TW201251252A - A power management method of outlet port and the device thereof - Google Patents

Abstract

A power management method of outlet port and the device are provided. The power management device mainly includes a scheduling module, measuring module, and a setting unit. The power management method includes the steps of getting a priority state of each outlet port, measuring the load condition of outlet port which is in the first priority state by means of polling, and then comparing the load condition of the outlet port with a preset condition. If the load condition of the outlet port matches to the preset condition, resetting the priority state does not require. If the load condition of the outlet port does not match to the preset condition, it is need to reset the priority state of the outlet port.

Description

201251252 VI. Description of the invention: [Technical field to which the invention pertains] and its apparatus, and particularly, and the apparatus thereof, the invention relates to an output power management method §, and the invention relates to an output power management method intelligent scheduling The function of the monitoring output is measured. [Prior Art] As the demand for resources from the Internet increases, and enterprises reduce the cost of their own investment in software and hardware through network services, thereby improving administrative efficiency, the enterprise itself or the service provider's equipment room equipment Management is important. The conventional power management device mainly uses a meter to correspond to an outlet port. When the same number of meters are used, the load at the output can be measured, but it takes a lot of hardware. At present, the main function of power management σσ is to measure current, voltage, power and watt-hour. When each output terminal needs to set a meter, then 2 插孔 jacks need 2 〇 ^ meter, so hardware The amount of usage will be greatly improved. Although it is possible to reduce the cost of hardware by using an electric meter that is smaller than the number of outputs, if this method is used for monitoring, it is necessary to perform load measurement on each output by polling (p〇lling). However, if the polling method is used for measurement, since the polling time is equal, if an emergency event occurs at the output end, it may be difficult to find it immediately, or it may have been a period of time before the discovery, and it is too late to dispose of it. And then the danger occurs. In addition, the traditional power management device can only measure the power consumption of the output. 3 201251252 The problem of the measurement environment, such as load overload, power jump, host overheating or changes in the environment, cannot be immediately reflected to the information management personnel. The machine room 6 is not ready to be trouble-shooted in an efficient manner. SUMMARY OF THE INVENTION The first step is to provide a power management device that can use less than the transmission device to measure the load of each output by intelligent scheduling, thereby achieving the purpose of knowing the hardware cost. The other is to provide a kind of power supply method, according to each output unique superiority state, so that Di (four) high touch terminal obtains the power supply management method 'including the following steps: get a plurality of output terminals in the mother = The output-priority state; the measurement priority state satisfies a specific condition - the load state; and the load state of the output is compared with a pre-three = 'if the output load state of the output and the pre- If the conditions are consistent, it is not necessary to reset the optimal green state of the output. If the load state of the output is not inconsistent with the preset condition, the priority of the output must be reset. The power management device includes a scheduling module, a measurement module, and a setting unit. The scheduling module is used to obtain a superior filament state for each of the plurality of outputs. The measurement mode is to the exhaust group, and the priority state is satisfied—the one of the negative conditions of the output of the specific condition. Set the unit_ to the volume group. If the output of the output is ~ and the condition is matched, the priority of the output is not required to be reset. If the load status of the wheel is compared with the preset condition, the result is compared. Inconsistent, the new setting of the ridge-like county (four). J^4 4 201251252 [Embodiment] The present invention provides an output power supply tube. In the embodiment, the electric fresh circuit device is a secret wheel device. In the preferred load, the power usage in the cab is safe. And measure the temperature comparison of the power room's transmission room, and compile the environment ride. The electric cooking device can also be used in the machine as shown in Fig. 1. The power supply device 1 is provided with each of the output terminals _~1 () 4 to provide "Ray" = = output terminals - 104. The device milk can be used to set the power of the computer. This electron is not the key to this. The power supply is used for sewing 1G money, etc., but the management device 200 is composed of a power supply tube: device: ====, two jacks are used, and the socket is a socket, which has a secret to the specific mosquito. The tilting is connected to the power management device 2 in sequence or in accordance with ==. . After that, by the row = 1G < MG4 in the upper-second measurement, the default is for each-round round-up U) (M〇4 "shape ^^ system early 70 206 station complex soil heat * load The status is set to 100~104 pieces per output. The corresponding relationship of the first state is based on the preset bar. The 7^206 will depend on whether the load status is within the pre-interval range, and the load status is determined in this measurement. In the case of employment I. For example, if the preset condition has three loads, each load corresponds to a priority state, and the setting unit 2G6 determines that a load (four) is in the first negative pro-cafe, if the first- The load Ϊ ; priority status ' then the round end corresponds to the first priority state. To illustrate the 201251252 ϋ - priority state 'in this embodiment' means the output = its load is relatively large. Therefore, if With three negative and negative: the load of the zone-county state will be greater than the load of the second priority state, and the first collapsed f will be greater than the load of the third priority state. The setting unit 206 j prioritizes the state The next measurement is performed. The scheduling module 202 determines whether the optimal green state of the end 1GG~1G4 is in the first —You can record the priority status of the output terminals 100~103 as the first priority status, and the 1〇4 is the f first state' then send the signal to the measurement module 2〇4; then the measurement module 2(10) The load status of each output terminal 1〇〇~ι〇3 belonging to the first priority state is measured according to the number order of the input=. Fig. 2 is a flow chart of the power management method, as shown in Fig. 2 a priority state of each of the plurality of output terminals. The priority is from the storage unit 208 for the setting result stored in the pre-measurement. In the same manner, step S1012 is performed, and the priority state of the output terminal is In the first-priority state, the step-and-measurement priority state satisfies the negative-negative state of a particular conditional end. In the present embodiment, the specific condition is whether the (four) priority state is the first-optimal state. That is, step S1020 = measuring the negative residual state at the output of the first priority state. The scheduling module 202 sends a message to the measurement module 204, so that the measurement module 2〇4 is measured first. The load state of the output of the priority state. The load state can be current, electricity, The value of power, watt hour, / dish or humidity. Conversely, if the priority state of the output is not the first-priority state, in order to avoid monitoring the output of the non-first priority state, the scheduling module 202 directly Sending a message to the setting module 2 () 6 causes the setting module 2 〇 6 to raise the priority state of the output that is not in the first priority state by one level, so that the output terminals that are not in the first priority state can also become the first - Priority state, and is monitored. 6 201251252 Step S1022 ··Comparing the load state and preset condition of the output terminal belonging to the first priority state, generating -Saki. The preset condition is preferably a form, including relatively different The range of the range set by the load status value corresponds to a different priority status for the = range. After the measurement module 2〇4 is compared with the preset condition, the priority state corresponding to the load status is obtained. ~ The output that was originally in the first-priority state may be changed, and the step (10) includes: setting the unit to set the priority state. The setting unit 2〇6 determines, according to the comparison result C, that the area corresponding to the value of the optimal recording state of the load end of the load end still corresponds to the first-priority state, then the unit 2G6 receives the comparison result C and then re-sends The priority state is set; if the range corresponding to the value of the load state is the priority state, the setting unit 2〇6 will reset the superior state after receiving the comparison result C. After Di Diyuan, the storage unit 2〇8 records the priority status of the output and then switches to the next output for checking. This saves the power management device and the measurement time for the output of the non-first priority state. Step S1050 includes: storing a priority status. And step S1070 includes: switching to the next output. After the setting of the setting unit 2〇6 is completed, the storage unit 2(10) picks up the priority state of the output terminal and switches to the next output terminal, so that the scheduling-,,, and check the priority state of one output terminal. After the scheduling module 202 checks the output terminals 1 (8) to 1G4 one by one, the next-cycle measurement is performed. In this embodiment, the scheduling mode and the group 202 inspection mode are preferably based on the number of each output terminal 00 104 in the equipment room. However, in other embodiments, the check mode with the template address 2 (10) may also be performed according to the priority status of the pre-volume job. That is, the program module 202 first checks all the output terminals of the first priority state, for example: 1〇〇~102, and then all the output terminals 1G3 of the second priority state, and then checks all the output terminals 104 of the third priority state, Continue to check in this way. _ Figure 3 is a schematic diagram of the power management device with additional components. As shown in FIG. 3, the power management device 200 can also be combined with a switch detecting device 3, and the switch detection 201251252 can be presented in a software or hardware manner. When the switch detecting device 300 is off: when the power of the output terminal HKM04 is turned off, for example, the output terminal bile power is turned off, the scheduling module 202 of the device 200 directly skips the output terminal 100, so that the a1 can be allocated to other uses during the detection. Outputs 101 to 104 in the middle. In other embodiments, ^^ If set to 2 Κ) can also be combined with environmental side devices such as thermometers and hygrometers, smoke extractors, door devices, etc. to ensure the environmental safety in the equipment room. ^4 is a schematic diagram of another embodiment of the power management device. As shown in Fig. *, the chemist and the power management device 200 are disposed in the multi-hole socket 400+, and the multi-hole socket 400 has an output terminal 4〇1 to 4〇3 to supply electric power. The priority status of each of the output terminals 4G1 to 4G3 is sequentially checked by the power management device. Thereby, the processing device 200 can manage the plurality of output terminals 401 to 403 to save L. In other embodiments, the power management device 200 can also be used in combination with other hardware devices. ―f 5 is a detailed flow chart of an embodiment of the power management method. As shown in FIG. 5 and FIG. J, step S1012 is included: confirming the priority of each of the output terminals 100 to 104: preparing the scheduling mode, and the group 202 obtaining each output terminal 1~1〇::^ confirming the output ~ Dog priority ^ To be measured, 凊 also refer to the priority status shown in Figure 6 to execute the program. If the schedule 202 confirms that the output terminal 100 is in the first priority state, since the end 1 of the first priority state needs to be measured, the scheduling module 2〇2 outputs ~

;T The person is instructing step S1022 ··Comparing the load state with the preset condition, the value of the one state is located in the range of the preset condition corresponding to the first priority state of the first , first, and then by the storage unit 2〇 8 execution priority status. The last step is to switch to the next output ι〇= ground. If the load condition is within the preset condition range corresponding to the second priority 201251252 or the third priority state, the measurement module 2〇 The 4 rounds of the comparison result c to the change priority state. In addition, in step S1012, the scheduling module 2〇2 confirms that the priority state of a certain output terminal 100~the ship is not the first priority state, then in the step brain d or the step L〇3〇e, the scheduling module 202 directly sends a message to the setting unit 2〇6, so that the setting early 206 advances the priority state of the output of the non-first priority state by one step. As shown in FIG. 5, if the scheduling module 202 checks that the priority state of the output terminal 1〇1 is the second priority state, since the output end of the non-first-optimal recording state does not need to be measured, the scheduling group 2G2 directly outputs. The signal to the setting unit 2Q6 boosts the priority state of the output terminal 1〇1 of the second priority state to the first priority state. After the setting unit 206 is set, the storage unit 208 records the priority state of the set output terminal 1〇1, and then switches to the next output terminal 1G2, and repeats the above steps. Similarly, if the scheduling mode is 2〇2^, the priority state of the output terminal 102 is the third priority state, because the non-first priority output terminal 102 does not need to be measured, the scheduling module 2〇2 directly outputs the signal to the setting. The unit 206 raises the priority state of the output terminal 1〇2 of the third priority state to the first priority state. Then switch to the next output, and so on, repeat the above procedure. In addition, in the flow of FIG. 5, the process of determining whether the output power is turned on or off in conjunction with FIG. 3 is further included. In an embodiment, step S1080 can be started by means of a call interrupt. . In step sl8, the switch detecting device 300 can be used to detect that the power of the output terminal is turned on or off. Once the power of the output terminal is switched from the on state to the off state, the step sl9〇a is performed, and the shutdown is not set. The output terminal has a priority state; if the output terminal is switched from the off state to the on state, the output terminal is preset to have a preset priority state in step S1090a, which is the first priority state in this embodiment. , but not as a limit. It should be noted that although FIG. 5 starts S1_ by means of an interrupt to determine whether the power is turned on, it is not limited thereto. For example, S1080 may be started after any step of S1010 to S1070. 201251252 Inquiries ^ 1 and Tables 2~3 are comparisons of different implementation modes, where 矣] and Table 2-3 represent the measurement method using the present invention. Representing the customary wheel

—I Test time 2000 (seconds) Round out number No. Each round of detection is 2.5 (seconds) 3 rounds of her batch

The negative makeup can be used for 12 output terminals in the under-polling--measurement load state, therefore, regardless of the preset load state of each output: quantity = 201251252 owed; 12 rounds of 12 rounds Everyone will focus on the right side to delete the t' when the 嫣 嫣 嫣 嫣 。 。 。. The interval is 2.5 seconds, so the output of the first time is measured, so the polling is a total of ~ ^ 〇 - person. Because there is a setting of I2 -, that is, the importance of each output is the V of the person, so the weight of each == ' is 8.33%. Each output can be assigned approximately 66 times (_ multiplied by the weight) during the test time, which is equivalent to 166 seconds. Table 2

Output No.—η Priority State I>1A 0<K1A 1=0 1 on V —~ -丨2 on V 3 off V 4 off V 5 off V 6 on V 7 off V 8 on V 9 off V 201251252 10 On V ----'1 11 off V ------— 12 on V *-- — fruit, ί-2 two real: 2=本,;^Check the way the knot is not, on the left The currents of the 'first, sixth and twelfth output terminals in the block are greater than =, so the priority state of the three outputs is maintained as ^. The current at the first and tenth output terminals is between 〇 and i amps = two first and = states are reset to the second priority state. Similarly, u seven = round out is reset to the third best green state. In addition, the third, fifth, and =10-outputs are side-to-powered, so the priority state is not set. - The scheduling module 2〇2 skips the output of the unset priority state to save time. The above-mentioned detective type can make the __test device side (as shown in Figure 3). --- 矣3 Output number priority status I>1A 0<I<1A 1=0 First second third test time 2000 (seconds) Each output detects 2.5 (seconds) + checks the total number of times 800 times : Check a circle for 30 times weight check times benefit 2012 2012252252 1 on V ---- 20% ^ 160 +140% 2 on V 10% —------ 80 +20% 3 off 0% 0 +0 % 4 on V 53.33 -20% 5 off 0% 0 +0% 6 on V 20% ~—----^__ 160 +140% 7 on V 53.33 -20% 8 on V 53.33 -20% 9 off 0 % ------- 0 +0% 10 on V 10% ~·—— 80 +20% 11 off 0% 0 +0% 12 on V 20% ------- 160 +140% In the right side of the table in Table 3, 9 times, the number of times of checking one circle is 6 times for the output of the first priority state, the round end of the second priority state is 3 times, and the output of the third priority state is 2 times. , and the power is turned off, that is, the output with no priority setting is set to 0 times. It is to be noted that, in the present embodiment, the so-called check one circle refers to the case where the priority state of each output terminal is again returned to the first priority state according to the adjustment of the priority state in the flow of Fig. 5. Therefore, if in the above state, for the present embodiment, after one round of inspection, the total cumulative number of times detected by each output terminal is 30 (the number of times of checking one turn == the number of times set X corresponds to the number of output ends) , that is, 6x3+3x2+2x3=30). At the same time, the corresponding weight can be calculated, for example, the weight of the first output is 20°/. (weight = set number of times / check the next 13 times 201251252) eight, ^ test time within 2000 seconds 'that is, the total number of inspections is 800 times, the number of times each round of the knife is matched: 800X weights ^ The number of inspections of the end test is 8G times. View (four) ant's way, the output ^ can be assigned to the output of the county with a higher state, so that the county state is higher than the i setting, the benefit of each output changes (benefit = new times / original plus ^ The number of ends is increased by 14%, while the number of times of the second output is because the third, fifth, ninth and eleventh outputs = off, so that one-third (33.33%) of the outputs do not have to be checked. The length of the test time must be adjustable, and the range of the preset condition is large. The number of the limit is not limited to three, that is, the limit is not limited to three. The number of settings and the weight can also be adjusted according to the demand. 'For example, after the test time is over, reset the number of check-loops at each output to calculate the new weight. After the first-person check is finished, set the module. 206 will reset the priority state according to the comparison result f of the previous check, and the priority state of the output of the non-first priority state is raised forward-level. As shown in Table 3, the second output is in the second inspection. For the second priority state, in the third inspection, the exhaustion 2G2 raises the priority state of the second output to the first priority state. Therefore, during the third inspection, the measurement module 204 will measure the second output end. In addition, the arrangement of each output terminal can also be The power consumption is arranged to facilitate the setting. In summary, by adjusting the time of the output and the number of inspections, the important output can be allocated more resources to improve the safety of the equipment room. The present invention has been implemented by the above related The above-described embodiments are merely illustrative of the scope of the invention. It is to be understood that the scope of the invention is not limited by the scope of the invention. The setting is included in the scope of the present invention. 201251252 [Simplified Schematic] FIG. 1 is a schematic diagram of an embodiment of a power management apparatus according to the present invention; FIG. 2 is a flowchart of a power management method; FIG. 4 is another embodiment of a power management apparatus; FIG. 5 is a detailed flowchart of a power management method; FIG. Schematic diagram of the execution program. [Main component symbol description] 10 power supply device 100 to 104 output terminal 105 electronic device 200 power management device 202 scheduling module 204 measurement module 206 setting early 208 storage unit c comparison result 300 switch detection Measuring device 400 porous socket 401~403 output terminal 15

Claims (1)

201251252 VII. Scope of application for patents·· 1. A method of power supply management, including the following steps: one of the load states; and (4) each of the multiple mines that receive the money. (9) The measurement priority status is satisfied - the specific conditions The output priority state (8) is the negative residual state of the output and the load state and the negative +, and the negative of the secondary end is 屮 夕 “ " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " The output power management method, wherein the step (8) comprises the following steps of measuring the load status of each input (four): setting a priority status of each of the two ends for the load states, wherein the load_minute_the preset condition Corresponding to one of the plurality of priority states. 3. The output power management method according to claim 1 further includes the following steps: the priority state set in the previous setting, the priority state of the output terminal other than the first priority state The level is increased by one level. 4. The output power management method as described in claim 1 includes: adjusting the priority of the job, and changing the priority of the input (4). 5. If the request item 1 · (4) power management method, The method further includes: stepping forward the priority state of the output of the non-first-priority state by one step 201251252 6. The method of claim 4, wherein the method further includes the following steps: storing the thin end of the set Priority status 7. Power management device, including · · - scheduling module 'for each number of output ages - priority status; - measurement module ' _ to the row group, measurement The priority state satisfies the loss of a specific condition _ has the 贞 residual state; and the «also 7L' touches the module, if the ratio of the _ residual state to the preset condition matches, the result is not It is necessary to reset the priority state of the output terminal, and if the comparison between the load state of the output terminal and the preset condition does not match the priority state of the output terminal, the new state is as described in claim 7 The load state of the plurality of outputs is current, dragon, power, watt-hour, temperature, or humidity. 9. The power management device of claim 7, wherein the plurality of outputs are determined according to the amount of power loss. The priority status. 10. If requested The power management device of 7 further includes: storing the storage unit το 'touching the setting unit, and adopting the priority state of the output terminal after the setting is set. > The power management device described in Item 7 of the The measuring module sequentially measures the load state of 3 k, and the setting unit sets the priority state of the parent output end for the negative residual states, so that the scheduling module obtains the priority state of each output terminal. The load status is one of a plurality of priority states corresponding to the preset condition 2012 2012252. 12. The power management device of claim 7, wherein the setting unit further performs a non-first priority state. The priority state of the output is raised one level forward.