CN203838510U - Functional circuit and driving program thereof linking system - Google Patents

Abstract

The utility model discloses a functional circuit and driving program thereof linking system. The system comprises a driving controller and a plurality of groups of preset functional circuits which are correspondingly connected with a hardware port of the driving controller, wherein the driving controller receives driving control instructions sent by the functional circuits through the hardware port, determines the functional circuit corresponding to the driving control instructions according to the driving control instructions, and outputs preset time sequence level corresponding to the functional circuit so as to drive the functional circuit. In the product development process of the functional circuit and driving program thereof linking system, when a certain functional circuit of the plurality of groups of preset functional circuits is selected to be connected with one or more hardware ports of the driving controller, and the driving controller outputs the preset time sequence level directly through the hardware port so as to control the functional circuit to realize a specific function without a need of designing the functional circuit again or configuring the time sequence level state, thereby saving the design cost of products, and improving the development efficiency of the products.

Description

Functional circuit and driver interconnected system thereof

Technical field

The utility model relates to electronic circuit technology field, relates in particular to a kind of functional circuit and driver interconnected system thereof.

Background technology

Present stage, on electronic development platform, functional circuit and driver thereof do not have unified using standard, have following several situations:

(1) application circuit of same function, the application scheme that the slip-stick artist of disparity items takes is to realize principle different, thereby the application circuit obtaining is different, and all technical scheme is not continued, cause successive projects teacher when needs are applied this function, also need to redesign the application circuit of realizing this function, this will spend the work that a large amount of time and efforts is done repetition, strengthen the consumption of human resources.

(2) circuit of principle of uniformity, while being developed by different slip-stick artists, applied components and parts and parameter are also not quite similar, and cause spent material of a great variety, and material code is various, has increased material procurement cost and handling of goods and materials cost.

(3) same circuit, different slip-stick artists are in when design, the connectivity port of circuit and microcontroller or microprocessor is also inconsistent, causes driver also incompatible, makes slip-stick artist do the Driver Design work of repetition, also serious waste human resources.

(4) when product development runs into identical scheme, all can redesign another kind of scheme, cause old scheme fully not verified, product application quality can not get checking.

Utility model content

Fundamental purpose of the present utility model is to provide a kind of functional circuit and driver interconnected system thereof, is intended to save the design cost of product, improves the development efficiency of product.

In order to achieve the above object, the utility model provides a kind of functional circuit and driver interconnected system thereof, and this system comprises driving governor, and with many groups preset function circuit of the corresponding connection of hardware port of described driving governor;

The driving steering order that described driving governor sends by hardware port receiving function circuit, and according to described driving steering order, determine the functional circuit that this driving steering order is corresponding, export the default sequential level corresponding with this functional circuit and drive this functional circuit.

Preferably, described driving governor also comprises the Port detecting circuit being connected with described hardware port;

The driving steering order that described in described Port detecting electric circuit inspection, hardware port receives, and according to described driving steering order, determine the functional circuit that this driving steering order is corresponding.

Preferably, described driving governor also comprises the program commutation circuit being connected with described Port detecting circuit;

Described program commutation circuit is according to the default mapping relations of functional circuit and hardware port, determine hardware port, and configure the default sequential level state that determined hardware port is exported, by this hardware port output default sequential level corresponding with this functional circuit, drive this functional circuit.

Preferably, driving governor also comprises for storing the program storage of the default driver corresponding with each functional circuit, described program storage is connected with described program commutation circuit, described program commutation circuit is called default driver corresponding with functional circuit in described program storage, and the default sequential level state of determined hardware port is configured.

Preferably, each group preset function circuit comprises the functional circuit of multiple different circuit structures, and each functional circuit is connected with at least one hardware port of described driving governor.

Preferably, described program commutation circuit comprises the multi-channel switch being connected between described program storage and described Port detecting circuit.

The functional circuit that the utility model provides and driver interconnected system thereof, hardware port by driving governor can with the corresponding connection of many groups preset function circuit, the driving steering order that driving governor sends by hardware port receiving function circuit, and drive steering order according to this, determine the functional circuit that this driving steering order is corresponding, export the sequential level corresponding with this functional circuit and drive this functional circuit.In product development process, when a certain functional circuit in elected majority group preset function circuit is connected with one or more hardware ports of driving governor, driving governor is directly exported default sequential level by hardware port and is controlled this functional circuit and realize specific function, do not need to redesign functional circuit and configuration sequential level state, thereby saved the design cost of product, improved the development efficiency of product.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model functional circuit and driver interconnected system one embodiment thereof;

Fig. 2 is the structural representation of the utility model functional circuit and another embodiment of driver interconnected system thereof;

Fig. 3 is the exemplary plot of the utility model functional circuit and driver interconnected system one specific embodiment thereof;

Fig. 4 is the exemplary plot of the utility model functional circuit and another specific embodiment of driver interconnected system thereof.

The realization of the utility model object, functional characteristics and advantage, in connection with embodiment, are described further with reference to accompanying drawing.

Embodiment

Below in conjunction with Figure of description and specific embodiment, further illustrate the technical solution of the utility model.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of functional circuit and driver interconnected system thereof.

With reference to Fig. 1, Fig. 1 is the structural representation of the utility model functional circuit and driver interconnected system one embodiment thereof.

In the utility model one embodiment, functional circuit and driver interconnected system thereof comprise driving governor 10, and with many groups preset function circuit 20 of the corresponding connection of hardware port 11 of this driving governor 10, as shown in Figure 1, the corresponding connection of hardware port 11 of first group of preset function circuit, second group of preset function circuit, the 3rd group of preset function circuit philosophy and driving governor 10.Driving governor 10 can be microcontroller or microprocessor.

The driving steering order that driving governor 10 sends by hardware port 11 receiving function circuit, and according to driving steering order, determine the functional circuit that this driving steering order is corresponding, export the default sequential level (high level or low level signal) corresponding with this functional circuit and drive this functional circuit.

In the present embodiment, when a certain functional circuit in elected majority group preset function circuit 20 connects the hardware port 11 of driving governor 10, functional circuit sends driving steering order to the hardware port 11 of driving governor 10, the driving steering order that driving governor 10 sends by hardware port 11 receiving function circuit, and according to the driving steering order receiving, determine the functional circuit that this driving steering order is corresponding, being confirmed to be any functional circuit is connected with the hardware port 11 of driving governor 10, driving governor 10 is by the hardware port 11 being connected with functional circuit, to the functional circuit output default sequential level corresponding with this functional circuit, this functional circuit is realized its specific function according to the default sequential level of hardware port 11 outputs of driving governor 10.

The functional circuit that the utility model provides and driver interconnected system thereof, hardware port 11 by driving governor 10 can with the corresponding connection of many groups preset function circuit 20, the driving steering order that driving governor 10 sends by hardware port 11 receiving function circuit, and drive steering order according to this, determine the functional circuit that this driving steering order is corresponding, export the sequential level corresponding with this functional circuit and drive this functional circuit.In product development process, when a certain functional circuit in elected majority group preset function circuit is connected with one or more hardware ports of driving governor 10, driving governor 10 is directly controlled this functional circuit by the default sequential level of hardware port 11 output and is realized specific function, do not need to redesign functional circuit and configuration sequential level state, thereby saved the design cost of product, improved the development efficiency of product.

Refer again to Fig. 2, Fig. 2 is the structural representation of the utility model functional circuit and another embodiment of driver interconnected system thereof.

Based on above-described embodiment, in another embodiment of the utility model, driving governor 10 also comprises the Port detecting circuit 12 being connected with hardware port 11; The driving steering order that Port detecting circuit 12 detection hardware port ones 1 receive, and according to driving steering order, determine the functional circuit that this driving steering order is corresponding.

Driving governor 10 receives after the driving steering order that functional circuit sends at hardware port 11, by Port detecting circuit 12, detect the driving steering order receiving, according to the driving steering order receiving, determine the functional circuit that this driving steering order is corresponding, determine that what be connected with the hardware port 11 of driving governor 10 is any functional circuit.

Particularly, driving governor 10 also comprises the program commutation circuit 13 being connected with Port detecting circuit 12; Program commutation circuit 13 is according to the default mapping relations of functional circuit and hardware port 11, determine hardware port 11, and configure the default sequential level state that determined hardware port 11 is exported, by this hardware port 11 output default sequential level corresponding with this functional circuit, drive this functional circuit.

Port detecting circuit 12 detect be connected with the hardware port 11 of driving governor 10 be any functional circuit after, program commutation circuit 13 is according to the default mapping relations of functional circuit and hardware port 11, determine hardware port 11, determine which or those several hardware port linkage function circuit of driving governor 10, adapt to ground conducting hardware port 11, make driving governor 10 by the hardware port 11 being connected with functional circuit, to the functional circuit output default sequential level corresponding with this functional circuit, this functional circuit is realized its specific function according to the default sequential level of hardware port 11 outputs of driving governor 10.

Particularly, driving governor 10 also comprises that program storage 14 is connected with program commutation circuit 13 for storing the program storage 14 of the default driver corresponding with each functional circuit; The program storage 14 storage default driver corresponding with each functional circuit, for driving the driver of each functional circuit all pre-stored at program storage 14, the default driver corresponding with functional circuit in program commutation circuit 13 calling program storeies 14, is configured the default sequential level state of determined hardware port 11.

In program storage 14, store the default driver corresponding with each functional circuit, when Port detecting circuit 12 detects the hardware port 11 of a certain functional circuit connection driving governor 10, the default driver corresponding with this functional circuit in program commutation circuit 13 calling program storeies 14, switch to hardware port 11 conductings that are connected with this functional circuit, by the default driver in program storage 14, the default sequential level state of determined hardware port 11 is configured.The required sequential level of the pre-configured functional circuit of default driver in program storage 14, thereby when functional circuit connects the hardware port 11 of driving governor 10, the required sequential level of hardware port 11 direct this functional circuit of output is controlled this functional circuit and is realized specific function, do not need the driver that design is mated with this functional circuit in addition, thereby can improve product development efficiency, saved the time of program design, save human resources, and then saved the cost of designing and developing of product.

In the present embodiment, in program storage 14, the function interface of the default driver corresponding with each group functional circuit is identical, Port detecting circuit 12 is according to the driving steering order detecting, can determine soon the driving steering order that receives corresponding be which group preset function circuit, and then judge any functional circuit connection hardware port 11, by 13 control hardware port one 1 conductings of program commutation circuit.

Refer again to Fig. 3 and Fig. 4, Fig. 3 is the exemplary plot of the utility model functional circuit and driver interconnected system one specific embodiment thereof; Fig. 4 is the exemplary plot of the utility model functional circuit and another specific embodiment of driver interconnected system thereof.

In the present embodiment, each group preset function circuit comprises the functional circuit of multiple different circuit structures, and each functional circuit is connected with at least one hardware port 11 of driving governor 10.

In each group preset function circuit, the major function of various functional circuits is identical, circuit structure is different, make in product development process, can select according to the actual requirements the functional circuit of required circuit structure to realize, correspondingly, according to the circuit structure of selected function circuit, the quantity of the hardware port 11 of the required connection driving governor 10 of selected function circuit may be different, according to default circuit structure, some functional circuit only need to connect a hardware port of driving governor 10, some functional circuit need to connect two or more hardware ports of driving governor 10.

As shown in Figure 3 and Figure 4, functional circuit in the utility model be take hummer application circuit as example, the first hummer application circuit 21 in Fig. 3 and Fig. 4 and the circuit structure of the second hummer application circuit 22 are all preset, and these two kinds of hummer application circuits are as one group of preset function circuit.In Fig. 3, the first hummer application circuit 21 is connected with two hardware ports of driving governor 10, and in Fig. 4, the second hummer application circuit 22 is connected with a hardware port of driving governor 10.In product development process, need to use hummer application circuit to carry out voice prompt function, if selecting the first hummer application circuit 21 realizes, as shown in Figure 3, the the first hardware port IO1 and the second hardware port IO2 that the first hummer application circuit 21 are connected to driving governor 10, driving governor 10 is exported respectively default sequential circuit by the first hardware port IO1 of being connected with the first hummer application circuit 21 and the second hardware port IO2 and is controlled the first hummer application circuit 21 and realize voice prompt function, be specially driving governor 10 by the base stage of the first hardware port IO1 output high level signal to the first triode Q1, control the first triode Q1 conducting, driving governor 10 is by the base stage of the second hardware port IO2 output high level signal to the second triode Q2, control the second triode Q2 conducting, thereby the first hummer BUZZER1 obtains electric rear work, realize voice prompt function, if select the second hummer application circuit to carry out 21 realizations, as shown in Figure 4, the 3rd hardware port IO3 that the second hummer application circuit 22 is connected to driving governor 10, driving governor 10 is exported respectively default sequential circuit by the 3rd hardware port IO3 being connected with the second hummer application circuit 22 and is controlled the second hummer application circuit and realize voice prompt function, be specially driving governor 10 by the base stage of the 3rd hardware port IO3 output high level signal to the three triode Q3, control the 3rd triode Q3 conducting, thereby the second hummer BUZZER2 obtains electric rear work, realize voice prompt function.

Particularly, program commutation circuit 13 comprises the multi-channel switch being connected between program storage 14 and Port detecting circuit 12.The corresponding hardware port 11 of each change-over switch in program commutation circuit 13, when having functional circuit to connect hardware port 11, by Port detecting circuit 12, switch the change-over switch conducting being connected with hardware port 11, make the default sequential level of hardware port 11 output being connected with functional circuit control functional circuit.As shown in Figure 3, when the first hummer application circuit 21 connects the first hardware port IO1 of driving governors 10 and the second hardware port IO2, in program commutation circuit 13, the first change-over switch K1 and the second change-over switch K2 are closed, the first hardware port IO1 and the second hardware port IO2 conducting, driving governor 10 is by the base stage of the first hardware port IO1 output high level signal to the first triode Q1, control the first triode Q1 conducting, driving governor 10 is by the base stage of the second hardware port IO2 output high level signal to the second triode Q2, control the second triode Q2 conducting, thereby the first hummer BUZZER1 obtains electric rear work, realize voice prompt function, as shown in Figure 4, when the second hummer application circuit 22 connects the 3rd hardware port IO3 of driving governor 10, in program commutation circuit 13, the 3rd change-over switch K3 is closed, and other change-over switches disconnect, the 3rd hardware port IO3 conducting, driving governor 10, by the base stage of the 3rd hardware port IO3 output high level signal to the three triode Q3, is controlled the 3rd triode Q3 conducting, thereby the second hummer BUZZER2 obtains electric rear work, realizes voice prompt function.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model instructions and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (6)

1. functional circuit and a driver interconnected system thereof, is characterized in that, comprises driving governor, and with many groups preset function circuit of the corresponding connection of hardware port of described driving governor;

The driving steering order that described driving governor sends by hardware port receiving function circuit, and according to described driving steering order, determine the functional circuit that this driving steering order is corresponding, export the default sequential level corresponding with this functional circuit and drive this functional circuit.

2. functional circuit as claimed in claim 1 and driver interconnected system thereof, is characterized in that, described driving governor also comprises the Port detecting circuit being connected with described hardware port;

The driving steering order that described in described Port detecting electric circuit inspection, hardware port receives, and according to described driving steering order, determine the functional circuit that this driving steering order is corresponding.

3. functional circuit as claimed in claim 2 and driver interconnected system thereof, is characterized in that, described driving governor also comprises the program commutation circuit being connected with described Port detecting circuit;

Described program commutation circuit is according to the default mapping relations of functional circuit and hardware port, determine hardware port, and configure the default sequential level state that determined hardware port is exported, by this hardware port output default sequential level corresponding with this functional circuit, drive this functional circuit.

4. functional circuit as claimed in claim 3 and driver interconnected system thereof, it is characterized in that, driving governor also comprises for storing the program storage of the default driver corresponding with each functional circuit, described program storage is connected with described program commutation circuit, described program commutation circuit is called default driver corresponding with functional circuit in described program storage, and the default sequential level state of determined hardware port is configured.

5. functional circuit as claimed in claim 4 and driver interconnected system thereof, it is characterized in that, each group preset function circuit comprises the functional circuit of multiple different circuit structures, and each functional circuit is connected with at least one hardware port of described driving governor.

6. functional circuit as claimed in claim 5 and driver interconnected system thereof, is characterized in that, described program commutation circuit comprises the multi-channel switch being connected between described program storage and described Port detecting circuit.