CN216696475U - Electromagnetic radiation detector with base station identification function - Google Patents

Abstract

The utility model relates to an electromagnetic radiation detector with a base station identification function, which comprises a detector body, and a controller and a display module which are arranged in the detector body, wherein the controller is in signal connection with the display module, the controller is connected with a signal identification module, the signal identification module is used for collecting base station signals and stripping codes in the base station signals out to transmit the base station signals to the controller, and the base station signals are analyzed and processed by the controller and then transmitted to the display module to be displayed. When detecting, signal identification module can the signal of automatic acquisition basic station to in peeling off the code that contains in the basic station signal and transmitting to the controller, carry out the serial number that obtains corresponding basic station after the analysis processes by the processing module in the controller, processing module transmits the result of analysis to display module again, and detection personnel can know through display module that the signal of receiving derives from which basic station, and the detection of the value of radiating is carried out to the target base station that is convenient for detection personnel is quick accurate more.

Description

Electromagnetic radiation detector with base station identification function

Technical Field

The utility model relates to the technical field of electromagnetic radiation detectors, in particular to an electromagnetic radiation detector with a base station identification function.

Background

The electromagnetic radiation detector is mainly used for radiation measurement of electric appliances, high-voltage lines, base stations and the like in life, and can effectively help people to be far away from a radiation source and avoid radiation hazards. The electromagnetic wave (also called electromagnetic radiation) is a wave moving in space by electric field and magnetic field oscillating in phase and perpendicular to each other, and the propagation direction is perpendicular to the plane formed by the electric field and the magnetic field, so that energy and momentum are effectively transferred. Electromagnetic radiation can be classified by frequency, from low to high frequencies, including radio waves, microwaves, infrared, visible light, ultraviolet light, X-rays, gamma rays, and the like. The human eye receives electromagnetic radiation having a wavelength of about 380 to 780 nanometers, referred to as visible light. Any object with a temperature higher than absolute zero can emit electromagnetic radiation, and no object with a temperature equal to or lower than absolute zero is found in the world recognized by human beings at present.

In the prior art, when the existing electromagnetic radiation detector for detecting the communication base station is used, the radiation of each base station needs to be checked. However, in the actual detection process, the electromagnetic radiation detectors are often distributed between two base stations or between three base stations, so that signals from different base stations can be received during detection, and before detection, although detection personnel can know the numbers of the base stations in advance, the personnel cannot judge whether the received signals are from the base stations to be detected.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the electromagnetic radiation detector with the function of identifying the base station, which can know from which base station the received signal comes by identifying the code of the received signal, and is convenient for detection personnel to detect the radiation value of the target base station more quickly and accurately.

The above object of the present invention is achieved by the following technical solutions:

the electromagnetic radiation detector with the base station identification function comprises a detector body, and a controller and a display module which are installed in the detector body, wherein the controller is in signal connection with the display module, the controller is connected with a signal identification module, the signal identification module is used for collecting base station signals and stripping codes in the base station signals out to be transmitted to the controller, and the serial numbers of target base stations are transmitted to the display module to be displayed after the controller is analyzed and processed.

The present invention in a preferred example may be further configured to: the signal identification module is one of a 2G module, a 3G module, a 4G module or a 5G module.

The present invention in a preferred example may be further configured to: the controller comprises a mainboard and a processing module connected with the mainboard, the processing module is in data connection with the signal identification module, and the mainboard is in data connection with the display module.

The present invention in a preferred example may be further configured to: the device also comprises a memory which is connected with the controller and used for storing the measurement result.

The present invention in a preferred example may be further configured to: the power supply module is respectively connected with the controller, the display module and the memory and used for providing electric energy for the controller, the display module and the memory.

The present invention in a preferred example may be further configured to: the real-time spectrum analysis module is connected with the controller, the detection probe is used for detecting electromagnetic signals, and the real-time spectrum analysis module is used for amplifying, filtering, sampling and carrying out real-time spectrum analysis on the electromagnetic signals to obtain IQ data, wherein the IQ data are in-phase and quadrature data.

The present invention in a preferred example may be further configured to: the detector body is also internally provided with a GPS sensor, a level meter sensor, a temperature sensor and a relative humidity sensor which are connected with the controller.

The present invention in a preferred example may be further configured to: the detector body is provided with an optical fiber interface, an Ethernet port, a Type-C, Mini-USB interface and a double-USB interface which are connected with the controller.

In summary, the utility model includes at least one of the following beneficial technical effects:

when using this electromagnetic radiation detector, the signal of signal identification module meeting automatic acquisition basic station, and strip out and transmit to the controller in the code that contains in the basic station signal, obtain the serial number that corresponds the basic station after carrying out analysis processes by the processing module in the controller, processing module transmits the result of analysis to display module again, detection personnel can learn the signal of receiving through display module and derive from which basic station, be convenient for detection personnel carry out the detection of radiation value to the target basic station fast accurate more, compare in traditional electromagnetic radiation detector, this detector detects the precision higher, avoid because detecting the inaccurate or retest condition emergence of test data that causes by the basic station signal of not being surveyed, thereby electromagnetic radiation's detection efficiency has been improved.

Drawings

FIG. 1 is a block diagram of the present invention.

Reference numerals: 1. a controller; 11. a main board; 12. a processing module; 2. a display module; 3. a signal identification module; 4. a memory; 5. a power supply module; 6. detecting a probe; 7. and a real-time spectrum analysis module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the electromagnetic radiation detector with the function of identifying a base station according to the present invention includes a detector body, and a controller 1 and a display module 2 installed in the detector body, wherein the controller 1 is in signal connection with the display module 2, and the electromagnetic radiation detector is characterized in that: the controller 1 is connected with a signal identification module 3, the signal identification module 3 is used for collecting base station signals and stripping codes in the base station signals and transmitting the base station signals to the controller 1, and the codes of target base stations are transmitted to the display module 2 to be displayed after being analyzed and processed by the controller 1.

Wherein, signal identification module 3 is one of 2G module, 3G module, 4G module or 5G module, so set up and make this electromagnetic radiation detector can satisfy 2G 3G 4G 5G mobile communication basic station's frequency-selective measurement, improved the practicality of device.

The controller 1 comprises a mainboard 11 and a processing module 12 connected with the mainboard 11, wherein the processing module 12 is in data connection with the signal identification module 3, and the mainboard 11 is in data connection with the display module 2. The signal identification module 3 is provided with a sending pin for sending the stripped signal code to the processing module 12, and the sending pin is connected with a receiving pin of the processing module 12, so that normal transmission of data can be ensured, identification of a base station radiation signal is realized, and the condition of detection errors is avoided.

The electromagnetic radiation detector further comprises a power supply module 5, wherein the power supply module 5 is respectively connected with the controller 1, the display module 2 and the memory 4 and is used for supplying electric energy to the controller 1, the display module 2 and the memory 4. And the device also comprises a memory 4, wherein the memory 4 is connected with the controller 1 and is used for storing the measurement result.

In the present embodiment, the power supply module 5 includes a dc power supply for providing a dc 28V voltage; the DC isolation adapter is connected with the direct current power supply and is used for converting direct current 28V voltage into direct current 19V voltage; the AC adapter is used for converting alternating current 220V/50Hz into direct current 19V voltage; and the lithium battery module is respectively connected with the controller 1, the display module 2 and the memory 4 and used for providing electric energy for the controller 1, the display module 2 and the memory 4.

And the power management module is respectively connected with the DC isolation adapter, the AC adapter, the controller 1, the lithium battery module, the display module 2 and the memory 4 and is used for managing the direct current 19V voltage, charging a part of energy for the lithium battery module and respectively supplying electric energy to the controller 1, the display module 2 and the memory 4.

As an embodiment, the electromagnetic radiation detector further comprises: the battery monitoring module is used for detecting the residual electric quantity of the lithium battery module; and the alarm device is used for generating alarm prompt. The controller 1 is respectively connected with the battery monitoring module and the alarm device and is used for judging whether the residual electric quantity is less than a set residual threshold value; and if the residual threshold value is smaller than the set residual threshold value, controlling an alarm device to give an alarm prompt so as to charge the lithium battery module.

The electromagnetic radiation detector further comprises a detection probe 6 and a real-time spectrum analysis module 7 connected with the detection probe 6, wherein the real-time spectrum analysis module 7 is connected with the controller 1, the detection probe 6 is used for detecting electromagnetic signals, and the real-time spectrum analysis module 7 is used for amplifying, filtering, sampling and real-time spectrum analysis of the electromagnetic signals to obtain IQ data, and the IQ data are in-phase and quadrature data. In this embodiment, the signals of the detecting probe 6 of the frequency-selective electric field are EP500, EP600, EP750, and the detected frequency ranges are 30MHz-5GHz, 30MHz-6GHz, and 30MHz-7.5GHz, respectively.

The detector body is also internally provided with a GPS sensor, a level meter sensor, a temperature sensor and a relative humidity sensor which are connected with the controller 1. The GPS sensor can position the position of the electromagnetic radiation detector in real time and display the position through the display module 2, the level meter sensor can judge whether the instrument is in a horizontal state during detection, and the temperature sensor and the relative humidity sensor can detect the temperature and humidity information of the environment in real time, so that the environment information can be accurately provided.

The detector body is provided with an optical fiber interface, an Ethernet port, a Type-C, Mini-USB interface and a double-USB interface which are connected with the controller 1. The electromagnetic radiation detector can be connected with various devices through various interfaces, so that data can be inquired and transmitted conveniently, and the practicability is improved.

The electromagnetic radiation detector also has the following functions:

a large-size color touch screen is adopted, and a sunlight screen is used for outdoor clear display, so that real-time reading and real-time frequency spectrum viewing are facilitated; measurement scene selection is carried out through a USB or a wireless connection mobile phone or a tablet, and various scene selections required by a 5G new measurement method are met; a customized open source operating system is adopted, and detection modes such as square root mean square detection, peak detection and the like are arranged in the system; result type: a triaxial value, a real-time value, a maximum value, a minimum value, an average value, etc.; various measurement modes are built in: spectrum analysis mode, signal analysis mode, list mode, fast measurement mode, a/B mode, etc.

A peak list function is built in, and the corresponding network system can be automatically matched to track and mark peaks in a frequency spectrum region; the cursor analysis function integrates the measured value of the frequency spectrum in any cursor through the cursor, so that the operation is easy, and the cursor is dragged at will; time measurement can be selected, a timing measurement mode is built in, and the sliding average value and the frequency spectrum of the monitoring instrument which are continuous for 6 minutes at will are directly read; the ID information of the base station to be measured can be automatically acquired, the base station information can be accurately provided, and the on-site accurate measurement and monitoring process management are facilitated.

The display of various measurement results such as frequency spectrum, screenshot, data storage and the like is supported, and the export through a USB interface and a TF memory card is supported; the device has a unit self-adaptive function and a range self-adaptive function, and sets and automatically selects the optimal signal-to-noise ratio for measurement; various sensors such as a high-precision GPS, a level meter, temperature, relative humidity and the like are arranged in the device, so that environmental information is accurately provided; a rich measurement template is built in, and is modified and customized through key and touch screen operation, so that the combined measurement of frequency bands is supported; the system comprises an optical fiber interface, an Ethernet interface, a Type-C, Mini-USB interface and a double USB interface, and can select a laser ranging function; the probe control adopts a Type-C data interface, and the temperature and relative humidity sensors are arranged in the probe, so that the environment measurement is more accurate; the high-capacity lithium ion battery module which is easy to replace is arranged in the solar cell module, so that the solar cell module is suitable for outdoor use, is designed by human engineering, is dustproof and waterproof, and is firm and durable; the built-in complete network communication protocol can be directly connected with a network cable or wirelessly uploaded data, and an uploading interface can be customized.

The implementation principle of the embodiment is as follows: when using this electromagnetic radiation detector, signal identification module 3 can the signal of automatic acquisition basic station, and strip out and transmit to controller 1 in the code that contains in the basic station signal, obtain the serial number that corresponds the basic station after carrying out analysis processes by processing module 12 in the controller 1, processing module 12 transmits the result of analysis to display module 2 again, the measurement personnel can learn the signal of receiving through display module 2 and derive from which basic station, be convenient for measurement personnel carries out the detection of radiation value to the target basic station more accurate fast, compare in traditional electromagnetic radiation detector, inferior detector detection precision is higher, thereby electromagnetic radiation's detection efficiency has been improved.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (8)

1. Electromagnetic radiation detector with discernment basic station function, including the detector body and install controller (1) and display module (2) in the detector body, controller (1) with display module (2) signal connection, its characterized in that: the controller (1) is connected with a signal identification module (3), the signal identification module (3) is used for collecting base station signals, stripping codes in the base station signals and transmitting the codes to the controller (1), and the codes are analyzed and processed by the controller (1) and then transmitted to the display module (2) to be displayed.

2. The electromagnetic radiation detector of claim 1, wherein: the signal identification module (3) is one of a 2G module, a 3G module, a 4G module or a 5G module.

3. The electromagnetic radiation detector of claim 1, wherein: the controller (1) comprises a main board (11) and a processing module (12) connected with the main board (11), the processing module (12) is in data connection with the signal identification module (3), and the main board (11) is in data connection with the display module (2).

4. The electromagnetic radiation detector of claim 1, wherein: the device also comprises a memory (4), wherein the memory (4) is connected with the controller (1) and is used for storing the measurement result.

5. The electromagnetic radiation detector of claim 4, wherein: the display device is characterized by further comprising a power supply module (5), wherein the power supply module (5) is respectively connected with the controller (1), the display module (2) and the memory (4) and is used for providing electric energy for the controller (1), the display module (2) and the memory (4).

6. The electromagnetic radiation detector of claim 1, wherein: the device comprises a controller (1), and is characterized by further comprising a detection probe (6) and a real-time spectrum analysis module (7) connected with the detection probe (6), wherein the real-time spectrum analysis module (7) is connected with the controller (1), the detection probe (6) is used for detecting electromagnetic signals, the real-time spectrum analysis module (7) is used for amplifying, filtering, sampling and real-time spectrum analysis of the electromagnetic signals to obtain IQ data, and the IQ data are in-phase and quadrature data.

7. The electromagnetic radiation detector of claim 1, wherein: the detector body is also internally provided with a GPS sensor, a level meter sensor, a temperature sensor and a relative humidity sensor which are connected with the controller (1).

8. The electromagnetic radiation detector of claim 1, further comprising: the detector body is provided with an optical fiber interface, an Ethernet port, a Type-C, Mini-USB interface and a double USB interface which are connected with the controller (1).

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