CN214122732U - 4MHz circuit system of host machine of hemorrhoid - Google Patents

Abstract

The utility model provides a 4MHz circuit system of a host machine of hemorrhoids, which comprises an isolator, a power output device, a driver, a DC power supply device, a low-voltage power supply and a controller; the controller is respectively connected with the other components through a CPU, wherein the driver is connected with the power follower, the DC power supply is connected with the power follower and used for providing DC voltage for the power follower, and the low-voltage power supply supplies power to the driver, the power follower and the controller; the IO port of the controller is used for controlling the pedals and communicating with the LCD screen; the software implementation synthesis step comprises: initializing the function of the AD module; reading the voltage, reading the AD conversion value for multiple times and averaging; calculating energy efficiency and energy accumulation; energy efficiency and energy accumulation are sent to an LCD screen for display. The utility model reduces the heat damage to the human body by increasing the frequency; and an output utilization ground loop is arranged, so that the power output does not need to be connected with a negative plate, and the possibility of burning is reduced.

Description

4MHz circuit system of host machine of hemorrhoid

Technical Field

The utility model relates to a medical instrument, especially a haemorrhoids machine especially relates to a haemorrhoids host computer 4MHz circuit system.

Background

Many physicians have found, in clinical outpatient case flow studies, that early stage hemorrhoid patients account for approximately 43% -50% of outpatient times. However, the treatment method is deficient, and the frequently adopted methods include drug treatment, such as oral drugs for improving local microcirculation, anal suppository and ointment, hip bath therapy, Chinese patent medicine oral administration and the like. But the therapeutic effect is limited.

The conventional operation treatment or the PPH treatment can easily cause overlarge wound for the early hemorrhoids, and the traditional Chinese medicine is over-treated and is not easy to be accepted by patients. Finding a minimally invasive and precise treatment method is particularly important for patients with early hemorrhoids, especially for teenagers.

For the minimally invasive accurate treatment method, the minimally invasive device for the hemorrhoid ablation operation is produced.

When the device is used clinically, an operator can not only visually observe the cauterization state of lesion tissues to evaluate the treatment effect, but also hope to provide corresponding data through an LCD screen for reference, and the device can provide important information related to energy from an instant and timely long scale, and has practical significance for the effective use of the device and the control of a doctor on the progress of treatment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a 4MHz circuit system suitable for radiofrequency ablation therapeutic instrument host computer can make the wicresoft treatment of eliminating hemorrhoid go on more accurately, the efficient.

In order to achieve the above purpose, the utility model provides a technical scheme as follows:

a4 MHz circuit system of a host machine of a hemorrhoid machine is characterized by comprising an isolator, a power follower, a driver, a DC power supply, a low-voltage power supply and a controller, wherein the controller is respectively connected with other components through a CPU (central processing unit), the driver and the DC power supply are connected with the power follower, the DC power supply is used for providing DC voltage for the power follower, and the low-voltage power supply is used for supplying power for the driver, the power follower and the controller; the IO port of the controller is used for controlling the pedals and communicating with the LCD screen.

The LCD screen working process is as follows: the current module sampling circuit is connected in series to a radio frequency power amplifier DC power supply loop, an output voltage signal is positively related to a current signal, and the CPU converts the acquired voltage signal through AD conversion; the CPU obtains the sampling value, combines the parameters such as the power setting value and the equipment working state, provides the actual radio frequency output instantaneous energy efficiency and the energy accumulation value and sends the values to the LCD screen for display.

The method for calculating the instantaneous energy efficiency and the energy accumulation value comprises the following steps that absolute DC current values under a nominal resistance value and a full power condition when the device is in radio frequency output are used, and a DC voltage AD value converted by the corresponding DC current at the moment is used as a reference:

calculating instantaneous energy efficiency: the CPU obtains a DC voltage AD value, selects a proper power reference interval [1W, 25W ] or [25W, 50W ] by combining the actually set power, and calculates the instantaneous energy efficiency percentage;

calculation of energy accumulation value: and (4) the CPU accumulates the instantaneous energy efficiency at equal intervals by combining the actually set power.

The isolator comprises an isolation power supply module M2 and an optical coupling isolation chip U27, wherein the isolation power supply module M2 is used for outputting isolated voltage; the optical coupling isolation chip U27 is used for isolating a control signal of an analog quantity, the analog signal is from a DAC _ HV _ MCU of the single chip microcomputer and is isolated and output to a DAC _ HV _ P, and the DAC _ HV _ P controls the DC power supply to control the output power; the high-voltage DC control output DAC _ HV _ MCU of the main CPU is isolated by the optical coupling isolation chip U27 and then is provided for the high-voltage power amplifier output stage circuit for DAC _ HV _ P; the +5V/GND and the +5VP/GNDP are electrically isolated; the model of the optical coupling isolation chip U27 is HCNR 201.

The power output device comprises a power amplifier tube Q4 and an inductor L2, the power amplifier tube Q4 and the inductor L2 form a power amplifier circuit, the power amplifier tube Q4 and the inductor L2 are connected to form a power amplifier circuit, power output can be carried out, 4MHz high-frequency energy is coupled and output through a capacitor C16, but the 4MHz high-frequency energy is output to a user socket interface through on/off control of RelayK 1; the RelayK1 is controlled by the K _ DRIVE1 of the main CPU; in addition, the voltage transformer T4 collects the voltage of the power amplifier output stage in real time for the monitoring of the main CPU; the Q4 model is IRF 840; the voltage transformer T4 is PE51686 in model.

The driver comprises a single chip microcomputer U24, a 4MHz crystal oscillator Y2 and a single chip microcomputer U5, the single chip microcomputer U24 outputs a low-power driving signal and then sends the low-power driving signal to the single chip microcomputer U5 to further amplify and drive a power part, and the single chip microcomputer U24 and the 4MHz crystal oscillator Y2 form a 4MHz oscillation square wave circuit; PWM _ CTL1 of the CPU is isolated through an optocoupler 4N 35O 2; the model of the singlechip U24 is 74HC 00. The singlechip U5 is stm32f103cbt6 type singlechip of Italian semiconductor ST company.

The DC power supply comprises a central output power supply, wherein branches 1-7 are arranged on the central output power supply, wherein the branch 1 is connected with a 1k-SMD surface mounting component, a branch 2 is connected with a 2k-SMD surface mounting component, the tail end of the branch is a power grounding cathode, and an OR-SMD surface mounting component is arranged between the branch 3 and the branch 4. The four tail ends of the branch are power grounding cathodes, the branch 5 is connected with a 680R @100M inductor L13, the branch is also connected with two capacitors 100UF C2 and 104C3 which are connected in parallel, a power grounding cathode is arranged between the C2 and the C3, the near end of the branch 6 is connected with a R1020 k-SMD surface mounting component, the far end of the branch is connected with a R13410 omega-SMD surface mounting component which is connected with a capacitor C195, and the tail end of the branch is the power grounding cathode; DAC _ HV _ P is input to the V + end of the single chip microcomputer U4; vout outputs the adjustable DC to provide power for the power amplifier output stage circuit; the model of the single chip microcomputer U4 is OPA 548.

The low-voltage power supply comprises six voltage power supplies, specifically 12V, +12VP, 9VF, +5VP, +5V, +3.3V, and various voltage generation circuits.

The controller comprises a single chip microcomputer U14, and the model is STM32F103RCT 6.

A4 MHz circuit control method of a host machine of a hemorrhoid machine comprises the following steps: step 1, initializing functions of an AD module; step 2, creating a new task; the step 2 further comprises: reading the voltage, reading the AD conversion value for multiple times and averaging; calculating energy efficiency and energy accumulation; energy efficiency and energy accumulation are sent to the LCD for display.

Reading the voltage, reading the AD conversion value for multiple times and averaging: the arithmetic mean was taken after 32 consecutive readings. As a possible implementation, the device takes the form of a negative plate, the hemorrhoid needle and the negative plate are indirectly connected with a nominal load of 50 Ω, the device is set to have a power of 50W, the oscilloscope is observed, and when the displayed radio frequency output voltage square root value is 50V (corresponding to P ═ U ^2/R ═ 50W, the negative plate/hemorrhoid needle lead wire can be changed appropriately), the corresponding DC voltage AD value is obtained; in addition, because the relative relation between the DC output current and the power is not ideal linear, the AD value of the DC voltage under the set power of 25W/1W is tested under the condition of not changing the relative placement position of the lead wires.

Compared with the prior art, the utility model increases the frequency, thereby reducing the heat damage to the human body; an output ground utilization loop is arranged, so that power output is not required to be connected with a negative plate, and the possibility of burning is reduced.

Drawings

FIG. 1 is a schematic diagram of an isolator circuit of a 4MHz circuit system of a host machine of hemorrhoid in the present invention;

FIG. 2 is a schematic diagram of a power output device of the 4MHz circuit system of the host machine of hemorrhoid apparatus of the present invention;

FIG. 3 is a schematic diagram of a driver circuit of a 4MHz circuit system of a host machine of hemorrhoid according to the present invention;

FIG. 4 is a schematic diagram of a DC power supply circuit of the 4MHz circuit system of the host machine of hemorrhoid apparatus of the present invention;

FIG. 5 is a schematic diagram of a low-voltage power supply circuit of the 4MHz circuit system of the host machine of hemorrhoid apparatus of the present invention;

FIG. 6 is a schematic diagram of a controller circuit of a 4MHz circuit system of a host machine of hemorrhoid according to the present invention;

FIG. 7 is a schematic diagram of a hardware implementation module of the 4MHz host computer circuit system of the hemorrhoid apparatus of the present invention;

fig. 8 is a schematic diagram of a basic software flow module of the 4MHz circuit system of the main machine of a hemorrhoid apparatus of the present invention.

Detailed Description

The utility model can make the hemorrhoid-eliminating minimally invasive treatment more accurate and efficient. The present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-8: a4 MHz circuit system of a host machine of a hemorrhoid machine is characterized by comprising an isolator, a power follower, a driver, a DC power supply, a low-voltage power supply and a controller, wherein the controller is respectively connected with other components through a CPU (central processing unit), the driver and the DC power supply are connected with the power follower, the DC power supply is used for providing DC voltage for the power follower, and the low-voltage power supply is used for supplying power for the driver, the power follower and the controller; the IO port of the controller is used for controlling the pedals and communicating with the LCD screen.

As a possible implementation, the LCD screen works as follows: the current module sampling circuit is connected in series to a radio frequency power amplifier DC power supply loop, an output voltage signal is positively related to a current signal, and the CPU converts the acquired voltage signal through AD conversion; the CPU obtains the sampling value, combines the parameters such as the power setting value and the equipment working state, provides the actual radio frequency output instantaneous energy efficiency and the energy accumulation value and sends the values to the LCD screen for display.

As a possible implementation manner, the method for calculating the instantaneous energy efficiency and the energy accumulation value is as follows, the absolute DC current magnitude at the nominal resistance value and at the full power condition when the device is outputting radio frequency is taken as a reference, and the corresponding DC voltage AD value converted by the DC current at this time is taken as a reference:

calculating instantaneous energy efficiency: the CPU obtains a DC voltage AD value, selects a proper power reference interval [1W, 25W ] or [25W, 50W ] by combining the actually set power, and calculates the instantaneous energy efficiency percentage;

calculation of energy accumulation value: and (4) the CPU accumulates the instantaneous energy efficiency at equal intervals by combining the actually set power.

As a possible implementation, the isolator includes an isolation power module M2, an optical coupling isolation chip U27, and the isolation power module M2, which is used to output an isolated voltage; the optical coupling isolation chip U27 is used for isolating a control signal of an analog quantity, the analog signal is from a DAC _ HV _ MCU of the single chip microcomputer and is isolated and output to a DAC _ HV _ P, and the DAC _ HV _ P controls the DC power supply to control the output power; the high-voltage DC control output DAC _ HV _ MCU of the main CPU is isolated by the optical coupling isolation chip U27 and then is provided for the high-voltage power amplifier output stage circuit for DAC _ HV _ P; the +5V/GND and the +5VP/GNDP are electrically isolated; the model of the optical coupling isolation chip U27 is HCNR 201.

As a possible implementation manner, the power output device includes a power amplifier tube Q4 and an inductor L2, the power amplifier tube Q4 and the inductor L2 constitute a power amplifier circuit, and the power amplifier tube Q4 and the inductor L2 are connected to each other to perform power output, and 4MHz high-frequency energy of the power amplifier tube is coupled and output through a capacitor C16, but 4MHz high-frequency energy is output to a user socket interface through on/off control of a RelayK 1; the RelayK1 is controlled by the K _ DRIVE1 of the main CPU; in addition, the voltage transformer T4 collects the voltage of the power amplifier output stage in real time for the monitoring of the main CPU; the Q4 model is IRF 840; the voltage transformer T4 is PE51686 in model.

As a possible implementation manner, the driver includes a single chip microcomputer U24, a 4MHz crystal oscillator Y2, and a single chip microcomputer U5, the single chip microcomputer U24 outputs a low-power driving signal and then sends the low-power driving signal to the single chip microcomputer U5 for further amplification to drive a power part, and the single chip microcomputer U24 and the 4MHz crystal oscillator Y2 form a 4MHz oscillation square wave circuit; PWM _ CTL1 of the CPU is isolated through an optocoupler 4N 35O 2; the model of the singlechip U24 is 74HC 00.

As a possible implementation, the DC power supply comprises a central output power source, on which branches 1-7 are arranged, wherein branch 1 is connected to 1k-SMD surface mounted components, branch 2 is connected to 2k-SMD surface mounted components and ends with a negative power ground, and between branch 3 and branch 4 is an OR-SMD surface mounted component. The four tail ends of the branch are power grounding cathodes, the branch 5 is connected with a 680R @100M inductor L13, the branch is also connected with two capacitors 100UF C2 and 104C3 which are connected in parallel, a power grounding cathode is arranged between the C2 and the C3, the near end of the branch 6 is connected with a R1020 k-SMD surface mounting component, the far end of the branch is connected with a R13410 omega-SMD surface mounting component which is connected with a capacitor C195, and the tail end of the branch is the power grounding cathode; DAC _ HV _ P is input to the V + end of the single chip microcomputer U4; vout outputs the adjustable DC to provide power for the power amplifier output stage circuit; the model of the single chip microcomputer U4 is OPA 548.

As a possible implementation, the low voltage power supply includes six voltage power supplies, specifically 12V, +12VP, 9VF, +5VP, +5V, +3.3V, various types of voltage generation circuits.

As a possible implementation mode, the controller comprises a single chip microcomputer U14, which is of the type STM32F103RCT 6.

As a possible implementation, the software implementation integration step includes: step 1, initializing functions of an AD module; step 2, creating a new task; the step 2 further comprises: reading the voltage, reading the AD conversion value for multiple times and averaging; calculating energy efficiency and energy accumulation; energy efficiency and energy accumulation are sent to an LCD screen for display.

Reading the voltage, reading the AD conversion value for multiple times and averaging: the arithmetic mean was taken after 32 consecutive readings.

As a possible implementation, the device takes the form of a negative plate, the hemorrhoid needle and the negative plate are indirectly connected with a nominal load of 50 Ω, the device is set to have a power of 50W, the oscilloscope is observed, and when the displayed radio frequency output voltage square root value is 50V (corresponding to P ═ U ^2/R ═ 50W, the negative plate/hemorrhoid needle lead wire can be changed appropriately), the corresponding DC voltage AD value is obtained; in addition, because the relative relation between the DC output current and the power is not ideal linear, the AD value of the DC voltage under the set power of 25W/1W is tested under the condition of not changing the relative placement position of the lead wires.

Energy efficiency or energy accumulation is shown as follows:

void show_effect(uint16_t x，uint16_t y，uint8_t size，uint32_t val)；

void show_Engery(uint16_t x，uint16_t y，uint8_t size，uint32_t val)；

as a possible implementation, before the AD module converts the signal value, the function initialization is performed:

the ADC module is provided with a conversion mode compensation parameter and an enabling module.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only preferred examples of the present invention, and is not intended to limit the present invention, and that the present invention can have various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A4 MHz circuit system of a host machine of a hemorrhoid machine is characterized by comprising an isolator, a power follower, a driver, a DC power supply, a low-voltage power supply and a controller, wherein the controller is respectively connected with other components through a CPU (central processing unit), the driver and the DC power supply are connected with the power follower, the DC power supply is used for providing DC voltage for the power follower, and the low-voltage power supply is used for supplying power for the driver, the power follower and the controller; the IO port of the controller is used for controlling the pedals and communicating with the LCD screen.

2. The 4MHz circuit system of host hemorrhoid machine according to claim 1, wherein said isolator comprises an isolation power supply module M2, an optical coupling isolation chip U27, said isolation power supply module M2 for outputting isolated voltage; the optical coupling isolation chip U27 is used for isolating a control signal of an analog quantity, the analog signal is from a DAC _ HV _ MCU of the singlechip, and is isolated and output to a DAC _ HV _ P, and the DAC _ HV _ P controls the DC power supply to control the output power; the high-voltage DC control output DAC _ HV _ MCU of the main CPU is isolated by the optical coupling isolation chip U27 and then is provided for the high-voltage power amplifier output stage circuit for DAC _ HV _ P; the +5V/GND and the +5VP/GNDP are electrically isolated; the model of the optical coupling isolation chip U27 is HCNR 201.

3. The 4MHz circuit system of the host machine of a hemorrhoid machine according to claim 1, wherein the power output device comprises a power amplifier tube Q4 and an inductor L2, the power amplifier tube Q4 and the inductor L2 constitute a power amplifier circuit, the power amplifier circuit and the power amplifier circuit are connected to output power, 4MHz high frequency energy is coupled and output through a capacitor C16, but the 4MHz high frequency energy is controlled to be output to a user socket interface by on or off of a RelayK 1; the RelayK1 is controlled by the K _ DRIVE1 of the main CPU; in addition, the voltage transformer T4 collects the voltage of the power amplifier output stage in real time for the monitoring of the main CPU; the Q4 model is IRF 840; the voltage transformer T4 is PE51686 in model.

4. The 4MHz circuit system of a host computer of hemorrhoids as claimed in claim 1, wherein said driver comprises a single chip microcomputer U24, a 4MHz crystal oscillator Y2, a single chip microcomputer U5, said single chip microcomputer U24 outputting a low power driving signal and sending to said single chip microcomputer U5 for further amplification and driving the power part, said single chip microcomputer U24 and said 4MHz crystal oscillator Y2 forming a 4MHz oscillation square wave circuit; PWM _ CTL1 of the CPU is isolated through an optocoupler 4N 35O 2; the model of the singlechip U24 is 74HC00, and the singlechip U5 is stm32f103cbt6 singlechip of Italian semiconductor ST company.

5. The 4MHz circuitry of host hemorrhoid machine according to claim 1, wherein said DC power supply comprises a central output power source having branches 1-7, wherein branch 1 is connected to 1k-SMD surface mount device, branch 2 is connected to 2k-SMD surface mount device and has a power ground cathode, and branch 3 and branch 4 are connected to 0R-SMD surface mount device; the four tail ends of the branch are power grounding cathodes, the branch 5 is connected with a 680R @100M inductor L13, the branch is also connected with two capacitors 100UF C2 and 104C3 which are connected in parallel, a power grounding cathode is arranged between the C2 and the C3, the near end of the branch 6 is connected with a R1020 k-SMD surface mounting component, the far end of the branch is connected with a R13410 omega-SMD surface mounting component which is connected with a capacitor C195, and the tail end of the branch is the power grounding cathode; DAC _ HV _ P is input to the V + end of the single chip microcomputer U4; vout outputs the adjustable DC to provide power for the power amplifier output stage circuit; the model of the single chip microcomputer U4 is OPA 548.

6. The 4MHz circuitry of the host hemorrhoid machine of claim 1, wherein said low voltage power supply comprises six voltage supplies, specifically 12V, +12VP, 9VF, +5VP, +5V, +3.3V, various voltage generation circuits.

7. The 4MHz circuitry of host hemorrhoid machine of claim 1, wherein said controller comprises a single chip microcomputer U14, model number STM32F103RCT 6.

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