CN105496562A - Anesthesia nursing device for operating room - Google Patents
Anesthesia nursing device for operating room Download PDFInfo
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- CN105496562A CN105496562A CN201510903574.4A CN201510903574A CN105496562A CN 105496562 A CN105496562 A CN 105496562A CN 201510903574 A CN201510903574 A CN 201510903574A CN 105496562 A CN105496562 A CN 105496562A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61G—TRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
- A61G12/00—Accommodation for nursing, e.g. in hospitals, not covered by groups A61G1/00 - A61G11/00, e.g. trolleys for transport of medicaments or food; Prescription lists
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Abstract
The invention discloses an anesthesia nursing device for an operating room. The anesthesia nursing device comprises a main body, pull rings, a tablet computer, a touch pen slot, a drawer, a barrier and a handle, wherein the tablet computer is inlaid on the upper surface of the main body, the pull rings are located on two side surfaces of the main body, the touch pen slot is next to the right side of the tablet computer, the drawer is movably arranged in the main body, the barrier is arranged in the drawer and divides the drawer space into a syringe accommodating groove and an anesthesia medicine accommodating groove, and the handle is arranged at the outer end of the drawer. The device integrates medicine carrying and recording functions and can be used by anesthesia nurses conveniently; effects of human actors are effectively avoided, misjudgment cannot occur easily, and standardized operation can be realized; stable output voltage is provided without an optocoupler and TL 431, high-accuracy CV (constant voltage) and CC (constant current) output is realized due to particular internal CV and CC control, the application requirement of most chargers is effectively met, and the accuracy of output current is improved.
Description
Technical field
The invention belongs to medical instruments field, particularly relate to a kind of anesthesia in operating room nursing device.
Background technology
At present, anesthetic care, as the novel occupation of one, is more and more subject to attention and the cultivation of various big hospital.Anesthetic care can be good at in various operation, brings facility to carrying out smoothly of performing the operation.But existing anesthetic care is not configured with the nursing device being with medicine and writing function to be integrated, surgery anesthesia and record anesthesia note well can not be provided, brings certain trouble to anesthetic care, be unfavorable for surgery anesthesia nursery work.
Summary of the invention
The object of the present invention is to provide a kind of anesthesia in operating room nursing device, be intended to solve how will carry the problem of medicine and writing function integration.
The present invention is achieved in that a kind of anesthesia in operating room nursing device, and this anesthesia in operating room nursing device comprises: main body, draw ring, panel computer, felt pen groove, drawer, jube, handle and medical supersonic instrument;
The upper surface of main body is inlaid with panel computer, draw ring is positioned at the two sides of main body, the right side of panel computer is adjacent is provided with felt pen groove, drawer is movably set in the inside of main body, jube is provided with in drawer, drawer space is divided into syringe holding tank and anaesthetic holding tank by jube, and the outer end of drawer is provided with handle;
Described material of main part is timber, and described felt pen groove is provided with clamp button of the spring, and described syringe holding tank is provided with clamp button of the spring;
Described main body is placed medical supersonic instrument, described medical supersonic instrument comprises power subsystem, driver element, anesthetic puncture device, CPU, ultrasonic control device and ultrasonic image display unit;
Anesthetic puncture device is used for anaesthetizing targetedly;
Ultrasonic control device, for the effect to the acquisition and processing of ultrasound image information and the synthesis of various information;
CPU, for the process of information and the function of storage;
Driver element, for power drive energy;
Power subsystem, for providing power supply for driver element;
Ultrasonic image display unit, for the compound display function to various information.
Further, described power subsystem comprises: power supply input filter, commutator, elementary RCD absorption circuit, master control IC unit, inductive transformer, secondary Schottky absorption circuit, DC filter, output low-voltage rectifier;
Described power supply input filter is connected with described commutator, described commutator is connected with described elementary RCD absorption circuit, described elementary RCD absorption circuit and master control IC unit are connected with described inductive transformer respectively, described inductive transformer is connected with described secondary Schottky absorption circuit, described secondary Schottky absorption circuit is connected with described DC filter, and described DC filter is connected with described output low-voltage rectifier;
The input voltage of described power subsystem is AC85-240V, and output voltage is DC1-100V; Alternating current power supply is linked in power subsystem by plug mode, wire access way or binding post mode, and described master control IC unit adopts master control ICPR902, and described master control IC unit is crossing current/constant voltage former limit controller;
Described master control IC unit comprises:
Low-voltage variation module, be used for monitoring supply voltage, guarantee that power work is in the scope of a reasonable benefit/risk, the scope of setting is 7-12.5V;
Whether too high overvoltage protective module, be used for detecting supply voltage, when supply voltage closes PR902 and output more than 28V, ensures security of system;
Reference voltage module, for generation of internal reference voltage and current.
Peak value comparison method module, for controlling the peak point current of each switch periods;
Lead-edge-blanking set of time module, for arranging the lead-edge-blanking time, ensures that peak value comparison method module can not maloperation;
Voltage-drop compensation module, for carrying out line loss compensation, ensures that, in different loads situation, output voltage can not change because output lead is oversize;
Constant-current control module, for current constant control, ensures high-precision constant current output;
Sampling and storage module, for sampling and keeping feedback voltage;
Error amplifier block is error amplifier, for amplifying the error signal of output voltage, carries out loop control;
Isobarically Control module, for Isobarically Control, ensures output voltage stabilization and the output accuracy had;
Clock cycle controls time out control module, for setting the time out of each clock cycle, controls for pulse frequency modulated;
Application of logic circuit module, for receiving the various logic signal of IC, and produces final control signal;
Transistor base module, for the transistor power pipe with certain electric current drive IC outside.
Further, described master control IC unit also comprises: Voltage stabilizing module, for generation of the internal electric source of 5V.
Another object of the present invention is to a kind of central processing unit controls method providing anesthesia in operating room nursing device, described central processing unit controls method is applicable to central processing unit, comprising:
The temperature threshold value of setting central processing unit;
Judge maximumly to process load capacity according to said temperature marginal value;
According to collecting platform power management technique, multiple first task is combined into the first continuous operation task;
Judge whether the load capacity of above-mentioned first continuous operation task is greater than and above-mentionedly maximumly process load capacity;
When the above-mentioned load capacity of above-mentioned first continuous operation task be greater than above-mentioned maximum process load capacity time, above-mentioned first task of overload part one of in above-mentioned first continuous operation task is shifted out above-mentioned first continuous operation task;
When receiving above-mentioned first continuous operation task, above-mentioned CPU is switched to an operator scheme by a park mode, and process above-mentioned first continuous operation task; And after above-mentioned first continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode;
The operation frequency of central processing unit has normal operating frequency under operation, and said method also comprises:
The first operation frequency is determined according to the above-mentioned load capacity of above-mentioned first continuous operation task and said temperature marginal value; And
When above-mentioned central processing unit switches to aforesaid operations pattern, the operation frequency of above-mentioned central processing unit is promoted to above-mentioned first operation frequency by above-mentioned normal operating frequency, and by the above-mentioned first continuous operation task of above-mentioned first operation frequency process;
Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Central processing unit control method, also comprises:
After above-mentioned first continuous operation task process completes and above-mentioned central processing unit enters above-mentioned park mode, be combined into the second continuous operation task according to collecting above-mentioned first task of platform power management technique by multiple second task and above-mentioned overload part;
When receiving above-mentioned second continuous operation task, above-mentioned CPU is switched to aforesaid operations pattern by above-mentioned park mode;
The operation frequency of above-mentioned central processing unit is promoted to the second operation frequency by above-mentioned normal operating frequency, by the above-mentioned second continuous operation task of above-mentioned second operation frequency process; And after above-mentioned second continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode; Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Between the time point that central processing unit uses above-mentioned first operation frequency above-mentioned first continuous operation task process to be completed and the time point starting to receive above-mentioned second continuous operation task, there is one first interval time, and use above-mentioned normal frequency above-mentioned first continuous operation task process to be completed and received between above-mentioned second continuous operation task to there is the second interval time, be wherein less than above-mentioned second interval time above-mentioned first interval time.
Anesthesia in operating room nursing device provided by the invention holds anaesthetic and injection syringe for anaesthesia by drawer, by panel computer record anesthesia note, solving the problem by carrying medicine and writing function integration, facilitating anesthetic care librarian use.The present invention passes through power subsystem, driver element, anesthetic puncture device, CPU, the setting of ultrasonic control device and ultrasonic image display unit, making a kind of novel medical supersonic instrument for anaesthetizing, the path of puncture needle can be shown in real time, can anaesthetize targetedly, and can show clearly in real time the nerves reaction of site of anesthesia, facilitate anesthetist to carry out various corresponding measure, reduce the generation of complication, improve safety.Compared with prior art, effectively prevent the impact of anthropic factor, be not easy erroneous judgement, can normalizing operation be realized.Practical reliable, effective, there are the stronger suitability and economy, have been applicable to applying.Master control IC unit of the present invention is by the function at primary side inductance detection and supervision, stable output voltage is provided when not needing optocoupler and TL431, exclusive built-in constant voltage CV and constant current CC controls, achieve high-precision constant voltage CV and constant current CC to export, effectively meet the application demand of most of charger, improve the precision of output current simultaneously, there is stronger propagation and employment and be worth.Stand-by power consumption when holding state is less, and power savings is obvious, utilizes the sustainable use of the energy.
Accompanying drawing explanation
Fig. 1 is the anesthesia in operating room nursing apparatus structure schematic diagram that the embodiment of the present invention provides;
Fig. 2 is the drawer structure schematic diagram of the anesthesia in operating room nursing device that the embodiment of the present invention provides;
In figure: 1, main body; 2, draw ring; 3, panel computer; 4, felt pen groove; 5, drawer; 6, jube; 7, handle.
Fig. 3 is the structured flowchart of the power subsystem that the embodiment of the present invention provides;
Fig. 4 is the key wiring diagram of the master control IC unit that the embodiment of the present invention provides.
Detailed description of the invention
In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with embodiment, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Below in conjunction with drawings and the specific embodiments, application principle of the present invention is further described.
This anesthesia in operating room nursing device comprises: main body 1, draw ring 2, panel computer 3, felt pen groove 4, drawer 5, jube 6, handle 7;
The upper surface of main body 1 is inlaid with panel computer 3, draw ring 2 is positioned at the two sides of main body 1, the right side of panel computer 3 is adjacent is provided with felt pen groove 4, drawer 5 is movably set in the inside of main body, jube 6 is provided with in drawer 5, drawer 5 compartition is syringe holding tank and anaesthetic holding tank by jube 6, and the outer end of drawer 5 is provided with handle 7.
Described main body 1 material is timber.
Described felt pen groove 4 is provided with clamp button of the spring.
Described syringe holding tank is provided with clamp button of the spring.
Described main body 1 places medical supersonic instrument, and described medical supersonic instrument comprises power subsystem, driver element, anesthetic puncture device, CPU, ultrasonic control device and ultrasonic image display unit;
Anesthetic puncture device is used for anaesthetizing targetedly;
Ultrasonic control device, for the effect to the acquisition and processing of ultrasound image information and the synthesis of various information;
CPU, for the process of information and the function of storage;
Driver element, for power drive energy;
Power subsystem, for providing power supply for driver element;
Ultrasonic image display unit, for the compound display function to various information.
As shown in Figure 3, this power subsystem comprises: power supply input filter 11, commutator 12, elementary RCD absorption circuit 13, master control IC unit 14, inductive transformer 15, secondary Schottky absorption circuit 16, DC filter 17, output low-voltage rectifier 18 totally eight parts.Power supply input filter 11 is for giving power subsystem input AC electricity, the undesirable AC wave of elimination simultaneously, then electric current is passed to commutator 12 rectification, electric current after rectification arrives elementary RCD absorption circuit 13, after absorbing, an electric current part, to master control IC unit 14, obtains constant voltage and current after master control IC unit 14, then arrives transformer secondary output by inductive transformer 15; Electric current another part directly arrives transformer secondary output by inductive transformer 15, and two parts electric current by after secondary Schottky absorption circuit 16 absorption and DC filter 17 filtering, then exports by exporting low-voltage rectifier 18.
As shown in Figure 4, master control IC unit 14 mainly comprises:
Low-voltage variation module is used for monitoring supply voltage, guarantees that power work is in the scope of a reasonable benefit/risk.The scope that PR902 is arranged is 7-12.5V.
Whether overvoltage protective module is used for detecting supply voltage too high, when supply voltage closes PR902 and output more than 28V, ensures security of system.
5V Voltage stabilizing module is for generation of the internal electric source of 5V.
Reference voltage module produces internal reference voltage and current.
Peak value comparison method module is for controlling the peak point current of each switch periods.
The lead-edge-blanking set of time module installation lead-edge-blanking time, ensure that peak value comparison method module can not maloperation.
Voltage-drop compensation module carries out line loss compensation, ensures that, in different loads situation, output voltage can not change because output lead is oversize.
Constant-current control module is used for current constant control, ensures high-precision constant current output.
Sampling and storage module are used for sampling and keeping feedback voltage.
Error amplifier block is error amplifier, for amplifying the error signal of output voltage, carries out loop control.
Isobarically Control module is used for Isobarically Control, ensures output voltage stabilization and the output accuracy had.
Clock cycle controls time out control module for setting the time out of each clock cycle, controls for pulse frequency modulated.
Application of logic circuit module receives the various logic signal of IC, and produces final control signal.
The transistor base module transistor power pipe of certain electric current drive IC outside.
PR902 adopts former limit control technology, does not need the optocoupler in conventional winding power supply and TL431, has saved system cost.Feedback pin, by the dividing potential drop sampling and outputting voltage of auxiliary winding, is sent into EA module and is amplified error signal, then coordinate Isobarically Control module stability output voltage and ensure good output accuracy.Under constant voltage mode of operation, line loss compensation module can ensure that, in different loads situation, output voltage can not change because output lead is oversize.When system works is in constant current mode, constant-current control module ensures that PR902 has high-precision constant current output.PR902 adopts constant current and the pre-output type of drive turned off, and while ensureing enough driving forces, make use of the base stored charge of power transistor, effectively can reduce waste of energy, improve system effectiveness.
Master control IC unit 14 is used to make full use of PR902 in the function of transformer primary inductance detection with supervision, stable output voltage is provided when not needing optocoupler and TL431, the built-in constant voltage CV exclusive with it and constant current CC controls to realize high-precision constant voltage CV and constant current CC and exports, to reach the object of economize on electricity.
The power subsystem of the super-low standby power consumption that the embodiment of the present invention provides, stand-by power consumption when holding state is less, power savings is obvious, utilize the sustainable use of the energy, master control IC unit 14 is by the function at primary side inductance detection and supervision, stable output voltage is provided when not needing optocoupler and TL431, exclusive built-in constant voltage CV and constant current CC controls, achieve high-precision constant voltage CV and constant current CC to export, effectively meet the application demand of most of charger, improve the precision of output current simultaneously, there is stronger propagation and employment be worth.
Another object of the present invention is to a kind of central processing unit controls method providing anesthesia in operating room nursing device, described central processing unit controls method is applicable to central processing unit, comprising:
The temperature threshold value of setting central processing unit;
Judge maximumly to process load capacity according to said temperature marginal value;
According to collecting platform power management technique, multiple first task is combined into the first continuous operation task;
Judge whether the load capacity of above-mentioned first continuous operation task is greater than and above-mentionedly maximumly process load capacity;
When the above-mentioned load capacity of above-mentioned first continuous operation task be greater than above-mentioned maximum process load capacity time, above-mentioned first task of overload part one of in above-mentioned first continuous operation task is shifted out above-mentioned first continuous operation task;
When receiving above-mentioned first continuous operation task, above-mentioned CPU is switched to an operator scheme by a park mode, and process above-mentioned first continuous operation task; And after above-mentioned first continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode;
The operation frequency of central processing unit has normal operating frequency under operation, and said method also comprises:
The first operation frequency is determined according to the above-mentioned load capacity of above-mentioned first continuous operation task and said temperature marginal value; And
When above-mentioned central processing unit switches to aforesaid operations pattern, the operation frequency of above-mentioned central processing unit is promoted to above-mentioned first operation frequency by above-mentioned normal operating frequency, and by the above-mentioned first continuous operation task of above-mentioned first operation frequency process;
Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Central processing unit control method, also comprises:
After above-mentioned first continuous operation task process completes and above-mentioned central processing unit enters above-mentioned park mode, be combined into the second continuous operation task according to collecting above-mentioned first task of platform power management technique by multiple second task and above-mentioned overload part;
When receiving above-mentioned second continuous operation task, above-mentioned CPU is switched to aforesaid operations pattern by above-mentioned park mode;
The operation frequency of above-mentioned central processing unit is promoted to the second operation frequency by above-mentioned normal operating frequency, by the above-mentioned second continuous operation task of above-mentioned second operation frequency process; And after above-mentioned second continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode; Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Between the time point that central processing unit uses above-mentioned first operation frequency above-mentioned first continuous operation task process to be completed and the time point starting to receive above-mentioned second continuous operation task, there is one first interval time, and use above-mentioned normal frequency above-mentioned first continuous operation task process to be completed and received between above-mentioned second continuous operation task to there is the second interval time, be wherein less than above-mentioned second interval time above-mentioned first interval time.
Injection syringe for anaesthesia and anaesthetic can be deposited in drawer 5 by anesthetic care personnel, when carrying out anesthetic care operation, entering in panel computer 3 by felt pen by anesthetic record, can check the record of any a day at any time, facilitating anesthetic care librarian use.
The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.
Claims (4)
1. an anesthesia in operating room nursing device, is characterized in that, this anesthesia in operating room nursing device comprises: main body, draw ring, panel computer, felt pen groove, drawer, jube, handle and medical supersonic instrument;
The upper surface of main body is inlaid with panel computer, draw ring is positioned at the two sides of main body, the right side of panel computer is adjacent is provided with felt pen groove, drawer is movably set in the inside of main body, jube is provided with in drawer, drawer space is divided into syringe holding tank and anaesthetic holding tank by jube, and the outer end of drawer is provided with handle;
Described material of main part is timber, and described felt pen groove is provided with clamp button of the spring, and described syringe holding tank is provided with clamp button of the spring;
Described main body is placed medical supersonic instrument, described medical supersonic instrument comprises power subsystem, driver element, anesthetic puncture device, CPU, ultrasonic control device and ultrasonic image display unit;
Anesthetic puncture device is used for anaesthetizing targetedly;
Ultrasonic control device, for the effect to the acquisition and processing of ultrasound image information and the synthesis of various information;
CPU, for the process of information and the function of storage;
Driver element, for power drive energy;
Power subsystem, for providing power supply for driver element;
Ultrasonic image display unit, for the compound display function to various information.
2. anesthesia in operating room nursing device as claimed in claim 1, it is characterized in that, described power subsystem comprises: power supply input filter, commutator, elementary RCD absorption circuit, master control IC unit, inductive transformer, secondary Schottky absorption circuit, DC filter, output low-voltage rectifier;
Described power supply input filter is connected with described commutator, described commutator is connected with described elementary RCD absorption circuit, described elementary RCD absorption circuit and master control IC unit are connected with described inductive transformer respectively, described inductive transformer is connected with described secondary Schottky absorption circuit, described secondary Schottky absorption circuit is connected with described DC filter, and described DC filter is connected with described output low-voltage rectifier;
The input voltage of described power subsystem is AC85-240V, and output voltage is DC1-100V; Alternating current power supply is linked in power subsystem by plug mode, wire access way or binding post mode, and described master control IC unit adopts master control ICPR902, and described master control IC unit is crossing current/constant voltage former limit controller;
Described master control IC unit comprises:
Low-voltage variation module, be used for monitoring supply voltage, guarantee that power work is in the scope of a reasonable benefit/risk, the scope of setting is 7-12.5V;
Whether too high overvoltage protective module, be used for detecting supply voltage, when supply voltage closes PR902 and output more than 28V, ensures security of system;
Reference voltage module, for generation of internal reference voltage and current;
Peak value comparison method module, for controlling the peak point current of each switch periods;
Lead-edge-blanking set of time module, for arranging the lead-edge-blanking time, ensures that peak value comparison method module can not maloperation;
Voltage-drop compensation module, for carrying out line loss compensation, ensures that, in different loads situation, output voltage can not change because output lead is oversize;
Constant-current control module, for current constant control, ensures high-precision constant current output;
Sampling and storage module, for sampling and keeping feedback voltage;
Error amplifier block is error amplifier, for amplifying the error signal of output voltage, carries out loop control;
Isobarically Control module, for Isobarically Control, ensures output voltage stabilization and the output accuracy had;
Clock cycle controls time out control module, for setting the time out of each clock cycle, controls for pulse frequency modulated;
Application of logic circuit module, for receiving the various logic signal of IC, and produces final control signal;
Transistor base module, for the transistor power pipe with certain electric current drive IC outside.
3. anesthesia in operating room nursing device as claimed in claim 2, it is characterized in that, described master control IC unit also comprises: Voltage stabilizing module, for generation of the internal electric source of 5V.
4. a central processing unit controls method for anesthesia in operating room nursing device, is characterized in that, described central processing unit controls method is applicable to central processing unit, comprising:
The temperature threshold value of setting central processing unit;
Judge maximumly to process load capacity according to said temperature marginal value;
According to collecting platform power management technique, multiple first task is combined into the first continuous operation task;
Judge whether the load capacity of above-mentioned first continuous operation task is greater than and above-mentionedly maximumly process load capacity;
When the above-mentioned load capacity of above-mentioned first continuous operation task be greater than above-mentioned maximum process load capacity time, above-mentioned first task of overload part one of in above-mentioned first continuous operation task is shifted out above-mentioned first continuous operation task;
When receiving above-mentioned first continuous operation task, above-mentioned CPU is switched to an operator scheme by a park mode, and process above-mentioned first continuous operation task; And after above-mentioned first continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode;
The operation frequency of central processing unit has normal operating frequency under operation, and said method also comprises:
The first operation frequency is determined according to the above-mentioned load capacity of above-mentioned first continuous operation task and said temperature marginal value; And
When above-mentioned central processing unit switches to aforesaid operations pattern, the operation frequency of above-mentioned central processing unit is promoted to above-mentioned first operation frequency by above-mentioned normal operating frequency, and by the above-mentioned first continuous operation task of above-mentioned first operation frequency process;
Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Central processing unit control method, also comprises:
After above-mentioned first continuous operation task process completes and above-mentioned central processing unit enters above-mentioned park mode, be combined into the second continuous operation task according to collecting above-mentioned first task of platform power management technique by multiple second task and above-mentioned overload part;
When receiving above-mentioned second continuous operation task, above-mentioned CPU is switched to aforesaid operations pattern by above-mentioned park mode;
The operation frequency of above-mentioned central processing unit is promoted to the second operation frequency by above-mentioned normal operating frequency, by the above-mentioned second continuous operation task of above-mentioned second operation frequency process; And after above-mentioned second continuous operation task process completes, above-mentioned central processing unit is set to above-mentioned park mode; Wherein the operating frequency of above-mentioned first operation frequency is higher than the operating frequency of above-mentioned normal operating frequency;
Between the time point that central processing unit uses above-mentioned first operation frequency above-mentioned first continuous operation task process to be completed and the time point starting to receive above-mentioned second continuous operation task, there is one first interval time, and use above-mentioned normal frequency above-mentioned first continuous operation task process to be completed and received between above-mentioned second continuous operation task to there is the second interval time, be wherein less than above-mentioned second interval time above-mentioned first interval time.
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