RU2205415C2 - Portable radio direction finder - Google Patents

Abstract

FIELD: determination of direction to source of electromagnetic radiation. SUBSTANCE: portable radio direction finder has case in the form of pistol with handle housing power supply source, directional antenna, connector put on frontal part of case, low-frequency amplifier connected to loudspeaker and compass. Direction finder also incorporates discretely adjustable attenuator, wide-band high-frequency amplifier, frequency meter and visual indication unit. Directional antenna comes in the form of separable element placed outside of case. Discretely adjustable attenuator, smoothly adjustable attenuator and wide-band high-frequency amplifier to which power supply source is connected are positioned in case and are connected in series. Separable element of antenna is connected through connector mounted on frontal part of case to input of discretely adjustable attenuator. Output of wide-band high-frequency amplifier is connected through additional connector to input of automatically tunes digital tuner which outputs are connected through low-frequency amplifier and frequency meter to inputs of visual indication unit. Compass is anchored on rear part of case with use of swing bracket. EFFECT: development of light, reliable and handy portable radio direction finder. 5 cl, 7 dwg

Description

 The invention relates to devices for determining the direction to a source of electromagnetic radiation.

 Known three-dimensional direction finder (see GB 1595092, CL G 01 S 3/14, 08/05/1981) containing three dipoles aligned with the axes x, y, z, and three loop antennas, combined with the planes yz, xz, xy. A switch system connects the pairs of antenna outputs to the multiplier. The serial results of the multiplication in the multiplier are stored after conversion to digital form in the storage unit in the corresponding memory cells. The results stored in the memory are then summed and subtracted in a computer to obtain the coordinates of the object.

 The disadvantage of this direction finder is the complexity due to the presence of 6 antennas and, accordingly, 6 signal processing channels.

 Known automatic direction finder (see US 3761931, CL G 01 S 3/14, 09/25/1973) containing a loop antenna and a vertical antenna. The output signals of one of these antennas are fed to a balanced modulator, where the signal is modulated at a given frequency, after which the modulated signal is combined with the output signal of another antenna. The received signal is detected and fed to a phase detector, which performs phase detection in accordance with the modulation frequency. The direction finder also includes a direct current electric motor for rotating the loop antenna, and a direct current source. The motor is switched on and off via control transistors in accordance with the output signal of the phase detector.

 The disadvantage of this direction finder is the complexity and low reliability due to the complex control circuit and the presence of movable rotation elements.

 Of the known portable direction finding devices, the closest is a portable direction finding device (see US 3683384, CL G 01 S 3/14, 09/25/1973), containing a gun-shaped housing with a handle, in which is located the power source, directional antenna, connector, mounted on the front of the case, a tuner, a low-frequency amplifier connected to a loudspeaker, and a compass. A portable direction finding device is intended for direction finding of several beacons tuned to known fixed frequencies, and determining their location from them.

 The disadvantages of the known direction finding device are the fixed frequency of interchangeable tuners, limited functionality due to the lack of a smooth tuning of the device in frequency when searching for various sources of radio emission in conditions where the radio emission sources have both high and low signal levels, as well as the lack of a visual indication of tuning.

 The technical result, the achievement of which the present invention is directed, is to eliminate the above disadvantages and create a multifunctional, reliable, lightweight and convenient portable direction finding device.

 The specified technical result is achieved in that the portable direction finding device, comprising a gun-shaped housing with a handle, which houses a power source, a directional antenna, a connector mounted on the front of the housing, a tuner, a low-frequency amplifier connected to the loudspeaker, and a compass, contains a discretely adjustable attenuator and a continuously adjustable attenuator, the maximum attenuation of which is chosen equal to the value of the step of changing the attenuation of a discretely controlled attenuator, wide high-frequency amplifier, frequency counter and visual display unit, which together with a tuner made in the form of an automatically tunable digital tuner, low-frequency amplifier and loudspeaker form a signal processing unit fixed on the upper part of the housing, the directional antenna is made in the form of a removable element located outside cases, and a discretely adjustable attenuator, a continuously adjustable attenuator and a broadband high-frequency amplifier, to which a power source is connected placed in the case and connected in series, a removable antenna element through a connector mounted on the front of the case, connected to the input of a discretely adjustable attenuator, the output of a broadband high-frequency amplifier through an additional connector connected to the input of an automatically tunable digital tuner, the outputs of which are connected through a low-frequency amplifier and a frequency meter to the inputs of the visual display unit, and the compass is mounted on the rear of the case using the hinged bracket.

 The indicated technical result is also achieved by the fact that the removable antenna element is made in the form of a system of two frames located in the same plane, at least one of the sides of each frame is straight, the frames are located relative to each other so that their straight sides are located in close proximity parallel to each other, and the open sides of the frames are located on one straight line, while a resistor is connected to the far ends of the frames, and a symmetric input is connected to the near ends of the frames device, the unbalanced output of which is connected to a coaxial connector mounted on the front of the housing of the direction finding device.

 The specified technical result is also achieved by the fact that the rectilinear sides of the frames located in close proximity to each other are made in the form of a segment of a two-wire transmission line.

 The specified technical result is also achieved by the fact that the sides of the frames located far from each other are made in the form of a metal tape with notches.

 The specified technical result is also achieved by the fact that the system of two frames is printed.

 The specified technical result is also achieved by the fact that the control knobs of the attenuation of a discretely adjustable attenuator and a continuously adjustable attenuator are located on the side of the housing.

 In FIG. 1 is a structural diagram of a portable direction finding device.

 In FIG. 2 shows a schematic diagram of a removable element of a directional antenna.

 In FIG. 3 is a schematic diagram of a removable element of a directional antenna with a segment of a two-wire transmission line.

 In FIG. 4 shows the radiation pattern of a removable element of a directional antenna.

 Figure 5 shows the compass in the operating position.

 Figure 6 shows the design of the hinged bracket.

 7 shows a drawing of the axis of the hinged bracket.

 The portable direction-finding device contains a housing 1 in the form of a pistol with a handle 2 (Fig. 1), in which a power supply 3 is placed, connected to a broadband high-frequency amplifier 4. One of the removable directional elements 6 is connected to the connector 5, mounted on the front of the housing antennas. A discrete adjustable 7 and continuously adjustable attenuator 8 is placed in the housing, connected in series with a high-frequency broadband amplifier 4, the input of a discretely adjustable attenuator 7 being connected to connector 5, and the output of a high-frequency broadband amplifier 4 through an additional connector 9 connected to the input of an automatically tunable digital tuner 10. One of the outputs of the tuner 10 is connected through a low-frequency amplifier 11 to a loudspeaker 12. The second output of the tuner 10 is connected through a frequency meter 13 to the unit visually indication 14, the second input of which is connected to the second output of the low-frequency amplifier 11. An automatically tunable digital tuner 10, a low-frequency amplifier 11, a loudspeaker 12, a frequency meter 13, and a visual indication unit 14 form a signal processing unit 15 located on the upper part of the housing. The compass 16 is mounted on the rear of the housing using the hinged bracket 17. On the side of the housing 1 there are attenuation control knobs (not shown) of a discretely adjustable attenuator 7 having a fixed attenuation of 20 dB and a continuously adjustable attenuator 8 with a range of 0-20 dB.

 The directional antenna is made in the form of a removable element 6. The removable element of the directional antenna is made in the form of a system 18 (Fig. 2), two open frames 19 and 20 located in the same plane, with at least one of the sides 21 and 22 of each frame being rectilinear. Other sides of the frames can be either straightforward or non-linear. The frames are located relative to each other in such a way that their rectilinear sides 21 and 22 are located in close proximity parallel to each other, and the open sides of the frames 23 and 24 are located on one straight line, while a resistor 25 is connected to the far ends of the open frames, and to the near ends the frames connected to the symmetric input of the balancing device 26, the unbalanced output of which is connected to the connector 5 mounted on the front of the housing 1 of the direction finding device.

 Each of the removable elements of the directional antenna covers a certain frequency range, for example, 20-200 MHz, 200-500 MHz, 500-1000 MHz. Thus, a set of removable elements provides operation in the range from several tens of MHz to several units of GHz.

 The rectilinear sides of the frames located in close proximity to each other can be made in the form of a segment of a two-wire transmission line 27 (figure 3), which can significantly reduce the weight of a portable direction finding device.

 In order to expand the operating frequency band, the frames 19 and 20 are made in the form of a wide metal tape. To reduce weight in the metal tape, notches are made.

 The system of two frames can be made by printing, which reduces the weight of the antenna of the portable device.

 The removable antenna element has a cardioid radiation pattern (Fig. 4).

 Compass 16 is mounted on a hinged bracket 17, which can be rotated around axis 28 (Fig.5,6,7). The axis 28 is mounted on the housing 1 using two bearings 29 with cylinders. The axis of rotation is set inside the cylinders. In one of the cylinders, a spring 30 is installed. In the opposite cylinder there is a square hole in which, when the bracket is rotated, part 33 of the axis 28, having a square section, enters.

In the idle position, the compass is adjacent to the rear surface of the housing 1, which minimizes the size of the device in the idle position. To bring the compass into a working horizontal position, it is first shifted to the left along the axis of attachment, rotate it around the axis by 90 ^o and then shift the compass to the right. The specified working position of the compass allows for the convenience of the operator while observing the compass and the indicator of the information processing unit.

 The work of a portable direction finding device is as follows.

 Depending on the selected operating frequency range, one of the removable elements 6 included in the set of directional antennas is connected to the connector 5 of the housing. The removable element of the antenna 6 is a two-frame system having a cardioid radiation pattern in both horizontal and vertical planes. The signal processing unit 15 is fixed on the upper part of the housing and is connected to an additional connector 9 using a coaxial cable. The operability of the device is checked by the source of a continuous signal (standard signal generator, radio station, cordless telephone, etc.). An automatically tunable digital tuner 10 tunes to a pre-selected frequency. The tuning frequency of the tuner 10 is controlled using a frequency meter 13, the frequency readings are read from the display of the visual indication unit 14. The minimum attenuation of the signal of the discretely tunable attenuator 7 and the smoothly tunable attenuator is set 8. The removable element of the directional antenna is oriented to the continuous signal source according to the criterion of the maximum loudness of the loudspeaker signal 12 . The signal level is controlled using the control knobs of discretely adjustable and continuously adjustable attenuators located on on the side of the case. Depending on the tasks indicated below, one or more discrete attenuators can be installed in the device.

 The presence of these adjustment and indication bodies allows the operator to simultaneously determine the direction of the antenna to the object and to adjust the signal level. The level adjustment using attenuators is performed until the indicator pointer of the visual indication unit is in the middle of the scale.

 By turning the antenna left and right, the operator determines the direction of the signal maximum and minimum by the indicator of the visual display unit. Since the antenna has a cardioid radiation pattern, under fairly good reception conditions (lack of reflections and the influence of local objects) one maximum corresponding to the direction to the signal and one minimum corresponding to the opposite direction should be observed. In the case of reflections from local objects (houses, trees, metal objects, reinforcement of reinforced concrete structures, power lines, etc.), several highs and lows can be observed. In this case, the operator repeats the search for the direction to the signal source from a place remote from objects that may cause reflection of the signal. When searching in the near field, in addition to the indicator readings, one should take into account the change in signal volume when changing direction of direction finding with linear movement.

 As a criterion for directivity, the maximum signal is usually used at the initial stage of the search; at the final stage of the search, it is convenient to refine the direction at the minimum signal.

 The use of a map and a compass can give good results when searching for a signal source on the ground. In this case, the search begins with the identification and mapping of bearings from two or three direction finding points. Having received the intersection of bearings on the map, the signal source is localized.

Portable direction finding device allows you to perform the following operations:
- determination of the direction to the signal source;
- localization of objects at short and medium distances;
- direction finding of a signal source when using multiple receivers;
- detection of interference sources, including spurious emissions from radio television receiving equipment, electric motors and internal combustion engines, data processing systems, computers, faulty electrical installations;
- search for unlicensed transmitters that interfere with registered stations;
The invention allows to create a multifunctional, reliable, lightweight and convenient portable direction-finding device having both sound and visual indication of tuning and providing the ability to work in a wide range of frequencies, as well as with a large dynamic range of the signal source.

Claims (6)

 1. A portable radio direction finding device comprising a pistol-shaped housing with a handle that houses a power source, a directional antenna, a connector mounted on the front of the housing, a tuner, a low-frequency amplifier connected to the speaker, and a compass, characterized in that it contains discretely adjustable attenuator and steplessly adjustable attenuator, the maximum attenuation of which is chosen equal to the value of the step of changing the attenuation of a discretely controlled attenuator, a broadband amplifier of high A signal, a frequency meter and a visual indication unit, which together with a tuner made in the form of an automatically tunable digital tuner, a low-frequency amplifier and a loudspeaker form a signal processing unit fixed on the upper part of the housing, the directional antenna is made in the form of a removable element located outside the housing, discretely adjustable attenuator, continuously adjustable attenuator and broadband high-frequency amplifier, to which the power source is connected, are placed in the housing and soy are connected in series, a removable antenna element through a connector mounted on the front of the case is connected to the input of a discretely adjustable attenuator, the output of a broadband high-frequency amplifier through an additional connector is connected to the input of an automatically tunable digital tuner, the outputs of which are connected through a low-frequency amplifier and a frequency meter to the unit inputs visual indication, and the compass is mounted on the back of the case using the hinged bracket.  2. Portable direction finding device according to claim 1, characterized in that the removable antenna element is made in the form of a system of two frames located in the same plane, with at least one side of each frame being straight, the frames are arranged relative to each other so that their rectilinear sides are located in close proximity parallel to each other, and the open sides of the frames are located on one straight line, while a resistor is connected to the far ends of the frames, and a symmetrical one is connected to the near ends of the frames the input of the balancing device, the unbalanced output of which is connected to the connector fixed on the front of the housing of the direction finding device.  3. Portable direction finding device according to claim 2, characterized in that the rectilinear sides of the frames located in close proximity to each other are made in the form of a segment of a two-wire transmission line.  4. Portable direction finding device according to claim 2, characterized in that the frames are made in the form of a metal tape with notches.  5. Portable direction finding device according to claim 2, characterized in that the frames are printed.  6. Portable direction finding device according to claim 1, characterized in that the attenuation control knobs of the discretely adjustable and continuously adjustable attenuators are located on the side of the housing.

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