CN108933481A - Detection circuit, control system, electrical equipment, control method and device - Google Patents

Abstract

This application involves detection circuit, control system, electrical equipment, control method and device, belong to technical field of electrical equipment.The application detection circuit includes: detection module, for detecting the signal of device output to be detected and being exported, can determine the received instruction of device to be detected according to the output of the detection module.The application can be applied to detect DRED, and when the detection circuit of the application is applied in electrical equipment, electrical equipment, which may be implemented, to detect DRED, obtain the received instruction of DRED.

Description

Detection circuit, control system, electrical equipment, control method and device

Technical field

The application belongs to technical field of electrical equipment, and in particular to detection circuit, control system, electrical equipment, controlling party Method and device.

Background technique

In life, people be unable to do without the use of electrical equipment, and electrical equipment can bring convenience to people's lives and comfortably.Than Such as, air-conditioning can provide comfortable Interior Temperature Environment to people.But a large amount of uses of electrical equipment, also brought to network load Immense pressure, for example when summer, since the common people of huge numbers of families are using various electrical equipments such as air-conditionings, often result in using total work Rate exceeds network load.

In countries such as some countries, such as Australia, New Zealand, government is sent out according to power grid power load situation to DRED Instruction is sent, DRED is Demand Response Electrical Device abbreviation, Chinese are as follows: command response device.Government's hair The instruction sent is to control the instruction of electrical equipment operation, and this requires electrical equipments to allow for detecting DRED, is obtained The received instruction of DRED, and then run according to instruction.

It is then desired to be improved to the electrical equipment for exporting these countries.

Summary of the invention

DRED can be detected to meet electrical equipment, obtain the requirement of the received instruction of DRED, the application mentions For detection circuit, control system, electrical equipment, control method and device.

In order to achieve the above object, the application adopts the following technical scheme that

In a first aspect,

This application provides a kind of detection circuits, comprising:

Detection module, for detecting the signal of device to be detected output and being exported, with can be according to the detection module Output determine the received instruction of device to be detected.

Further, the detection circuit further include:

Multiple first resistors are connect with the detection module.

Further, the detection circuit further include:

One end of multiple isolating devices, the secondary side output ends of multiple isolating devices and multiple first resistors is one by one It is correspondingly connected with.

Further, the isolating device includes:

Optocoupler, alternatively, variable connector.

Further, the detection circuit further include:

The primary side input terminal of multiple second resistances, one end of multiple second resistances and multiple isolating devices is one by one It is correspondingly connected with.

Further, the detection circuit further include:

One 3rd resistor, one 3rd resistor are attempted by the primary side both ends of the isolating device.

Further, the detection module only includes: a detection unit, can be exported according to one detection unit Different detected values determine the received instruction of device to be detected；Alternatively,

The detection module includes: multiple detection units, with detection unit any in the multiple detection unit output When detected value, the detection output mouth according to belonging to the detected value determines the received instruction of device to be detected.

Further, if the detection module only includes a detection unit；

Multiple first resistors are connect with one detection unit, and each resistance in multiple first resistors With different resistance values.

Further, if the detection module includes multiple detection units；

Multiple first resistors connect one to one with the multiple detection unit respectively.

Further, the detection unit includes:

One end of 4th resistance, the 4th resistance is connect with the other end of the first resistor, the 4th resistance Other end ground connection；

Detection output is connect with one end of the 4th resistance.

Further, the detection unit further include:

First capacitor is attempted by the both ends of the 4th resistance.

Further, the detected value of the detection module output is voltage value；And

If the detection module only has a detection unit, one detection unit can export different voltage Value, and different voltage values is located in different voltage ranges.

Further, the detection circuit further include:

Power supply is connect with the device to be detected, so that the device to be detected exports the power supply according to service aisle The electric signal of offer.

Further, the service aisle of the device to be detected is multiple, when the device to be detected receives instruction, institute State the corresponding service aisle output signal of instruction.

Further, the device to be detected is command response device.

Second aspect,

This application provides a kind of control systems, comprising:

Detection circuit as described in any one of the above embodiments, and

Controller is connect with the detection circuit, for determining the dress to be detected according to the output of the detection circuit Received instruction is set, and electrical equipment is controlled according to the described instruction determined and is worked into corresponding mode.

Further, if the detection circuit only has a detection unit, the controller is specifically used for: according to described The different detected values of one detection unit output determine the received instruction of device to be detected；

If the detection circuit includes multiple detection units, the controller is specifically used for: single in the multiple detection When any detection unit output detection value in member, determined according to detection output mouth belonging to the detected value described to be detected The received instruction of device.

The third aspect,

This application provides a kind of electrical equipments, comprising: control system as described above.

Further, the electrical equipment is air-conditioning.

Fourth aspect,

This application provides a kind of electrical equipment control method, the method is applied to electrical equipment as described above, The described method includes:

Detection output is obtained, the detection output, which is treated after detection device is detected, to be obtained；

The received instruction of device to be detected is determined according to detection output；

Electrical equipment is controlled according to the described instruction determined to work into corresponding mode.

Further, if the detection circuit only includes a detection unit；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

Different detected values, which is exported, according to one detection unit determines the received instruction of device to be detected.

Further, if the detection circuit includes multiple detection units；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

In the multiple detection unit when any detection unit input detected value, according to detection belonging to the detected value Output port determines the received instruction of device to be detected.

Further, the device to be detected has multiple service aisles, and is provided with relay in each service aisle Device；

The received instruction of the device to be detected has multiple, and synchronization only receives an instruction；

Each instruction forms one-to-one relationship with each service aisle, when the device to be detected receives instruction, Described instruction corresponds to the actuation of the relay in service aisle.

Further, the device to be detected be DRED, have the channel DRED1, the channel DRED2, the channel DRED3 and The channel DRED0；

The received instruction of DRED includes: DRED1 instruction, DRED2 instruction, DRED3 instruction or DRED0 instruction.

Further, the method specifically includes:

When the received instruction of the DRED is DRED1 instruction, the relay in the corresponding channel DRED1 of DRED1 instruction It being attracted, the controller determines that the received instruction of the DRED is that DRED1 is instructed according to the output of the detection circuit, according to The DRED1 instruction control electrical equipment determined enters the work of DRED1 mode；

When the received instruction of the DRED is DRED2 instruction, the relay in the corresponding channel DRED2 of DRED2 instruction It being attracted, the controller determines that the received instruction of the DRED is that DRED2 is instructed according to the output of the detection circuit, according to The DRED2 instruction control electrical equipment determined enters the work of DRED2 mode；

When the received instruction of the DRED is DRED3 instruction, the relay in the corresponding channel DRED3 of DRED3 instruction It being attracted, the controller determines that the received instruction of the DRED is that DRED3 is instructed according to the output of the detection circuit, according to The DRED3 instruction control electrical equipment determined enters the work of DRED3 mode；Alternatively,

When the received instruction of the DRED is DRED0 instruction, the relay in the corresponding channel DRED0 of DRED0 instruction It being attracted, the controller determines that the received instruction of the DRED is that DRED0 is instructed according to the output of the detection circuit, according to The DRED0 instruction control electrical equipment determined enters the work of DRED0 mode.

5th aspect,

This application provides a kind of electric appliance control devices, comprising:

Module is obtained, for obtaining detection output, the detection output, which is treated after detection device is detected, to be obtained；

Determining module, for determining the received instruction of device to be detected according to detection output；

Control module works for controlling electrical equipment according to the described instruction determined into corresponding mode.

The application use above technical scheme, at least have it is following the utility model has the advantages that

The application detection circuit detects the signal of device output to be detected by detection module and exports, with energy basis The output of detection module determines the received instruction of device to be detected, when the detection circuit of the application is applied in electrical equipment, Electrical equipment, which may be implemented, to detect DRED, obtain the received instruction of DRED.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The application can be limited.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of application for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the structural schematic diagram for the detection circuit that the application one embodiment provides；

Fig. 2 is the schematic diagram that DRED is communicated with electrical equipment；

Fig. 3 is the structural schematic diagram for the specific detection circuit that the application one embodiment provides；

Fig. 4 is the structural schematic diagram for the specific detection circuit that another embodiment of the application provides；

Fig. 5 is the structural schematic diagram for the control system that the application one embodiment provides；

Fig. 6 is the structural schematic diagram for the electrical equipment that the application one embodiment provides；

Fig. 7 is the flow diagram for the electrical equipment control method that the application one embodiment provides；

Fig. 8 is the structural schematic diagram for the electric appliance control device that the application one embodiment provides.

Specific embodiment

To keep the purposes, technical schemes and advantages of the application clearer, the technical solution of the application will be carried out below Detailed description.Obviously, described embodiments are only a part of embodiments of the present application, instead of all the embodiments.Base Embodiment in the application, those of ordinary skill in the art are obtained all without making creative work Other embodiment belongs to the range that the application is protected.

Fig. 1 is the structural schematic diagram for the detection circuit that the application one embodiment provides, as shown in Figure 1, the detection circuit 1 Include:

Detection module 11, for detecting the signal of device to be detected output and being exported, with can be according to the detection mould The output of block determines the received instruction of device to be detected.

Hereinafter, the application is described in detail the application using DRED as specific device to be detected.

In countries such as some countries, such as Australia, New Zealand, it can be strictly required that electrical equipment has and be carried out with DRED The ability of communication.As shown in Fig. 2, Fig. 2 is the schematic diagram that DRED is communicated with electrical equipment, there are four DRED tools and electrical equipment phase Service aisle even, each channel is each equipped with corresponding relay.DRED device controls corresponding relay after receiving signal Device is attracted, and synchronization can only have the actuation of the relay in a service aisle, and the relay in different channels, which is attracted, to be represented The different operating channel of DRED, thus the different operating channel of DRED corresponds to the received different instruction of DRED, different work is logical Road forms one-to-one relationship with corresponding instruction, such as:

DRED1 instruction, S1 relay are attracted, which indicates: load is shut down；

DRED2 instruction, S2 relay are attracted, which indicates: it is specified that the power consumption in complete machine 30min is less than or equal to 50% Power consumption；

DRED3 instruction, S3 relay are attracted, which indicates: it is specified that the power consumption in complete machine 30min is less than or equal to 75% Power consumption；

DRED0 instruction, S4 and S5 relay are attracted, which indicates: inverter and power grid disconnect.

When a channels operation, the relay in the channel is attracted, so that the electric signal that the channel out-put supply provides, Electrical equipment is required to electrical signal detection based on the received and goes out DRED service aisle, accordingly determines the received finger of DRED institute It enables, and then controls the operation of electrical equipment with this, to reach reduction network load, the purpose of energy saving.

Fig. 3 is the structural schematic diagram of specific detection circuit that the application one embodiment provides, Fig. 4 be the application another The structural schematic diagram for the specific detection circuit that embodiment provides.

In one embodiment, the service aisle of the device to be detected is multiple, is referred in the device reception to be detected When enabling, service aisle output signal corresponding to described instruction.As shown in Figure 3 and Figure 4, the service aisle of DRED is multiple, After DRED receives instruction, the relay in service aisle corresponding to described instruction is attracted, so that work corresponding to described instruction Multi-channel output signal.

As shown in Figure 3 and Figure 4, the effect of each device is listed below in Fig. 3 and detection circuit shown in Fig. 41:

Multiple first resistors (R11, R12, R13 and R14), connect with the detection module 11, use as divider resistance.

Multiple isolating devices (U1, U2, U3 and U4), the secondary side output end of multiple isolating devices and multiple described first One end of resistance connects one to one.It may include optocoupler, variable connector etc., using optocoupler as isolating device in Fig. 4.Isolation Device can form the protection to other devices, for example, if DRED output direct current signal level voltage it is higher, may to The component of electric equipment forms damage or interference, high level signal can be carried out isolation conversion by isolating device, export low electricity Ordinary mail number, to form the protection to other devices.

Multiple second resistances (R21, R22, R23 and R24), one end of multiple second resistances and multiple isolators The primary side input terminal of part connects one to one, and plays the role of current-limiting protection to the primary side input of isolating device.

One 3rd resistor (R31), uses as divider resistance, limits isolating device primary side by the partial pressure of 3rd resistor Conducting.For 3rd resistor, as shown in Figure 3 and Figure 4, some national requirements are attracted when S4 relay, and S5 relay is not inhaled When conjunction, corresponding channel does not work, i.e., optocoupler U4 cannot work.In a particular application, for example, in Fig. 3 and Fig. 4, DRED's R0 is 15K Ω resistance, and the type selecting value of resistance R24 and resistance R31 need to guarantee: when S5 is not attracted, 15K Ω resistance seals in electricity Road, R31 punishment pressure are necessarily less than the conduction voltage drop of optocoupler U4 primary side light emitting diode, and series current is less than LEDs ON Electric current；When S5 is attracted, 15K Ω resistance is short-circuited, and R31 punishment pressure has to be larger than the conducting pressure of optocoupler U4 primary side light emitting diode Drop, series current are greater than LEDs ON electric current.

It only include a detection unit 101 in the detection module 11 in Fig. 3；In Fig. 4, wrapped in the detection module 11 Include multiple detection units 101；The detection unit 101 includes:

4th resistance (being R40 in Fig. 3, be R41, R42, R43 and R44 in Fig. 4), one end of the 4th resistance with it is described The other end of first resistor connects, the other end ground connection of the 4th resistance.4th resistance is used as divider resistance.

Detection output (being OUT0 in Fig. 3, be OUT1, OUT2, OUT3 and OUT4 in Fig. 4), with the 4th resistance One end connection.Because the other end of the 4th resistance is grounded, pass through the exportable voltage-to-ground value of the detection output.

First capacitor (being C0, Figure 54 C1, C2, C3 and C4 in Fig. 3), is attempted by the both ends of the 4th resistance, described First capacitor plays the role of filtering protection.

As shown in figure 3, only include a detection unit 101 in the detection module 11, the multiple first resistors (R11, R12, R13 and R14) it is connect respectively with one detection unit 101.The effect of one detection unit 101 is can basis The different detected values of one detection unit output determine the received instruction of device to be detected.

In order to realize above-mentioned effect, each resistance in multiple first resistors (R11, R12, R13 and R14) is needed to have There is different resistance values, because can only to have a first resistor to obtain electric for synchronization, when the different first resistors obtains electric, so that The detection output can export different voltage values.

In specific implementation, if the voltage value difference of output is smaller, when being transferred to controller processing, it may cause control The DRED service aisle that device is separated according to voltage region is likely to occur mistake.In order to solve this problem, in one embodiment, such as Detection module described in fruit only has a detection unit, and one detection unit can export different voltage values, and different Voltage value is located in different voltage ranges.

It is understood that different voltage values is located in different voltage ranges, can make to differ greatly between voltage value, into And it can be improved the accuracy of identification different voltages, namely improve the accuracy for identifying DRED service aisle.In order to realize not Same voltage value is located in different voltage ranges, biggish difference is required between different voltages value, this requires multiple Resistance value between the first resistor (R11, R12, R13 and R14) needs certain difference.

In a concrete application scene, by taking the practical application of the detection circuit of Fig. 3 as an example.

It is described in the command response device when the received instruction of the command response device is DRED1 instruction The relay S1 in the corresponding channel DRED1 of DRED1 instruction is attracted, so that the DRED1 channels operation, the detection circuit inspection The channel DRED1 of work is surveyed, the detection output OUT0 exports the first voltage-to-ground value, can be according to this first over the ground Voltage value determines the channel DRED1 of the device to be detected；

It is described in the command response device when the received instruction of the command response device is DRED2 instruction The relay S2 in the corresponding channel DRED2 of DRED2 instruction is attracted, so that the DRED2 channels operation, the detection circuit inspection The channel DRED2 of work is surveyed, the detection output OUT0 exports the second voltage-to-ground value, can be according to this second over the ground Voltage value determines the channel DRED2 of the device to be detected；

It is described in the command response device when the received instruction of the command response device is DRED3 instruction The relay S3 in the corresponding channel DRED3 of DRED3 instruction is attracted, so that the DRED3 channels operation, the detection circuit inspection The channel DRED3 of work is surveyed, the detection output OUT0 exports third voltage-to-ground value, can be according to the third over the ground Voltage value determines the channel DRED3 of the device to be detected；

It is described in the command response device when the received instruction of the command response device is DRED0 instruction The relay S4 and S5 in the corresponding channel DRED0 of DRED0 instruction are attracted, so that the DRED0 channels operation, the detection electricity The channel DRED0 of work is detected on road, and the detection output OUT0 exports the 4th voltage-to-ground value, can be according to the 4th Voltage-to-ground value determines the channel DRED0 of the device to be detected.

As shown in figure 4, include multiple detection units 101 in the detection module 11, the multiple first resistors (R11, R12, R13 and R14) it corresponds connect with the multiple detection unit 101 respectively.It is any in the multiple detection unit When the detection unit output detection value, it can determine that the device to be detected is received according to the detection output mouth belonging to detected value Instruction.

It is understood that the example scheme is to determine that device to be detected is received according to the difference of detection output mouth Instruction.

In another concrete application scene, by taking the practical application of the detection circuit of Fig. 4 as an example.

It is described in the command response device when the received instruction of the command response device is DRED1 instruction The relay S1 in the corresponding channel DRED1 of DRED1 instruction is attracted, so that the DRED1 channels operation, the detection circuit inspection The channel DRED1 of work is surveyed, the detection output OUT1 output voltage values can be defeated according to the detection of output voltage values Outlet OUT71 determines the channel DRED1 of the device to be detected；

It is described in the command response device when the received instruction of the command response device is DRED2 instruction The relay S2 in the corresponding channel DRED2 of DRED2 instruction is attracted, so that the DRED2 channels operation, the detection output OUT72 output voltage values can determine the DRED2 of the device to be detected according to the detection output OUT2 of output voltage values Channel；

It is described in the command response device when the received instruction of the command response device is DRED3 instruction The relay S3 in the corresponding channel DRED3 of DRED3 instruction is attracted, so that the DRED3 channels operation, the detection output OUT3 output voltage values can determine the DRED3 of the device to be detected according to the detection output OUT73 of output voltage values Channel；

It is described in the command response device when the received instruction of the command response device is DRED0 instruction The relay S4 and S5 in the corresponding channel DRED0 of DRED0 instruction are attracted, so that the DRED0 channels operation, the detection electricity The channel DRED0 of work is detected on road, and the detection output OUT74 output voltage values can be according to output voltage values Detection output OUT4 determines the channel DRED0 of the device to be detected.

As shown in Figure 3 and Figure 4, the circuit further include:

Power supply 12 is connect with the device to be detected, so that the device to be detected exports the electricity according to service aisle The electric signal that source 12 provides.

Fig. 5 is the structural schematic diagram for the control system that the application one embodiment provides, as shown in figure 5, the control system 10 include:

Detection circuit 1 as described in any one of the above embodiments, and

Controller 2 is connect with the detection circuit 1, described to be detected for being determined according to the output of the detection circuit 1 The received instruction of device, and electrical equipment is controlled according to the described instruction determined and is worked into corresponding mode.

Further,

If the detection circuit 1 only has a detection unit, the controller is specifically used for: according to one detection The different detected values of unit output determine the received instruction of device to be detected；

If the detection circuit 1 includes multiple detection units, the controller is specifically used for: single in the multiple detection When any detection unit output detection value in member, the detection output mouth according to belonging to detected value determines described to be detected The received instruction of device.

About the control system, specific implementation is described in detail in above-mentioned related embodiment, this Explanation will be not set forth in detail in place.

Fig. 6 is the structural schematic diagram for the electrical equipment that the application one embodiment provides, as shown in fig. 6, the electrical equipment 100 include:

Control system 10 as described in any one of the above embodiments.

Further, the electrical equipment 100 is air-conditioning.

About the electrical equipment 100, specific implementation is described in detail in above-mentioned related embodiment, No detailed explanation will be given here.

Fig. 7 is the flow diagram for the electrical equipment control method that the application one embodiment provides, as shown in fig. 7, institute Method is stated applied to electrical equipment described above, which includes the following steps:

Step S701, detection output is obtained, the detection output, which is treated after detection device is detected, to be obtained；

Step S702, the received instruction of device to be detected is determined according to detection output；

Step S703, electrical equipment is controlled according to the described instruction determined to work into corresponding mode.

Further, if the detection circuit only includes a detection unit；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

Different detected values, which is exported, according to one detection unit determines the received instruction of device to be detected.

Further, if the detection circuit includes multiple detection units；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

In the multiple detection unit when any detection unit input detected value, according to detection belonging to the detected value Output port determines the received instruction of device to be detected.

Further, the device to be detected has multiple service aisles, and is provided with relay in each service aisle Device；

The received instruction of the device to be detected has multiple, and synchronization only receives an instruction；

Each instruction forms one-to-one relationship with each service aisle, when the device to be detected receives instruction, Described instruction corresponds to the actuation of the relay in service aisle.

Further, the device to be detected be DRED, have the channel DRED1, the channel DRED2, the channel DRED3 and The channel DRED0；

The received instruction of DRED includes: DRED1 instruction, DRED2 instruction, DRED3 instruction or DRED0 instruction.

Further, the method specifically includes:

When the received instruction of the DRED is DRED1 instruction, in the DRED, the corresponding DRED1 of DRED1 instruction is logical The relay in road is attracted, so that DRED1 channels operation, the channel DRED1 of the detection circuit detection work is simultaneously exported, institute It states controller and determines that the received instruction of the DRED is that DRED1 is instructed according to the output of the detection circuit, according to determining DRED1 instruction control electrical equipment enter DRED1 mode work；

When the received instruction of the DRED is DRED2 instruction, in the DRED, the corresponding DRED2 of DRED2 instruction is logical The relay in road is attracted, so that DRED2 channels operation, the channel DRED2 of the detection circuit detection work is simultaneously exported, institute It states controller and determines that the received instruction of the DRED is that DRED2 is instructed according to the output of the detection circuit, according to determining DRED2 instruction control electrical equipment enter DRED2 mode work；

When the received instruction of the DRED is DRED3 instruction, in the DRED, the corresponding DRED3 of DRED3 instruction is logical The relay in road is attracted, so that DRED3 channels operation, the channel DRED3 of the detection circuit detection work is simultaneously exported, institute It states controller and determines that the received instruction of the DRED is that DRED3 is instructed according to the output of the detection circuit, according to determining DRED3 instruction control electrical equipment enter DRED3 mode work；Alternatively,

When the received instruction of the DRED is DRED0 instruction, in the DRED, the corresponding DRED0 of DRED0 instruction is logical The relay in road is attracted, so that DRED0 channels operation, the channel DRED0 of the detection circuit detection work is simultaneously exported, institute It states controller and determines that the received instruction of the DRED is that DRED0 is instructed according to the output of the detection circuit, according to determining DRED0 instruction control electrical equipment enter DRED0 mode work.

About above-mentioned electrical equipment control method, specific implementation has been carried out in above-mentioned related embodiment in detail Thin description, no detailed explanation will be given here.

Fig. 8 is the structural schematic diagram for the electric appliance control device that the application one embodiment provides, as shown in figure 8, should Electric appliance control device 8 includes:

Module 81 is obtained, for obtaining detection output, the detection output is to treat after detection device is detected to obtain 's；

Determining module 82, for determining the received instruction of device to be detected according to detection output；

Control module 83 works for controlling electrical equipment according to the described instruction determined into corresponding mode.

About the electric appliance control device, specific implementation has been carried out in above-mentioned related embodiment in detail Description, no detailed explanation will be given here.

It should be pointed out that device to be detected described herein is not limited to DRED, can also can pass through for other The attracting state of each relay indicates the devices of various service aisles.

It is understood that same or similar part can mutually refer in the various embodiments described above, in some embodiments Unspecified content may refer to the same or similar content in other embodiments.

It should be noted that term " first ", " second " etc. are used for description purposes only in the description of the present application, without It can be interpreted as indication or suggestion relative importance.In addition, in the description of the present application, unless otherwise indicated, the meaning of " multiple " Refer at least two.

Any process described otherwise above or method description are construed as in flow chart or herein, and expression includes It is one or more for realizing specific logical function or process the step of executable instruction code module, segment or portion Point, and the range of the preferred embodiment of the application includes other realization, wherein can not press shown or discussed suitable Sequence, including according to related function by it is basic simultaneously in the way of or in the opposite order, to execute function, this should be by the application Embodiment person of ordinary skill in the field understood.

It should be appreciated that each section of the application can be realized with hardware, software, firmware or their combination.Above-mentioned In embodiment, software that multiple steps or method can be executed in memory and by suitable instruction execution system with storage Or firmware is realized.It, and in another embodiment, can be under well known in the art for example, if realized with hardware Any one of column technology or their combination are realized: having a logic gates for realizing logic function to data-signal Discrete logic, with suitable combinational logic gate circuit specific integrated circuit, programmable gate array (PGA), scene Programmable gate array (FPGA) etc..

Those skilled in the art are understood that realize all or part of step that above-described embodiment method carries It suddenly is that relevant hardware can be instructed to complete by program, the program can store in a kind of computer-readable storage medium In matter, which when being executed, includes the steps that one or a combination set of embodiment of the method.

It, can also be in addition, can integrate in a processing module in each functional unit in each embodiment of the application It is that each unit physically exists alone, can also be integrated in two or more units in a module.Above-mentioned integrated mould Block both can take the form of hardware realization, can also be realized in the form of software function module.The integrated module is such as Fruit is realized and when sold or used as an independent product in the form of software function module, also can store in a computer In read/write memory medium.

Storage medium mentioned above can be read-only memory, disk or CD etc..

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the application.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

Although embodiments herein has been shown and described above, it is to be understood that above-described embodiment is example Property, it should not be understood as the limitation to the application, those skilled in the art within the scope of application can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (26)

1. a kind of detection circuit characterized by comprising

Detection module, for detecting the signal of device to be detected output and being exported, with can be according to the defeated of the detection module The received instruction of device to be detected is determined out.

2. circuit according to claim 1, which is characterized in that the detection circuit further include:

Multiple first resistors are connect with the detection module.

3. circuit according to claim 2, which is characterized in that the detection circuit further include:

Multiple isolating devices, the secondary side output end of multiple isolating devices and one end of multiple first resistors correspond Connection.

4. circuit according to claim 3, which is characterized in that the isolating device includes:

Optocoupler, alternatively, variable connector.

5. circuit according to claim 3, which is characterized in that the detection circuit further include:

The primary side input terminal of multiple second resistances, one end of multiple second resistances and multiple isolating devices corresponds Connection.

6. circuit according to claim 3, which is characterized in that the detection circuit further include:

One 3rd resistor, one 3rd resistor are attempted by the primary side both ends of the isolating device.

7. circuit according to claim 2, which is characterized in that

The detection module only includes: a detection unit, with the different detected values that can be exported according to one detection unit Determine the received instruction of device to be detected；Alternatively,

The detection module includes: multiple detection units, is exported and is detected with detection unit any in the multiple detection unit When value, the detection output mouth according to belonging to the detected value determines the received instruction of device to be detected.

8. circuit according to claim 7, which is characterized in that if the detection module only includes a detection unit；

Multiple first resistors are connect with one detection unit, and each resistance in multiple first resistors has Different resistance values.

9. circuit according to claim 7, which is characterized in that if the detection module includes multiple detection units；

Multiple first resistors connect one to one with the multiple detection unit respectively.

10. circuit according to claim 7, which is characterized in that the detection unit includes:

One end of 4th resistance, the 4th resistance is connect with the other end of the first resistor, the 4th resistance it is another End ground connection；

Detection output is connect with one end of the 4th resistance.

11. circuit according to claim 10, which is characterized in that the detection unit further include:

First capacitor is attempted by the both ends of the 4th resistance.

12. circuit according to claim 7, which is characterized in that

The detected value of the detection module output is voltage value；And

If the detection module only has a detection unit, one detection unit can export different voltage values, and Different voltage values is located in different voltage ranges.

13. circuit according to claim 1, which is characterized in that the detection circuit further include:

Power supply is connect with the device to be detected, so that the device to be detected exports the power supply and provide according to service aisle Electric signal.

14. circuit according to claim 1, which is characterized in that the service aisle of the device to be detected be it is multiple, in institute When stating device reception instruction to be detected, service aisle output signal corresponding to described instruction.

15. -14 described in any item circuits according to claim 1, which is characterized in that the device to be detected is command response dress It sets.

16. a kind of control system characterized by comprising

Such as the described in any item detection circuits of claim 1-15, and

Controller is connect with the detection circuit, for determining that the device to be detected connects according to the output of the detection circuit The instruction of receipts, and electrical equipment is controlled according to the described instruction determined and is worked into corresponding mode.

17. 6 control system according to claim 1, which is characterized in that

If the detection circuit only has a detection unit, the controller is specifically used for: according to one detection unit The different detected values of output determine the received instruction of device to be detected；

If the detection circuit includes multiple detection units, the controller is specifically used for: in the multiple detection unit Any detection unit output detection value when, the device to be detected is determined according to detection output mouth belonging to the detected value Received instruction.

18. a kind of electrical equipment characterized by comprising the control system as described in claim 16 or 17.

19. electrical equipment according to claim 18, which is characterized in that the electrical equipment is air-conditioning.

20. a kind of electrical equipment control method, which is characterized in that the method is applied to electric appliance as claimed in claim 18 and sets It is standby, which comprises

Detection output is obtained, the detection output, which is treated after detection device is detected, to be obtained；

The received instruction of device to be detected is determined according to detection output；

Electrical equipment is controlled according to the described instruction determined to work into corresponding mode.

21. according to the method for claim 20, which is characterized in that

If the detection circuit only includes a detection unit；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

Different detected values, which is exported, according to one detection unit determines the received instruction of device to be detected.

22. according to the method for claim 20, which is characterized in that

If the detection circuit includes multiple detection units；

It is described that the received instruction of device to be detected is determined according to detection output, comprising:

In the multiple detection unit when any detection unit input detected value, exported according to detection belonging to the detected value Port determines the received instruction of device to be detected.

23. according to the described in any item methods of claim 20-22, which is characterized in that

The device to be detected has multiple service aisles, and is provided with relay in each service aisle；

The received instruction of the device to be detected has multiple, and synchronization only receives an instruction；

Each instruction forms one-to-one relationship with each service aisle, described when the device to be detected receives instruction The relay in corresponding service aisle is instructed to be attracted.

24. according to the method for claim 23, which is characterized in that

The device to be detected is DRED, has the channel DRED1, the channel DRED2, the channel DRED3 and the channel DRED0；

The received instruction of DRED includes: DRED1 instruction, DRED2 instruction, DRED3 instruction or DRED0 instruction.

25. according to the method for claim 24, which is characterized in that the method specifically includes:

When the received instruction of the DRED is DRED1 instruction, the relay in the corresponding channel DRED1 of DRED1 instruction is attracted, The controller determines that the received instruction of the DRED is that DRED1 is instructed according to the output of the detection circuit, according to determination DRED1 instruction control electrical equipment out enters the work of DRED1 mode；

When the received instruction of the DRED is DRED2 instruction, the relay in the corresponding channel DRED2 of DRED2 instruction is attracted, The controller determines that the received instruction of the DRED is that DRED2 is instructed according to the output of the detection circuit, according to determination DRED2 instruction control electrical equipment out enters the work of DRED2 mode；

When the received instruction of the DRED is DRED3 instruction, the relay in the corresponding channel DRED3 of DRED3 instruction is attracted, The controller determines that the received instruction of the DRED is that DRED3 is instructed according to the output of the detection circuit, according to determination DRED3 instruction control electrical equipment out enters the work of DRED3 mode；Alternatively,

When the received instruction of the DRED is DRED0 instruction, the relay in the corresponding channel DRED0 of DRED0 instruction is attracted, The controller determines that the received instruction of the DRED is that DRED0 is instructed according to the output of the detection circuit, according to determination DRED0 instruction control electrical equipment out enters the work of DRED0 mode.

26. a kind of electric appliance control device characterized by comprising

Module is obtained, for obtaining detection output, the detection output, which is treated after detection device is detected, to be obtained；

Determining module, for determining the received instruction of device to be detected according to detection output；

Control module works for controlling electrical equipment according to the described instruction determined into corresponding mode.