JP5463448B2 - Electric field strength measuring device - Google Patents

Description

  Embodiments of the present invention relate to an electric field strength measuring device that measures the electric field strength of a radio broadcast signal (hereinafter referred to as a radio signal) on an expressway, for example.

  The radio receiver of a vehicle traveling on a highway needs to be able to receive radio signals satisfactorily. Furthermore, although it is possible to satisfactorily receive 400 MHz mobile radio waves used for highway management on the road, it is necessary for management. For this reason, conventionally, a vehicle is equipped with a device for measuring electric field strength such as a radio signal, and the electric field strength of these radio waves is measured while traveling on a highway.

  However, it has been difficult to measure the electric field strength of a plurality of radio waves in real time by a vehicle traveling at high speed on a highway that is installed along a complicated terrain or many structures that cause radio interference.

  There are many tunnels on the highway, and radio signals are rebroadcast in the tunnels. It is necessary to improve the service to accurately measure the electric field strength of the radio rebroadcast signal (hereinafter also referred to as radio signal). However, it is difficult to easily distinguish the electric field strength between the radio signal outside the tunnel and the radio signal inside the tunnel.

“Highway and automobile”, Vol. 53, No. 10, October 2010, p. 54, “Road Facility Radio Measurement Vehicle”

  The present invention is capable of measuring the electric field strength of a plurality of radio waves in real time on an expressway, and capable of easily distinguishing the electric field strength of radio signals inside and outside the tunnel. The device is to be provided.

  According to the electric field strength measuring apparatus of the present embodiment, the electric field strength measuring apparatus mounted on the vehicle is a first antenna that receives a broadcast signal of a plurality of channels, a second antenna that receives a radio signal, and the first antenna. A plurality of first field strength measuring units that measure the field strength of broadcast signals of a plurality of channels received by one antenna; and a plurality of second field strengths that measure the field strength of radio signals received by the second antenna. An electric field strength measuring section, a vehicle speed pulse converting section for generating a pulse signal corresponding to the moving distance of the vehicle, a trigger generating section for generating a trigger signal corresponding to the entrance and exit of the tunnel, and the plurality of first An analog / digital converter that converts the electric field strengths of a plurality of channels of broadcast signals and wireless signals measured by the second electric field strength measuring unit into a plurality of digital signals; A signal processing unit that generates serial data by adding the pulse signal supplied from the vehicle speed pulse conversion unit and the trigger signal supplied from the trigger generation unit to the output signal of the digital converter, and the signal processing unit And a controller that displays the measured electric field intensity on the display device based on the pulse signal added to the serial data and displays a mark indicating a tunnel on the display device based on the trigger signal. It is characterized by.

The lineblock diagram showing roughly the electric field strength measuring device concerning an embodiment. The block diagram which shows roughly each electric field strength measurement unit shown in FIG. The block diagram which shows an example of the AM RF unit shown in FIG. The block diagram which shows an example of the FM RF unit shown in FIG. The figure which shows the output information of each electric field strength measurement unit. The block diagram which shows an example of the electric field strength measurement which concerns on this embodiment. The flowchart which shows roughly operation | movement of the electric field strength measuring apparatus which concerns on this embodiment. The figure which shows an example of the display of the electric field strength measuring apparatus which concerns on this embodiment. The figure which shows the other example of a display of the electric field strength measuring apparatus which concerns on this embodiment. The figure which shows an example of the measurement result of the electric field strength measuring apparatus which concerns on this embodiment.

  Hereinafter, embodiments will be described with reference to the drawings.

  FIG. 1 schematically shows a configuration of an electric field strength measuring device 11 according to the embodiment. As shown in FIG. 6, the electric field strength measuring apparatus 11 of the present embodiment is mounted on a vehicle 41 and is used for managing an AM radio signal 8 channel, an FM radio signal 8 channel, and an expressway while traveling on the expressway. It is possible to simultaneously measure the electric field strength of 10 channels of mobile radio waves of 400 MHz band used in the above.

  In FIG. 1, an antenna (AM ANT) 12 receives an AM radio signal, an antenna (FM ANT) 13 receives an FM radio signal, and an antenna (400 MHz band ANT) 14 receives a radio wave of a 400 MHz band mobile radio. Receive. The antenna 12 and the antenna 13 are connected to the AM / FM field strength measuring unit 15, and the antenna 14 is connected to the 400 MHz band field strength measuring unit 16.

  The AM / FM electric field strength measuring unit 15 simultaneously measures the electric field strength of each channel of the AM radio signal and FM radio signal received by the antennas 12 and 13 every 2 μs, for example.

  The 400 MHz band electric field intensity measurement unit 16 measures the electric field intensity of each channel of the mobile radio received by the antenna 14 simultaneously, for example, every 2 μs.

  A vehicle speed pulse conversion unit 17 and a trigger generation unit 18 are connected to the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16.

  The vehicle speed pulse converter 17 converts a pulse signal (vehicle speed pulse), for example, every 100 m in accordance with the moving distance of the vehicle. The vehicle speed pulse corresponds to a display interval when the measured electric field strength is displayed on the display device 22, and the generation interval of the vehicle speed pulse can be changed from the control unit 19 described later. In the case of this embodiment, the vehicle speed pulse converter 17 outputs a pulse signal (data “1”) every time the vehicle travels, for example, 100 m, and outputs data “0” otherwise. The generated pulse signal is supplied to the AM / FM electric field strength measurement unit 15 and the 400 MHz band electric field strength measurement unit 16, and is added to data of the measured electric field strength, as will be described later.

  The trigger generation unit 18 includes, for example, a switch (not shown), and generates a trigger signal. For example, when the switch is pressed once, the trigger generation unit 18 is set to the trigger state, and when the switch is pressed again, the trigger state is released. That is, the trigger generation unit 18 outputs data “1” as a trigger signal in the trigger state, and outputs data “0” when the trigger state is released.

  Specifically, the switch is pushed once at the entrance of the tunnel, for example, and pushed again at the exit of the tunnel. By operating the switch in this way, data “1” is output from the trigger generation unit 18 corresponding to the range of the tunnel, and data “0” is output from the trigger generation unit 18 outside the tunnel. For this reason, the position of the tunnel can be recorded. The trigger signal output from the trigger generation unit 18 is supplied to the AM / FM electric field strength measurement unit 15 and the 400 MHz band electric field strength measurement unit 16, and, as will be described later, the measured electric field strength data is converted into a vehicle speed pulse. It is added with.

  That is, the AM / FM electric field strength measuring unit 15 and the 400 MHz band electric field strength measuring unit 16 are supplied with “0” or “1” data supplied from the trigger generator 18 and the vehicle speed pulse converter 17. A vehicle speed pulse of “0” or “1” is added to the measured electric field strength data of each channel and supplied to the control unit 19.

  The control unit 19 controls the entire electric field strength measuring device 11. The control unit 19 includes an AM / FM electric field strength measuring unit 15 and a 400 MHz band electric field strength measuring unit 16, for example, a storage device 20 constituted by a hard disk or an SSD (Solid State Drive), a global positioning system (GPS). 21, a display device 22, a keyboard 23 as an input means, and a mouse 24 are connected.

  The control unit 19 displays the AM / FM radio signal supplied from the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16 according to the vehicle speed pulse, and the field strength of each channel of the 400 MHz band mobile radio. To display.

  In addition, when the trigger signal added by the trigger generation unit 18 is data “1”, the control unit 19 displays information indicating the tunnel position on the display device 22. That is, the control unit 19 recognizes the position where the trigger signal changes from data “0” to data “1” as the entrance of the tunnel, and determines the position where the trigger signal changes from data “1” to data “0”. Recognize as an exit. The control unit 19 displays a mark on the screen of the display device 22 corresponding to the entrance and exit of the tunnel. This mark will be described later.

  Furthermore, the electric field strength measuring apparatus 11 of the present embodiment can set at least one threshold value for the electric field strength of the AM / FM radio signal and the 400 MHz band mobile radio. Here, for example, the first threshold value indicates the lower limit value of the electric field strength, and the second threshold value indicates the upper limit value of the electric field strength. The first and second threshold values can be set to arbitrary values using, for example, the input means of the keyboard 23 and the mouse 24.

  For example, when the first and second threshold values are set, the control unit 19 determines whether any of the measured AM / FM radio signal and the electric field strength of the 400 MHz band mobile radio is equal to or lower than the first threshold value, and If any of the measured electric field strengths is greater than or equal to the second threshold, a warning is displayed on the display device 22. A specific example of the warning will be described later.

  Further, the GPS 21 measures, for example, latitude and longitude information as position information of the traveling vehicle and supplies the measured information to the control unit 19. The controller 19 adds the latitude and longitude information to the field strength data supplied from the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16 and records the data.

  The storage device 20 stores various software such as basic software necessary for the operation of the control unit 19 and an application program for displaying map information, for example. Further, the storage device 20 stores the electric field intensity data supplied from the AM / FM electric field intensity measuring unit 15 and the 400 MHz band electric field intensity measuring unit 16, flag information, vehicle speed pulse, latitude and longitude information supplied from the GPS 21, and the like. Remember.

  FIG. 2 shows an example of the AM / FM electric field strength measuring unit 15 and the 400 MHz band electric field strength measuring unit 16 shown in FIG.

  The AM / FM field strength measurement unit 15 includes distributors 15a and 15b, AM RF units 15c-1 to 15c-8 for 8 channels, FM RF units 15d-1 to 15d-8, a control unit 15e, and the like. , An analog / digital (A / D) converter 15f, a parallel / serial (P / S) converter 15g, and a level conversion unit 15h.

  The AM radio signal receiving antenna 12 is connected to the distributor 15a, and the FM radio signal receiving antenna 13 is connected to the distributor 15b. The distributor 15a distributes the received AM radio signal into eight and supplies them to the AM RF units 15c-1 to 15c-8. Further, the distributor 15b distributes the received FM radio signal into eight and supplies them to the FM RF units 15d-1 to 15d-8.

  The control unit 15e supplies the channel setting information supplied from the control unit 19 to the AM RF units 15c-1 to 15c-8 and the FM RF units 15d-1 to 15d-8, respectively. Each AM RF unit 15c-1 to 15c-8 is tuned to the frequency of the corresponding AM radio channel based on the channel setting information, and measures the electric field strength of each channel in real time.

  Each of the FM RF units 15d-1 to 15d-8 is tuned to the frequency of the corresponding FM radio channel based on the channel setting information, and measures the electric field strength of each channel in real time.

  The electric field strength of each channel measured by the AM RF units 15c-1 to 15c-8 is supplied to the A / D converter 15f and converted into digital data. Further, the electric field strength of each channel measured by the FM RF units 15d-1 to 15d-8 is supplied to the A / D converter 15f and converted into digital data. The A / D converter 15f samples the electric field strength of each channel every 2 μs, for example, and converts it into digital data. The electric field strength changed into the digital data is supplied to the P / S converter 15g.

  The vehicle speed pulse converted by the vehicle speed pulse converter 17 and the trigger signal generated by the trigger generator 18 are converted to a predetermined level by the level converter unit 15g and supplied to the P / S converter 15g.

  The P / S converter 15g outputs the electric field strength data of each channel of the trigger signal, the vehicle speed pulse, the AM radio signal, and the FM radio signal as serial data described later.

  The 400 MHz band electric field strength measurement unit 16 includes a distributor 16a, 400 MHz band RF units (400RF units) 16b-1 to 16b-10 for 10 channels, a control unit 16c, an A / D converter 16f, P / S converter 16g and level conversion unit 16h.

  The 400 MHz mobile radio antenna 14 is connected to the distributor 16a. The distributor 16c distributes the received 400 MHz band mobile radio signal and supplies it to the 400RF units 16b-1 to 16b-10.

  The control unit 15e supplies the channel setting information supplied from the control unit 19 to the 400RF units 16b-1 to 16b-10, respectively. Each 400RF unit 16b-1 to 16b-10 is set to the corresponding 400 MHz band mobile radio channel based on the channel setting information, and measures the electric field strength of each channel in real time.

  The electric field strength of each channel measured by the 400RF units 16b-1 to 16b-10 is supplied to the A / D converter 16f and converted into digital data. The A / D converter 16f samples the electric field strength of each channel every 2 μs, for example, and converts it into digital data. The electric field strength changed into the digital data is supplied to the P / S converter 16g.

  The vehicle speed pulse converted by the vehicle speed pulse converter 17 and the trigger signal generated by the trigger generator 18 are converted to a predetermined level by the level converter unit 16h and supplied to the P / S converter 16g.

  The P / S converter 16g outputs the trigger signal, the vehicle speed pulse, the AM radio signal, and the field strength data of each channel of the 400 MHz band mobile radio as serial data to be described later.

  FIG. 3 shows an example of the AM RF unit 15c-1 shown in FIG. Since the AM RF units 15c-2 to 15c-8 have the same configuration as the AM RF unit 15c-1, description thereof will be omitted.

  In FIG. 3, an AM RF unit 15c-1 includes, for example, an amplifier 31a, a mixer 31b, for example, a CPU 31c constituted by a microprocessor, a PLL (phase-locked loop) circuit 31d including a VCO (voltage controlled oscillator), an amplifier 31e, and a BPF. (Band filter) 31f, amplifier 31g, BPF 31h, RSSI amplifier 31i including RSSI (reception field strength indicator), and differential amplifier 31j.

  The channel setting information supplied from the control unit 19 is supplied to the PLL circuit 31d via the CPU 31c. The PLL circuit 31d generates a local oscillation signal having a frequency corresponding to one channel of the AM radio signal.

  The AM radio signal output from the distributor 15a is supplied to the mixer 31b via the amplifier 31a, and is mixed with the local oscillation signal output from the PLL circuit 31d. The intermediate frequency signal output from the mixer 31b is supplied to the RSSI amplifier 31i via the BPF 31f, the amplifier 31g, and the BPF 31h. In the RSSI amplifier 31i, the electric field strength of one channel of the AM radio signal is measured. A signal indicating the electric field intensity output from the RSSI amplifier 31i is supplied to the A / D converter 15f via the differential amplifier 31j and converted into digital data.

  FIG. 4 shows an example of the FM RF unit 15d-1 shown in FIG. Since the FM RF units 15d-2 to 15d-8 have the same configuration as that of the FM RF unit 15d-1, description thereof will be omitted.

  In FIG. 4, the FM RF unit 15d-1 includes, for example, an LPF (low-pass filter) 32a, an amplifier 32b, an HPF (high-pass filter) 32c, an LPF 32e, an amplifier 32f, a BPF 32g, a mixer 32d, a CPU 32h, and a PLL circuit 32i. , BPF 32j, RSSI amplifier 32k, and differential amplifier 32l.

  The channel setting information supplied from the control unit 19 is supplied to the PLL circuit 32i via the CPU 31h. The PLL circuit 32i generates a local oscillation signal having a frequency corresponding to one channel of the FM radio signal.

  The FM radio signal output from the distributor 15a is supplied to the mixer 31b through the LPF 32a, the amplifier 32b, and the HPF 32c, and is supplied to the mixer 32d through the LPF 32e, the amplifier 32f, and the BPF 32g. In the mixer 32d, the FM radio signal and the local oscillation signal supplied from the PLL circuit 32i are mixed to generate an intermediate frequency signal. The intermediate frequency signal output from the mixer 32d is supplied to the RSSI amplifier 32k via the BPF 32j. In the RSSI amplifier 32k, the electric field strength of the FM radio signal of one channel is measured. A signal indicating the electric field strength output from the RSSI amplifier 32k is supplied to the A / D converter 16f via the differential amplifier 32l and converted into digital data.

  The configurations of the 400RF units 16b-1 to 16b-10 are the same as those of the FM RF unit 15d-1, except that the intermediate frequency constituted by the PLL circuit and the cutoff frequency of each filter are different from those of the FM RF unit 15d-1. Therefore, the description is omitted.

  5A shows an example of an output signal of the P / S converter 15g shown in FIG. 2, and FIG. 5B shows an example of an output signal of the P / S converter 16g shown in FIG. Yes.

  As shown in FIG. 5A, the P / S converter 15g is an electric field of eight channels of a trigger signal, a vehicle speed pulse supplied from the level conversion unit 15h, and an FM radio signal supplied from the A / D converter 15f. A signal indicating the intensity (CH8 to CH1) and a signal (CH8 to CH1) indicating the electric field intensity of 8 channels of the AM radio signal are serially output as one frame.

  As shown in FIG. 5 (b), the P / S converter 16g is a trigger signal, a vehicle speed pulse supplied from the level conversion unit 16h, and a mobile radio signal in the 400 MHz band supplied from the A / D converter 16f. A signal (CH10 to CH1) indicating the electric field strength of the channel is serially output as one frame.

  For example, one frame of serial data shown in FIG. 5B output from the P / S converter 16g is followed by one frame of serial data shown in FIG. 5A output from the P / S converter 15g. It is supplied to the control unit 19. The control unit 19 stores this serial data in the storage device 20.

  FIG. 6 shows a schematic configuration when the electric field strength of AM and FM radio signals and 400 MHz band mobile radio is measured on a highway by a vehicle 41 equipped with the electric field strength measuring device 11 having the above configuration. The vehicle 41 measures the electric field strengths of AM and FM radio signals and 400 MHz mobile radio while traveling on the highway. When the vehicle 41 enters the tunnel 42, the switch of the trigger generation unit 18 is pushed once, and when leaving the tunnel, the switch is pushed again. In the tunnel 42, the electric field strength of the rebroadcast of AM and FM radio is measured.

  Next, the operation of the control unit 19 will be described with reference to FIG. 7, FIG. 8, FIG. 9, and FIG.

  The control unit 19 displays serial data supplied from the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16 on the display device 22 based on the vehicle speed pulse.

  Specifically, the control unit 19 first receives serial data supplied from the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16 (S11), and stores the serial data in the storage device 20 (S12). Thereafter, it is determined whether the vehicle speed pulse of the serial data supplied from the AM / FM electric field strength measuring unit 15 and the 400 MHz band electric field strength measuring unit 16 is “1” (S13). When the vehicle speed pulse is “0”, the above operation is repeated, and the supplied serial data is stored in the storage device 20.

  On the other hand, if the vehicle speed pulse is “1” as a result of the discrimination, the electric field strength of each channel of the AM / FM radio signal included in the serial data and the electric field strength of each channel of the 400 MHz band mobile radio are displayed on the display device 22. (S14).

  As described above, the vehicle speed pulse conversion unit becomes a data “1” signal every 100 m, for example, and a data “0” signal in other periods. When the vehicle speed pulse of the serial data supplied from the P / S converters 15g and 16g is “1”, the control unit displays a signal indicating the electric field strength to which the vehicle speed pulse is added as a graph on the display device 22. .

  FIG. 8 shows an example of display on the display device 22. The screen of the display device 22 has, for example, first to sixth windows 22a to 22f. The first window 22a displays the field strength of each channel of the AM radio signal, the second window 22b displays the field strength of each channel of the FM radio signal, and the third window 22c displays the 400 MHz band. The field strength of each channel of mobile radio is displayed.

  That is, the control unit 19 displays the electric field strength of each channel of the AM radio signal included in the serial data as a graph in the first window 22a in different colors, and the electric field strength of each channel of the FM radio signal in different colors. And displayed as a graph in the second window 22b. Further, the control unit 19 displays the electric field strength of each channel of the 400 MHz band mobile radio as a graph in the third window 22c with a different color.

  The first to third windows 22a to 22c are sub-screens, and the fourth window 22d is a main screen. The fourth window 22d enlarges and displays one electric field strength selected from the first to third windows 22a to 22c. In the example shown in FIG. 8, the fourth window 22d displays the electric field strength of each channel of the 400 MHz band mobile radio displayed in the third window 22c.

  In the fifth window 22e, among the data displayed in the fourth window 22d, for example, data in the latest 10 km range from the current measurement position is displayed with an enlarged distance.

  In the sixth window 22f, for example, the data of each channel displayed in the fourth window 22d is displayed as a numerical value.

  FIG. 10 shows an example of the electric field strength data of each channel of the 400 MHz band mobile radio. This data includes electric field strength, latitude, longitude, and trigger signal data for each channel. The data “1” portion of the trigger signal indicates a tunnel. A part of this data is displayed in the sixth window 22f.

  In the first to fifth windows 22a to 22e, the horizontal axis is, for example, distance (km), and the vertical axis is, for example, electric field strength (dBμV).

  Further, in the first to fifth windows 22a to 22e, marks TN1 and TN2 indicating the range of the tunnel and threshold values TH1, TH2, and TH3 are displayed corresponding to the trigger signal.

  The mark TN1 indicating the tunnel range corresponds to the position where the switch constituting the trigger generation unit 18 is first pressed, and the mark TN2 corresponds to the position where the switch is pressed again. That is, as shown in FIG. 10, the trigger signal (TRIG) is added corresponding to the electric field strength of each channel. The control unit 19 recognizes the position where the trigger signal changes from data “0” to data “1” as the tunnel entrance, and sets the position where the trigger signal changes from data “1” to data “0” as the tunnel exit. The mark TN1 is displayed on the screen of the display device 22 corresponding to the entrance of the tunnel, and the mark TN2 is displayed on the screen of the display device 22 corresponding to the exit.

  Further, thresholds TH1, TH2, and TH3 represent, for example, lower limit values of the electric field strength of the AM / FM radio signal and the 400 MHz mobile radio. This threshold value is not limited to the lower limit value but may be an upper limit value. Further, both the lower limit value and the upper limit value may be displayed.

  In FIG. 7, the control unit 19 compares the electric field strength of each channel of the AM radio signal with the threshold value TH1, compares the electric field strength of each channel of the FM radio signal with the threshold value TH2, and further compares the mobile radio in the 400 MHz band. The electric field strength of each channel is compared with the threshold value TH3 (S15). If the electric field strength of each channel is higher than the threshold value as a result of this comparison, measurement information is displayed as shown in FIG. 8 (S16).

  On the other hand, if the electric field strength of a certain channel falls below the threshold value as a result of the comparison, for example, a window frame displaying the electric field strength of that channel blinks (S17).

  FIG. 9 shows an example in the case where the electric field strength of a channel with an AM radio signal, for example, falls below a threshold value. As shown in FIG. 9, the frame of the first window 22a that displays the electric field strength of the AM radio signal blinks to warn that the electric field strength of a certain channel has fallen below the threshold value.

  Further, after the measurement on the highway is completed, the control unit 19 combines the measured field strength data of each channel with the map information supplied from the storage device 20 based on the position information measured by the GPS 21. It can be displayed on the display device 22.

  According to the above-described embodiment, the AM / FM electric field strength measurement unit 15 and the 400 MHz band electric field strength measurement unit 16 can be used for the multiple channels of the AM radio signal, the multiple channels of the FM radio signal, and the multiple channels of the 400 MHz band mobile radio. The electric field strength is measured at the same time. For this reason, since it is possible to measure the electric field strength of a plurality of channels simultaneously by one run, it is possible to greatly reduce the measurement time.

  Moreover, the AM / FM electric field strength measurement unit 15 includes AM RF units 15c-1 to 15c-8 and FM RF units 15d-1 to 15d-8, and the 400 MHz band electric field strength measurement unit 16 includes 400 RF units. 16b-1 to 16b-10. For this reason, the measurement speed is faster than the measurement using the conventional spectrum analyzer, and the electric field strength of each channel can be measured in real time while the vehicle is running and displayed on the display device 22.

  The AM / FM electric field strength measurement unit 15 and the 400 MHz band electric field strength measurement unit 16 generate serial data by adding a vehicle speed pulse and a trigger signal to the measured electric field strengths of a plurality of channels. Displays the field strength data on the display device 22 when the vehicle speed pulse of the serial data supplied from the AM / FM field strength measurement unit 15 and the 400 MHz band field strength measurement unit 16 is “1”. Since the vehicle speed pulse is data that becomes “1” every 100 m, for example, the measured electric field strength data can be displayed on the display device 22 at regular intervals. Therefore, it is possible to know the distribution of the electric field strength data of each channel on the highway.

  Further, the trigger generation unit 18 generates a trigger signal by operating a switch at the entrance and exit of the tunnel, and the control unit 19 includes an AM / FM field strength measurement unit 15 and a 400 MHz band field strength measurement unit. Based on the trigger signal in the serial data supplied from 16, the marks TN1 and TN2 are displayed on the graph of the electric field intensity displayed on the display device 22 corresponding to the entrance and exit of the tunnel. For this reason, it is possible to reliably distinguish the electric field strength of the radio rebroadcast radio wave inside the tunnel from the electric field strength of the radio broadcast radio wave outside the tunnel. Therefore, it is possible to accurately measure the electric field strength of the radio rebroadcast radio wave in the tunnel.

  In the present embodiment, thresholds can be set for the electric field strengths of AM radio signals, FM radio signals, and 400 MHz mobile radio, respectively. For example, when the electric field intensity exceeds the threshold value, the corresponding window of the display device 22 blinks to enable warning. For this reason, it is possible to easily recognize a place where the electric field strength is low and a place where the electric field intensity is high.

  Further, the control unit 19 is capable of combining and displaying the measured field strength data of each channel on the map information supplied from the storage device 20 based on the position information measured by the GPS 21. For this reason, it is possible to display the distribution of electric field strengths of a plurality of channels in AM radio, FM radio, and 400 MHz band mobile radio on a highway. Therefore, for example, it is possible to recognize the correlation between the topography where the highway is installed and the electric field strength of each channel.

  The trigger generation unit 18 has a switch, and this switch is operated corresponding to the entrance and exit of the tunnel. However, the present invention is not limited to this. For example, an optical sensor is provided instead of the switch, and the light is generated. It is also possible to generate trigger signals corresponding to the entrance and exit of the tunnel using the output signal of the sensor.

  In addition, the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Moreover, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

  DESCRIPTION OF SYMBOLS 15 ... AM / FM electric field strength measurement unit, 16 ... 400MHz band electric field strength measurement unit, 17 ... Vehicle speed pulse conversion part, 18 ... Trigger generation part, 19 ... Control part, 20 ... Memory | storage device, 21 ... GPS, 22 ... Display device .

Claims (3)

An electric field strength measuring device mounted on a vehicle,
A first antenna for receiving a multi-channel broadcast signal;
A second antenna for receiving radio signals;
A plurality of first electric field strength measuring units for measuring electric field strengths of a plurality of channels of broadcast signals received by the first antenna;
A plurality of second field strength measuring units for measuring a field strength of a radio signal received by the second antenna;
A vehicle speed pulse converter for converting a pulse signal corresponding to the moving distance of the vehicle;
A trigger generator for generating a trigger signal corresponding to the entrance and exit of the tunnel;
An analog / digital converter that converts the broadcast signal of a plurality of channels measured by the plurality of first and second field strength measuring units and the field strength of the radio signal into a plurality of digital signals;
A signal processing unit for generating serial data by adding the pulse signal supplied from the vehicle speed pulse conversion unit to the output signal of the analog / digital converter and the trigger signal supplied from the trigger generation unit;
The measured electric field strength is displayed on a display device based on the pulse signal added to the serial data supplied from the signal processing unit, and a mark indicating a tunnel is displayed on the display device based on the trigger signal. And an electric field intensity measuring device.   The electric field strength measuring apparatus according to claim 1, wherein the trigger generation unit includes any one of a switch that generates a trigger signal and an optical sensor. Further comprising setting means for setting a threshold value of the electric field strength;
3. The electric field according to claim 2, wherein the control unit displays a warning on the display device when the electric field strength supplied from the signal processing unit is outside a range of a threshold set by the setting unit. Strength measuring device.

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