BG2992U1 - Modular development system - Google Patents

Abstract

Modular development system facilitating the designing and testing of electronic circuits, consisting of a motherboard with connectors for incorporating functional modules containing electronic components. The system provides an easy and flexible way of connection of the functional modules trough connecting modules without use of wires and cables. The motherboard includes connectors for mounting the modules grouped into square cells. The cells are connected via signal and power terminals of the connectors. The signal terminals of the lower connectors of each cell are connected to the terminals of the upper connectors of the adjacent lower cell. Similarly, the left terminals of each cell are connected to the right terminals of the adjacent left cell. The power busbar are connected equally to the four connectors in the cells, as well as the first terminals of the lower, left, upper and right connectors are oriented respectively to the left, up, right and down.

Description

Field of technology

The utility model refers to a modular development system and finds application in research and teaching activities related to the design and creation of working models of various electronic circuits, including integrated circuits with different functionality, microcontrollers, peripheral components and others.

BACKGROUND OF THE INVENTION

Various development systems in the field of electronics are known, which facilitate the creation, research and testing of new circuits and solutions in the development of electronic devices or are used for training. They usually contain a main motherboard with connectors on which functional modules (blocks) can be mounted, and each such module may contain one or more electronic components. The connectors on the motherboard include power terminals for supplying power to the modules and signal terminals for connecting the modules to each other in a certain way.

For example, US 2004096812 proposes the use of a motherboard divided into square modular zones with the possibility of connecting modules with several power and signal pins. The disadvantage of this solution is the restriction to use only modules with up to four signal pins, which makes it unsuitable for modern electronic circuits containing, for example, microcontrollers with multiple pins.

WO 2018001367 describes a modular development system in which no motherboard is used and the power terminals of all functional modules are connected to each other in series. It shows a variant of connecting the individual functional modules in a common system. The disadvantage of this type of development system is the increased total resistance of the power busbars that pass through the power connectors of the modules and the use of cables to connect the signal terminals of the modules.

The closest known solution is described in CN 201378367 as a modular experimental box, which includes a motherboard divided into modular zones with connectors mounted in it, connected in a certain way and containing power and signal terminals. Interchangeable functional modules are installed in the modular areas to perform the specified functions of the circuit. Functional modules consist of modular boards with connectors and electronic components. The disadvantage of this system is the inability to change the connections of the motherboard, ie. between the functional modules themselves. This limits the flexibility of the system in terms of the possible options for connecting the different function modules to each other.

The task of this utility model is to create a modular development system with the ability to install different sized functional modules with the required number of signal pins and a high degree of versatility, while providing the opportunity for an easy and flexible way of connecting functional modules with each other without the use of wires and cables.

Technical essence of the utility model

The modular development system consists of a motherboard with mounted connectors, containing electrical power and signal terminals connected to electrical connections and forming a network of interconnected modular zones located at equal distances from each other, and functional modules for connection to the motherboard connectors. board consisting of modular boards with mounted connectors and electronic components. Each zone contains a square cell formed by four identical connectors, respectively lower, left, upper and right, as the signal terminals of the lower connector of each cell are connected in parallel with the signal terminals of the upper connector of the adjacent cell and the signal terminals of the left connector of each cell are connected in parallel in pairs with the signal terminals of the right connector of the located

3574 Descriptions to utility registration certificates № 09.2 / 28.09.2018 left adjacent cell. The power terminals in the four connectors of each square cell are located in the same way and are connected to each other in common power rails and the connectors are oriented so that the first terminal of the lower connector is on its left side, the first terminal of the left connector is on its upper side, the first terminal of the upper connector is on its right side and the first terminal of the right connector is on its lower side. Accordingly, the functional modules can be mounted on the connectors of a part of a square cell or on one or more square cells on the motherboard, the connectors of the modular boards being oriented so that their first terminals, which are located from the lower, left, upper and the right side of the modules are located respectively in the left, upper, right and lower part of the connectors of the modular boards. All power terminals on the modular board connectors are the same and are located in the same way.

One variant of the modular development system allows the connection of several motherboards by means of peripheral connectors located at the end of the four sides of the motherboard. The end square cells are connected to the peripheral connectors, the terminals of the lower, left, upper and right connectors of the cells are connected in pairs parallel to the terminals of the lower, left, upper and right peripheral connectors on the motherboard. The power terminals of all peripheral connectors are the same as the four connectors in the cells, with the first terminals of all peripheral connectors located vertically on the left and right sides of the motherboard located at the top and the first terminals of all peripheral connectors. , located horizontally on the top and bottom of the motherboard, are located on their left side. Using this way of orienting the peripheral connectors allows both horizontal and vertical connection of several motherboards.

In another embodiment of the modular development system for making the electrical connections between the signal terminals of the functional modules mounted in the square cells of the motherboard, connecting modules are used, consisting of modular boards with connectors mounted on them with the possibility of mounting on the connectors. of one or more square cells on the motherboard between or next to the function modules. The connection modules may comprise jumpers (adapters) or electronic switches for connecting each terminal of their left and / or right connector to one of the terminals of the upper and / or lower connector.

The main advantage of the utility model in comparison with the existing development systems is the possibility to use functional modules suitable for modern integrated circuits and microcontrollers in combination with the possibility for universal and flexible connection of functional modules with each other, using separate connecting modules. with jumpers or modules with ready-made type connections.

Explanation of the attached figures

The utility model is explained in more detail with the help of the attached figures, which represent: figure 1 - top view of a motherboard with connectors;

Figure 2 is a side view of a motherboard with connectors, one functional module and one connection module;

figure 3 - horizontal connection of motherboards - top view; figure 4 - vertical connection of motherboards - side view; Figure 5 is a schematic electrical diagram of a cell on the motherboard; Figure 6 is a schematic electrical diagram of the connection of the cells; Figure 7 is a schematic electrical diagram of a connecting module with jumpers; Figure 8 - diagrams of possible combinations in the connecting modules;

Figure 9 - an example of the application of the development system.

Examples of implementation of the utility model

According to the utility model, a motherboard 101 (Fig. 1) with a plurality of connectors is created. The group of connectors 102, 103, 104 and 105, which are located inside the motherboard 101, are sub-

3575 Descriptions to utility model registration certificates № 09.2 / 28.09.2018 arranged to form square cells 112 for placing functional modules. The motherboard 101 may contain any number of such square cells 112 (more than one) that are equidistant from each other. Each connector of the 112 cells serves to power and connect the modules to the other 112 cells via electrical connections.

The placement of a functional module 201 in one of the cells 112 of the motherboard 101 is illustrated in FIG. 2. The module 201 consists of a printed circuit board with mounted electronic elements 203 and connectors 202. The location of the connectors 202 corresponds to the square cells formed by the connectors 102, 103, 104 and 105 on the motherboard 101. The number of connectors 202 and used in them signal and power terminals may be different depending on the scheme of the module 201. Larger modules 201 are designed so that they can be connected to one or more cells 112. Smaller modules 201 can be connected to more a small part of the cell 112. Rubber pads 204 are mounted in the lower part of the motherboard 101 to ensure the stability of the board and the distance from the work surface on which it is placed.

Peripheral connectors 106, 107, 108 and 109 are arranged on the periphery of the motherboard 101, which are designed to connect several motherboards 101 to each other (Figs. 3 and 4) in order to expand the working space of cells. In order to be able to connect correctly, the motherboards 101 contain a marker 111, which serves for their correct orientation. It is possible to arrange and connect several motherboards 101, both horizontally and vertically. In both cases, they are mechanically fastened through the holes provided 110.

The horizontal connection of the motherboards 101 (Fig. 3) is made by additional connectors 301 connecting one or more peripheral connectors 107 of one motherboard 101 to the peripheral connectors 109 of another motherboard 101. Similarly, one or more peripheral connectors 106 can be connect to peripheral connectors 108.

When connecting the motherboards 101 vertically (Fig. 4), an additional board 401 is used with corner connectors 402 connecting the top and bottom board 101. In this case, the peripheral connectors 106, 107, 108 or 109 of one motherboard 101 are connected to the respective peripheral connectors 106, 107, 108 or 109 on the other motherboard 101.

The schematic electrical diagram of each square cell 112 is shown in FIG. 5. To each of the power supply terminals V0, V1, V2hV3 of the connectors 102, 103, 104 and 105 are connected the power busbars, which are common to all cells 112 on the motherboard 101. These busbars provide power to all functional modules for which this is necessary. For connectors 102, 103, 104 and 105, the supply terminals V0, VI, V2 and V3 are connected in the same way. The first terminals of the connectors 102, 103, 104 and 105 are located in the left, upper, right and lower part, respectively, which makes it possible to place the modules in any direction without disturbing their proper power supply.

The connectors 102, 103, 104 and 105 of each cell 112 also contain the signal pins B0 ... Bn, L0 ... Ln, TO ... Τη and R0 ... Rn for connection to the other cells 112 or for connection to peripheral connectors 106, 107, 108 and 109.

In FIG. 6 shows the basic electrical connection diagram of the cells 112 on the motherboard 101. The connections between the cells 112 are made as the signal terminals ΒΟ.,. Βη of the connectors 102 of each cell 112 are connected to the signal terminals ΤΟ.,. Τη of the connectors 104 of the lower cell 112 and the signal terminals L0 ... Ln of the connectors 103 of the same cell are connected to the signal terminals R0 ... Rn of the connectors 105 of the left cell 112.

The signal terminals ΒΟ.,. Βη, L0 ... Ln, ΤΟ.,. Τη and R0 ... Rn of the connectors 102,103,104 and 105 of the cells 112, which are located next to the peripheral connectors 106, 107, 108 and 109, are connected with them as follows: ΒΟ.,. Βη to 106, L0 ... Ln to 107, ΤΟ.,. Τη to 108 and R0 ... Rn to 109.

The connection of the individual functional modules 201 in a certain scheme takes place directly when they are placed in adjacent cells, or by means of a connecting module 701 (Fig. 7) placed between or next to them. The connecting module 701 consists of a modular board 205, connectors 202 and five groups 702, 703, 704, 705 and 706 movable jumpers (adapters). With its help it is possible to easily set

3576 Descriptions to utility registration certificates № 09.2 / 28.09.2018 connections between adjacent modules only by placing or moving the jumpers in the required place. The connection module 701 allows the connection of its signal terminals L0 ... Ln or R0 ... Rn to its signal terminals ΤΟ.,. Τη or ΒΟ.,. Βη. The required connections are set with the jumpers of group 706. For example, in fig. 7 shows the signal terminal L0, which is connected to the signal terminals T0 and B0. When it is necessary to interrupt some of the signal terminals ΒΟ.,. Βη, L0 ... Ln, ΤΟ.,. Τη or R0 ... Rn of the connecting module 701, one of the jumpers in groups 702, 703,704 and 705 is removed, respectively. The possible connection schemes 801 ... 812 of each terminal of the groups Bi, Li, Ti and Ri of the connecting module 701 are illustrated in FIG. 8.

The various models of the 701 connection modules may contain only one part of the jumpers. Also, the connections may be pre-routed on the board of the connection module 701 for some typical cases where all signal lines are connected in the same way - for example when one of the circuits 801 ... 812 (Fig. 8) is repeated for all signal terminals Bi, Li, Ti and Ri.

A possible model of the connecting module 701 can be considered its electronic version, in which the jumpers of groups 702,703,704,705 and 706 are replaced by analog electronic switches. They are pre-programmed with the required states for each key - on or off.

Application of the invention

In FIG. 9 shows an example of the application of the modular development system for creating a circuit of a digital thermometer and an atmospheric pressure meter. The following functional and connecting modules are placed on the motherboard 101, which has a total of nine cells:

- 901 - functional module with microcontroller (occupying two cells);

- 902 - functional module for powering the system;

- 903 - functional module with digital display;

- 904 - functional module with sensors - temperature and pressure;

- 905 - connecting module with connected terminals according to scheme 802 / fig. 8 /;

- 906 - connecting module with jumpers;

- 907 - functional module with buttons for setting and control;

- 908 - connecting module with jumpers.

Claims (3)

Claims A modular development system consisting of a motherboard (101) with mounted connectors (102 ... 105) comprising electrical power supplies (V0 ... V3) and signal terminals (ΒΟ.,. Βη, L0 ... Ln, TO ... Tn, R0 ... Rn), connected directly to electrical connections such as connectors (102 ... 105) form a network of modular zones equidistant from each other and of functional modules (201) for connection to the connectors (102 ... 105) of the motherboard (101), consisting of modular boards (201) with connectors (202) and electronic components (203), characterized in that each zone is a square cell 112) formed by four identical connectors, respectively lower (102), left (103), upper (104) and right (105), as the signal terminals (ΒΟ.,. Βη) from the lower (102) connector of each cell are connected in pairs with the signal terminals (ΤΟ.,. Τη) of the upper (104) connector of the adjacent cell (112) and the signal terminals (L0 ... Ln) of the left (103) connector of the whole cells are connected in parallel in pairs with the signal terminals (R0 ... Rn) of the right (105) connector of the adjacent cell on the left (112); the power terminals (V0 ... V3) in the four connectors (102 ... 105) of each square cell (112) are arranged in the same way and are interconnected in common power busbars and connectors (102 ... 105). ) are oriented so that the first terminal of the lower connector (102) is on its left side, the first terminal of the left connector (103) is on its upper side, the first terminal of the upper connector (104) is on its right side and the first terminal the right connector (105) is on its underside; respectively, the functional modules (201) can be mounted on the connectors (102 ... 105) of a part of a square cell (112) or one or more square cells (112) on the motherboard (101), such as the connectors (202) of the modular boards (201) are oriented so that the first terminals of the connectors (202), which are located on the lower, left, upper and right side of the modules (201), are located respectively in 3511 Descriptions to utility registration certificates № 09.2 / 28.09.2018 left, top, right and bottom of the connectors (202) of the modular boards (201), with all power terminals (V0 ... V3) of the connectors 202) of the modular boards (201) are the same and are arranged in the same way. Modular development system according to claim 1, characterized in that the connectors of the square cells (112) located at the end of the four sides of the motherboard (101) are connected to peripheral connectors (106 ... 109); the terminals of the lower (102), left (103), upper (104) and right (105) connectors of the end cells (112) are connected in pairs parallel to the terminals of the lower (106), left (107), upper ( 108) and the right (109) peripheral connectors of the motherboard (101); the location of the power terminals (V0 ... V3) of all peripheral connectors (106 ... 109) is the same as that of the connectors (102 ... 105) in the cells (112), as the first terminals of all peripheral connectors (107 and 109) located vertically on the left and right sides of the motherboard (101) are located in their upper part and the first terminals of all peripheral connectors (106 and 108) located horizontally in the upper and lower side of the motherboard ) are located on their left side. Modular development system according to claim 1, characterized in that the electrical connections between the signal terminals (ΒΟ.,. Βη, L0 ... Ln, TO ... Tn, R0 ... Rn) of the functional modules (201 ) mounted in the square cells (112) of the motherboard (101), in addition to being directly implemented by means of connecting modules (701), consisting of modular boards (205) with connectors (202) mounted on them, with the possibility of mounting on the connectors (102 ... 105) of one or more square cells (112) on the motherboard (101) to the functional modules (201), the connecting modules (701) containing jumpers (702,703,704,705, 706) or electronic switches for connecting each one terminal (L0 ... Ln, R0 ... Rn) from their left and / or right connector (202) to one of the terminals (ΤΟ.,. Τη, ΒΟ.,. Βη) of their upper and / or lower connector (202).