RU128791U1 - RECEIVING MODULE OF THE ACTIVE PHASED ANTENNA ARRAY - Google Patents

Abstract

1. The transceiver module of the active phased array antenna, comprising a housing and an electronic cell located therein, comprising a carrier circuit board with radio electronic elements, in which at least one transceiver channel is formed, characterized in that at least one transceiver channel includes at least a functional unit that provides preliminary amplification of the transmitted signal and control parameters of the transmitted signal, a functional unit that provides output Noe amplification of the transmitted signal, and a functional unit providing amplification of the received signal and the received control signal parameters, each functional unit is configured as a separate structural unit, are mechanically and electrically connected to the circuit carrier platoy.2. The module according to claim 1, characterized in that each individual structural unit contains a separate printed circuit board with electronic components. The module according to claim 2, characterized in that slots are provided in the carrier circuit board for connecting each individual circuit board to the carrier circuit board. The module according to claim 3, characterized in that each individual printed circuit board is provided with a base installed in the slot of the carrier printed circuit board. The module according to claim 4, characterized in that each individual printed circuit board is made with edges protruding beyond the edges of the base with the formation of protruding parts, while the base of each individual printed circuit board is installed in the slot of the supporting printed circuit board with the protruding parts adhering to the surface of the supporting printed circuit board

Description

The utility model relates to the field of radar technology and can be used in the design and manufacture of active phased array antenna (AFAR).

Transceiver modules of active phased antenna arrays are known, comprising a housing and a radio-electronic cell located therein, containing printed circuit boards with radio-electronic elements in which transceiver channels are formed (see, for example, A. Buterin and others. “10 watt 4 channel APM AFAR X-band for airborne radar ", CriMiCo '2003).

The disadvantages of the known modules are the complexity of their manufacture. A known transceiver module of an active phased antenna array containing a housing and a radio-electronic cell located therein, containing a carrier circuit board with radio-electronic elements, in which transceiver channels are formed (see S. Arzhanov and others. "Development and organization of production AFAR transceiver modules using their own microwave electronic component base ”, in“ Fazotron ”, No. 1-2 (15), 2011).

The known module is adopted as the closest analogue to the claimed module. The disadvantages of the known module are that its design is such that various functional units for receiving and transmitting a signal are included in the carrier circuit board, which, in turn, leads to the need to replace the entire carrier circuit board in case of failure at least one of the functional nodes.

The objective of the claimed utility model is the creation of a transceiver module AFAR with improved structural and technological characteristics.

The result is a technical result, consisting of:

1) in providing the ability to replace any one of the functional units of the module when it fails without replacing the entire carrier board, which determines the economic and operational advantages of the module;

2) in providing the possibility of manufacturing functional units separately from the supporting printed circuit board at various technological sites or various technological equipment, which leads to optimization of module production.

The specified technical result is achieved by creating a transceiver module of an active phased antenna array containing a housing and a radio-electronic cell located therein, comprising a carrier circuit board with radio-electronic elements, in which at least one transceiver channel is formed, including at least a functional unit that provides preliminary amplification of the transmitted signal and control the parameters of the transmitted signal, a functional unit that provides you the input signal amplification, and a functional unit providing the received signal amplification and control of the received signal parameters, each functional unit being made as a separate structural unit mechanically and electrically connected to the carrier printed circuit board.

According to a particular embodiment, each individual structural unit comprises a separate printed circuit board with electronic components.

According to a preferred embodiment, slots are provided in the carrier circuit board for connecting each individual circuit board to the carrier circuit board.

According to a more preferred embodiment, each individual circuit board is provided with a base mounted in a slot in the carrier of the printed circuit board.

According to an even more preferred embodiment, each individual printed circuit board is made with edges protruding beyond the edges of the base to form protruding parts, the base of each individual printed circuit board being installed in the slot of the supporting printed circuit board with the protruding parts adhering to the surface of the supporting printed circuit board.

According to an even more preferred embodiment, each individual circuit board is mechanically connected to the housing.

According to an even more preferred embodiment, a threaded connection is used as a mechanical connection.

According to another even more preferred embodiment, protrusions are made on the inside of the case, on each of which a base for each individual circuit board is mounted.

According to yet another particular embodiment, a high-frequency line segment is electrically connected to high-frequency line segments extending over the surface of the supporting printed circuit board along the surface of each individual printed circuit board.

According to a preferred embodiment, a solder joint is used as the electrical connection.

Figure 1 shows a General view of the claimed module.

On figa and 2b shows a schematic illustration of a radio electronic cell.

Figure 3 shows an enlarged schematic image of a transceiver channel of a radio-electronic cell (view A).

On figa shows a particular embodiment of a separate structural unit of the module (top view).

On fig.4b shows a particular embodiment of a separate structural unit of the module (side view).

Figure 5 shows a particular embodiment of the mechanical connection of a separate structural unit of the module with a carrier printed circuit board (sectional side view).

Figure 6 shows an enlarged schematic illustration of a private version of the electrical connection of a separate structural unit of the module with a carrier printed circuit board.

The transceiver module of the active phased array antenna, shown in Figs. 1, 2a and 2b, comprises a housing 1 and an electronic cell 2 located therein, comprising a carrier circuit board 3 with electronic elements 4a, in which eight transceiver channels 5a are formed 5h.

Each of the channels 5a-5h, as shown in FIG. 3, includes three functional units for receiving and transmitting a signal, each of which is made in the form of a separate structural unit 6a-6c, mechanically and electrically connected to the carrier printed circuit board 3 .

Specifically, each of the channels 5a-5h includes a block 6a providing pre-amplification of the transmitted signal and controlling the parameters of the transmitted signal, block 6b providing the output amplification of the transmitted signal and block 6c providing the amplification of the received signal and controlling the received signal parameters.

In the particular embodiment shown in FIGS. 4a and 4b, each individual structural unit 6a-6c comprises a separate printed circuit board 7 with electronic components 4b.

In the particular embodiment shown in FIG. 5, slots 8 (see also FIG. 2) are made in the carrier printed circuit board 3 for connecting the individual printed circuit boards 7 of the structural units 6a-6c to the carrier printed circuit board 3.

Each individual printed circuit board 7 is equipped with a base 9 installed in the slot 8 of the supporting printed circuit board 3, and is made with edges protruding beyond the edges of the base 9 with the formation of the protruding parts 10.

The base 9 of each individual printed circuit board 7 is installed in the slot 8 of the carrier printed circuit board 3 with the protruding parts 10 resting against the surface of the carrier printed circuit board 3.

Each individual printed circuit board 7 is mechanically connected to the housing 1. As a mechanical connection, a threaded connection is used, for example, a connection by means of screws 11.

On the inner side of the housing 1, protrusions 12 are made on which bases 9 of individual printed circuit boards 7 are mounted.

In the particular embodiment shown in FIG. 6, a high-frequency line segment 13 is electrically connected to high-frequency line segments 14 extending over the surface of the supporting printed circuit board 3 along the surface of each individual printed circuit board 7.

As the electrical connection can be used, for example, solder connection 15.

The claimed module is used as follows.

In the transmission mode in each transceiver channel 4a-4h, the signal enters block 6a, which provides preliminary amplification of the transmitted signal and control of the parameters of the transmitted signal, in particular, a change in the phase state of the channel and gain.

Next, the signal enters block 6b, which provides output amplification of the transmitted signal to the desired level and is transmitted to the antenna (not shown conditionally).

In the reception mode in each transceiver channel 4a-4h, the signal enters block 6c, which provides amplification of the received signal and control the parameters of the received signal, in particular, a change in the phase state of the channel and gain.

Further, the signal is amplified to the required level and transmitted to processing.

Each of the blocks 6a-6c includes electronic means to enable these operations, well known in the art and not specifically disclosed in this utility model.

Claims (10)

1. The transceiver module of the active phased array antenna, comprising a housing and an electronic cell located therein, comprising a carrier circuit board with radio electronic elements, in which at least one transceiver channel is formed, characterized in that at least one transceiver channel includes at least a functional unit that provides preliminary amplification of the transmitted signal and control parameters of the transmitted signal, a functional unit that provides output Noe amplification of the transmitted signal, and a functional unit providing amplification of the received signal and the received control signal parameters, each functional unit is configured as a separate structural unit, are mechanically and electrically connected to the printed circuit board carrier. 2. The module according to claim 1, characterized in that each individual structural unit contains a separate printed circuit board with electronic components. 3. The module according to claim 2, characterized in that the slots are provided in the carrier circuit board for connecting each individual circuit board to the carrier circuit board. 4. The module according to claim 3, characterized in that each individual printed circuit board is equipped with a base installed in the slot of the carrier printed circuit board. 5. The module according to claim 4, characterized in that each individual printed circuit board is made with edges protruding beyond the edges of the base with the formation of protruding parts, while the base of each individual printed circuit board is installed in the slot of the supporting printed circuit board with the protruding parts adhering to the surface of the printed circuit board boards. 6. The module according to claim 5, characterized in that each individual printed circuit board is mechanically connected to the housing. 7. The module according to claim 6, characterized in that a threaded connection is used as a mechanical connection. 8. The module according to claim 6, characterized in that the protrusions are made on the inside of the case, on each of which a base for each individual printed circuit board is installed. 9. The module according to any one of claims 1 to 8, characterized in that on the surface of each individual printed circuit board passes a segment of a high-frequency line, electrically connected to segments of a high-frequency line passing on the surface of a supporting printed circuit board. 10. The module according to claim 9, characterized in that a soldered connection is used as the electrical connection.

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