CN106129698A - The multichannel splicing construction of modularization intelligent electronic building blocks - Google Patents

Abstract

The multichannel splicing construction of the open modularization intelligent electronic building blocks of the present invention, including input module, output module and processor (13);Input module mainly includes high level input (1), data/address bus input (2), signal input part (3), (4) four ports of low level input, and analog-digital converter (5)；Output module mainly includes high level output end (7), data/address bus outfan (8), signal output part (9) and (10) four ports of low level output end, and digital to analog converter (11).The present invention proposes and constructs standardized input module and output module, and the input module of varying number and the output module of varying number can freely form multichannel splicing construction；Electric power of the present invention and data connecting method, can meet power demands, data signal distribution and transmission plan in the modular system of arbitrarily splicing.The invention enables intelligence building block module bridging arrangement succinct, easy to use.

Description

The multichannel splicing construction of modularization intelligent electronic building blocks

Technical field

The present invention relates to intelligent toy technical field, be specifically related to the multichannel splicing construction of modularization intelligent electronic building blocks And attaching method thereof.

Background technology

Front a lot of circuit class experimental products all exist with a kind of absolute version, it is impossible to the product of frame for movement class Being used together, its splicing, circuit connect and all there is various restriction, and user is difficult to the demand according to oneself and idea is freely spelled Connect, it is difficult to transfer youngsters and children for building structure and the cognition of circuit theory.And can independent assortment, according to user's idea The intelligence of free splicing, modularity building blocks, meet user during carrying out building blocks splicing, experience electronic control circuit and bring Enjoyment and learn relevant knowledge.Various circuit structure is freely designed according to circuit theory, it is achieved building blocks system in order to realize user System power supply between free splicing, concatenation module, bus signals, upper bottom module by signal connection, distribute and transmit, it is proposed that one Plant the multichannel splicing construction of modularization intelligent electronic building blocks.The intelligent modular system related to of the present invention is by multiple intelligence building blocks Module (abbreviation building block module) is constituted.

Summary of the invention

Various circuit structure is freely designed according to circuit theory, it is achieved modular system free splicing, spelling in order to realize user Power supply between connection module, bus signals, the connection of upper the next module by signal, distribute and transmit, it is proposed that one modularization intelligent The multichannel splicing construction of electronic building blocks.

The present invention realizes at least through one of following technical scheme.

The multichannel splicing construction of modularization intelligent electronic building blocks, it includes input module, output module and processor, defeated Entering module and include high level input, data/address bus input, signal input part, four ports of low level input, modulus turns Parallel operation is connected with signal input part, and input module and analog-digital converter are arranged on input substrate；Output module includes high electricity Flat outfan, data/address bus outfan, signal output part and four ports of low level output end, digital to analog converter exports with signal End connects, and output module and digital to analog converter are arranged on outfan substrate；

Described input module and output module can freely form multichannel splicing construction；One multichannel splicing construction Including N number of input module and M output module, the high level input of the most N number of input module is connected in parallel, M output mould The high level output end of block is connected in parallel, the section of being connected in parallel of high level input and the section of being connected in parallel of high level output end it Between be connected in series, the high level port of processor is connected with above-mentioned high level series block, and N, M are all higher than or equal to 1；

The low level input of N number of input module is connected in parallel, and the low level output end of M output module is connected in parallel, low electricity It is connected in series between the section of being connected in parallel and the section of being connected in parallel of low level output end of flat input；The low level port of processor It is connected with low level series block；

Voltage difference between high level and low level in intelligence modular system is sampled, when voltage difference exceeds by processor in real time During the set point of nominal voltage, processor sends alarm signal, and external power-supply system is adjusted by prompting user, described Adjustment include the battery module of changing suitable voltage, or increase one or more external power supply system in parallel Access intelligence modular system；

The data/address bus input of N number of input module is connected in parallel, and the data/address bus outfan of M output module is connected in parallel, Two sections of being connected in parallel are connected in series, and the data/address bus of processor is connected with the section of being connected in series, it is achieved bi-directional data UNICOM；

The signal input part of N number of input module, through the process of analog-digital converter, is converted to digital signal, and defeated with processor Entering pin to connect, the signal of input inputs after the process of processor, is converted to from the digital to analog converter of M output module Analog voltage signal, and export from signal output part；If the input signal of N number of input is respectively U_i, i=1,2 ..., N, that The signal of each outfan output same magnitude of M output module.

Further, an input module and two output modules and a processor can constitute T-shaped threeway module, its In, the high level input of input module, data/address bus input, signal input part, low level input are directly output as The high level output end of two output modules, data/address bus outfan, signal output part and low level output end.

Further, two input modules and an output module and a processor may make up Y-type three way type module；Two The high level input of individual input module, data/address bus input, signal input part, low level input are added to be asked for averagely Value, is output as the high level output end of output module, data/address bus outfan, signal output part and low level respectively by meansigma methods Outfan.

Further, two input modules and two output modules and a processor may make up four-way module；Two The high level input of input module, data/address bus input, signal input part, low level input are added averaged, Using meansigma methods as the high level output end of two output modules, data/address bus outfan, signal output part and low level Outfan.

Relative to prior art, the present invention has the following advantages and technique effect:

The multichannel splicing construction of the present invention a kind of modularization intelligent electronic building blocks, constructs standardized input module and output Module, the input module of varying number and the output module of varying number can freely form multichannel splicing construction；This Bright electric power and data connection approach, can meet power demands, data signal distribution and transmission side in the modular system of arbitrarily splicing Case.The invention enables intelligence building block module bridging arrangement succinct, flexible and convenient to use.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the input module of the multichannel splicing construction of modularity smart electronics building blocks in example.

Fig. 2 is the structure chart of the input module of the multichannel splicing construction of modularity smart electronics building blocks in example.

Fig. 3 is the schematic diagram of the output module of the multichannel splicing construction of modularity smart electronics building blocks in example.

Fig. 4 is the structure chart of the output module of the multichannel splicing construction of modularity smart electronics building blocks in example.

Fig. 5 is the schematic diagram of the T-shaped threeway module that two outputs of an input combine in example.

Fig. 6 is the structure chart of the T-shaped threeway module that two outputs of an input combine in example.

Fig. 7 is the schematic diagram of the Y-type three way type module that one output of two inputs combines in example.

Fig. 8 is the structure chart of the Y-type three way type module that one output of two inputs combines in example.

Fig. 9 is the schematic diagram of the four-way module that two outputs of two inputs combine in example.

In figure: 1-high level input；2-data/address bus input；3-signal input part；4-low level input；5-mould Number converter；6-input substrate；7-high level output end；8-data/address bus outfan；9-signal output part；10-low level Outfan；11-digital to analog converter；12-outfan substrate；13-processor.

Detailed description of the invention

Below with reference to specific embodiment, the invention will be further described, but the enforcement of the present invention and protection are not limited to This, if there being the process of not detailed description especially below, be all that those skilled in the art can refer to prior art realization.

As shown in Fig. 1～Fig. 5, the multichannel splicing construction of modularization intelligent electronic building blocks, including input module, output mould Block and processor 13.

As shown in Figure 1, Figure 2, input module mainly include high level input 1, data/address bus input 2, signal input part 3, 4 four ports of low level input, analog-digital converter 5 is connected with signal input part 3, and above-mentioned each parts are arranged on input substrate On 6.Such as Fig. 3, Fig. 4, output module mainly includes high level output end 7, data/address bus outfan 8, signal output part 9 and low electricity 10 4 ports of flat outfan, digital to analog converter 11 is connected with signal output part 9, and above-mentioned each parts are arranged on outfan substrate 12 On.

Described input module and output module can freely form multichannel splicing construction；Assuming that a multichannel is spelled Access node structure is protected N number of (N is more than or equal to 1) input module and M (M is more than or equal to 1) output module, the most N number of input module High level input 1 is connected in parallel, and the high level output end 4 of M output module is connected in parallel, and the in parallel of high level input connects The section of being connected in parallel of the section of connecing and high level output end is connected in series, the high level port of processor 13 and above-mentioned high level series block Connect.

The low level input 5 of individual input module is connected in parallel, and the low level output end 8 of M output module is connected in parallel, The section of being connected in parallel of low level input and the section of being connected in parallel of low level output end are connected in series.The low level end of processor 13 Mouth is connected with low level series block.

Voltage difference between high level and low level in system is sampled, when voltage difference is beyond mark by processor 13 in real time When claiming the +/-5% of voltage, processor sends alarm signal, and power-supply system is adjusted by prompting user.

The data/address bus input 2 of individual input module is connected in parallel, and the data/address bus outfan 6 of M output module is in parallel Connecting, two sections of being connected in parallel are connected in series, and the data/address bus of processor 13 is connected with the section of being connected in series, it is achieved two-way number According to UNICOM.

The signal input part 3 of individual input module, through the process of analog-digital converter, is converted to digital signal, and and processor The input pin of 13 connects, and the signal of input inputs after the process of processor 13, from the digital-to-analogue conversion of M output module Device 11 is converted to analog voltage signal, and exports from signal output part 5；Assuming that the input signal of N number of input is respectively U_i (i=1,2 ..., N), then the signal of each outfan output same magnitude of M output module

。

As shown in Figure 5 and Figure 6, an input module 601 and two output modules 602 and a processor may make up T Type threeway module；The high level input 1 of input module, data/address bus input 2, signal input part 3, low level input 4 It is directly output as the high level output end 7 of two output modules, data/address bus outfan 8, signal output part 9 and low level defeated Go out end 10.

As shown in Figure 7 and Figure 8, two input modules and an output module and a processor may make up Y-type three way type Module；Two input modules 601 and an output module 602 and a processor may make up Y-type three way type module；Two inputs The high level input 1 of module, data/address bus input 2, signal input part 3, low level input 4 are added averaged, Meansigma methods is output as respectively the high level output end 7 of output module, data/address bus outfan 8, signal output part 9 and low level Outfan 10.

As it is shown in figure 9, two input modules and two output modules and a processor may make up four-way module；Two The high level input 1 of input module, data/address bus input 2, signal input part 3, low level input 4 are added to be asked for averagely Value, using meansigma methods as the high level output end 7 of two output modules, data/address bus outfan 8, signal output part 9 and Low level output end 10.

The announcement of book and teaching according to the above description, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula changes and revises.Therefore, the invention is not limited in detailed description of the invention disclosed and described above, to the present invention's Some modifications and changes should also be as falling in the scope of the claims of the present invention.

Claims (4)

1. the multichannel splicing construction of modularization intelligent electronic building blocks, it is characterised in that include input module, output module and place Reason device (13),

Input module includes high level input (1), data/address bus input (2), signal input part (3), low level input (4) four ports, analog-digital converter (5) is connected with signal input part (3), and input module and analog-digital converter (5) are arranged on defeated Enter on end group plate (6)；Output module includes high level output end (7), data/address bus outfan (8), signal output part (9) and low (10) four ports of level output end, digital to analog converter (11) is connected with signal output part (9), output module and digital to analog converter (11) it is arranged on outfan substrate (12)；

Described input module and output module can freely form multichannel splicing construction；One multichannel splicing construction Including N number of input module and M output module, the high level input (1) of the most N number of input module is connected in parallel, M output The high level output end (4) of module is connected in parallel, and the section of being connected in parallel of high level input and the in parallel of high level output end connect Being connected in series between the section of connecing, the high level port of processor (13) is connected with above-mentioned high level series block, and N, M are all higher than or are equal to 1；

The low level input (5) of N number of input module is connected in parallel, and the low level output end (8) of M output module is in parallel even Connect, be connected in series between the section of being connected in parallel and the section of being connected in parallel of low level output end of low level input；Processor (13) Low level port be connected with low level series block；

Voltage difference between high level and low level in intelligence modular system is sampled in real time by processor (13), works as voltage difference During beyond the set point of nominal voltage, processor sends alarm signal, and external power-supply system is adjusted by prompting user, Described adjustment includes the battery module changing suitable voltage, or increases one or more external power supply system with parallel connection Mode accesses intelligence modular system；

The data/address bus input (2) of N number of input module is connected in parallel, and the data/address bus outfan (6) of M output module is in parallel Connecting, two sections of being connected in parallel are connected in series, and the data/address bus of processor (13) is connected with the section of being connected in series, it is achieved two-way Data association；

The signal input part (3) of N number of input module, through the process of analog-digital converter, is converted to digital signal, and and processor (13) input pin connects, and the signal of input inputs after the process of processor (13), from the digital-to-analogue of M output module Transducer (11) is converted to analog voltage signal, and exports from signal output part (5)；If the input signal of N number of input is respectively For U_i, i=1,2 ..., N, then the signal of each outfan output same magnitude of M output module.

The multichannel splicing construction of modularization intelligent electronic building blocks the most according to claim 1, it is characterised in that: one is defeated Enter module and two output modules and a processor can constitute T-shaped threeway module, wherein, the high level input of input module End (1), data/address bus input (2), signal input part (3), low level input (4) are directly output as two output modules High level output end (7), data/address bus outfan (8), signal output part (9) and low level output end (10).

The multichannel splicing construction of modularization intelligent electronic building blocks the most according to claim 1, it is characterised in that: two are defeated Enter module and an output module and a processor may make up Y-type three way type module；The high level input of two input modules End (1), data/address bus input (2), signal input part (3), low level input (4) are added averaged, by meansigma methods It is output as the high level output end (7) of output module, data/address bus outfan (8), signal output part (9) and low level respectively defeated Go out end (10).

The multichannel splicing knot of modularization intelligent electronic building blocks the most according to claim 1 Structure, it is characterised in that two input modules and two output modules and a processor may make up four-way module；Two inputs The high level input (1) of module, data/address bus input (2), signal input part (3), low level input (4) are added and ask for Meansigma methods, meansigma methods is defeated as the high level output end (7) of two output modules, data/address bus outfan (8), signal Go out end (9) and low level output end (10).