阅读说明：本技术 射频操作对象数据异常的保护方法、射频主机和存储介质 (Method for protecting data exception of radio frequency operation object, radio frequency host and storage medium ) 是由 崔长杰 徐宏 于 2020-12-31 设计创作，主要内容包括：一种射频操作对象数据异常的保护方法、射频主机和存储介质,其中射频操作对象数据异常的保护方法包括：确认射频操作对象的数据保护模式,数据保护模式包括单保护模式和双保护模式；若数据保护模式为双保护模式,则实时检测与双保护模式对应的射频操作对象的第一物理特性数据和第二物理特性数据；当第一物理特性数据的值和第二物理特性数据的值分别超出各自对应的预设的数值范围时,按照第一物理特性数据和第二物理特性数据的保护优先级的先后顺序,分别调整第一物理特性数据的值和第二物理特性数据的值,使得第一物理特性数据的值和第二物理特性数据的值均位于各自对应的数值范围内,可提高射频操作的成功率和安全性。(A method for protecting data exception of radio frequency operation object, a radio frequency host and a storage medium are provided, wherein the method for protecting data exception of radio frequency operation object comprises the following steps: confirming a data protection mode of a radio frequency operation object, wherein the data protection mode comprises a single protection mode and a double protection mode; if the data protection mode is a double protection mode, detecting first physical characteristic data and second physical characteristic data of a radio frequency operation object corresponding to the double protection mode in real time; when the value of the first physical characteristic data and the value of the second physical characteristic data respectively exceed the corresponding preset numerical value ranges, the value of the first physical characteristic data and the value of the second physical characteristic data are respectively adjusted according to the sequence of the protection priority of the first physical characteristic data and the protection priority of the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the corresponding numerical value ranges, and the success rate and the safety of radio frequency operation can be improved.)

1. A method for protecting data exception of a radio frequency operation object is characterized by comprising the following steps:

confirming a data protection mode of a radio frequency operation object, wherein the data protection mode comprises a single protection mode and a double protection mode;

if the data protection mode is a double protection mode, detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time;

when the value of the first physical characteristic data and the value of the second physical characteristic data respectively exceed the corresponding preset numerical value ranges, respectively adjusting the value of the first physical characteristic data and the value of the second physical characteristic data according to the sequence of the protection priority of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the corresponding numerical value ranges.

2. The method of claim 1, wherein the dual protection mode is a temperature impedance dual protection mode, the first physical characteristic data is temperature, the second physical characteristic data is impedance, and the real-time detection of the first physical characteristic data and the second physical characteristic data of the rf operation object corresponding to the dual protection mode comprises:

and detecting the temperature and the impedance of the radio frequency operation object in real time.

3. Method according to claim 1 or 2, characterized in that the protection priority of the temperature of the radio frequency operator is higher than the protection priority of the impedance of the radio frequency operator.

4. The method according to claim 3, wherein the adjusting the value of the first physical characteristic data and the value of the second physical characteristic data according to the priority of protection of the first physical characteristic data and the second physical characteristic data, respectively, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding numerical value ranges comprises:

controlling an injection pump to inject a cooling medium into the radio frequency operation object according to a preset temperature regulation injection amount, so that the temperature value of the radio frequency operation object is in a preset first numerical value range;

when the injection volume of the injection pump reaches a temperature regulation limit value and the temperature value of the radio frequency operation object exceeds the first numerical range, controlling the output power of the radio frequency signal so that the temperature value of the radio frequency operation object is in the first numerical range;

and controlling the injection pump to inject a cooling medium into the radio frequency operation object according to a preset impedance regulation injection amount, so that the impedance value of the radio frequency operation object is within a preset second value range.

5. The method of claim 4, further comprising:

acquiring a corresponding relation between a preset adjustment quantity of a temperature regulation injection quantity and an adjustment quantity of a temperature value of the radio frequency operation object;

and inquiring the corresponding relation according to the difference value between the target value of the temperature regulation and control and the current temperature value of the radio frequency injection object to obtain the adjustment quantity of the temperature regulation and control injection quantity, and obtaining the temperature regulation and control injection quantity according to the current injection quantity and the adjustment quantity.

6. The method of claim 5, wherein the single protection mode comprises: a temperature single protection mode and an impedance single protection mode, wherein the data protection mode for confirming the radio frequency operation object comprises the following steps:

acquiring the setting information of the data protection mode of a user;

if the user sets the data protection mode, confirming that the data protection mode of the radio frequency operation object is one of the temperature single protection mode, the impedance single protection mode or the temperature impedance double protection mode according to the setting of the user;

and if the user does not set the data protection mode, confirming that the data protection mode of the radio frequency operation object is the temperature impedance double protection mode.

7. The method of claim 6, wherein confirming the data protection mode of the radio frequency operator further comprises:

if the data protection mode is a temperature single protection mode, detecting the temperature value of the radio frequency operation object in real time;

and if the data protection mode is an impedance single protection mode, detecting the impedance value of the radio frequency operation object in real time.

8. A radio frequency host, comprising:

the system comprises a confirming module, a judging module and a judging module, wherein the confirming module is used for confirming a data protection mode of a radio frequency operation object, and the data protection mode comprises a single protection mode and a double protection mode;

the detection module is used for detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time if the data protection mode is the double protection mode;

and the adjusting module is configured to respectively adjust the value of the first physical characteristic data and the value of the second physical characteristic data according to the sequence of the protection priorities of the first physical characteristic data and the second physical characteristic data when the value of the first physical characteristic data and the value of the second physical characteristic data exceed the respective corresponding preset numerical value ranges, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding numerical value ranges.

9. A radio frequency host, comprising:

a memory and a processor;

the memory stores executable program code;

the processor, coupled to the memory, invokes the executable program code stored in the memory to perform the method for protecting radio frequency operand data exceptions of any of claims 1-7.

10. A computer-readable storage medium, on which a computer program is stored, which, when executed by a processor, implements a method of protecting radio frequency operand data anomalies as claimed in any one of claims 1 to 7.

Technical Field

The embodiment of the application relates to the technical field of electronics, in particular to a method for protecting data exception of a radio frequency operation object, a radio frequency host and a computer readable storage medium.

Background

In the radio frequency operation process, physical characteristic parameters of a radio frequency operation object may change along with the radio frequency operation, and if the radio frequency operation object is not controlled in time, the radio frequency operation object may be damaged, which causes a failure of equipment such as a radio frequency host computer, etc., resulting in abnormal radio frequency operation, and further may cause damage to a user performing the radio frequency operation.

In the prior art, an operator generally regulates and controls physical characteristic parameters of a radio frequency operation object by using operation experience, the processing mode is not accurate enough, the radio frequency operation object cannot be effectively protected, and the success rate and the safety of radio frequency operation are reduced.

Disclosure of Invention

The embodiment of the application provides a method for protecting data exception of a radio frequency operation object, a radio frequency host and a computer readable storage medium, which can realize automatic and accurate regulation and control of the physical characteristic parameters of the exception of the radio frequency operation object, effectively protect the radio frequency operation object and improve the success rate and the safety of the radio frequency operation.

An aspect of the present application provides a method for protecting data exception of a radio frequency operation object, including:

confirming a data protection mode of a radio frequency operation object, wherein the data protection mode comprises a single protection mode and a double protection mode; if the data protection mode is a double protection mode, detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time; when the value of the first physical characteristic data and the value of the second physical characteristic data respectively exceed the corresponding preset numerical value ranges, respectively adjusting the value of the first physical characteristic data and the value of the second physical characteristic data according to the sequence of the protection priority of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the corresponding numerical value ranges.

An aspect of the embodiments of the present application further provides a radio frequency host, including:

the system comprises a confirming module, a judging module and a judging module, wherein the confirming module is used for confirming a data protection mode of a radio frequency operation object, and the data protection mode comprises a single protection mode and a double protection mode; the detection module is used for detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time if the data protection mode is the double protection mode; and the adjusting module is configured to respectively adjust the value of the first physical characteristic data and the value of the second physical characteristic data according to the sequence of the protection priorities of the first physical characteristic data and the second physical characteristic data when the value of the first physical characteristic data and the value of the second physical characteristic data exceed the respective corresponding preset numerical value ranges, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding numerical value ranges.

An aspect of the embodiments of the present application further provides a radio frequency host, including:

a memory and a processor; the memory stores executable program code; the processor coupled to the memory calls the executable program code stored in the memory to perform the method for protecting against data exceptions in the RF operand as described above.

An aspect of the embodiments of the present application further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the method for protecting data exception of a radio frequency operation object as described above.

It can be known from the foregoing embodiments of the present application that, when the data protection mode of the rf operation object is a dual protection mode, the first physical characteristic data and the second physical characteristic data of the rf operation object corresponding to the dual protection mode are detected in real time, and when the value of the first physical characteristic data and the value of the second physical characteristic data exceed the respective preset value ranges, the first physical characteristic data and the second physical characteristic data are respectively adjusted according to the sequence of the protection priorities of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding value ranges, and through double adjustment of the sequence of the two physical characteristic data of the rf operation object, the success rate of the rf operation can be improved, and device damage and personnel injury caused by data abnormality in the rf operation can be avoided, thereby improving the security of radio frequency operation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without inventive labor.

Fig. 1 is a schematic view of an application scenario of a method for protecting data exception of a radio frequency operation object according to an embodiment of the present application;

fig. 2 is a schematic flowchart of a method for protecting data anomaly of a radio frequency operation object according to an embodiment of the present application;

fig. 3 is a schematic flowchart of a method for protecting data anomaly of an rf operation object according to another embodiment of the present application;

fig. 4 is a schematic structural diagram of a radio frequency host according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a radio frequency host according to another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an application scenario diagram of the method for protecting data anomaly of a radio frequency operation object according to an embodiment of the present application is provided, and the method for protecting data anomaly of a radio frequency operation object can be used for adjusting a temperature value and/or an impedance value of a radio frequency operation object in a radio frequency operation process, so as to improve the success rate safety of radio frequency operation.

Specifically, as shown in fig. 1, the rf mainframe 100, the syringe pump 200 and the rf operation object 300 are interconnected to form an rf operation system, and during rf operation, the rf mainframe 100 sends an rf signal through the rf generating device, and acts on a specified position of the rf operation object 300 through the rf probe of the rf mainframe, and as the property of the specified position of the rf operation object 300 changes, the physical characteristic data of the rf operation object 300 detected by the detecting device of the rf mainframe 100 also changes. The syringe pump 200 has an injection device, and under the control of the control device of the syringe pump 200, a cooling medium having a cooling effect, which is usually a liquid, is injected to a specified position (i.e., an operation position) of the radio frequency operation object 300, and the physical properties of the operation position can be adjusted by adjusting the injection amount of the liquid, which is safe and harmless, such as physiological saline or the like, and specifically, the injection amount can be adjusted by controlling the injection flow rate. The radio frequency host 100 and the syringe pump 200 are connected to form a radio frequency operating system, the radio frequency host 100 becomes a master device of the radio frequency operating system after the connection, the syringe pump 200 becomes a slave device, and the control device of the radio frequency host 100 controls the syringe pump 200 to complete the injection operation. The rf operation object 300 may be any object that needs to be operated by rf, for example, when the rf host 300 is an rf ablation apparatus, the rf operation object may be an animal that needs to ablate the variant tissue in the body.

Referring to fig. 2, a schematic flow chart of a method for protecting data anomaly of a radio frequency operation object according to an embodiment of the present application is provided. The method can be applied to the radio frequency host shown in fig. 1, and specifically includes, as shown in fig. 2:

step S201, confirming a data protection mode of a radio frequency operation object;

the data protection mode comprises a single protection mode and a double protection mode, wherein the single protection mode comprises a temperature single protection mode and an impedance single protection mode, and the double protection mode is a temperature impedance double protection mode.

Step S202, if the data protection mode of the radio frequency operation object is a double protection mode, detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time;

specifically, if the data protection mode of the radio frequency operation object is a double protection mode, that is, a temperature impedance single protection mode, the first physical characteristic data is temperature data, the second physical characteristic data is impedance data, and the first numerical value range is a normal range of temperature values, preferably 34-42 ℃; the second range of values is the normal range of impedance values, preferably 250-350 ohms.

Further, comparing the obtained temperature with a first numerical range corresponding to the obtained temperature, and comparing the obtained impedance with a second numerical range corresponding to the obtained impedance;

and if the temperature value is greater than the maximum value of the first numerical range and is less than the minimum value of the first numerical range, determining that the temperature value is beyond the first numerical range.

And if the value of the impedance is larger than the maximum value of the second numerical range and the value of the impedance is smaller than the minimum value of the second numerical range, determining that the value of the impedance is beyond the second numerical range.

Step S203, when the value of the first physical characteristic data and the value of the second physical characteristic data exceed the respective corresponding preset value ranges, respectively adjusting the value of the first physical characteristic data and the value of the second physical characteristic data according to the sequence of the protection priorities of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both within the respective corresponding value ranges.

When the temperature value is greater than the maximum value of the first numerical range, the temperature value is less than the minimum value of the first numerical range, the impedance value is greater than the maximum value of the second numerical range, and the impedance value is less than the minimum value of the second numerical range, it is determined that the temperature value and the impedance value are respectively beyond the corresponding preset numerical ranges.

The protection priority of the temperature is higher than that of the impedance, namely the protection priority of the temperature of the radio frequency operation object is higher than that of the impedance of the radio frequency operation object, the temperature is firstly adjusted, the impedance is adjusted after the temperature is within a first preset numerical range, and the impedance is also within a second preset numerical range on the premise that the temperature value is within the temperature range.

It should be noted that, if only the temperature exceeds the first numerical range and the impedance does not exceed the second numerical range, the temperature value is adjusted to be within the first numerical range; if only the impedance exceeds the second value range and the temperature does not exceed the first value range, the impedance value is adjusted to be within the second value range.

In the embodiment of the application, when the data protection mode of the radio frequency operation object is a double protection mode, the first physical characteristic data and the second physical characteristic data of the radio frequency operation object corresponding to the double protection mode are detected in real time, when the value of the first physical characteristic data and the value of the second physical characteristic data respectively exceed the respective corresponding preset numerical value ranges, the first physical characteristic data and the second physical characteristic data are respectively adjusted according to the sequence of the protection priority of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding numerical value ranges, the success rate of the radio frequency operation can be improved by double adjustment of the sequence of the two physical characteristic data of the radio frequency operation object, and equipment damage and personnel injury caused by data abnormality in the radio frequency operation can be avoided, thereby improving the security of radio frequency operation.

Referring to fig. 3, a flowchart of an implementation of a method for protecting data exception of a radio frequency operation object according to another embodiment of the present invention is provided. The method can be applied to the rf host shown in fig. 1, and as shown in fig. 3, the method specifically includes:

s301, confirming a data protection mode of a radio frequency operation object;

acquiring setting information, judging whether a data protection mode is set by a user, and if not, defaulting the data protection mode to be a temperature impedance double protection mode; if the setting is already carried out, the data protection mode is confirmed to be one of the temperature single protection mode, the impedance single protection mode or the temperature impedance double protection mode according to the user setting.

Too high a temperature value or impedance value of the rf operator may cause irreversible damage to the rf operator, especially if the temperature value is the direction of important protection.

Step S302, if the data protection mode of the radio frequency operation object is a degree impedance double protection mode, detecting the temperature and the impedance of the radio frequency operation object corresponding to the double protection mode in real time;

further, comparing the obtained temperature value of the radio frequency operation object with a preset first numerical range, wherein the first numerical range is a temperature range, and if the temperature value exceeds the temperature range, adjustment needs to be carried out;

comparing the acquired impedance value of the radio frequency operation object with a preset second value range, wherein the first value range is an impedance range, and if the impedance value exceeds the impedance range, adjustment is needed;

and if the temperature value is larger than the maximum value of the temperature range and is smaller than the minimum value of the temperature range, determining that the real-time detected temperature value exceeds the temperature range.

And if the value of the impedance is larger than the maximum value of the second value range and the value of the impedance is smaller than the minimum value of the impedance range, determining that the real-time detected impedance value exceeds the impedance range.

Step S303, when the temperature value detected in real time exceeds a preset temperature range and the impedance values detected in real time exceed the preset impedance range, preferentially adjusting the temperature value, and when the impedance values are within the preset temperature range, adjusting the impedance values to enable the impedance values to be within the preset impedance range;

specifically, the protection priority of the temperature is higher than that of the impedance, the temperature value is adjusted first, and the temperature value is controlled by combining the injection volume of the injection pump and the output power of the radio frequency signal:

controlling an injection pump to inject a cooling medium to a radio frequency operation object according to a preset temperature regulation injection amount, so that a temperature value of the radio frequency operation object is located in a preset first numerical value range, namely, the temperature value is located in a preset temperature range, and presetting a corresponding relation between an adjustment amount of the temperature regulation injection amount and an adjustment amount of the temperature in a radio frequency host or the injection pump, namely, adjusting the current injection amount by one adjustment amount, correspondingly adjusting the temperature by one adjustment amount, and determining the injection amount which needs to be changed and adjusts the current temperature to a target temperature by inquiring the corresponding relation;

further, if the temperature value detected in real time is greater than the highest value of the temperature range, the preset temperature regulation injection amount is greater than the current injection amount, after the target temperature to be reduced is determined, the corresponding relation is inquired according to the difference value between the current temperature and the target temperature, the increment of the injection amount is obtained, the increment and the current injection amount are added, the temperature regulation injection amount is obtained, and the injection pump is controlled to inject liquid to the radio frequency operation object according to the temperature regulation injection amount. Similarly, if the temperature value detected in real time is smaller than the lowest value of the temperature range, the preset temperature control injection amount is smaller than the current injection amount, the decrement of the injection amount is obtained through inquiry, and the cooling medium is injected according to the decrement injection amount.

When the injection volume of the injection pump reaches the temperature regulation limit value, the temperature value of the radio frequency operation object still exceeds the temperature range, the control of the injection volume is stopped, and the output power of the radio frequency signal is further controlled to adjust the temperature, so that the temperature value of the radio frequency operation object is located in the temperature range. The temperature regulation limit value is smaller than the maximum injection amount of the injection pump, and can be preset according to the actual temperature control requirement, and the temperature regulation limit value is not limited by a specific numerical value. The output power can be adjusted by detecting the voltage and the current in the radio frequency circuit, multiplying the voltage and the current to obtain the actual power, calculating the corresponding relation between the adjustment quantity of the output power and the adjustment quantity of the actual power according to a preset power algorithm, and adjusting the output power, so that the actual power is correspondingly adjusted, and the temperature control purpose is achieved.

Further readjusting the impedance value: and the impedance adjustment is performed only by adjusting the injection amount of the injection pump, and on the premise that the temperature value is kept in the temperature range, the injection pump is continuously controlled to inject the cooling medium to the radio frequency operation object according to the preset impedance adjustment injection amount, so that the impedance value of the radio frequency operation object is in the preset second value range. The adjustment of the injection amount is performed in the same manner as the adjustment of the temperature value, and is referred to and will not be described again.

The cooling medium injected to the radio frequency operation object by the injection pump is liquid capable of reducing temperature, such as physiological saline.

Step S304, if the data protection mode is a temperature single protection mode or an impedance single protection mode, detecting a temperature value or an impedance value of the radio frequency operation object in real time;

if the data protection mode is the temperature single protection mode, detecting the temperature value of the radio frequency operation object in real time;

and if the data protection mode is the impedance single protection mode, detecting the impedance value of the radio frequency operation object in real time.

Step S305, if the real-time detected temperature value exceeds the temperature range, adjusting the temperature value to make the temperature value within the temperature range, and if the real-time detected impedance value exceeds the impedance range, adjusting the impedance value to make the impedance value within the impedance range.

The specific adjusting method is the same as the adjusting method of the temperature and the impedance in the temperature and impedance dual-protection method, the temperature is adjusted by adjusting the injection amount of the injection pump, when the injection amount reaches the temperature regulation limit value, the injection amount is not changed, and the temperature is further adjusted by adjusting the output frequency of the radio frequency signal until the temperature value is within the temperature range.

The impedance is adjusted only by adjusting the injection amount of the injection pump, and the injection amount of the injection pump is continuously adjusted on the premise that the temperature value is kept within the temperature range, so that the impedance is also within the impedance range.

For other technical details of the above steps, reference is made to the description of the embodiment shown in fig. 2, and details are not repeated here.

In the embodiment of the application, when the data protection mode of the radio frequency operation object comprises a temperature single protection mode, an impedance single protection mode and a temperature impedance double protection mode, a plurality of protection modes are provided, the protection flexibility is improved, the temperature, the impedance and the temperature and the impedance of the radio frequency operation object are detected in real time corresponding to the data protection mode, the temperature value is preferentially regulated and controlled in a preset temperature range under the temperature impedance double protection mode, then the impedance is regulated and controlled, the impedance value is regulated and controlled in a preset impedance range, the temperature value is regulated and controlled in a preset temperature range under the temperature single protection mode, the impedance value is regulated and controlled in a preset impedance range under the impedance single protection mode, and a plurality of layers of adjustment are formed and sequentially adjusted through the adjustment of the temperature and the impedance of the radio frequency operation object, so that the adjustment flexibility can be improved, the success rate of the radio frequency operation is improved, and equipment damage and personnel injury caused by data abnormity in the radio frequency operation are avoided, so that the safety of the radio frequency operation is improved.

Referring to fig. 4, a schematic structural diagram of a radio frequency host according to an embodiment of the present application is provided. For convenience of explanation, only portions related to the embodiments of the present application are shown. The rf host is the rf host shown in fig. 1 to 3, and includes:

a confirming module 401, configured to confirm a data protection mode of the radio frequency operation object, where the data protection mode includes a single protection mode and a double protection mode;

a detecting module 402, configured to detect, in real time, first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to a dual protection mode if the data protection mode is the dual protection mode;

an adjusting module 403, configured to, when the value of the first physical characteristic data and the value of the second physical characteristic data exceed respective corresponding preset value ranges, respectively adjust the value of the first physical characteristic data and the value of the second physical characteristic data according to a sequence of protection priorities of the first physical characteristic data and the second physical characteristic data, so that the value of the first physical characteristic data and the value of the second physical characteristic data are both located in the respective corresponding value ranges.

When the data protection mode of the radio frequency operation object is a double protection mode, detecting first physical characteristic data and second physical characteristic data of the radio frequency operation object corresponding to the double protection mode in real time, and when the value of the first physical characteristic data and the value of the second physical characteristic data respectively exceed the respective corresponding preset numerical value ranges, respectively adjusting the first physical characteristic data and the second physical characteristic data according to the sequence of the protection priority of the first physical characteristic data and the second physical characteristic data to enable the value of the first physical characteristic data and the value of the second physical characteristic data to be respectively located in the respective corresponding numerical value ranges, through double adjustment of the sequence of the two physical characteristic data of the radio frequency operation object, the success rate of the radio frequency operation can be improved, and equipment damage and personnel injury caused by data abnormity in the radio frequency operation can be avoided, thereby improving the security of radio frequency operation.

Further, the dual protection mode is a temperature impedance dual protection mode, the first physical characteristic data is temperature, and the second physical characteristic data is impedance.

The detecting module 402 is further used for detecting the temperature and the impedance of the radio frequency operation object in real time.

The protection priority of the temperature of the radio frequency operated object is higher than the protection priority of the impedance of the radio frequency operated object.

The adjusting module 403 is further configured to control the injection pump to inject the cooling medium into the radio frequency operation object according to a preset temperature regulation injection amount, so that the temperature value of the radio frequency operation object is within a preset first numerical value range;

when the injection volume of the injection pump reaches the temperature regulation limit value and the temperature value of the radio frequency operation object exceeds the first numerical value range, controlling the output power of the radio frequency signal so as to enable the temperature value of the radio frequency operation object to be in the first numerical value range;

and controlling the injection pump to inject the cooling medium into the radio frequency operation object according to the preset impedance regulation injection amount, so that the impedance value of the radio frequency operation object is in a preset second value range.

The adjusting module 403 is further configured to obtain a corresponding relationship between an adjustment amount of a preset temperature regulation injection amount and an adjustment amount of a temperature value of the radio frequency operation object; and inquiring the corresponding relation according to the difference value between the target value of the temperature regulation and control and the current temperature value of the radio frequency injection object to obtain the adjustment quantity of the temperature regulation and control injection quantity, and obtaining the temperature regulation and control injection quantity according to the current injection quantity and the adjustment quantity.

Further, the single protection mode includes: a temperature single protection mode and an impedance single protection mode;

the confirmation module 401 is further configured to obtain setting information of the data protection mode from the user; if the user sets a data protection mode, confirming that the data protection mode of the radio frequency operation object is one of a temperature single protection mode, an impedance single protection mode or a temperature impedance double protection mode according to the setting of the user; and if the user does not set the data protection mode, determining that the data protection mode of the radio frequency operation object is a temperature impedance double protection mode.

The detection module 402 is further configured to detect a temperature value of the radio frequency operation object in real time if the data protection mode is the temperature single protection mode; and if the data protection mode is the impedance single protection mode, detecting the impedance value of the radio frequency operation object in real time.

In the embodiment of the application, when the data protection mode of the radio frequency operation object comprises a temperature single protection mode, an impedance single protection mode and a temperature impedance double protection mode, a plurality of protection modes are provided, the protection flexibility is improved, the temperature, the impedance and the temperature and the impedance of the radio frequency operation object are detected in real time corresponding to the data protection mode, the temperature value is preferentially regulated and controlled in a preset temperature range under the temperature impedance double protection mode, then the impedance is regulated and controlled, the impedance value is regulated and controlled in a preset impedance range, the temperature value is regulated and controlled in a preset temperature range under the temperature single protection mode, the impedance value is regulated and controlled in a preset impedance range under the impedance single protection mode, and a plurality of layers of adjustment are formed and sequentially adjusted through the adjustment of the temperature and the impedance of the radio frequency operation object, so that the adjustment flexibility can be improved, the success rate of the radio frequency operation is improved, and equipment damage and personnel injury caused by data abnormity in the radio frequency operation are avoided, so that the safety of the radio frequency operation is improved.

As shown in fig. 5, an embodiment of the present application further provides a radio frequency host, which includes a memory 500 and a processor 600, where the processor 600 may be the detection device in the foregoing embodiments, or may be the control device. The memory 500 is, for example, a hard disk drive memory, a non-volatile memory (e.g., a flash memory or other electronically programmable deletion-limited memory used to form a solid state drive, etc.), a volatile memory (e.g., a static or dynamic random access memory, etc.), and the like, and the embodiments of the present application are not limited thereto.

The memory 500 stores executable program code; the processor 600, coupled to the memory 500, invokes the executable program code stored in the memory to perform the method for protecting against data exceptions for the radio frequency operand as described above.

Further, an embodiment of the present invention further provides a computer-readable storage medium, where the computer-readable storage medium may be disposed in the radio frequency host in the foregoing embodiments, and the computer-readable storage medium may be the memory 500 in the foregoing embodiment shown in fig. 5. The computer readable storage medium has stored thereon a computer program, which when executed by a processor implements the method for protecting data exception of the rf operation object described in the embodiments shown in fig. 2 and 3. Further, the computer-readable storage medium may be various media that can store program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a RAM, a magnetic disk, or an optical disk.

For further technical details, reference is made to the description of the preceding embodiments.

It should be noted that, for the sake of simplicity, the above-mentioned method embodiments are described as a series of acts or combinations, but those skilled in the art should understand that the present invention is not limited by the described order of acts, as some steps may be performed in other orders or simultaneously according to the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no acts or modules are necessarily required of the invention.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the above description of the method for protecting data exception of rf operation object, the rf host and the computer readable storage medium provided by the present invention, for those skilled in the art, there may be variations in the specific implementation and application scope according to the ideas of the embodiments of the present invention, and in summary, the contents of the present specification should not be construed as limiting the present invention.