CN109525450A - Monitoring device, monitoring system and monitoring method - Google Patents

Abstract

The present invention provides a kind of monitoring device, monitoring system and monitoring method.Monitoring system includes monitoring device and far end device.Monitoring device includes power supply circuit, at least one switching circuit, power measurement module and processing module.Power supply circuit generates at least one output power.At least one output power is transmitted at least one electronic device by least one switching circuit.Power measurement module measures at least one output power to obtain the power information of at least one electronic device.The operating state that processing module power information is compared with reference information to judge at least one electronic device.Either, the power information of at least one electronic device is sent to far end device by processing module.The operating state that far end device power information is compared with reference information to judge at least one electronic device.

Description

Monitoring device, monitoring system and monitoring method

Technical field

The present invention relates to a kind of monitoring technology more particularly to a kind of monitoring devices to monitor electronic device, monitoring system System and monitoring method.

Background technique

With the evolution and innovation of science and technology, the electrical equipment for capableing of connected network is no longer limited to desktop computer, notebook Computer or smart phone, but expect that all types of electrical equipments can all network, to manage at any time.For example, exist In the development of intelligent city, street lamp, traffic sign and other electrical equipments of open air (such as outdoor video camera) can all network. However, those networking electrical equipments usually have when machine and can not normal operation the case where generation.Moreover, the multiple electric appliance The area that equipment is installed may be very remote at a distance from the management unit of the multiple electrical equipment, therefore, to institute Multiple electrical equipments are stated to test and repair, it is not only time-consuming, considerable manpower but will be expended.

Summary of the invention

In view of this, the present invention provides a kind of monitoring device to monitor electronic device, monitoring system and monitoring method, Can be judged by the power information of detection electronic installation its whether normal operation, and can lead in the abnormal running of electronic device Communication mode is crossed to reset to electronic device, electronic device can be not only promoted in the efficiency examined and repaired, can also reduce Electronic device is in the upper required human cost of maintenance.

Monitoring system of the invention is to monitor at least one electronic device.Monitoring system includes far end device and monitoring dress It sets.Monitoring device of the invention includes power supply circuit, at least one switching circuit, power measurement module and processing mould Block.Power supply circuit is to receive input electric power and generate at least one output power accordingly.This at least one switching circuit Power supply circuit is coupled, at least one above-mentioned output power is transmitted at least one above-mentioned electronic device.Electric power is surveyed Module couples power supply circuit and at least one above-mentioned switching circuit are measured, to measure above-mentioned input electric power and above-mentioned at least one A output power one at least within, to obtain the power information of at least one above-mentioned electronic device.Processing module coupling is above-mentioned At least one switching circuit is to control the opening and closing of at least one above-mentioned switching circuit, and it is above-mentioned to receive to couple power measurement module The power information of at least one electronic device.Above-mentioned power information is compared processing module with reference information, in judgement State the operating state of at least one electronic device.Either, processing module is by the power information of at least one above-mentioned electronic device Be sent to far end device, and above-mentioned power information is compared far end device with reference information, with judge it is above-mentioned at least one The operating state of electronic device.

In one embodiment of this invention, when the difference between above-mentioned power information and reference information is greater than critical value When, processing module judges the operating state of this at least one electronic device for exception and transmits exception information to far end device, and Far end device decides whether to reset this at least one electronic device according to this exception information.

In one embodiment of this invention, if far end device decision resets this at least one electronic device, far End device transmits reset information to processing module, and processing module turned off according to this reset information and be connected again it is above-mentioned at least One switching circuit, to reset at least one above-mentioned electronic device.

In one embodiment of this invention, when the difference between above-mentioned power information and reference information is greater than critical value When, far end device decides whether to reset at least one above-mentioned electronic device.If far end device determines at least one above-mentioned electricity of resetting Sub-device, then far end device transmits reset information to processing module, and processing module turns off and again according to this reset information At least one above-mentioned switching circuit is connected, to reset at least one above-mentioned electronic device.

In one embodiment of this invention, monitoring device further includes communication module and timing circuit.At communication module coupling Module is managed, to as the communication interface between processing module and far end device.Timing circuit couples processing module, to timing To generate clocking value, and Restart Signal is generated when clocking value is equal to first time length, restarted so that processing module reacts on Signal and reset monitoring device and at least one above-mentioned electronic device.

Monitoring method of the invention includes the following steps.At least one is generated according to input electric power by power supply circuit Output power.This at least one output power is transmitted at least one electronic device by least one switching circuit.Pass through Power measurement module measures this input electric power and this at least one output power one at least within, to obtain this at least one electricity The power information of sub-device.Power information is compared with reference information by processing module, to judge this at least one electricity The operating state of sub-device.Either, the power information of this at least one electronic device is sent to by distal end by processing module Device, and this power information is compared with reference information by far end device, to judge this at least one electronic device Operating state.

The electricity consumption of detection electronic installation can be passed through based on above-mentioned, of the invention monitoring device, monitoring system and monitoring method Information judges whether it is normal operation, and can in the abnormal running of electronic device by communication mode come to electronic device It is reset.In addition to this, the timing circuit in monitoring device can in the processing module or communication module exception of monitoring device, As resetting (or restarting) monitoring device and the backup device of electronic device.Therefore, the prison that the embodiment of the present invention is proposed Control device, monitoring system and monitoring method can not only promote electronic device in the efficiency for detecting and repairing, and can also reduce electronics dress It sets in the upper required human cost of maintenance.

To make the foregoing features and advantages of the present invention clearer and more comprehensible, special embodiment below, and it is detailed to cooperate attached drawing to make Carefully it is described as follows.

Detailed description of the invention

Fig. 1 is the block schematic diagram of monitoring system shown by an embodiment according to the present invention.

Fig. 2 is the block schematic diagram of monitoring device shown by an embodiment according to the present invention.

Fig. 3 is the block schematic diagram of monitoring device shown by another embodiment according to the present invention.

Fig. 4 is the step flow chart of monitoring method shown by an embodiment according to the present invention.

Fig. 5 is the detailed steps of the step S440 of Fig. 4 shown by an embodiment according to the present invention with its subsequent step Flow chart.

Fig. 6 is the detailed steps of the step S440 of Fig. 4 shown by another embodiment according to the present invention with its subsequent step Flow chart.

Fig. 7 is the detailed steps and its subsequent step of the step S440 of Fig. 4 shown by another embodiment according to the present invention Flow chart.

Description of symbols

100: monitoring system

120,120 ': monitoring device

121: power supply circuit

122_1,122_2: switching circuit

123: power measurement module

124: processing module

125: communication module

326: timing circuit

140: far end device

910,920: electronic device

IFO1, IFO2: power information

IFR1, IFR2: reference information

PI: input electric power

PO1, PO2: output power

S410、S420、S430、S440、S541、S542、S543、S550、S560、S570、S580、S641、S642、 S643, S644, S650, S660, S741, S742, S743, S750, S760: step

SRB: Restart Signal

SZO: rz signal

TL1: first time length

TL2: the second time span

Specific embodiment

It please merge below referring to FIG. 1 and FIG. 2, Fig. 1 is the square of monitoring system shown by an embodiment according to the present invention Schematic diagram, and Fig. 2 is the block schematic diagram of monitoring device shown by an embodiment according to the present invention.Monitoring system 100 can be used To monitor at least one electronic device.But for ease of description and schema for purpose of brevity, below will with two electronic devices 910, 920 be exemplary embodiment to be illustrated.It then can be according to the following instructions as the embodiment of the electronic device of other quantity And the rest may be inferred.As shown in Figure 1, monitoring system 100 may include monitoring device 120 and far end device 140, wherein far end device 140 can be for example servomechanism, but the present invention is not limited thereto.Monitoring device 120 may include power supply circuit 121, switch Circuit 122_1,122_2, power measurement module 123, processing module 124 and communication module 125, but the present invention not as Limit.

Power supply circuit 121 generates output power PO1, PO2 to receive input electric power PI accordingly.In the present invention An embodiment in, power supply circuit 121 can be for example AC to DC conversion circuit, to will exchange pattern input electricity Power PI is converted to output power PO1, PO2 of direct current pattern, but the present invention is not limited thereto.In other embodiments of the invention In, power supply circuit 121 also can be for example dc-dc conversion circuit, and end is depending on practical application or design requirement.

Switching circuit 122_1 and 122_2 couple power supply circuit 121.Switching circuit 122_1 is to by output power PO1 is transmitted to electronic device 910, and switching circuit 122_2 is to be transmitted to electronic device 920 for output power PO2.In this hair In a bright embodiment, switching circuit 122_1 and 122_2 be can be for example using relay (relay) Lai Shixian, but the present invention is simultaneously It is not limited.

Power measurement module 123 couples power supply circuit 121 and switching circuit 122_1,122_2.Power measurement module The power (or voltage and current) of 123 measurable input electric power PI and output power PO1 one at least within, to obtain electronics dress It sets 910 power information IFO1, and can measure power (or the voltage of input electric power PI and output power PO2 one at least within And electric current) to obtain the power information IFO2 of electronic device 920.In one embodiment of this invention, power measurement module 123 can Using ammeter (meter) Lai Shixian, but the present invention is not limited thereto.

Communication module 125 couples processing module 124, to as the communication between processing module 124 and far end device 140 Interface.In one embodiment of this invention, communication module 125 can also be integrated in processing module 124.In an implementation of the invention In example, communication module 125 can be for example including wireless communication module, wire communication module or wireless communication module and wire communication Module has both.Wireless communication module is, for example, bluetooth (blue-tooth) module, low power consumption bluetooth (BLE) module, Wireless Fidelity (Wi-Fi) module, global system for mobile communications (global system for mobile communication, GSM) module, Demal multiplexing accesses (code division multiple access, CDMA) module, the access of wide band code division multiplexing (wideband CDMA, WCDMA) module, CDMA-2000 module, time division multiplexing access (time division multiple Access, TDMA) module, Worldwide Interoperability for Microwave intercommunication (worldwide interoperability for microwave Access, WiMAX) module, long term evolution (long term evolution, LTE) module, radio area network (wireless Local area network, WLAN) module, ultra-wideband (ultra wideband, UWB) module or aforementioned modules combination, However, the present invention is not limited thereto.And wire communication module is, for example, Local Area Network (LAN) interface module, however, the present invention is not limited thereto.

Processing module 124 couples switching circuit 122_1,122_2 opening with control switch circuit 122_1,122_2 respectively It closes, and couples power measurement module 123 to receive power information IFO1, IFO2.In one embodiment of this invention, processing module 124 can be hardware, firmware is stored in memory and by microprocessor (Microprocessor) or digital signal Manage the procedure code that device (Digital Signal Processor, DSP) loaded software executed or machine can be performed.If adopting It is realized with hardware, then processing module 124 can be is reached by single integrated circuit chip, can also be by multiple circuit chips It is completed, but the present invention is not limited thereto.Specific function can be used in above-mentioned multiple circuit chips or single integrated circuit chip Integrated circuit (Application Specific Integrated Circuit, ASIC), can program logic device (Programmable Logic Device, PLD) or programmable logic gate array (Field Programmable Gate Array, FPGA) Lai Shixian.And above-mentioned memory can be such as random access memory, read-only memory or flash memory storage Device etc..

In one embodiment of this invention, far end device 140 collects electronic device 910 (920) in a specific time area Interior power information IFO1 (IFO2), and big data point is carried out to the power information IFO1 (IFO2) in this specific time section Analysis (big data analysis) is to obtain the reference information IFR1 (IFR2) of electronic device 910 (920), but the present invention is unlimited In this.In another embodiment of the invention, the reference information IFR1 (IFR2) of electronic device 910 (920) can be for example by making The preset reference power value of user, reference voltage value or reference current value.

In one embodiment of this invention, processing module 124 can be by the power information IFO1 of electronic device 910 and with reference to letter The operating state to judge electronic device 910 is compared in breath IFR1, and by the power information IFO2 of electronic device 920 and joins It examines information IFR2 and operating state to judge electronic device 920 is compared.When power information IFO1 and reference information IFR1 it Between difference when being greater than a critical value, processing module 124 can determine whether that the operating state of electronic device 910 is exception and to pass through communication Module 125 transmits exception information to far end device 140, and far end device 140 can decide whether according to this exception information to electricity Sub-device 910 is reset.If the decision of far end device 140 resets electronic device 910, far end device 140 is transmittable Reset information is to processing module 124, and processing module 124 can turn off according to this reset information and switching circuit is connected again 122_1, to reset electronic device 910.Similarly, face when the difference between power information IFO2 and reference information IFR2 is greater than one When dividing value, processing module 124 can determine whether that the operating state of electronic device 920 transmits exception for exception and by communication module 125 Information is to far end device 140, and far end device 140 can decide whether to carry out electronic device 920 weight according to this exception information It sets.If the decision of far end device 140 resets electronic device 920, far end device 140 can transmit reset information to handling mould Block 124, and processing module 124 can be turned off according to this reset information and switching circuit 122_2 is connected again, to reset electronics dress Set 920.

In another embodiment of the invention, processing module 124 can also be by the power information of electronic device 910,920 IFO1, IFO2 (passing through communication module 125) are sent to far end device 140.Again by far end device 140 come to power information IFO1 with The operating state to judge electronic device 910 is compared in reference information IFR1, and to power information IFO2 and reference information The operating state to judge electronic device 920 is compared in IFR2.As the power information IFO1 and reference information of electronic device 910 When difference between IFR1 is greater than a critical value, far end device 140 can determine whether electronic device 910 exception and decides whether weight Set electronic device 910.If far end device 140 judges that electronic device 910 is really abnormal and determines resetting electronic device 910, far End device 140 can transmit reset information to processing module 124, and processing module 124 can turn off and lay equal stress on according to this reset information New conducting switching circuit 122_1, to reset electronic device 910.Similarly, as the power information IFO2 of electronic device 920 and ginseng When examining difference between information IFR2 and being greater than a critical value, far end device 140 can determine whether electronic device 920 exception and determines Whether electronic device 920 is reset.If far end device 140 judges that electronic device 920 is really abnormal and determines resetting electronic device 920, then far end device 140 can transmit reset information to processing module 124, and processing module 124 can according to this reset information and It turns off and switching circuit 122_2 is connected again, to reset electronic device 920.

In one embodiment of this invention, processing module 124 can have memory (not shown), this memory can be used to store up Deposit the power information IFO1 and reference information IFR1 of electronic device 910 and the power information IFO2 of electronic device 920 and reference Information IFR2, but not limited to this.

It please merge below referring to Fig.1 and Fig. 3, and Fig. 3 is monitoring device shown by another embodiment according to the present invention Block schematic diagram.Monitoring device 120 ' may include power supply circuit 121, switching circuit 122_1,122_2, power measurement module 123, processing module 124, communication module 125 and timing circuit 326, but the present invention is not limited thereto.The power supply of Fig. 3 is supplied The implementation of circuit 121, switching circuit 122_1,122_2, power measurement module 123, processing module 124 and communication module 125 Mode and running be analogous respectively to the power supply circuit 121 of Fig. 2, switching circuit 122_1,122_2, power measurement module 123, Processing module 124 and communication module 125, therefore the related description of above-mentioned Fig. 2 can be considered in light of actual conditions, details are not described herein.

Timing circuit 326 couples processing module 124.Timing circuit 326 can be different in processing module 124 or communication module 125 Chang Shi, as resetting (or restarting) monitoring device 120 ' and the backup device of electronic device 910,920.Specifically, it counts When 326 Timing of circuit to generate clocking value.Timing circuit 326 can be generated when this clocking value is equal to first time length TL1 Restart Signal SRB is to processing module 124, so that processing module 124 can react on Restart Signal SRB and reset monitoring device 120 ' And electronic device 910,920.

In one embodiment of this invention, processing module 124 can start timing circuit 326 in a preset time point so that meter When circuit 326 start timing, and processing module 124 can after start timing circuit 326 by communication module 125 transmit start Timing signal is to far end device 140.Far end device 140 can start timing signal for this and send a back-signalling.If handling mould Block 124 receives this back-signalling from far end device 140 by communication module 125, indicates that communication module 125 is normal fortune Make, therefore forbidden energy timing circuit 326 is generated Restart Signal SRB to avoid timing circuit 326 by processing module 124.Relatively, when When communication module 125 is abnormal, processing module 124, which will be unable to transmit by communication module 125, starts timing signal to far end device 140, or this can not being received since far end device 140 by communication module 125 timing signal back-signalling, Gu Chu Manage module 124 will not forbidden energy timing circuit 326, and timing circuit 326 will continue timing.Once the clocking value of timing circuit 326 When equal to first time length TL1, timing circuit 326 will generate Restart Signal SRB to processing module 124, so that processing module 124 react on Restart Signal SRB and reset monitoring device 120 ' and electronic device 910,920.

In another embodiment of the invention, in the case where processing module 124 is normal operation, processing module 124 can Rz signal SZO is exported to timing circuit 326 every the second time span TL2, and the clocking value of timing circuit 326 is zeroed, Wherein the second above-mentioned time span TL2 is less than first time length TL1.In this way, work as 124 exception Shi Erwu of processing module When method generates rz signal SZO, timing circuit 326 will continue timing.When the clocking value of timing circuit 326 is equal to first Between length TL1 when, timing circuit 326 by generate Restart Signal SRB monitoring device 120 ' and electronics are reset to processing module 124 Device 910,920.

In another embodiment of the present invention, far end device 140 can send zero information every the second time span TL2. In the case where processing module 124 and communication module 125 are normal operation, processing module 124 can be received by communication module 125 Rz signal SZO is generated to above-mentioned zero information and accordingly to timing circuit 326, and the clocking value of timing circuit 326 is zeroed, Wherein the second above-mentioned time span TL2 is less than first time length TL1.In this way, work as communication module 125 and processing module 124 at least within one exception when, processing module 124 will be unable to receive above-mentioned zero information or processing module 124 and can connect It receives above-mentioned zero information but rz signal SZO can not be generated, therefore timing circuit 326 will continue timing.Once timing circuit 326 clocking value be equal to first time length TL1 when, timing circuit 326 will generate Restart Signal SRB to processing module 124 with Reset monitoring device 120 ' and electronic device 910,920.

In the above embodiment of the invention, first time length TL1 can be set by far end device 140.Specifically, Far end device 140 can transmit set information to processing module 124 by communication module 125, and processing module 124 can be set according to this Information is determined to set first time length TL1.But the present invention is not limited thereto.

Fig. 4 is the step flow chart of monitoring method shown by an embodiment according to the present invention.As shown in figure 4, monitoring Method can be used for monitoring system 100, the monitoring device 120 of Fig. 2 and the monitoring device 120 ' of Fig. 3 of Fig. 1, but the present invention is not As limit.Please merge below referring to Fig.1, Fig. 3 and Fig. 4.Firstly, power supply circuit can be passed through in the step S410 of Fig. 4 121 generate output power PO1, PO2 according to input electric power PI.Then, in step S420, switching circuit 122_1 can be passed through Output power PO1 (PO2) is transmitted to electronic device 910 (920) by (122_2).Later, in step S430, electric power can be passed through Measurement module 123 measures the voltage and current of input electric power PI and output power PO1 (PO2) one at least within to obtain electronics The power information IFO1 (IFO2) of device 910 (920).Then, in step S440, telecommunications will can be used by processing module 124 Breath IFO1 (IFO2) is compared with corresponding reference information IFR1 (IFR2), to judge the running shape of electronic device 910 (920) State；Either, the power information IFO1 (IFO2) of electronic device 910 (920) distal end can be sent to by processing module 124 to fill 140 are set, and is compared power information IFO1 (IFO2) with corresponding reference information IFR1 (IFR2) by far end device 140 It is right, to judge the operating state of electronic device 910 (920).

It will first be directed in the step S440 of Fig. 4 below, by processing module 124 to power information IFO1 (IFO2) and with reference to letter Breath IFR1 (IFR2) is compared, to judge that the details of operating state of electronic device 910 (920) is illustrated.It please merge ginseng It is the detailed steps of step S440 shown by an embodiment according to the present invention with its subsequent step according to Fig. 1, Fig. 3, Fig. 4 and Fig. 5, Fig. 5 Rapid flow chart.Step S440 includes detailed steps S541, S542, S543.Firstly, in step S541, it can be by handling mould Block 124 judges that it is critical whether the difference between power information IFO1 (IFO2) and corresponding reference information IFR1 (IFR2) is greater than Value.If the judging result of step S541 be it is no, processing module 124 judges that the operating state of electronic device 910 (920) is positive Often, and processing module 124 is by forbidden energy timing circuit 326, Restart Signal SRB is generated to avoid timing circuit 326, such as step S542 It is shown.Relatively, if the judging result of step S541 be it is yes, processing module 124 judges the running of electronic device 910 (920) State is abnormal, and processing module 124 will transmit exception information to far end device 140, as shown in step S543.

Then, in step S550, can be decided whether according to this exception information to electronic device by far end device 140 910 (920) are reset.If the determination result of step S550 is no, that is, far end device 140 judges electronic device 910 (920) Operating state be not abnormal and determine not reset electronic device 910 (920), then far end device 140 can notifier processes 124 forbidden energy timing circuit 326 of module generates Restart Signal SRB to avoid timing circuit 326, as shown in step S560.

It is noted that the manager when far end device 140 increases or decreases the defeated of switching circuit 122_1 (122_2) When the quantity for the electronic device 910 (920) that outlet is coupled, it will cause output power PO1 (PO2) output electric current increase or It reduces, causes between power information IFO1 (IFO2) and reference information IFR1 (IFR2) detected by power measurement module 123 Difference be greater than critical value.In in this case, even if processing module 124 judges that the operating state of electronic device 910 (920) is different Often, the manager of far end device 140 can still assert that the operating state of electronic device 910 (920) is substantially not abnormal, and determine Electronic device 910 (920) is not reset.

Relatively, if the determination result of step S550 is yes, that is, far end device 140 judges electronic device 910 (920) Operating state is really abnormal and determines to reset electronic device 910 (920), then can be transmitted and be reset by far end device 140 Information is to processing module 124, as shown in step S570.Then, it can be turned off simultaneously by processing module 124 according to this reset information Again corresponding switching circuit 122_1 (122_2) is connected to reset electronic device 910 (920), and forbidden energy timing circuit 326, with Timing circuit 326 is avoided to generate Restart Signal SRB, as shown in step S580.

Below in the step S440 of Fig. 4, by far end device 140 to power information IFO1 (IFO2) and reference information IFR1 (IFR2) is compared, to judge that the details of operating state of electronic device 910 (920) is illustrated.It please merge reference Fig. 1, Fig. 3, Fig. 4 and Fig. 6, Fig. 6 are the detailed steps of step S440 shown by another embodiment according to the present invention with its subsequent step Rapid flow chart.Step S440 includes detailed steps S641, S642, S643 and S644.Firstly, can pass through in step S641 The power information IFO1 (IFO2) of electronic device 910 (920) is sent to far end device 140 by processing module 124.Then, Yu Bu In rapid S642, power information IFO1 (IFO2) and corresponding reference information IFR1 (IFR2) can be judged by far end device 140 Between difference whether be greater than critical value.If the judging result of step S642 be it is no, far end device 140 judges electronic device The operating state of 910 (920) is normal, and far end device 140 is by 124 forbidden energy timing circuit 326 of notification processing module, to avoid Timing circuit 326 generates Restart Signal SRB, as shown in step S643.Relatively, if the judging result of step S642 be it is yes, Decide whether to reset electronic device 910 (920) by far end device 140, as shown in step S644.

If the determination result of step S644 is no, that is, far end device 140 judges the running shape of electronic device 910 (920) State is substantially not abnormal and determines not reset electronic device 910 (920), then enters step S643, can pass through distal end 140 notification processing module of device, 124 forbidden energy timing circuit 326 generates Restart Signal SRB to avoid timing circuit 326.

Relatively, if the determination result of step S644 is yes, that is, far end device 140 judges electronic device 910 (920) Operating state is really abnormal and determines to reset electronic device 910 (920), then can be transmitted and be reset by far end device 140 Information is to processing module 124, as shown in step S650.Then, it can be turned off simultaneously by processing module 124 according to this reset information Again corresponding switching circuit 122_1 (122_2) is connected to reset electronic device 910 (920), and forbidden energy timing circuit 326, with Timing circuit 326 is avoided to generate Restart Signal SRB, as shown in step S660.

It is illustrated below for the case where in the step S440 of Fig. 4, communication module 125 is abnormal.It please merge ginseng It is the detailed steps of step S440 shown by another embodiment and its subsequent according to the present invention according to Fig. 1, Fig. 3, Fig. 4 and Fig. 7, Fig. 7 The flow chart of step.Step S440 includes detailed steps S741, S742 and S743.Firstly, processing can be passed through in step S741 Module 124 is faced to judge whether the difference between power information IFO1 (IFO2) and corresponding reference information IFR1 (IFR2) is greater than Dividing value.If the judging result of step S741 be it is no, processing module 124 judges that the operating state of electronic device 910 (920) is positive Often, and processing module 124 is by forbidden energy timing circuit 326, Restart Signal SRB is generated to avoid timing circuit 326, such as step S742 It is shown.Relatively, if the judging result of step S741 be it is yes, processing module 124 judges the running of electronic device 910 (920) State is abnormal, but processing module 124 can not transmit exception information to far end device 140, such as by abnormal communication module 125 Shown in step S743.Specifically, when communication module 125 is abnormal, above-mentioned exception information will be unable to send distal end to Device 140, so that processing module 124 can not receive the response of far end device 140 with forbidden energy timing circuit 326.Therefore, pass through Timing circuit 326 continues timing, so that the clocking value of timing circuit 326 provides Restart Signal when being equal to first time length TL1 SRB is to processing module 124, as shown in step S750.It then, can be by processing module 124 according to restarting letter in step S760 Number SRB resets monitoring device 120 ' and electronic device 910,920.

In addition, other implementation details of the monitoring method of the embodiment of the present invention, it can be by Fig. 1 chatting to Fig. 3 embodiment Enough teachings are obtained in stating, suggests and implements to illustrate, therefore are repeated no more.

In conclusion monitoring device, monitoring system and monitoring method that the embodiment of the present invention is proposed, can pass through detection electricity The power information of sub-device judges whether it is normal operation, and can pass through communication mode in the abnormal running of electronic device To be reset to electronic device.In addition to this, the timing circuit in monitoring device can be in the processing module of monitoring device or logical When believing module exception, as resetting (or restarting) monitoring device and the backup device of electronic device.Therefore, the present invention is implemented Monitoring device, monitoring system and the monitoring method that example is proposed can not only promote electronic device in the efficiency for detecting and repairing, also Electronic device can be reduced in the upper required human cost of maintenance.

Although the present invention is disclosed as above with embodiment, however, it is not to limit the invention, any technical field Middle technical staff, without departing from the spirit and scope of the present invention, when can make some changes and embellishment, therefore protection of the invention Range is subject to view as defined in claim.

Claims (19)

1. a kind of monitoring system, to monitor at least one electronic device characterized by comprising

Far end device；And

Monitoring device, comprising:

Power supply circuit to receive input electric power, and generates at least one output power accordingly；

At least one switching circuit couples the power supply circuit, at least one described output power is transmitted to institute State at least one electronic device；

Power measurement module couples the power supply circuit and at least one described switching circuit, to measure the input Electric power and at least one described output power one at least within, to obtain the power information of at least one electronic device； And

Processing module couples at least one described switching circuit to control the opening and closing of at least one switching circuit, and couples The power measurement module to receive the power information of at least one electronic device,

Wherein the power information is compared the processing module with reference information, to judge at least one electronics dress The operating state set；Either, the power information of at least one electronic device is sent to institute by the processing module Far end device is stated, and the power information is compared the far end device with the reference information, it is described at least with judgement The operating state of one electronic device.

2. monitoring system according to claim 1, which is characterized in that when between the power information and the reference information Difference when being greater than critical value, the processing module judge operating state of at least one electronic device as extremely simultaneously Exception information is transmitted to the far end device, and the far end device decided whether according to the exception information to it is described at least One electronic device is reset.

3. monitoring system according to claim 2, which is characterized in that if the far end device determine to it is described at least one Electronic device is reset, then the far end device transmits reset information to the processing module, and the processing module according to The reset information and turn off and be connected again at least one described switching circuit, to reset at least one described electronic device.

4. monitoring system according to claim 1, it is characterised in that:

When the difference between the power information and the reference information is greater than critical value, the far end device decides whether weight At least one described electronic device is set,

If the far end device determines to reset at least one described electronic device, the far end device transmits reset information to institute Processing module is stated, and the processing module is turned off according to the reset information and at least one described switch of conducting is electric again Road, to reset at least one described electronic device.

5. monitoring system according to claim 1, which is characterized in that the monitoring device further include:

Communication module couples the processing module, to connect as the communication between the processing module and the far end device Mouthful；And

Timing circuit couples the processing module, to timing to generate clocking value, and is equal at the first time in the clocking value Restart Signal is generated when length, so that the processing module reacts on the Restart Signal and resets the monitoring device and described At least one electronic device,

Wherein the far end device transmits set information to the processing module by the communication module, and the processing module The first time length is set according to the set information.

6. monitoring system according to claim 5, it is characterised in that:

The processing module starts the timing circuit so that the timing circuit starts timing, and the place in preset time point Module is managed after starting the timing circuit also by communication module transmission beginning timing signal to the far end device,

If the processing module received by the communication module since the far end device be associated with it is described timing believe Number back-signalling, then timing circuit described in the processing module forbidden energy.

7. monitoring system according to claim 5, it is characterised in that:

When the processing module is normal, the clocking value is zeroed by the processing module every the second time span, wherein institute The second time span is stated less than the first time length.

8. a kind of monitoring device, to monitor at least one electronic device characterized by comprising

Power supply circuit to receive input electric power, and generates at least one output power accordingly；

At least one switching circuit couples the power supply circuit, at least one described output power is transmitted to institute State at least one electronic device；

Power measurement module couples the power supply circuit and at least one described switching circuit, to measure the input Electric power and at least one described output power one at least within, to obtain the power information of at least one electronic device； And

Processing module couples at least one described switching circuit to control the opening and closing of at least one switching circuit, and couples The power measurement module to receive the power information of at least one electronic device,

Wherein the power information is compared the processing module with reference information, to judge at least one electronics dress The operating state set.

9. monitoring device according to claim 8, which is characterized in that when between the power information and the reference information Difference when being greater than critical value, the processing module judge operating state of at least one electronic device as extremely, And exception information is transmitted to far end device.

10. monitoring device according to claim 9, which is characterized in that if the processing module connects from the far end device Reset information is received, then the processing module is turned off according to the reset information and at least one described switch of conducting is electric again Road, to reset at least one described electronic device.

11. monitoring device according to claim 8, which is characterized in that further include:

Communication module couples the processing module, to as the communication interface between the processing module and far end device；With And

Timing circuit couples the processing module, to timing to generate clocking value, and is equal at the first time in the clocking value Restart Signal is generated when length, so that the processing module reacts on the Restart Signal and resets the monitoring device and described At least one electronic device,

Wherein the processing module receives set information, and the processing module from the far end device by the communication module The first time length is set according to the set information.

12. monitoring device according to claim 11, it is characterised in that:

The processing module starts the timing circuit so that the timing circuit starts timing, and the place in preset time point Module is managed after starting the timing circuit also by communication module transmission beginning timing signal to the far end device,

If the processing module received by the communication module since the far end device be associated with it is described timing believe Number back-signalling, then timing circuit described in the processing module forbidden energy.

13. monitoring device according to claim 11, it is characterised in that:

When the processing module is normal, the clocking value is zeroed by the processing module every the second time span, wherein institute The second time span is stated less than the first time length.

14. a kind of monitoring method, to monitor at least one electronic device characterized by comprising

At least one output power is generated according to input electric power by power supply circuit；

At least one described output power is transmitted at least one described electronic device by least one switching circuit；

The input electric power and at least one described output power one at least within are measured by power measurement module, to obtain The power information of at least one electronic device；And

The power information is compared with reference information by processing module, to judge at least one electronic device Operating state；Either, the power information of at least one electronic device is sent to far by the processing module End device, and the power information is compared with the reference information by the far end device, it is described at least with judgement The operating state of one electronic device.

15. monitoring method according to claim 14, which is characterized in that further include:

When the difference between the power information and the reference information is greater than critical value, institute is judged by the processing module The operating state for stating at least one electronic device is exception and transmits exception information to the far end device；

Decided whether to reset at least one described electronic device according to the exception information by the far end device；

If determining to reset at least one described electronic device, reset information is transmitted to described by the far end device Processing module；And

It is turned off by the processing module according to the reset information and at least one described switching circuit is connected again, with weight Set at least one described electronic device.

16. monitoring method according to claim 14, which is characterized in that further include:

When the difference between the power information and the reference information is greater than critical value, it is by far end device decision At least one electronic device described in no resetting；

If determining to reset at least one described electronic device, reset information is transmitted to the processing mould by the far end device Block；And

It is turned off by the processing module according to the reset information and at least one described switching circuit is connected again, with weight Set at least one described electronic device.

17. monitoring method according to claim 14, which is characterized in that further include:

Set information is transmitted to the processing module by the far end device；

The first time length of timing circuit is set according to the set information by the processing module；

Timing is carried out by the timing circuit to generate clocking value, and when the clocking value is equal to the first time length Restart Signal is provided to the processing module；And

The Restart Signal, which is reacted on, by the processing module resets the monitoring device and at least one described electronics dress It sets.

18. monitoring method according to claim 17, which is characterized in that it is described by the timing circuit carry out timing with The step of generating the clocking value include:

Start the timing circuit so that the timing circuit starts timing in preset time point by the processing module；

After starting the timing circuit, also by the processing module and communication module transmission beginning timing signal to described Far end device；

If received by the processing module and the communication module since the far end device be associated with it is described timing The back-signalling of signal then passes through timing circuit described in the processing module forbidden energy.

19. monitoring method according to claim 17, which is characterized in that it is described by the timing circuit carry out timing with The step of generating the clocking value include:

When the processing module is normal, the clocking value is zeroed every the second time span by the processing module, Described in the second time span be less than the first time length.