JP2004294024A - Hot-water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot-water supply system, hardly causing an operational abnormality of a terminal device due to a line drop even if a communication line also serving as a power supply line is made long. <P>SOLUTION: This hot-water supply system is composed of a hot water supply device body 1 provided with a switching power supply 12 having an output voltage control means 125, and a remote controller 2 receiving the supply of power through the communication line 3 from the hot water supply device body 1. The remote controller 2 is provided with a voltage detection circuit 24 for detecting the input voltage, and drop of input voltage is determined by an input voltage determination means 212, whereby when the voltage drop is detected, the voltage drop information is transmitted through the communication line 3 to the hot water supply device body 1. On receiving the voltage drop information, the hot water supply device body 1 turns on a transistor Q1 to raise the output voltage controlled by a constant voltage control circuit 125b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hot water supply system, and more particularly, to a technique for preventing a line drop of a power supply line for supplying power from a water heater main body to a terminal device.
[0002]
[Prior art]
[Patent Document 1] JP-A-5-11864
[0003]
In recent hot water supply systems, a hot water heater body that generates hot water is provided with a remote controller (hereinafter referred to as a remote controller) for the hot water heater body, or a heating appliance that uses hot water generated by the hot water heater body (for example, a bathroom dryer). Terminal devices such as a water heater and a hot water heating device) are connected, and these terminal devices are configured to receive power supply from the water heater main body.
[0004]
Here, an example of such a hot water supply system is shown in FIG. FIG. 3 shows a case where a remote controller 2 is connected to the water heater main body 1 as the terminal device. FIG. 3 particularly shows only a schematic configuration of a power supply system and a communication system of the hot water supply system. Since the basic configurations of the water heater main body 1 and the remote controller 2 are well known, illustration and description are omitted.
[0005]
As shown in the drawing, in this type of hot water supply system, a communication line 3 is provided so that a controller (main body side control means) 11 of the water heater main body 1 and a controller (terminal side control means) 21 of the remote controller 2 can communicate with each other. Connected through. The communication line 3 is formed of a two-core cable, and is also used as a power supply line for supplying power from the water heater main body 1 to the terminal device 2 (using a power supply superimposed communication method).
[0006]
Specifically, the water heater main body 1 includes a controller 11, a power supply unit 12 that generates a DC power supply (for example, 15 V) supplied to the remote controller 2, and a communication signal to the DC power supply generated by the power supply unit 12. And a communication interface (communication means) 13 for superimposing and separating the data.
[0007]
The controller 11 includes a microcomputer (not shown), which is not shown. The microcomputer 11 analyzes a control signal (remote operation command signal) given from the remote controller 2 to operate the water heater main body. And a control signal (such as a display command signal for monitoring) to be given to the remote controller 2 is generated and output.
[0008]
The power supply unit 12 is a power supply device that converts AC power obtained from the commercial power supply 4 into DC power. In the illustrated example, a case where a switching power supply device is used as the power supply unit 12 is shown. As is well known, this type of switching power supply device includes a rectifying / smoothing circuit 121 for rectifying and smoothing the AC power, a switching unit 122 for high-frequency switching of the DC power obtained by the rectifying / smoothing circuit, and a switching unit 122. High-frequency transformer 123 for transmitting energy that has been subjected to high-frequency switching to a circuit on the output side, and a high-frequency rectification / smoothing circuit for rectifying and smoothing high-frequency power appearing on the secondary side of the high-frequency transformer 123 to obtain a DC output (output voltage) And an output voltage control circuit (output voltage control circuit) that detects an output voltage (voltage at point A in the figure) Vout of the high-frequency rectification / smoothing circuit 124 and stabilizes the output voltage Vout to a predetermined voltage (15 V in this example). (Refer to Patent Document 1).
[0009]
In the illustrated power supply unit 12, a feedback control circuit using the shunt regulator IC1 and the photocoupler 125a is used as the output voltage control circuit 125. Specifically, the output voltage control circuit 125 includes the photocoupler 125a, the constant voltage control circuit 125b including the shunt regulator IC1, and the switching control circuit 125c that controls the switching frequency and the ON time of the switching unit 122. It is configured as a main part.
The feedback control circuit having such a configuration is widely used in the field of switching power supply devices. In this case, the output voltage Vout is determined by the electric resistances R1, R2, R3 of the constant voltage control circuit 125b and the REF of the shunt regulator IC1. It is determined by the following equation 1 according to the reference voltage Vref input to the terminal.
[0010]
Vout = Vref × (R1 + R2) / R3 (1)
[0011]
The communication interface 13 is a communication device for exchanging signals with the terminal device via the communication line 3 in a power supply superimposed communication system, and is output from the controller 11 to the DC power generated by the power supply unit 12. A transmission signal is superimposed, and a reception signal transmitted from the remote controller 2 via the communication line 3 is separated from a power source and supplied to the controller 11.
[0012]
On the other hand, on the remote controller 2 side, the controller 21, a remote controller circuit (load circuit) 22 composed of various loads included in the remote controller 2 such as an operation unit, a display device and an audio output device (not shown), and hot water supply via the communication line 3 A communication interface (communication means) 23 that separates a received signal transmitted from the main body 1 from a power source and inputs the received signal to the controller 21 and superimposes a transmission signal output from the controller 21 on the communication line 3 is configured as a main part. Is done.
[0013]
In the hot water supply system thus configured, the driving power of the remote controller 2 is supplied from the water heater main body 1 via the communication line 3, while the water heater main body 1 and the remote controller 2 are connected to the communication line 3. , The entire system operates in cooperation with each other.
[0014]
[Problems to be solved by the invention]
However, the hot water supply system having the above configuration has the following problems, and improvement thereof has been desired.
[0015]
That is, in the conventional hot water supply system, the water heater main body and the remote controller are connected by a two-core communication line. However, since the communication line itself has electric resistance, if the communication line is laid too long, In some cases, a voltage drop (line drop) due to the electric resistance of the line itself causes a shortage of voltage on the remote control side, thereby preventing normal operation. For this reason, in the conventional hot water supply system, there is a problem that the laying length of the communication line is limited by the electric resistance of the communication line.
[0016]
For this reason, at present, the length of the communication line that can be laid is determined in advance based on the line drop on the manufacturer side, but cables other than the communication cable specified by the manufacturer may be used at the construction site, In some cases, the remote control did not work as expected.
[0017]
The present invention has been made in view of such a conventional problem, and an object of the present invention is to provide a hot water supply system that does not cause an abnormal operation of a terminal device due to a line drop.
[0018]
[Means for Solving the Problems]
In order to achieve the above object, a hot water supply system according to the present invention is provided with a water heater main body including a power supply having an output voltage control means for stabilizing an output voltage to a predetermined voltage, and connected to the water heater main body via a communication line. A terminal device configured to receive power supply from the water heater main body via the communication line, wherein the water heater main body includes information obtained from the terminal device via the communication line. An output voltage setting means for changing an output voltage controlled by the output voltage control means based on the output voltage is provided.
[0019]
As a preferred embodiment thereof, in the hot water supply system according to the present invention, the terminal device is provided with device information output means for outputting information about the terminal device itself, and information output from the device information output device is provided. Is provided to the output voltage setting means via the communication line.
[0020]
Further, as another preferred embodiment, the terminal device is provided with voltage detecting means for detecting an input voltage of a power supply input through the communication line, and information obtained by the voltage detecting means is used for transmitting the communication information to the communication device. It is provided to the output voltage setting means via a line.
[0021]
Then, the output voltage setting means changes the predetermined voltage in the output voltage control means in a stepless manner in accordance with information input via the communication line, or the output voltage setting means comprises: The predetermined voltage in the output voltage control means is changed stepwise according to information input via a communication line.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0023]
Embodiment 1
FIG. 1 shows an example of a circuit configuration of the hot water supply system according to the first embodiment of the present invention. The hot water supply system shown in FIG. 1 is an improvement of the conventional hot water supply system described above, and the other basic configuration is the same as the conventional example shown in FIG. The description is omitted by attaching the reference numerals.
[0024]
The hot water supply system according to the present invention is configured such that the controller 11 of the water heater main body 1 changes the output voltage Vout controlled by the output voltage control circuit 125 based on information obtained from the remote controller (terminal device) 2. Particularly, in the present embodiment, the controller 21 of the remote controller 2 is provided with a device information output unit 211 for outputting information about the remote controller 2 itself, and the device information output unit 211 outputs the information. The controller 11 is configured to control the output voltage control circuit 125 based on the information.
[0025]
Specifically, the controller 11 of the water heater main body 1 has, as a software configuration, an information acquisition unit 111 for acquiring information output from the device information output unit 211 and an information acquisition unit 111 for acquiring the information. An arithmetic processing means 112 for determining whether to change the value of the output voltage Vout based on the information and determining the changed value if the value of the output voltage Vout needs to be changed; and Correction signal output means 113 for correcting the reference voltage Vref of the shunt regulator IC1 based on the calculation result of 112 is provided.
[0026]
Here, the information obtaining means 111 includes a storage device for storing the obtained information. The correction signal output means 113 includes a microcomputer D / A port for outputting the correction signal.
[0027]
In order to realize such software control, due to the hardware configuration, the constant voltage control circuit 125b is provided between the electric resistors R1, R2 and R3 provided for detecting the output voltage Vout (see FIG. The D / A port of the microcomputer of the controller 11 is connected to the portion (denoted by the symbol B) via the electric resistance R4. In the figure, a series circuit of the capacitor C1 and the electric resistor R6 interposed between the cathode terminal and the REF terminal of the shunt regulator IC1 is a phase compensation circuit for preventing hunting.
[0028]
On the other hand, the controller 21 of the remote controller 2 is provided with the device information output unit 211 as a software configuration. The device information output means 211 also includes a storage device for storing information relating to the remote controller 2 itself (for example, data specifying the model of the terminal device), and the information stored in the storage device is used for connection from the water heater main body 1. It is configured to be transmitted to the water heater main body 1 via the communication interface 23 and the communication line 3 in response to the confirmation.
[0029]
In the present embodiment, the case where one remote controller 2 is connected as the terminal device connected to the water heater main body 1 has been described. However, the terminal device connected to the water heater main body 1 is not limited to the remote controller, and may be, for example, a bathroom. Heating devices such as dryers and hot water heaters, connection units for solar water heaters, instantaneous hot water units that circulate hot water between the hot water tap and the hot water heater main body 1 and quickly discharge hot water from the hot water tap, Another terminal device that operates in cooperation with the water heater main body 1 may be connected. The number of terminal devices connected is not limited to one, and a plurality of terminal devices can be connected. However, in any case, the various terminal devices connected to the water heater main body 1 are provided with the communication interface 23 capable of transmitting data via the device information output means 211 and the communication line 3 described above, respectively. It becomes.
[0030]
Therefore, an example of the operation of the hot water supply system according to the present embodiment will be described below.
[0031]
Here, in the hot water supply system shown in the present embodiment, the controller 11 of the water heater main body 1 periodically checks the connection of the terminal device via the communication interface 13 and the communication line 3. Therefore, the information obtaining means 111 periodically obtains the model data from the remote controller 2 according to the connection confirmation. Then, the acquired model data is stored in the storage device of the information acquiring means 111.
[0032]
When the model data is obtained by the information obtaining unit 111, the arithmetic processing unit 112 specifies the number and type of terminal devices connected to the water heater main body 1 based on the obtained model data, It is determined whether or not the output voltage Vout of the high-frequency rectification / smoothing circuit 124 needs to be changed according to the result. If the output voltage Vout needs to be changed, the output voltage value after the change is determined.
[0033]
Specifically, the arithmetic processing unit 112 specifies the power consumption of the load circuit of each terminal device based on the number and types of the terminal devices specified from the obtained model data (when a plurality of connected terminal devices are used). In this case, the power consumption of the specified load circuit of the terminal device is added), and based on the result, the necessity of changing the value of the output voltage Vout and the output voltage value after the change are determined.
[0034]
For example, when the terminal device specified from the model data is only a terminal device with low power consumption (for example, only a remote control having only a remote control function and a display function is connected), the value of the output voltage Vout is changed. You do not need to do this.
[0035]
On the other hand, when a plurality of terminal devices are connected, or when only one terminal device consumes a large amount of power (for example, in addition to a remote operation function and a display function, an intercom function, a sound output function, and a television reception function). In the case of a remote controller having many functions such as a display function), it is determined that the output voltage Vout needs to be increased, and the value of the output voltage Vout is determined according to the connection status of the terminal device. .
[0036]
In determining the output voltage Vout, the arithmetic processing means 112 in advance outputs the output voltage Vout based on the power consumption of each terminal device type and the power consumption of the terminal device (additional value in the case of a plurality of terminal devices). A calculation formula for calculating a required voltage value is stored as a value, and a required value of the output voltage Vout is calculated from the calculation formula, or power consumption of the terminal device (additional value in the case of a plurality of terminals). It is possible to store the required value of the output voltage Vout in advance as conversion data in correspondence with the above, and to convert the output voltage Vout from this conversion data. That is, the arithmetic processing means 112 may be configured to determine the output voltage Vout according to the number and types of terminal devices connected to the water heater main body 1.
[0037]
In this way, when the arithmetic processing means 112 determines whether or not the output voltage Vout needs to be changed and the output voltage value after the change, the correction signal output means 113 operates as follows according to the calculation result. I do.
[0038]
That is, when the value of the output voltage Vout does not need to be changed, the correction signal is not output from the D / A port, and the constant voltage control circuit 125b executes the constant voltage control as usual. That is, in the present embodiment, since the output voltage Vout is set to 15 V, the voltage control is performed so that the output voltage Vout is stabilized at 15 V.
[0039]
On the other hand, when it is determined that the value of the output voltage Vout needs to be changed, a correction signal (voltage signal) is output from the correction signal output means 113 to change the reference voltage of the shunt regulator IC1, and the calculation is performed. The constant voltage control circuit 125b is controlled so that the output voltage Vout determined by the processing unit 112 is obtained.
[0040]
That is, the correction signal output means 113 changes the output voltage from the D / A port of the microcomputer according to the calculation result of the calculation processing means 112, thereby changing the setting of the constant voltage control circuit 125b. The output voltage Vout of the high frequency rectification / smoothing circuit 124 is increased.
[0041]
As described above, in the hot water supply system of the present embodiment, the means for changing the output voltage controlled by the output voltage control means 125 (output voltage setting means) is provided in the water heater main body, and the information acquisition means 111 as a software configuration. And the arithmetic processing means 112 and the correction signal output means 113, and the constant voltage control circuit 125b and the D / A port of the microcomputer are connected via the electric resistance R4 as a hardware configuration, so that the controller 11 of the water heater main body 1 is provided. Automatically changes the output voltage Vout of the water heater main body 1 based on the information obtained from the terminal device by communication, so that power shortage occurs regardless of the number or type of terminal devices connected to the water heater main body 1. The terminal device can be operated stably without falling into.
[0042]
In addition, since information such as the number and type of the terminal devices is exchanged via the device control communication line 3 arranged between the water heater main body 1 and the terminal devices, a separate signal is used for controlling the output voltage. There is no need to provide wires, and construction is easy.
[0043]
Further, since the output voltage Vout is controlled by the output of the D / A port of the microcomputer, the reference voltage of the shunt regulator IC1 can be changed linearly, and the output voltage Vout can be adjusted steplessly. .
[0044]
In the present embodiment, the information output from the information output unit 211 is periodically performed in accordance with the connection confirmation. However, for example, the timing at which the terminal device operates (for example, when the terminal device is a remote control, It is also possible to configure so that information is output from the terminal device side and the output voltage Vout is increased in accordance with the timing at which power consumption occurs on the terminal device side such as when an operation is performed.
[0045]
Further, in the above embodiment, the case where the information output from the information output unit 211 is the model data of the terminal device has been described, but the information output from the information output unit 211 includes, for example, power consumption data of the terminal device itself. It is also possible to make the water heater main body 1 perform only the processing after the addition of the power consumption described above without specifying the model. Further, the information may be information on an operation mode of the terminal device or information on current consumption predicted in the operation mode (or rated current in the operation mode). That is, as the information output from the information output unit 211, any information that can be used to control the output voltage Vout to an optimal value may be used.
[0046]
Furthermore, in the above-described embodiment, the process of the controller 11 includes a determination as to whether or not the output voltage Vout needs to be changed. However, this determination is omitted, and the number and model of the terminal devices are reduced. Accordingly, it is also possible to always perform only the process of increasing the output voltage Vout. In this case, it is possible to effectively suppress the terminal device from running out of power due to a voltage drop due to a line drop.
[0047]
Embodiment 2
Next, a second embodiment of the present invention will be described with reference to FIG. The hot water supply system shown in the second embodiment is also an improvement of the above-described conventional hot water supply system, and the other basic configuration is the same as the conventional example shown in FIG. Therefore, portions having the same configuration are denoted by the same reference numerals, and description thereof is omitted.
[0048]
Also in the hot water supply system according to the second embodiment, the controller 11 of the water heater main body 1 changes the output voltage Vout controlled by the output voltage control circuit 125 based on information obtained from the remote controller (terminal device) 2. Particularly, in the present embodiment, the remote controller 2 is provided with a voltage detection circuit (voltage detection means) 24 for detecting an input voltage of a power supply input via the communication line 3. The information obtained by the voltage detection circuit 24 is provided to the controller 11 of the water heater main body 1 via the communication line 3, and based on this information, the controller 11 detects a decrease in the output voltage Vout and determines the output voltage Vout. It is configured to rise.
[0049]
Specifically, the voltage detection circuit 24 is provided in the load circuit 22 so as to detect an input voltage from the communication interface 23. The controller 21 has, as a software configuration, whether or not the input voltage from the water heater main body 1 is a normal value (the normal value in the present embodiment is 15 V) based on the circuit output of the voltage detection circuit 24. Input voltage determining means 212 for determining whether the input voltage has decreased, and a voltage drop information outputting means for transmitting information to the water heater main body 1 when it is determined that the input voltage has decreased. 213 are provided.
[0050]
On the other hand, the controller 11 of the water heater main body 1 has, as a software configuration, a voltage drop information obtaining means 114 for obtaining information output from the voltage drop information output means 213, and a voltage drop information obtaining means 114. Output voltage increase command means 115 for instructing an increase in output voltage Vout when the decrease information is obtained is provided. The output voltage command means 115 includes a signal output port of a microcomputer as described later.
[0051]
In terms of the hardware configuration, the electric resistance R5 is provided between the electric resistances R1, R2, and R3 provided for the detection of the output voltage Vout in the constant voltage control circuit 125b (a part indicated by a symbol B in the drawing). The collector terminal of the transistor Q1 is connected via the transistor Q1, and the base terminal of the transistor Q1 is connected to the signal output port constituting the output voltage increase command means 115.
[0052]
Then, an example of the operation of the hot water supply system shown in the present embodiment will be described next.
[0053]
In the hot water supply system shown in the present embodiment, a line drop of the communication line 3 between the water heater main body 1 and the terminal device (the remote controller 2 in the illustrated example) or an increase in load current of the load circuit 22 causes the terminal device to be connected to the terminal device. When the input voltage drops, the input voltage determination means 212 detects the drop in the input voltage via the voltage detection circuit 24, and the voltage drop information output means 213 outputs information indicating the drop in the input voltage to the communication interface 23, The data is transmitted to the water heater main body 1 via the communication line 3.
[0054]
On the other hand, when the voltage drop information acquiring means 114 of the controller 11 receives the information from the voltage drop information output means 213, the water heater main body 1 side receives the information from the output voltage increase command means 115 in response to the information from the transistor Q1. Is output.
[0055]
That is, in the hot water supply system of the present embodiment, when the voltage drop information from the terminal device is input to the controller 11 of the water heater main body 1, the controller 11 turns on the transistor Q1, thereby turning on the electric resistances R3 and R5. The output voltage Vout set by the constant voltage control circuit 125b by the combined resistance is increased by a constant value. Note that the increase width of the output voltage Vout is adjusted by the resistance value of the electric resistance R5.
[0056]
As described above, in the hot water supply system according to the present embodiment, the means for changing the output voltage controlled by the output voltage control means 125 (output voltage setting means) is provided in the water heater main body, and the voltage is reduced as a software configuration. By providing the information acquisition means 114 and the output voltage increase instructing means 115, and connecting the constant voltage control circuit 125b and the controller 11 as a hardware configuration via the electric resistor R5 and the transistor Q1, the water heater main body 1 side communicates with the terminal device. When the input voltage drop is detected on the side, the water heater main body 1 automatically raises the output voltage Vout based on the detection, so that factors such as line drop and load current that cause the input voltage drop on the terminal device side are taken into consideration. A terminal device can be connected without performing.
[0057]
Also, in the hot water supply system shown in the present embodiment, the voltage drop information is exchanged via the device control communication line 3 arranged between the water heater main body 1 and the terminal device. There is no need to provide a separate signal line for control, and construction is easy.
[0058]
In the present embodiment, the case where the voltage detection circuit 24 directly detects the input voltage from the communication interface 23 has been described. However, the voltage detection unit indirectly detects the voltage obtained by dividing the input voltage. Other configurations, such as a circuit configured to detect an input voltage, can be employed as long as information based on the input voltage can be detected.
[0059]
Further, in the present embodiment, the above-described voltage drop information is used as the information supplied from the terminal device to the water heater main body, but, for example, information on the deviation between the information acquired by the voltage detection means and the predetermined reference voltage is used. For example, it is also possible to use secondary information obtained by processing information directly obtained by the voltage detecting means.
[0060]
It should be noted that the above-described embodiments merely show preferred embodiments of the present invention, and the present invention is not limited to these embodiments, and various design changes can be made within the scope.
[0061]
For example, in the above-described embodiment, the remote controller 2 is shown as a terminal device connected to the water heater main body 1 for convenience of description, but the terminal device is not limited to the remote controller, and the terminal device operates in cooperation with the water heater main body 1. Then, it can be applied to other terminal devices.
[0062]
Further, in the above-described first embodiment, the case where the output voltage of the water heater main body 1 is steplessly changed based on the information from the terminal device has been described, but for example, as shown in the second embodiment, the electric resistance is changed. It is also possible to employ a configuration in which the output voltage is changed stepwise using R5 and the transistor Q1. Similarly, in the second embodiment, the configuration in which the output voltage of the water heater main body 1 is stepwise increased based on information from the terminal device has been described. However, as shown in the first embodiment, The output voltage can be changed steplessly using the D / A port.
[0063]
Furthermore, the present invention can be applied to any water heater having a water heater main body having the above-described configuration and a terminal device. For example, even if the water heater main body has a bath function, etc. Good. Also, the present application can be applied to any equipment other than the water heater.
[0064]
【The invention's effect】
As described in detail above, according to the hot water supply system of the present invention, a water heater main body including a power supply having an output voltage control means for stabilizing an output voltage to a predetermined voltage is connected to the water heater main body via a communication line. And a terminal device configured to receive power supply from the water heater main body via the communication line, wherein information obtained from the terminal device via the communication line is provided to the water heater main body. Output voltage setting means for changing the output voltage controlled by the output voltage control means on the basis of the above, so that even if the communication line connecting the water heater main body and the terminal device becomes longer, the terminal device side by line drop A hot water supply system that does not cause a decrease in input voltage can be provided.
[0065]
Further, in the present invention, since the transmission of information from the terminal device to the water heater main body is performed via a communication line that also serves as a power supply from the water heater main body to the terminal device, it is used for controlling the output voltage of the water heater main body. Provides an easy-to-install hot water supply system without the need for separate signal lines
it can.
[Brief description of the drawings]
FIG. 1 is a block circuit diagram showing a schematic configuration of a first embodiment in a hot water supply system according to the present invention.
FIG. 2 is a block circuit diagram showing a second embodiment of the hot water supply system.
FIG. 3 is a block circuit diagram showing an example of a power supply system and a communication system in a conventional hot water supply system.
[Explanation of symbols]
1 Water heater body
2 Remote control (terminal device)
3 Communication line
4 Commercial power supply
11 Water heater controller
12 Power supply section
13 Communication interface
21 Remote controller
22 Remote control circuit (load circuit)
23 Communication Interface

Claims (5)

A water heater main body having a power supply having an output voltage control means for stabilizing an output voltage to a predetermined voltage, connected to the water heater main body via a communication line, and supplying power from the water heater main body via the communication line A hot water supply system comprising a terminal device configured to receive
A hot water supply system, wherein the water heater main body is provided with output voltage setting means for changing an output voltage controlled by the output voltage control means based on information obtained from the terminal device via the communication line. . The terminal device is provided with device information output means for outputting information about the terminal device itself, and information output from the device information output means is provided to the output voltage setting means via the communication line. The hot water supply system according to claim 1, wherein: The terminal device is provided with voltage detection means for detecting an input voltage of a power supply input via the communication line, and information obtained by the voltage detection means is transmitted to the output voltage setting means via the communication line. The hot water supply system according to claim 1, provided. 4. The apparatus according to claim 1, wherein the output voltage setting means changes the predetermined voltage in the output voltage control means steplessly in accordance with information input through the communication line. Hot water supply system as described. 4. The apparatus according to claim 1, wherein the output voltage setting means changes the predetermined voltage in the output voltage control means in a stepwise manner in accordance with information input via the communication line. Hot water supply system as described.

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