remote control power supply terminal 5 Remote control power supply line 6 Serial signal lines 6a, 6b Serial signal line 7 ..... GND lines 8, 9 ... Transistors 14, 15 ... High frequency modulation / demodulation circuit 16 ... Serial signal superimposing remote control power supply line 17... Voltage reset circuit 21... Voltage terminal 22... Transistor 27. ... Power supply relay circuit S ... Serial signal

Claims (2)

It is a wired remote control that connects the main unit microcomputer and the remote control microcomputer at least with a signal line for serial communication,
The operation switch is connected to the remote control microcomputer side of the signal line, and the operation state of the operation switch is detected by the main body microcomputer without using the remote control microcomputer when the remote control microcomputer is stopped, and the power supply to the remote control microcomputer is controlled. Remote control power supply control means is provided . When the remote control power supply control means detects the input of the operation switch during operation, the remote control power supply control means cuts the supply voltage to the remote control microcomputer or lowers it below the operating voltage and A wired remote control that restores the voltage supplied to the remote control microcomputer when a switch input is detected . The wired remote controller according to claim 1 , wherein a power supply circuit different from the main body microcomputer is provided on the main body microcomputer side.

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