CN102131365A - Digital electronic product implementation system - Google Patents

Abstract

The invention discloses a digital electronic product implementation system which comprises a basal function module, an extended function module and a connection module, wherein the basal function module is used for realizing the basal functions of a digital electronic product and at least comprises a processor function module and a power supply module; the expanded function module is used for realizing the expanded functions of the digital electronic product; the basal function module and the expanded function module comprise bonding terminals and/or bonding coordinated terminals combined with the structures of the other modules, thus realizing the free structural combination and fixation of the modules; the basal function module and the expanded function module comprise connecting terminals connected between the circuits of the other modules; and the basal function module and the expanded function module are electrically connected in a free detachable manner through the connection module, thereby realizing different functions of the digital electronic product.

Description

Digital electronic product implementation system

Technical Field

The invention relates to the technical field of electronics, in particular to a system for realizing a digital electronic product.

Background

Digital electronic products have increasingly entered into daily life. General electronic enthusiasts and students at school have a strong interest in digital electronic products, and they also want to be able to design and make digital electronic products with their own originality while using the digital electronic products.

However, the existing technologies cannot meet the above requirements, and the existing electronic product development processes basically include: designing a circuit, designing a PCB layout, manufacturing the PCB, debugging, measuring and testing and the like. The PCB layout design and the PCB manufacture are time-consuming and financial-consuming works, and can not be completed only by common electronic enthusiasts and students at school. Moreover, the existing research and development processes are all for the purpose of industrial production, and are not considered from the point of view of personal interests of electronic enthusiasts, so that the requirements on flexibility cannot be met. The wiring in the existing PCB is solidified in the PCB, only aiming at the digital electronic product with a specific purpose, and no space for the originality of an electronic fan to play is reserved.

In fact, if various digital electronic products are separated, it is found that most digital electronic products are composed of several basic function modules and some special function modules. Different digital electronic products are realized by the combination of the basic function modules and the special function modules.

If these function modules can be provided for electronic fans and a suitable and flexible combination mode is provided, then the electronic fans can give full play to their originality to make their own digital electronic products.

Disclosure of Invention

In order to solve the above problems, the present invention provides a system for implementing digital electronic products, which is fast, convenient and reusable.

According to an embodiment of the present invention, a system for implementing a digital electronic product is provided, where the system for implementing a digital electronic product includes a basic function module, an extended function module, and a connection module. The basic function module realizes the basic function of the digital electronic product, and the basic function module at least comprises a processor function module and a power supply module. The extended function module realizes the extended function of the digital electronic product. The connecting module selectively connects the basic function module and the extended function module or the extended function module with the extended function module in a freely detachable manner to realize functions of different electronic products. The combination terminal and the combination matching terminal are combined with the module in a freely detachable mode so as to realize the appearances of different digital electronic products.

According to one embodiment, each of the basic function module and the extended function module includes: the PCB comprises a shell, a combination terminal and/or a combination matching terminal arranged on the shell, a PCB arranged in the shell, one or more functional chips and/or functional elements arranged on the PCB, a connecting terminal arranged on the PCB, and PCB wiring for connecting the connecting terminal and the one or more functional chips and/or functional elements. The connection terminal is connected to the connection module in a freely detachable manner. The coupling terminal and the coupling mating terminal are coupled in a freely detachable manner.

The connecting module is a lead with a connecting matching terminal, and the connecting matching terminal is connected with the connecting terminal in a freely detachable mode. The connection mating terminals and the connection terminals may have various forms: for example, the connecting terminal is one of a jack and a pin, the connecting mating terminal is the other of the jack and the pin, and the connecting terminal and the connecting mating terminal are plugged together to realize connection. Or the connecting terminal is one of the clamp and the convex tongue, the connecting matching terminal is the other of the clamp and the convex tongue, and the connecting terminal and the connecting matching terminal are clamped together to realize connection. Or the connecting terminal is one of a general connector plug and a general connector socket, the connecting mating terminal is the other of the general connector plug and the general connector socket, and the connecting terminal and the connecting mating terminal are mutually inserted to realize connection. Or one of the connecting terminal and the connecting matching terminal is a magnetic adsorption piece, the other one of the connecting terminal and the connecting matching terminal is an adsorbed piece capable of being adsorbed by the magnetic adsorption piece, and the connecting terminal and the connecting matching terminal are mutually adsorbed together to realize connection.

The coupling terminal and the coupling mating terminal are coupled in a freely detachable manner. The coupling terminals and the coupling mating terminals may have various forms: for example, the combination terminal is one of the mounting column and the mounting cavity, the combination mating terminal is the other of the mounting column and the mounting cavity, and the combination terminal and the combination mating terminal are mutually plugged together to realize combination. Or the combination terminal is one of a screw and a nut, the combination matching terminal is the other one of the screw and the nut, and the combination terminal and the combination matching terminal are mutually screwed together to realize combination. Or the combination terminal is one of a convex sliding groove and a concave sliding groove, the combination matching terminal is the other of the convex sliding groove and the concave sliding groove, and the combination terminal and the combination matching terminal are mutually buckled together to realize combination.

For each of the basic function module and the extended function module, one or more functional chips and/or functional elements are all soldered on the PCB board. Or one part of the functional chip and/or the functional element is welded on the PCB, and the other part is arranged on the PCB in a pluggable way. Or a part of the functional chip and/or the functional element socket is fixed on the PCB board, and a part of the functional chip and/or the functional element is arranged on the socket in a pluggable manner. Or a part of the functional chip and/or the socket of the functional element is fixed on the PCB and is designed on the socket in a pluggable way through the flexible flat cable.

Examples of extended function modules include: the device comprises a data communication module, a memory module, a sensor module, an input/output module and a processing module. Wherein, the data communication module includes: the device comprises a serial port data communication module, a parallel port data communication module, an infrared communication module, a Bluetooth communication module, a wireless communication module, a satellite communication module and a network adapter module. The sensor module includes: photoelectric sensor module, optical sensor module. The input/output module includes: function module, FM radio module, audio input/output module, button module. The processing module includes: a motor function module, a codec function module, a multimedia processing function module, and a power management module.

Compared with the prior art, the basic function module, the extended function module and the connecting module are connected and combined in a freely detachable mode between the circuit and the structure, and the connection and combination relation among the modules can be conveniently changed in the process of designing and debugging. The realization system of the digital electronic product of the invention gives space for freely combining the functional modules, so that electronic enthusiasts can fully exert the originality of the functional modules and make own digital electronic products.

Drawings

FIGS. 1a and 1b disclose a basic function module according to an embodiment of the present invention;

FIGS. 2a and 2b disclose a basic function module according to another embodiment of the present invention;

FIGS. 3a and 3b disclose an extended function module according to another embodiment of the present invention;

FIG. 4 illustrates a digital electronic product including basic function modules and extended function modules according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a modification of the incorrect connection relationship and the connection position in the digital electronic product shown in FIG. 4;

FIG. 6 shows a digital electronic product comprising a basic function module and an extended function module according to another embodiment of the present invention, wherein the digital electronic product is a USB camera;

fig. 7 shows a digital electronic product comprising a basic function module and an extended function module according to another embodiment of the invention, wherein the digital electronic product is an MP4 player.

Detailed Description

The system for realizing the digital electronic product comprises a basic function module, an extended function module and a connecting module. The basic function module realizes the basic function of the digital electronic product, and the basic function module at least comprises a processor function module and a power supply module. The extended function module realizes the extended function of the digital electronic product. The connecting module can be freely detached to selectively connect the basic function module and the extended function module to realize different functions of the digital electronic product.

For each basic function module and each extended function module, the structure is as follows: the PCB comprises a shell, a combination terminal and/or a combination matching terminal arranged on the shell, a PCB arranged in the shell, one or more functional chips and/or functional elements arranged on the PCB, a connecting terminal arranged on the PCB, and PCB wiring for connecting the connecting terminal and the one or more functional chips and/or functional elements.

Fig. 1a, 1b and fig. 2a, 2b disclose basic function modules according to an embodiment of the present invention. The basic function module is the most basic function of the digital electronic product. In one embodiment, the basic function module comprises a processor function module and a power supply module.

Referring to fig. 1a and 1b, the basic functional module 100 disclosed in fig. 1a and 1b is a processor functional module, wherein fig. 1a discloses an external structure and fig. 1b discloses an internal structure. The processor function module includes a housing 101, a PCB board 102, a bonding terminal 103 provided on the housing, a bonding mating terminal 104 provided on the housing, a connection terminal 105 provided on the PCB board, a processor 106 provided on the PCB board 102, and a PCB wiring 107 connecting the processor 106 and the connection terminal 105 together. The number of connection terminals 105 may vary depending on the number of pins of the processor 106. It should be noted that although fig. 1a and 1b illustrate a processor module implemented by a single processor 106, those skilled in the art will appreciate that any number of processors may be disposed on PCB board 102. In addition, the structures and connections shown in fig. 1a and 1b are for illustrative purposes only and should not be construed to limit the scope of the present invention.

Fig. 2a and 2b disclose another basic functional module 200, which is a power supply module, wherein fig. 2a discloses an external structure and fig. 2b discloses an internal structure. The power supply module includes a housing 201, a PCB 202, a bonding terminal 203 provided on the housing, a bonding mating terminal 204 provided on the housing, a connection terminal 205 provided on the PCB, a power source 206 provided on the PCB 202, a connection terminal 205 provided on the PCB 202, and a PCB wiring 207 connecting the connection terminal 205 and the power source 206 together. Also, the number of the connection terminals 205 may be different depending on the number of pins of the power supply 206. Although fig. 2a and 2b show a power supply module implemented by a power supply 206 having 2 pins, those skilled in the art will appreciate that other power supplies (e.g., power supplies having a greater number of pins) may be provided on the PCB board 202. In addition, the structures and connections shown in fig. 2a and 2b are for illustrative purposes only and should not be construed to limit the scope of the present invention.

Fig. 3a and 3b disclose an extended function module according to an embodiment of the invention. The extended function module is used to implement various rich functions, such as data exchange, data storage, image acquisition, sound acquisition, and the like, which are considered to be functions implemented by the extended function module. The variety of the extended function module will become more and more with the continuous development of the technology, it should be noted that what the present invention proposes is a design concept, no matter what kind of chip or component with new function appears, it is designed according to the way of the shell, the combination terminal and/or combination matching terminal arranged on the shell, the PCB arranged inside the shell, one or more functional chips and/or functional components arranged on the PCB, the connection terminal arranged on the PCB, the PCB wiring arranged on the PCB connecting the connection terminal and the one or more functional chips and/or functional components together, so as to become the extended function module of the present invention. The extended function module of the present invention should be understood to cover new chips or elements with various rich functions that may appear in the future.

The extended function module 300 disclosed in fig. 3a and 3b is a USB port data communication module, which is a data communication module, wherein fig. 3a discloses an external structure and fig. 3b discloses an internal structure. The USB port data communication module includes a housing 301, a PCB 302, a connection terminal 303 disposed on the housing, a connection mating terminal 304 disposed on the housing, a USB interface connection terminal 305a disposed on the PCB, a connection terminal 305b disposed on the PCB, a USB chip 306a disposed on the PCB 302, a protocol conversion function chip 306b disposed on the PCB 302, and a PCB wiring 307 connecting the USB interface connection terminal 305a and the connection terminal 305b with the USB chip 306a and the protocol conversion chip 306 b. The extended function module 300 realizes the function of USB port communication by using the USB chip 306a, the protocol conversion chip 306b, the USB interface connection terminal 305a, and the connection terminal 305 b. Although fig. 3a and 3b illustrate a serial port data communication module implemented by three components, a USB port chip 306a and a protocol conversion function chip 306b, and a USB interface 305, those skilled in the art will appreciate that other chips and components may be used to implement the serial port data communication module. Furthermore, the structures and connections shown in fig. 3a and 3b are for illustrative purposes only and should not be construed to limit the scope of the present invention.

Further, although fig. 3a and 3b illustrate a USB port data communication module, the extended function module may be other data communication modules, such as a serial port data communication module, a parallel port data communication module, an infrared communication module, a bluetooth communication module, a wireless communication module, a satellite communication module, and a network adapter module.

Further, although fig. 3a and 3b illustrate the extended function module by taking the data communication module as an example, it should be understood that the extended function module of the present invention is not limited thereto, and as mentioned above, any chip or element can be used to implement an extended function module. The commonly used extended function module at least comprises a data communication module (a serial port data communication module, a parallel port data communication module, an infrared communication module, a bluetooth communication module, a wireless communication module, a satellite communication module, a network adapter module), a sensor module (a photoelectric sensor module, an optical sensor module), an input/output module (a display function module, an FM radio module, an audio input/output module, a key module), and a processing module (a motor function module, a codec function module, a multimedia processing function module, a power management module). It should be understood that any chip or component can be used as the extended function module for the present invention due to the countless variety of global function chips/components.

In the embodiment shown in fig. 1-3, the chips or components on the basic functional module and the extended functional module are all soldered on the PCB. In another embodiment, a part of the functional chip and/or the functional element may be soldered on the PCB, and another part may be removably disposed on the PCB.

The other part of the functional chip is arranged on the PCB in a pluggable manner, namely that part of the functional chip is provided with a matched mounting seat, the matched mounting seat is fixedly arranged on the PCB, and the functional chip is arranged on the matched mounting seat in a pluggable manner.

In the embodiment shown in fig. 1-3, the PCB wiring is cured on the PCB board, and in another embodiment, it may be connected in a flexible flat cable manner by a board connector disposed on the PCB board.

FIG. 4 shows a digital electronic product including basic function modules and extended function modules according to an embodiment of the invention. The digital electronic product shown in fig. 4 utilizes a basic function module 100 (processor function module), a basic function module 200 (power supply module), and an extended function module 300 (serial port data communication module). The basic function module and the extended function module are connected through the connecting module, the connecting module is connected with the basic function module and the extended function module in a freely detachable mode, and the connecting module selectively connects the basic function module and the extended function module to realize different functions of digital electronic products. As shown in fig. 4, the processor module 100, the power supply module 200, and the USB port function module 300 are connected to each other through a connection module 400, so as to form a digital electronic product. In order to realize the freely detachable connection of the basic function module and the extended function module, the connection module 400 is designed to have a wire connecting the mating terminal connected to the connection terminal on each module in a freely detachable manner.

The connection mating terminal and the connection terminal may have various forms to achieve free detachment. In one embodiment, the connection terminal is one of a jack and a pin, the connection matching terminal is the other of the jack and the pin, and the connection terminal and the connection matching terminal are plugged together to realize connection. For example, the connection terminals at the two ends of the wires of the connection module 400 are pins, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 are jacks. Through the plug of jack and contact pin, realized connecting the freely dismantled connection between module and basic function module and the extended functionality module. It should be noted that the present invention is not limited to this, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 may be pins, and the connection mating terminals at the two ends of the wires of the connection module 400 may be jacks, which fall within the protection scope of the present invention.

In another embodiment, the connection terminal is one of a clip and a tongue, and the connection mating terminal is the other of the clip and the tongue, and the connection terminal and the connection mating terminal are clamped together to achieve connection. For example, the connection mating terminals at the two ends of the wires of the connection module 400 are clips, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 are tabs. The connecting module, the basic function module and the extended function module can be freely and detachably connected through clamping of the clamp and the convex tongue. It should be noted that the present invention is not limited to this, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 may be clips, and the connection matching terminals at the two ends of the wires of the connection module 400 are tabs, which fall within the protection scope of the present invention.

In another embodiment, one of the connection terminal and the connection mating terminal is a magnetic attraction piece, and the other is an attracted piece capable of being attracted by the magnetic attraction piece, and the connection terminal and the connection mating terminal are mutually attracted together to realize connection. For example, the connection terminals at the two ends of the wire of the connection module 400 are magnetic attraction members, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 are attracted members. Through the magnetism adsorb the piece with by the absorption of adsorbing the piece, realized connecting the freely dismantled connection between module and basic function module and the extended functionality module. It should be noted that the present invention is not limited to this, and the connection terminals 105, 205, 305b of the processor module 100, the power supply module 200, and the USB port data communication module 300 may be magnetic attraction members, and the connection matching terminals at the two ends of the wires of the connection module 400 are attracted members, which fall within the protection scope of the present invention.

In another embodiment, the connection terminal and the connection mating terminal are connected by mutually engaging a universal connector socket and a universal connector plug. For example, the connection mating terminal at the two ends of the wire of the connection module 400 is a universal USB plug, and the connection terminal 305a of the USB port data communication module 300 is a universal USB socket. Through the plug-in connection of the plug and the socket, the freely detachable connection between the connection module and the basic function module and between the connection module and the extended function module is realized. It should be noted that the present invention is not limited to this, and the connection terminal 305a of the USB port data communication module 300 may be a universal USB plug, and the connection mating terminal at both ends of the wire of the connection module 400 may be a universal USB socket, and these changes fall within the protection scope of the present invention.

Although the connection module 400 is designed to have wires connecting the mating terminals, those skilled in the art will appreciate that the connection terminals of one module are one of the receptacle and the pin, and the connection mating terminals of the other module are the other of the receptacle and the pin. Here, the connection module is not necessarily provided, and the two modules may be directly inserted into each other without passing through the connection module. Further, the configuration and connection shown in fig. 4 are for illustrative purposes only, and should not be construed to limit the scope of the present invention.

Furthermore, although the present invention has been described with reference to four different "freely detachable connection manners", it should be understood by those skilled in the art that the "freely detachable connection manners" of the present invention are not limited to the four different specific preferred embodiments, and any suitable connection manners in the prior art can be adopted, such as adhering two ends of the connection lead to the connection terminal of the function module by glue, or connecting a wire led out from the connection terminal of the function module to two ends of the connection lead to each other, or using a jumper cap, and these changes are all within the protection scope of the present invention.

Because the 'freely detachable connection mode' is adopted, the wiring error can be conveniently corrected, for example, fig. 5 discloses a schematic diagram for modifying the wrong connection relation in the digital electronic product in fig. 4. In which two dashed lines represent erroneous connections, which can be corrected to the correct connections, i.e. the lines shown by the solid lines, by a simple operation.

The coupling terminal and the coupling mating terminal may have various forms to achieve the free detachment. In one embodiment, the combination terminal is one of the mounting column and the mounting cavity, the combination matching terminal is the other of the mounting column and the mounting cavity, and the combination terminal and the combination matching terminal are mutually plugged together to realize connection. For example, the processor module 100, the power supply module 200, and the USB port data communication module 300 are installed on the terminals 103, 203, 303, and the processor module 100, the power supply module 200, and the USB port data communication module 300 are installed on the terminals 104, 204, 304. Through the grafting of erection column and installation cavity, realized the combination that can freely dismantle between module and the module. It should be noted that the present invention is not limited to this, and the processor module 100, the power supply module 200, and the USB port data communication module 300 may be mounted in the mounting cavities by the connection terminals 104, 204, and 304, while the processor module 100, the power supply module 200, and the USB port data communication module 300 may be mounted in the mounted posts by the connection terminals 103, 203, and 303, and these changes fall within the protection scope of the present invention. It should be noted that a module may include both mounting posts and mounting cavities, i.e., may be used as mating terminals or mating terminals, and such variations are within the scope of the present invention.

In another embodiment, the combination terminal is one of a screw and a nut, the combination matching terminal is the other of the screw and the nut, and the combination terminal and the combination matching terminal are screwed together to realize connection. For example, the processor module 100, the power supply module 200, and the USB port data communication module 300 are screws with the terminals 103, 203, 303, and the processor module 100, the power supply module 200, and the USB port data communication module 300 are nuts with the terminals 104, 204, 304. The free detachable combination between the modules is realized through the screwing of the screw and the nut. It should be noted that the present invention is not limited to this, and the processor module 100, the power supply module 200, and the USB data communication module 300 may be combined with the terminals 104, 204, and 304 as nuts, and the processor module 100, the power supply module 200, and the USB data communication module 300 may be combined with the mating terminals 103, 203, and 303 as screws, which fall within the protection scope of the present invention. It should be noted that a module may include both screws and nuts, i.e. as the connection terminals, and also as the connection mating terminals, and these variations fall within the scope of the present invention.

In another embodiment, one of the combination terminal and the combination mating terminal is a magnetic attraction piece, the other is an attracted piece which can be attracted by the magnetic attraction piece, and the combination terminal and the combination mating terminal are mutually attracted together to realize connection. For example, the processor module 100, the power supply module 200, and the USB port data communication module 300 are magnetically attracted to the terminals 103, 203, and 303, and the processor module 100, the power supply module 200, and the USB port data communication module 300 are attracted to the mating terminals 104, 204, and 304. Through the magnetism adsorb the piece with by the absorption of adsorbing the piece, realized the combination that can freely dismantle between module and the module. It should be noted that the present invention is not limited to this, and the processor module 100, the power supply module 200, and the USB port data communication module 300 may be magnetic attraction pieces combined with the terminals 104, 204, 304, while the processor module 100, the power supply module 200, and the USB port data communication module 300 are attracted pieces combined with the mating terminals 103, 203, 303, which fall within the protection scope of the present invention. It should be noted that a module may include both the magnetic attraction member and the attracted member, i.e. may be used as the connection terminal, and may also be used as the connection mating terminal, and these changes fall into the protection scope of the present invention.

In another embodiment, the combination terminal is one of a male sliding groove and a female sliding groove, the combination matching terminal is the other of the male sliding groove and the female sliding groove, and the combination terminal and the combination matching terminal are mutually buckled together to realize connection. For example, the processor module 100, the power supply module 200, and the USB port data communication module 300 are connected to the terminals 103, 203, 303 as male chutes, and the processor module 100, the power supply module 200, and the USB port data communication module 300 are connected to the terminals 104, 204, 304 as female chutes. Through the buckling connection of the convex chute and the concave chute, the free detachable combination between the module and the module is realized. It should be noted that the present invention is not limited to this, and the processor module 100, the power supply module 200, and the USB port data communication module 300 may be configured with concave sliding slots by combining the terminals 104, 204, and 304, while the processor module 100, the power supply module 200, and the USB port data communication module 300 may be configured with convex sliding slots by combining the mating terminals 103, 203, and 303, which fall within the protection scope of the present invention. It should be noted that a module may include both the male and female chutes, i.e. may be used as the connection terminal, and also may be used as the connection mating terminal, and these variations fall within the scope of the present invention.

Furthermore, although the present invention has been described with reference to four different "freely detachable coupling means", it should be understood by those skilled in the art that the "freely detachable coupling means" of the present invention is not limited to the four different specific preferred embodiments, and any suitable coupling means in the prior art, such as adhesive tape, may be used to bond the module to the module, and all such variations are within the scope of the present invention.

Fig. 6 and 7 disclose examples of other digital electronic products composed of a basic function module and an extended function module according to an embodiment of the present invention, wherein the digital electronic product shown in fig. 6 is a mouse, and the digital electronic product shown in fig. 7 is a mobile phone.

Referring to fig. 6, the USB camera shown in fig. 6 is composed of a processor module 601, a button module 602, an optical sensor module 603, and a USB port data communication module 604. In this embodiment, the processor module 601 may be the processor module 100 described above. In the USB camera shown in fig. 6, the connection mating terminals at both ends of the lead of the connection module 605a are detachably connected to the connection terminals of the button module 602, the optical sensor module 603, and the USB port data communication module 604, respectively. The connection module 605b is a universal USB socket, which can be connected to a computer, and the computer provides power and also functions as a power supply module.

Referring to fig. 7, the MP4 player shown in fig. 7 is composed of a display function module 701, a processor module 702, a button module 703, an audio input/output module 704, a storage module 705, and a power supply module 706. As shown in fig. 7, in the present embodiment, the processor module 702 may be the processor module 100 described above. In the mouse shown in fig. 7, connection mating terminals at both ends of a lead of the connection module 707a are connected to connection terminals of the display function module 701, the processor module 702, the button module 703, the audio input output module 704, the storage module 705, and the power supply module 706, respectively, in a freely detachable manner. The connection module 707b is a universal flexible flat cable, and is connected to the display function module 701 and the processor module 702 in a freely detachable manner.

Although the digital electronic product which can be realized by the present invention is described by taking the USB camera and the MP4 player as examples, it should be understood that the extended function module of the present invention is not limited thereto, and as mentioned above, any chip or component can be used to realize one extended function module, and different extended function modules can be combined to realize different digital electronic products.

Compared with the prior art, the basic function module, the extended function module and the connecting module are connected in a freely detachable mode, and the combination and connection relation among the modules can be conveniently changed in the process of designing and debugging. The realization system of the digital electronic product of the invention gives space for freely combining the functional modules, so that electronic enthusiasts can fully exert the originality of the functional modules and make own digital electronic products.

Claims (14)

1. A system for implementing a digital electronic product, comprising:

the basic function module is used for realizing the basic functions of the digital electronic product and at least comprises a processor function module and a power supply module;

the extended function module is used for realizing the extended function of the digital electronic product;

and the connecting module is used for selectively connecting the basic function module and the extended function module in a freely detachable mode so as to realize the functions of different digital electronic products.

2. The system for implementing digital electronic products according to claim 1, wherein each of the basic function module and the extended function module comprises:

a housing;

a coupling terminal and/or a coupling mating terminal provided on the housing;

a PCB board arranged inside the shell;

one or more functional chips and/or functional elements disposed on the PCB board;

a connection terminal disposed on the PCB;

a PCB wiring arranged on the PCB board and connecting the connecting terminal and the one or more functional chips and/or functional elements together;

wherein,

the connecting terminals can realize circuit connection between the modules in a freely detachable mode;

the combined terminal and/or the combined matching terminal can realize the combined connection of physical structures between the modules in a freely detachable mode.

3. The system for implementing digital electronic products according to claim 2,

the connecting module is a wire or a conductive device with a connecting matching terminal, and the connecting matching terminal is connected with the connecting terminal in a freely detachable mode.

4. The system for implementing digital electronic products according to claim 3,

the connecting terminal is one of a jack and a contact pin, the connecting matching terminal is the other of the jack and the contact pin, and the connecting terminal and the connecting matching terminal are mutually inserted to realize connection.

5. The system for implementing digital electronic products according to claim 3,

the connecting terminal is one of a clamp and a convex tongue, the connecting matching terminal is the other of the clamp and the convex tongue, and the connecting terminal and the connecting matching terminal are mutually clamped together to realize connection.

6. The system for implementing digital electronic products according to claim 3,

the connecting terminal is one of a universal connector plug and a universal connector socket, the connecting matching terminal is the other one of the universal connector plug and the universal connector socket, and the connecting terminal and the connecting matching terminal are mutually inserted to realize connection.

7. The system for implementing digital electronic products according to claim 3,

one of the connecting terminal and the connection matching terminal is a magnetic adsorption piece, the other is an adsorbed piece capable of being adsorbed by the magnetic adsorption piece, and the connecting terminal and the connection matching terminal are mutually adsorbed together to realize connection.

8. The system for implementing digital electronic products according to claim 2,

the combination terminal and the combination matching terminal are matched mechanical structures, and the combination matching terminal and the combination terminal are connected in a freely detachable mode.

9. The system for implementing digital electronic products according to claim 7,

the combined terminal is one of the mounting column and the mounting cavity, the combined matched terminal is the other one of the mounting column and the mounting cavity, and the combined terminal and the combined matched terminal are mutually plugged together to realize connection.

10. The system for implementing digital electronic products according to claim 7,

the combination terminal is one of a screw and a nut, the combination matching terminal is the other one of the screw and the nut, and the combination terminal and the combination matching terminal are mutually screwed together to realize connection.

11. The system for implementing digital electronic products according to claim 7,

the combined terminal is one of a convex sliding groove and a concave sliding groove, the combined matched terminal is the other one of the convex sliding groove and the concave sliding groove, and the combined terminal and the combined matched terminal are mutually buckled together to realize connection.

12. The system for implementing digital electronic products according to claim 1,

the functional chips and/or the functional elements are all welded on the PCB; or

One part of the functional chip and/or the functional element is welded on the PCB, and the other part is arranged on the PCB in a pluggable way; or

A socket for a part of functional chips and/or functional elements is fixed on the PCB, and a part of functional chips and/or functional elements are arranged on the socket in a pluggable manner; or

The socket for a part of the functional chip and/or functional element is fixed on the PCB board and is designed on the socket in a pluggable way through the flexible flat cable.

13. The system for implementing digital electronic products according to claim 1, wherein the extended function module comprises:

the device comprises a data communication module, a memory module, a sensor module, an input/output module and a processing module.

14. The system for implementing digital electronic products according to claim 13,

the data communication module includes: the system comprises a serial port data communication module, a parallel port data communication module, an infrared communication module, a Bluetooth communication module, a wireless communication module, a satellite communication module and a network adapter module;

the sensor module includes: a photoelectric sensor module and an optical sensor module;

the input/output module includes: a display function module, an FM radio module, an audio input/output module, and a key module;

the processing module comprises: a motor function module, a codec function module, a multimedia processing function module, and a power management module.

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