RU2192716C2 - Radio-electronic unit - Google Patents

Abstract

FIELD: high-capacity electronic devices with great number of wire communication lines such as multiprocessor systems. SUBSTANCE: radio-electronic unit has set of flat parallel boards electrically interconnected at their mating surfaces by means of plug connectors uniformly disposed on both sides of board; each contact of connector crossing board surface in its separate conducting hole has jack, stop, contact section, and pin; jack and stop are disposed on one side of board, contact section, in board hole, pin, on opposite side of board; some contacts have long pin and other ones, short pin. Connector shrouds on one side of board are made in the form of single filler with cooling ports; stiffening ribs on one side of board are made in the form of integral jacket of filler; both jackets of board are rigidly fixed together. EFFECT: enhanced capacity and reliability of unit. 14 dwg

Description

 The invention relates to the field of electronic components, is intended for use in high-performance electronic devices containing a large number of wire connections (for example, in multiprocessor systems).

 Known electronic blocks (REB), containing a large number of wire connections and consisting of a set of flat boards interconnected using detachable electrical connectors mounted on the surface of the boards. The most famous EW cartridge design [1], in which detachable connectors are located on the board locally along one edge of the rectangular board. Such devices have high maintainability, however, due to the local location of the connectors on the surface of the boards, the interplane connections in them are long, and the maximum achievable number of wired interplane connections is small, which negatively affects the performance of such devices.

 EWs are known in which detachable connectors are located evenly on the surface of the entire board on both sides [2]. In the case of installing these connectors directly on the printed circuit boards, the shanks of the contacts of the mating connectors of the connectors intersect the plane of the board, each in its own metallized hole of the board. The mechanical rigidity of the board is achieved by the presence of stiffeners on both sides of the board. Due to the uniform arrangement of the connectors over the entire surface of the board, it becomes possible to increase the efficiency of electronic warfare due to the increase in the number of on-board wire links and reduce the length of these links, while maintaining high maintainability of the device. The disadvantages of this electronic warfare include the bulkiness of the machine with which the boards are assembled in a package, as well as the inability to use the package of boards outside the machine of the unit.

 Closest to the declared EW is the EW [3], the detachable connectors of which are located evenly on the surface of the entire board, however, unlike the analogue [2], its assembled package of boards can be used outside the block machine.

 The disadvantage of the prototype is the use of connectors in it, each contact of which with its tail crosses the plane of the board in a separate hole in the board. As a result, in EW, the length of any wire connection between non-adjacent boards of a package of EW boards passing through connectors of intermediate boards located in a package between two connected boards increases by the length of the printed conductors passing inside the intermediate boards (Fig. 1, a) spurious inductance and capacitance of wire communication, noise immunity of communication decreases, board dimensions increase. The connector bodies used in the prototype contain a small number of contacts and have overall dimensions that are much smaller than the overall dimensions of the board itself; therefore, with a large number of contacts on the board, it becomes necessary to install a large number of such connectors on the board using a large number of fasteners. This increases the complexity of the assembly of electronic warfare, complicates the automation of the assembly process, increases the size and weight of electronic warfare.

 The aim of the invention is to increase the performance and reliability of electronic warfare, reducing its size, weight and cost.

 This goal is achieved by the fact that in a radio-electronic unit containing a set of parallel flat boards mechanically connected to each other in a package and electrically connected to each other by their mating planes using detachable connectors, in the housings of which there are pins and contact sockets crossing each plane of the board a separate electrically conductive hole of the board, and the case of the connectors are supported on one of the sides of the board and are rigidly connected with the stiffening ribs of the board, each connector contact crossing the plane The board consists of a socket, a stop, a contact section and a pin, while the socket and a stop are located on one side of the intersected board, the contact section is located inside the conductive hole of the board, and the pin is located on the opposite side of the board, some contacts have a long pin, other contacts have a short pin, when the boards are mechanically connected to the package, a long pin is located inside the socket of the mated board and is electrically connected to this socket, a short pin is not located inside the socket of the mated board and not directly connected to this socket, the contact section is electrically connected to the electrically conductive hole, the cases of all board connectors based on one side of the board are made as a single filler, the surface of which together with the surface of the board is formed by ventilation windows, all stiffeners located on one side boards made in the form of a single filler casing, filler casing is mechanically rigidly connected to the outer surface of the filler, through holes are made in the filler casing through which located pins and sockets, each filler located between the surface of the board and its cladding, plating one side filler board is mechanically rigidly connected to the casing filler other side of the board.

 Unlike the prototype, the socket and pin of the declared EW intersect the plane of the board in one hole of the board, as a result, the connection between any two EW boards is performed in a straight line (i.e. as short as possible), there is no need for printed conductors and additional holes (Fig. 1 b). Replacing the plurality of individual board connector housings with one common filler, and the plurality of board stiffeners with one common casing makes it possible to reduce the cost of the EW frill, since the number of assembly operations is reduced and it becomes possible to use high-performance and accurate methods for making holes in the casing and filler (multi-spindle coordinate drilling, precise injection molding, stamping).

 In FIG. 1 shows the advantage of the claimed electronic warfare compared with the prototype. Figure 2 shows the design of the contact EW and explains the principle of organization of short wire connections in the EW. Figure 3 shows the design of the detachable connector and the method of installing this connector on the board. In FIG. 4 shows various options for EW connectors. Figure 5 shows the main components of the board with a filler and casing. Figure 6 shows a design variant of the board with a placeholder. 7 illustrates methods for providing thermal conditions of internal components of the boards.

 The claimed electronic unit consists of a set of flat circuit boards 1, each of which includes a multilayer printed circuit board 2, detachable connectors 3, ribs 4 of stiffness, frame 5, catcher pins 6, catcher sockets 7. Metallized holes 8 are made on the board 2, printed conductors 9, electronic components 10 are installed. Each connector 3 includes a housing 11, contacts 12. Each contact 12 contains a socket 13, a pin 14, a contact portion 15, an abutment 16. In a circuit board 1 with an aggregate, all the housings 11 are supported by one side of the board 1, form a single th placeholder 17. All ribs 4, resting on one side of the board 1, form a single skin 18. The skins 18, which belong to different sides of the board 1, are connected by screws 19. The frame 5 is connected to the skins 18 by means of brackets 20 and screws 21. To increase the ventilation of the windows of the board 1, gasket 22 is used. For forced blowing of the boards 1, fans 23 and filters 24 are used.

 The device operates as follows. In the assembled EW wire connection between two electronic components 10 mounted on boards 2 belonging to different boards 1, includes conductors 9 and an electrically connected chain of series-connected contacts 12 (FIG. 2, b). The contacts 12 are joined together in the process of assembling the boards 1 into the package in the manner described in the prototype, while the pin 14 of each contact 12 enters the socket 13 of the neighboring board 1 and is electrically connected about the contact 12 of this socket 13. The chain of jointed contacts 12, forming an interboard wire connection ends with a short pin 14, all other contacts 12 of this chain have long pins 14. When pin 12 is installed on board 1 (Fig. 3, a), pin 14 enters the metallized hole 8, passes through it and stops by stop 16. When The volume section 15 is placed inside the hole 8, after which a one-piece electrical connection is made to the conductive surface of the hole 8 with the contact section 15 (for example, by soldering - Fig. 3, b). After making a one-piece connection, the casing 11 is put on on the pins 14. The installation of the contacts 12 on the board 1 is completed by fixing the cases 11 with the ribs 4 of the board 1. Figure 4 shows the options for the connectors, the cases 11 of which allow one-piece connection of the section 15 with the hole 8 even after installation cases 11 on the board 1 due to the presence in them of windows providing technological access to the holes 8 (Fig. 4, a). Figure 4, b shows a variant of such a connector, the housing 11 of which contain one row of contacts 12, figure 4, shows a variant of a similar connector, the housing 11 of which contain two rows of contacts 12. The mechanical rigidity of the board 1 is achieved here by using ribs 4 , some of which are mounted directly on the housings 11, the other part connects the first type 4 rera to each other in a detachable manner. In order to improve the manufacturability of the board 1, it is proposed to combine all the housings 11, which are supported on the same side of the board 1, into one common body, hereinafter referred to as filler 17, and all the ribs 4 related to the same side of the board 1, into one common stiffener , hereinafter referred to as core aggregate skin 18. In addition to the function of fastening the contacts 12 on the board 1, such a filler 17 must provide normal thermal conditions of the components 10 installed in the areas of the board 2 surrounded by the filler 17, therefore, the surface of the filler 17 and the surface of the board 2 form a network of ventilated windows. Figure 5 shows a design variant of the board 1 with filler 17 and casing 18. The filler 17 rests on the surface of the board 2 and is located between the board 2 and the casing 18. Both casing 18 of the board 1 are rigidly connected with their fillers 17 (for example, with glue) and among themselves, therefore, with bending deformations of the board 1, the strength of the board 1 is determined mainly by the tensile-compressive strength of the skin 18. This weakens the requirements for the mechanical strength of the aggregate 17, allows you to make the casing 18 of strong thin sheets, and this in turn helps to reduce the weight of the board and the entire electronic warfare as a whole.

 An example of a specific implementation of the EW board 1 is shown in Fig.6. All EW boards 1 have the same design, the frame 5 has increased rigidity, the catcher-pin 6 and the catcher-nest 7 are made in the form of one combined unit, the casing 18 is made of a metal sheet by stamping, all sockets 13 are located on one side of the board 1, all the pins 14 - on the other side of the board 1, the casing 18 are interconnected by screws 19. The increased rigidity of the frame 5 is achieved due to the additional increase in the height of the frame 5 due to the use of the telescopic method of joining adjacent frames 5, when part of the frame 5 overlaps part of the adjacent frame 5 in the articulated package of boards 1. This design of the frame 5, as well as the placement of all the pins 14 on one side of the board 1 protects the pins 14 from damage during assembly and disassembly of the electronic warfare. The placeholder 17, containing the pins 14, and the placeholder 17, the contents of the socket 13, rely on the same sections of the board 2, without causing bending deformations of the board 2. The metal casing 18 increases the strength and noise immunity of the board 1. The small size of the design of the board 1 should be considered ventilation windows. This disadvantage is eliminated in the design of the board 1 shown in FIG. 7 a. There are no supports of the filler 17, through which the pins 14 pass, to reduce the bending deformations of the board 2, gaskets 22 are made of rigid dielectric material and redistributing the pressure of the supports of the fillers 17 to the board 2. For ensuring the thermal regime of the components 10, forced ventilation of the boards 1 can be applied A variant of the supply ventilation circuit board 1 is shown in Fig.7, b. Cold air passes through the filters 24 and is forced by fans 23 into the through ventilation openings of the boards 1, from where it passes through the ventilation windows of the aggregates 17 to the heat-generating components 10, removes heat from them and exits through the openings of the frame 5.

 Thus, in comparison with the prototype, the declared EW allows you to increase the total number of wire connections, reduce their length, increase noise immunity, thereby increasing the performance, reliability of the EW, reducing the size, weight and cost.

SOURCES OF INFORMATION
1. Aksenova I.K., Melnikov A.A. Fundamentals of the design of electronic devices. - M .: Higher. school., 1986.

 2. Copyright ovid. USSR 1584134 H 05 K 5/00, 7/12.

 3. Patent RU 2001539 C1 H 05 K 5/00, 7/12.

Claims (1)

 An electronic unit containing a set of parallel flat boards mechanically connected to each other in a package and electrically connected to each other by their mating planes using detachable connectors, in the housings of which there are pins and contact sockets crossing each plane of the board each in a separate conductive hole of the board, and the case connectors are supported on one side of the board and are rigidly connected to the stiffeners of the board, characterized in that each contact of the connector crossing the plane of the board consists t of a socket, an abutment, a contact portion and a pin, a receptacle and an abutment are located on one side of the board, the contact portion is located inside the conductive hole of the board, the pin is located on the opposite side of the board, some contacts have a long pin, other contacts have a short pin, in the package of cards a long pin is located inside the socket of the mating board and is electrically connected to this socket, a short pin is not located inside the socket of the mating board and is not electrically connected to this socket, the contact section is electrically connected inen with an electrically conductive hole, the housings of all connectors resting on one side of the board are made in the form of a single filler, the surface of which together with the surface of the board is formed by ventilation windows, all stiffeners located on one side of the board are made in the form of a single sheathing of the filler, mechanically rigidly connected with the outer surface of the filler, through holes are made in the casing of the filler, through which pins and sockets exit, each filler of the board is located between the surface of the board and its On the casing, the casing of the aggregate on one side of the board is mechanically rigidly connected to the casing of the aggregate on the other side of the board.

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