RU86870U1 - DEVICE FOR REFLECTOR CORRECTION OF FUNCTIONAL VIOLATIONS OF THE ORGANISM - Google Patents

Abstract

1. A device for the reflex correction of functional disorders of the body, containing a diagnostic and treatment module that is configured to measure thresholds of temperature pain sensitivity (IF) of the acupuncture points (AT) of the input / output of the main channels and therapeutic reflex effect on AT with modulated infrared radiation, characterized in that a server and a control and communication unit have been introduced, which is connected by bidirectional data transmission channels with the diagnostic and treatment module and with the server, the diagnostic module and the The unit is equipped with a power supply, a radiation indicator and is made with the additional possibility of receiving / transmitting data and transmitting the resident program to the control and communication unit, the control and communication unit is capable of receiving / transmitting data, entering measured physiological or biochemical parameters, displaying data and controlling the module diagnostics and treatment, and the server is configured to process the IF data of each patient by building models of the relationship between the AT frequency and physiological or biochemical parameters the state of an individual organ or physiological system, the allocation of the dominant rhythms of the IF channels, their prediction and the development of medical recommendations for exposure with the formation of a pattern of the location of the AT therapeutic effect for display in the control and communication unit. ! 2. The device according to claim 1, characterized in that as the control and communication unit use a mobile phone or a patient’s computer with an internal microprocessor, a display, controls and reception / transmission units for receiving / transmitting yes

Description

The utility model relates to medical equipment, in particular to reflexology, and can be used to monitor and correct the functional state of the human body based on measuring thresholds of temperature pain sensitivity (IF) of acupuncture points (AT) of the input / output of the main channels.

Known devices for monitoring the functional state of an individual organ or physiological system of the body, based on the measurement of various indicators, such as electrical biosignals, the potential of electrocardiograms, microcurrents from the AT of the main channels, human electromagnetic radiation, thresholds of temperature pain sensitivity (IF) of acupuncture points (AT) of the input / output of the main channels.

In the device for the comprehensive assessment of human health according to the patent (RU 2215471 C2, IPC AB 5/05, op. 20.06.2003) using a sensor in the form of passive and active electrodes, microcurrents are measured alternately in representative ATs on the human body, and through an autonomous conversion unit and amplifications introduce the measured data into a computer. Biocurrent measurement is carried out in a dialogue mode with a computer, the analysis results of which are formed in the form of detailed characteristics of the functional state of organs and body systems with the visualization of their picture. The disadvantage of the device according to patent RU 2215471 is the lack of channels for transmitting measured data from autonomous blocks of remote patients to the server, which reduces the efficiency of use of computing resources.

A known system for diagnosing the state of the human cardiovascular system according to the patent for utility model (RU 48261 U1, IPC АВВ 5/02, op. 10.10.2005), which contains at least one stand-alone portable system for collecting cardiometric data connected by transmission channels data network with a data processing system. Each portable cardiometric data acquisition system contains a sensor, which includes electrodes connected through a multi-channel amplifier to the inputs of a multi-channel analog-to-digital conversion device, which is the output of the sensor. The sensor output is connected to a microprocessor, to which an information display unit and a communication unit with a computer network are connected. As a microprocessor, an information display unit, and a communication unit with a computer network, a processor, a display, and a GPRS-modem of a mobile phone, respectively, can be used. The data processing system is configured to automatically or automatically process cardiometric data from two or more portable cardiometric data collection systems. Portable cardiometric data acquisition systems are configured to display processing results received from the data processing system. In the system for diagnosing the state of the human cardiovascular system according to the specified patent, it is possible to increase the efficiency of using the computing resources of the processing unit (server) by ensuring the processing of data from two or more portable cardiometric data collection systems, but the task of correcting the functional state of the body is not solved person.

Known personal status monitoring system according to the patent for the invention (RU 2285442 C2, IPC AB 5/00, G06F 17/00, op. 10.10.2005), which relates to a glucose monitoring system for patients with diabetes mellitus. The system comprises a data input device, a consulting device and a data output device. The data input device is intended for inputting history data of current and / or prospective status-related data into the consultation device. The consultation device is intended for receiving and storing history data of current and / or prospective data related to the state coming from the data input device, and processing the specified data related to the state to formulate a medical recommendation. The data output device is designed to receive medical recommendations from the consultation device and communication with the patient. The known device provides the ability to enter data related to the glucose level in patients with diabetes mellitus, processes the information with a consulting device to provide medical recommendations in the form of tips and, if necessary, solves the problem of glucose correction. However, this device does not take into account biorhythmic changes in glucose levels in patients, which reduces the clinical effect of the developed medical recommendations.

In modern reflexology, the Akabane thermodiagnostic test is widely used to monitor the state of the body, which is based on the thermal effect on the symmetrical terminal AT of the input / output of the main channels (meridians) in order to measure their temperature pain sensitivity thresholds and further evaluate the data obtained (Portnov F.G. Electropuncture reflexotherapy. - Riga: Zinante, 1998. - P.103. Muzhikov VG Theory and practice of thermopuncture channel diagnostics and treatment. - St. Petersburg: Petrovsky Fund LLC, 2000. - P.27-37).

The following symbols are commonly used on the phalanges of the hands and feet of the symmetrical terminal AT of the main channels (see FIG. 5), which are used in this description of the invention: LU11 - lung; LI1 - large intestine; HC9 - pericardium; TH1 - triple heater; Ht9 is the heart; SI1 - small intestine; SP1 - spleen; Liv1 - the liver; St45 - stomach; GB44 - gall bladder; Ki1 - kidney; BI67 - the bladder. The right and left branch (side) of the channel are denoted by the indices d and s, respectively. In the following description, only AT names are used, and point numbers are omitted.

It is traditionally believed that in a practically healthy person the sensitivity of the left and right branches of the channel should be the same. In the presence of pathology, the left and right branches of the channels have different IFs, and the degree of asymmetry between them increases in proportion to the severity of the disease. A pronounced functional impairment of a channel is understood to be its state when there is a significant asymmetry (more than 30-40%) between its branches, which indicates the presence of functional disorders in an organ or system that are associated with this channel. By changing the IF by thermal action on the AT channel, it is possible to carry out reflex correction of functional disorders of organs and systems of the body.

Known devices for performing reflex correction of functional disorders of the cardiovascular system, such as arterial dysfunctions or cardiac arrhythmias (RU 2152777 C1, IPC 7 A61H 39/06, A61N 5/067, A61B 5/04, op. 20.07.2000. RU 2149625 C1, IPC A61H 39/06, A61N 5/067, A61B 5/04, op. 27.05.2000). Using these devices, frequency channels are evaluated by the Akabane test in the dynamics of observations at various values of blood pressure (RU 2152777, op. 20.07.2000) or the number of heart contractions (RU 2149625, op. 27.05.2000). According to the data of the correlation and regression analysis of the IF channels, the channels with the greatest influence on the normalization of the adjustable parameter are determined and then the detected channels are exposed to the modulated infrared radiation on the detected channels until the blood pressure normalizes (number of heart contractions).

The IF of the channel changes rhythmically under the influence of physiological rhythms, which are understood as the operating cycles of the functioning of cells, organs and body systems with periods from milliseconds to minutes. At maximum values of the IF channel, it and the organ (physiological system), the function of which it reflects, are in a state of functional insufficiency (hypofunction of the channel). If the IF of the channel is low, this indicates the presence of functional redundancy (hyperfunction of the channel and its associated organ).

The disadvantage of the devices according to patents RU 2152777 and RU 2149625 is the lack of synchronization of exposure with a rhythmic change in the IF channels under the influence of physiological rhythms, resulting in an increase in exposure time to achieve a clinically favorable result.

Reflex correction of the functional state based on the detection of rhythmic changes in the IF channels and reflex action at the moments of the predicted finding of the channel in hypofunction is solved in the device for reflex correction of functional disorders of the body according to the utility model patent (RU 64068 U1, IPC А61Н 39/00, op. 27.06. 2007), which is selected as a prototype.

The device for reflex correction of functional disorders of an organism according to RU 64068 U1 patent contains an infrared probe connected to a controlled current generator, a multifunction indicator, control buttons and a microcontroller, which includes a microprocessor, a program block, a data memory unit and a timer / counter connected to the network bus. An IR probe, a controlled current generator, a start / stop switch, and a microcontroller form a diagnostic and treatment module that provides measurement of the temperature pain thresholds (AT) of acupuncture points (AT) of the input / output of the main channels and therapeutic reflex effect on AT with modulated infrared radiation. The IR probe is made in the form of a handle made of insulating material, on the outer surface of which there is a start / stop switch button, and an IR LED is located at the end of the handle. The microcontroller, the controlled current generator and other elements of the device are located in the device, which is used to monitor one patient.

The disadvantage of the device adopted for the prototype is the redundancy of the patient's equipment, leading to an increase in the cost of the device, as well as the inability to monitor a large number of patients.

The task this utility model aims to solve is to create a device for the reflex correction of functional disorders of the body in the form of an autonomous diagnostic and treatment module integrated with a control and communication unit, and a remote server on which the results from patients are processed, and issuing recommendations for reflex exposure using modulated IR radiation.

The technical result achieved by using this utility model is to increase the efficiency of the use of computing resources, reduce the cost of patient equipment and expand the functionality.

The problem, with the achievement of the above technical result, is solved by the fact that in the device for the reflex correction of functional disorders of the body, containing a diagnostic and treatment module that is configured to measure thresholds of temperature pain sensitivity (IF) acupuncture points (AT) of the input / output of the main channels and therapeutic reflex effect on AT with modulated infrared radiation, a server and a control and communication unit have been introduced, which is connected by bidirectional data transmission channels to the module diagnostics and treatment and with the server, the diagnostics and treatment module is equipped with a power supply, a radiation indicator and is made with the additional possibility of receiving / transmitting data and transmitting the resident program to the control and communication unit, the control and communication unit is capable of receiving / transmitting data, inputting measured physiological or biochemical parameters, data display and control of the diagnostic and treatment module, and the server is configured to process the IF data of AT of each patient by building models of the relationship between the AT IF and the physiological or biochemical indicator of the state of an individual organ or physiological system, the allocation of the dominant rhythms of the IF channels, their prediction and development of medical recommendations for exposure, with the formation of the AT location pattern of the treatment effect to be displayed in the control and communication unit.

The technical result is also achieved by the fact that:

as a control and communication unit, a mobile phone or a patient’s computer is used with an internal microprocessor, a display, controls and reception / transmission units for receiving / transmitting data, inputting measured physiological or biochemical parameters, displaying data and managing a diagnostic and treatment module, by entering a resident program from the diagnostic and treatment module; the bi-directional data transmission channel between the diagnostic and treatment module and the control and communication unit is wired and / or wireless, for example, in the form of a Bluetootch transmit / receive system;

Internet channels are used as a bidirectional data transmission channel between the control and communication unit and the server;

The diagnostic and treatment module contains a thermal element for AT in the form of an infrared (IR) LED and a radiation indicator connected to a controlled current generator, a microcontroller, including a microcontroller connected to a network bus, which is an input / output of a microcontroller, a program block, a data memory unit, and timer / counter, power supply, receive / transmit unit and input / output unit, while the anode of the IR LED is connected to the plus bus of the controlled current generator, the negative bus of which, the LED cathode and the first contact the act of the start / stop switch is connected to the common ground bus, and the second contact of the start / stop switch, the input of the controlled current generator, the output of the power supply and the input / output of the receive / transmit unit are connected through the input / output block to the input / output of the microcontroller;

the microcontroller program block contains, connected by a two-way communication with the program block bus, which is its input / output, an operating mode control unit, a current generator control signal generation unit, an IF channel measurement unit, an identification unit and a resident program unit;

the power supply unit contains a series-connected charge control unit, a battery unit and a power supply unit, the output of which is the output of the power supply unit, while the charge control unit is equipped with a connector for connecting to an external power adapter, and the power supply unit is equipped with a power switch with a power indicator;

The diagnostics and treatment module is made in the form of a handle made of insulating material, at the end of which there is an IR LED, and on the outer surface of the handle there is a radiation indicator, a start / stop switch, a power switch, a power indicator, a connector for connecting an external power adapter and a connector for connecting a wired communication channel.

The technical result is ensured by the distribution of computing resources necessary for the functioning of the device between an autonomous diagnostic and treatment module, a control and communication unit, and a remote server. When using a patient’s mobile phone or computer as a control and communication unit and a remote server for the main processing of the patient’s state measurement results, the diagnostic and treatment module, made in the form of a pen, contains an insignificant part of the required hardware and software equipment and has a low cost. The expansion of the device’s functionality is achieved through the use of a remote server to monitor many patients.

The utility model is illustrated by drawings, which depict:

figure 1 - structural electrical diagram of the device;

figure 2 is a structural electrical diagram of a microcontroller;

figure 3 is a structural electrical diagram of a block of programs;

figure 4 is a General view of the handle;

figure 5 - location of the symmetrical end AT input / output of the main channels.

The device for the reflex correction of functional disorders of the body consists of three parts: module 1 for diagnosis and treatment, control and communication unit 2 and server 3 connected by communication channels. The control and communication unit 2 is connected by a bi-directional data channel 12 with module 1 and a bi-directional data channel 13 with server 3.

Module 1 for diagnosis and treatment is made in the form of a separate pen with autonomous power and is intended for testing and therapeutic effects. In fact, it is specialized for medical purposes accessories for unit 2 of communication and control.

As the control and communication unit 2, a mobile phone or a patient’s computer is used with an internal microprocessor, a display, controls and reception / transmission units for receiving / transmitting data, inputting the measured physiological or biochemical parameters, displaying the data and controlling the diagnostic module 1 and treatment by entering a resident program from module 1 of diagnosis and treatment.

The bi-directional data channel 12 between the diagnostic and treatment module 1 and the control and communication unit 2 can be wired and / or wireless. When performing bidirectional channel 12 for transmitting data wirelessly, it can be performed, for example, in the form of a reception / transmission system "Bluetootch". When performing bidirectional channel 12 data transmission wired, module 1 can be connected to block 2 via a USB port and is equipped with a connector 31.

As a bi-directional data transfer channel 13 between the control and communication unit 2 and the server 3, any wireless communication channel, for example, the Internet, can be used.

Server 3 is designed for receiving / transmitting data from a patient, processing them and issuing medical recommendations.

Diagnostic and treatment module 1 contains an AT thermal element in the form of an IR LED 4 and a radiation indicator 5 connected to a controlled current generator 6, a microcontroller 9, a power supply unit 10, and a transmit / receive unit 11 connected through an input / output unit 8 to the input / microcontroller output 9. The anode of the IR LED 4 is connected to the positive bus of the controlled current generator 6, the negative bus of which, the cathode of the IR LED 4 and the first contact of the start / stop switch 7 are connected to the common ground bus. The second contact of the start / stop switch 7 and the input of the controlled current generator 6 are connected through an input / output unit 8 to the input / output of the microcontroller 9. The microcontroller 9 includes a microprocessor 17, a program block 18, a data memory unit 19, and a timer / counter 20 connected to the network bus 21, which is the input / output of the microcontroller 9.

The input / output block 8 provides the pairing of the device blocks with the microcontroller 9 through its input / output interfaces by the number of mating blocks.

The block 18 of the programs of the microcontroller 9 is configured to control operation modes, transfer the controlled current generator 6 from the measurement mode to the exposure mode, measure the IF channels, identify the control and communication unit 2 and enter the resident program.

The microcontroller program block 18 contains two-way communication with the program block bus 22, which is its input / output, the operating mode control unit 23, the current generator control signal generation unit 24, the IF channel measurement unit 25, the identification unit 26, and the resident program unit 27.

The power supply unit 10 comprises a series-connected charge control unit 16, a battery unit 15 and a power-on unit 14, the output of which is the output of the power unit 10. The charge control unit 16 is provided with a connector 28 for connecting to an external power adapter, and the power-on unit 14 is equipped with a power switch 29 with a power-on indicator 30.

Diagnostic and treatment module 1 (see Fig. 4) is made in the form of a handle 32 made of insulating material, at the end of which there is an IR LED 4, and on the outer surface of the handle there is a radiation indicator 5, a switch button 7 start / stop, connector 28 for connection an external power adapter, a power switch 29, a power-on indicator 30, and a connector 31, which is designed to connect a transmit / receive unit 11 to a wired communication channel.

A device for the reflex correction of functional disorders of the body works as follows. Charge the battery pack 15 from an external power adapter using the charge control unit 16.

The handle switch 29 supplies power from the power supply unit 10 to the diagnostic and treatment device 1 located in the handle 32. In this case, in the program unit 18, the identification unit 26 of the control and communication unit 2 is launched. In the further description, we will assume that the patient’s mobile phone is used as block 2. Upon entering into communication in block 18 of the program, the block 27 of entering the resident program is launched and the resident program is entered into the mobile phone, when accessed, the main menu is displayed on the mobile phone’s display, which has options: “diagnostics”, “data transfer to the server”, “Receiving data from the server” and “treatment”. At the same time, a program is installed on the phone that allows, through the “diagnostics” option, to measure the current state of the body using the AT frequency converter and, if necessary, make medical corrections by selecting the “treatment” option, if this effect is authorized from the server based on the results of modeling and prediction of the current state of the body .

To assess the indicator of the state of the body, a training sample is formed by measuring the analyzed indicator of the state of the body at its various values in time and at the same time measuring the thresholds of temperature pain sensitivity (IF) of the hands and feet of the phalanxes of the symmetric standard end acupuncture points (AT) of the input / output of the main channels.

To measure the IF channels when referring to the “diagnostics” option, the AT position is alternately displayed on the display, starting from the first. The measurement is carried out by the patient alone or with the help of medical personnel. Place the handle 32 on the first AT of the right branch of the LUd channel, located on the phalanx of the thumb of the patient’s right hand (see Fig. 5 a), with the LED 4 in direct contact with the skin surface. Press the switch button 7 start / stop. When the switch 7 is activated, a start strobe / pulse is generated, which turns on the controlled current generator 6 in the measurement mode and activates the timer / counter 20 of the microcontroller 9. In this case, the indicator 5 is turned on, made, for example, as an LED in the visible wavelength range, which signals the presence of IR radiation, which is necessary to ensure the safety of the patient.

In the "diagnostics" mode, from a controlled current generator 6, an LED 4 is supplied, for example, with a pulse sequence with a repetition period of 1 second, a pulse duration in the range of 0.7 to 0.9 seconds, and a current value that ensures the IR radiation of LED 12 with a power density in a pulse of 200 mW / cm ² . The heat source is an IR LED 4, the lens of which is a hemisphere with a radius of the order of 1.5 mm, which makes it possible to measure IF AT from the skin surface, corresponding in area to the morphological substrate AT. The emitted wavelength can lie in the range from 780 to 1600 nm, that is, in the “water transfer window” and the optimal permeability of the skin and tissues (see, for example, patent RU N2122208, IPC 6 G01N 33/49, АВВ 5/00, op. 11/20/1998). It is preferable to use as an LED 4 an infrared LED of the ZAL107B type with a wavelength of 920 nm, which has shown reliable results. The power density is selected from the condition of providing a dynamic range of variation of the IF channels in a different state, ranging from 2 to 100 seconds, with an average threshold value of 5 to 10 seconds. This condition is satisfied by the power density of infrared radiation in a pulse of 200 mW / cm ² . Impact in a pulsed mode with a repetition period of 1 second and pulse durations ranging from 0.7 to 0.9 seconds was chosen empirically based on a multitude of observations and provides a clearer threshold for the perception of pain.

When the patient experiences the first pain, the switch button 7 is pressed a second time. The arising stop strobe / pulse turns off the controlled current generator 6 and stops the timer / counter 20. The time interval from the onset of irradiation AT to the appearance of the first pain, counted down timer / counter 20, with a constant radiated power density is proportional to the energy emitted by LED 4, and corresponds to the physiological threshold of temperature pain sensitivity (IF), in this case the right branch of the lung channel (LUd).

The measurement data of the inverters of all ATs via the transmit / receive unit 11 from the handle 32 are supplied to the control and communication unit 2. After testing, the diagnostic results can be displayed in the form of a pivot table and additional illustrative graphs. Then, the measurement data is transmitted to the server 3, where the patient is identified, for example, on the basis of a SIM SIM card.

The measurement data of the IF of each patient are processed on server 3. Based on the training sample obtained, significant channels are determined and a model of the relationship between the analyzed physiological or biochemical indicator of the state of the organism and the values of the IF of the significant channels is determined. Then, by measuring the IF of the significant channels from the training sample, the dominant biorhythms of the IF of the significant channels are extracted, extrapolated for the future and develop a therapeutic recommendation for exposure. An AT location pattern for the treatment effect is also generated, which is transmitted for display on a mobile phone. In the “treatment” mode, the AT position for the therapeutic effect is sequentially displayed on the display of the mobile phone.

For treatment, the controlled current generator 6 is transferred to the exposure mode. In this mode, the current generator 6 generates, for example, a sequence of pulses with a varying repetition rate within 28 ± 4 Hz, a pulse duration equal to 0.5 of the repetition period, and a current value that emits infrared LED 4 of infrared radiation with a wavelength in the range 780-1400 nm and a power density that varies linearly during the exposure time from 200 mW / cm ² to 300 mW / cm ² . To start the exposure, place the handle 32 on the indicated AT and press the button of the switch 7. The effect on the AT is carried out until the first pain in the patient appears (until the IF channel is reached). The impact is completed by pressing the button of the switch 7. Then, the patient is subjected to subsequent preset ATs, which provides reflex correction of functional disorders of the body.

The construction of the device in the form of a modular design increases the efficiency of the use of computing resources, reduces the cost of patient equipment and extends the functionality of the device. Each patient has a mobile phone or computer and with its help the basic functions of receiving / transmitting and displaying data are carried out. The pen serves as a peripheral state sensor and an impact device with a low price for the user, and the entire processing of the individual address information of each patient is assigned to the server.

Claims (8)

1. A device for the reflex correction of functional disorders of the body, containing a diagnostic and treatment module that is configured to measure thresholds of temperature pain sensitivity (IF) of the acupuncture points (AT) of the input / output of the main channels and therapeutic reflex effect on AT with modulated infrared radiation, characterized in that a server and a control and communication unit have been introduced, which is connected by bidirectional data transmission channels with the diagnostic and treatment module and with the server, the diagnostic module and the The unit is equipped with a power supply, a radiation indicator and is made with the additional possibility of receiving / transmitting data and transmitting the resident program to the control and communication unit, the control and communication unit is capable of receiving / transmitting data, entering measured physiological or biochemical parameters, displaying data and controlling the module diagnostics and treatment, and the server is configured to process the IF data of each patient by building models of the relationship between the AT frequency and physiological or biochemical parameters the state of an individual organ or physiological system, the allocation of the dominant rhythms of the IF channels, their prediction and the development of medical recommendations for exposure with the formation of a pattern of the location of the AT therapeutic effect for display in the control and communication unit. 2. The device according to claim 1, characterized in that as the control and communication unit use a mobile phone or a patient’s computer with an internal microprocessor, a display, controls and reception / transmission units for receiving / transmitting data, inputting measured physiological or biochemical parameters, data display and management of the diagnostic and treatment module, by entering a resident program from the diagnostic and treatment module. 3. The device according to claim 1, characterized in that the bi-directional data channel between the diagnostic and treatment module and the control and communication unit is wired and / or wireless, for example, in the form of a Bluetootch transmission / reception system. 4. The device according to claim 1, characterized in that the Internet channels are used as a bi-directional data transmission channel between the control and communication unit and the server. 5. The device according to claim 1, characterized in that the diagnostic and treatment module contains a thermal element for AT in the form of an infrared (IR) LED and a radiation indicator connected to a controlled current generator, a microcontroller, including connected to a network bus, which is the input / microcontroller output, microprocessor, program block, data memory block and timer / counter, power supply unit, transmission / reception unit and input / output unit, while the anode of the IR LED is connected to the positive bus of the controlled current generator, negative bus which, the cathode of the LED and the first contact of the start / stop switch are connected to the common ground bus, and the second contact of the start / stop switch, the input of the controlled current generator, the output of the power supply and the input / output of the transmit / receive unit are connected via an input / output unit to microcontroller input / output. 6. The device according to claim 1, characterized in that the microcontroller program block contains two-way communication with the program block bus, which is its input / output, the operating mode control unit, the current generator control signal generation unit, the IF channel measurement unit, the identification unit and a resident program block. 7. The device according to claim 1, characterized in that the power supply unit contains a series-connected charge control unit, a battery unit and a power supply unit, the output of which is the output of the power unit, while the charge control unit is equipped with a connector for connecting to an external power adapter, and the power-on unit is equipped with a power switch with a power-on indicator. 8. The device according to claim 1, characterized in that the diagnostic and treatment module is made in the form of a handle made of insulating material, at the end of which an IR LED is placed, and on the outer surface of the handle there is a radiation indicator, a start / stop switch, a power switch, a power indicator , a connector for connecting an external power adapter and a connector for connecting a wired communication channel.