CN205104115U - Teaching experiment case based on microduino controller - Google Patents

Abstract

The utility model discloses a teaching experiment case based on microduino controller, teaching experiment case based on microduino controller include one the experiment box with connect in the experiment box does a power supply unit of experiment box power supply. The experiment box is provided with a microduino control module, but a microduino extension module tests the platform, electric machine control experiment platform, a wireless sensor network tests the platform, a OPENWRT and intelligent wireless routing module MT7620A communication experiment platform, one based on S5PV210CORTEX -A8 application processing ware module embedded development experiment platform, desktop application experiment platform based on PC end CS framework, one uses design experiment platform based on the tall and erect APP of the ann of thing networking, one because the IOS's that the thing was networked APP application and development experiment platform and high in the clouds service interface communication experiment platform. The teaching experiment case is the multi -functional teaching experiment case of perception control layer, network protocol layer, application layer and the integration of high in the clouds service layer of the conglomerate networking of user oriented use.

Description

Based on the Teaching Experiment Box of Microduino controller

Technical field

The utility model relates to a Teaching Experiment Box, and particularly one based on the Teaching Experiment Box of Microduino controller

Background technology

At present, China's Teaching Experiment Box mainly contains: several large classes such as Internet of Things experimental box, communication experiment case, Embedded System Experiment case.In the type of these Teaching Experiment Box, according to the needs of teaching purpose, such as, can bias toward hardware design and still lay particular stress on and software development etc., select dissimilar Teaching Experiment Box.In teaching process, the primary and foremost purpose of Teaching Experiment Box will ensure the knowledge that the routine implementation of curricula, such student can be learned should grasp in teaching programme under the guidance in classroom and reach the object tried out by knowwhy.But except the demand of basic quality of instruction, student will excite the interest of oneself by Teaching Experiment Box and improve the ability of practice.Therefore, when the content of courses is identical, dissimilar Teaching Experiment Box is different to the learning experience of student.In these are experienced, can stimulus interests and Teaching Experiment Box simple to operate be favored in teaching process.

But at each key position of teaching experimental equipment, controller is the position of very core.The dissimilar meeting of controller determines the quality of whole education experiment quality.Even can affect the experience of student to teaching.There are some shortcomings in the teaching experimental equipment at present based on traditional controller.Such as integrated not high with the degree of modularity, the scattered actual experiment caused of experiment module operates comparatively loaded down with trivial details etc. reason, the housekeeping after the preliminary work before experimental implementation and experiment is caused to occupy more experimental period, so not only have impact on the work efficiency of classroom and staff, the more important thing is that loaded down with trivial details experimental procedure can cause student to the decline of the interest of education experiment.This be all unfavorable for student can self-learning ability and the realization of student's intention.In addition, some traditional Teaching Experiment Box based on the computerese that relates to of traditional controller comparatively complicated, before use traditional experiment case, also will skillfully grasp relevant control language student, cause the raising of learning cost.Thus the routine that have impact on whole curricula is carried out, and is unfavorable for efficient, interactive teaching.

In order to solve the problem, market occurs one based on the Teaching Experiment Box on the hardware and software platform basis of open source.Wherein in the majority with the teaching experimental equipment based on Arduion controller.Arduino is a hardware and software platform based on open source, is implemented in open source simpleI/O interface version, and has the similar Java of use, the Processing/Wiring development environment of C language.ArduinoIDE can run in the large mainstream operation system of Windows, MacintoshOSX, Linux tri-.Arduino language, based on wiring language development, is the secondary encapsulation to AVRGCC storehouse, does not need too many single-chip microcomputer basis, programming basis, after simple study, also can develop fast.Because Arduino has relatively simple development scheme, make developer more pay close attention to intention and realization, complete the project development of oneself faster, greatly saved the cost of study, shortened the cycle of exploitation.Because all advantages of Arduino, or bring into use Arduino to develop their project, product, meanwhile more software developer uses Arduino to enter the development field such as hardware, Internet of Things to increasing dedicated hardware developer; Also Arduino correlated curriculum and experiment has been carried out one after another in each colleges and universities of university.

But above-mentioned Teaching Experiment Box does not have to solve foregoing problems well yet, just reaches improvement to a certain degree.And often complex structure, the mode of core and USB chip set is also unfavorable for the reduction of developer's cost of development.In addition, the teaching experimental equipment based on Arduion is comparatively large on volume, functionally has and self limits, do not have application widely.Therefore, the teaching equipment how based on new controller in the utility model solves foregoing problems and solves the various problems thereupon occurred in the utility model, becomes the problem that the utility model will be endeavoured to solve

Summary of the invention

An object of the present utility model is to provide one based on the Teaching Experiment Box of Microduino controller, wherein said Teaching Experiment Box can make student after the existing learning software of burning, namely experimental teaching mode student can be driven deeply to learn by oneself and expands the object of practice, excite student to the making interest of electronic product, make student progressively improve Microduino programming development ability and hardware human-subject test in an experiment.

An object of the present utility model is to provide one based on the Teaching Experiment Box of Microduino controller, wherein said Teaching Experiment Box can make developer more pay close attention to intention and realization, complete the project development of oneself faster, greatly saved the cost of study, shortened the cycle of exploitation.

An object of the present utility model is to provide one based on the Teaching Experiment Box of Microduino controller, and wherein said education experiment box structure is simple, and small volume, can reduce the cost of development of developer.

An object of the present utility model is to provide one based on the Teaching Experiment Box of Microduino controller, and wherein said Teaching Experiment Box can provide an all satisfactory development platform from function and volume for user.

An object of the present utility model is to provide one based on the Teaching Experiment Box of Microduino controller, and wherein said Teaching Experiment Box is the multifunction teaching test case of the perception key-course of the conglomerate networking that user oriented uses, network protocol layer, application layer and the integration of cloud service layer.

In order to achieve the above object, the utility model provides one based on the Teaching Experiment Box of Microduino controller, and it comprises:

One experimental box body; With

Be connected to described experimental box body and a power supply unit of powering for described experimental box body, it is characterized in that: described experimental box body is provided with a Microduino control module, one Microduino easily extensible modularized experiment platform, one Experimental Platform of Motor Control, one wireless sense network experiment porch, one OPENWRT and intelligent radio routing module MT7620A communication experiment experiment porch, one based on S5PV210CORTEX-A8 application processor module embedded development experiment porch, the multipad experiment porch of one Based PC end CS framework, one based on the APP application contrived experiment platform of the Android of Internet of Things, one based on the APP application and development experiment porch of the IOS of Internet of Things and a cloud service interface communication experiment porch, the described Microduino control module of wherein said experimental box body is connected with each described experiment porch, wherein said Microduino control module is Microduino controller, described power supply unit is that 220V turns 24V, one Switching Power Supply of 12V and 5V, the circuit board of one integrated each way of extensive experimentation module interface and a gauge tap.

According to a preferred embodiment of the present utility model, described Microduino easily extensible modularized experiment platform comprises a RCW-0006 ultrasonic distance measuring module, an AM2302 humiture collection module, a F05714 active buzzer module, a photoresistance module, a 10DOF attitude sensor module, a Microduino-OLED module, an audio driver module, a power amplifier module, a SD memory module and a RTC clock module and a mini telepilot.

According to a preferred embodiment of the present utility model, described Experimental Platform of Motor Control comprises a DC micromotor experiment module, a steering wheel experiment module and a two-phase bipolar stepping motor experiment module.Wherein said DC micromotor experiment module comprises a DC micromotor and a Motor motor drive module, the DC micromotor described in described Microduino controller controls through Motor motor drive module.Wherein said two-phase bipolar stepping motor experiment module, comprise a two-phase bipolar stepping motor and a StepperA4982 driving stepper motor module, described Microduino controller drives described two-phase bipolar stepping motor through described StepperA4982 stepper motor driver.

According to a preferred embodiment of the present utility model, described steering wheel experiment module is MicroSG90.

According to a preferred embodiment of the present utility model, described Microduino controller is Microduino-Core or Microduino-STM control panel.

According to a preferred embodiment of the present utility model, described Microduino easily extensible modularized experiment platform comprises an expansion module part and a module interface part, described expansion module part comprises the described experiment porch for Microduino controller, and described module interface part comprises the integrated Interface Terminal of described expansion module part and described Microduino controller.

Accompanying drawing explanation

Fig. 1 is the circuit theory diagrams of the Teaching Experiment Box based on Microduino controller according to a preferred embodiment of the present utility model.

Fig. 2 is the modular structure connection diagram of the Teaching Experiment Box based on Microduino controller according to a preferred embodiment of the present utility model.

Embodiment

Below describe and realize the utility model for disclosing the utility model to enable those skilled in the art.Preferred embodiment in below describing only as an example, it may occur to persons skilled in the art that other apparent modification.The ultimate principle of the present utility model defined in the following description can be applied to other embodiments, deformation program, improvement project, equivalent and not deviate from the other technologies scheme of spirit and scope of the present utility model.

Be the Teaching Experiment Box based on Microduino controller according to a preferred embodiment of the present utility model as shown in Figure 1 to Figure 2, the described Teaching Experiment Box based on Microduino controller comprises an experimental box body and a power supply unit.Described experimental box body is provided with a Microduino control module, one Microduino easily extensible modularized experiment platform, one Experimental Platform of Motor Control, one wireless sense network experiment porch, one OPENWRT and intelligent radio routing module MT7620A communication experiment experiment porch, one based on S5PV210CORTEX-A8 application processor module embedded development experiment porch, the multipad experiment porch of one Based PC end CS framework, one based on the APP application contrived experiment platform of the Android/IOS of Internet of Things, one based on the IOSAPP application and development experiment porch of Internet of Things and a cloud service interface communication experiment porch.Wherein said power supply unit is connected to described experimental box body and powers for described experimental box body.

Wherein said Microduino control module is Microduino controller, and described power supply unit is that a 220V turns the Switching Power Supply of 24V, 12V and 5V, the circuit board of integrated each way of extensive experimentation module interface and a gauge tap.

Wherein said Microduino control module is with MicroduinoMEGA328P controller for core, and by its representative meaning on Microduino product, guiding student enters Microduino exploitation study.By multilayer transformation, voltage stabilizing, rectification and filtering circuit, realize household electric to be converted into the multi-form power supply such as 24V, 12V, 5V required for experimental box, meet kinds of experiments conditional request.

As shown in Figure 2, one of utility model preferred embodiment in, described Microduino easily extensible modularized experiment platform mainly comprises a RCW-0006 ultrasonic distance measuring module, an AM2302 humiture collection module, a F05714 active buzzer module, a photoresistance module, a 10DOF attitude sensor module, a Microduino-OLED module, an audio driver module, a power amplifier module, a SD memory module and a RTC clock module.Described Experimental Platform of Motor Control mainly comprises a DC micromotor experiment module, a steering wheel experiment module and a two-phase bipolar stepping motor experiment module.Wherein said DC micromotor experiment module comprises a DC micromotor and a Motor motor drive module, the DC micromotor described in described Microduino controller controls through Motor motor drive module.Wherein said two-phase bipolar stepping motor experiment module, comprise a two-phase bipolar stepping motor and a StepperA4982 driving stepper motor module, described Microduino controller drives described two-phase bipolar stepping motor through described StepperA4982 stepper motor driver.Preferably, described steering wheel experiment module is MicroSG90.

Described Microduino easily extensible modularized experiment platform is mainly divided into an expansion module part and a module interface part.Described expansion module part mainly comprises the various various peripheral modules for Microduino controller, be intended to allow the principle of students ' understanding Microduino easily extensible module and function, described module interface part comprises the integrated Interface Terminal of each expansion module and controller, can make wiring visual enhancement by it, experimental implementation space is more well-to-do.

Particularly, of the present utility model one preferred embodiment in, as shown in Figure 1, each expansion module interface of described Microduino be arranged in based on Microduino controller Teaching Experiment Box below.The each expansion module interface of described Microduino comprises the ultrasonic ranging experiment be made up of a RCW-0006 ultrasonic distance measuring module 1 and an experimental group 14, the LCD liquid crystal display experiment be made up of a Microduino-OLED2 and described experimental group 14, the two-phase bipolar stepping motor Control release be made up of a stepper motor 4 and described experimental group 14, the mini-motor control experiment be made up of a DC micromotor 5 and described experimental group 14, the humiture collection experiment be made up of an AM2302 humiture collection 6 and described experimental group 14, the servos control experiment be made up of a MicroSG90 steering wheel 7 and described experimental group 14, the hummer Control release be made up of a hummer module 9 and described experimental group 14, the OPENWRT Intelligent routing experiment porch be made up of an OPENWRT Intelligent routing experiment porch 10, the CORTEX-A8 experiment porch be made up of a CORTEX-A8 experiment porch 11, and by described RCW-0006 ultrasonic distance measuring module 1, described stepper motor 4, described DC micromotor 5, described AM2302 humiture collection 6, described hummer module 9, described OPENWRT Intelligent routing experiment porch 10, described CORTEX-A8 experiment porch 11, one 7 cun of liquid crystal touch screens 12, one gateway group 13, the Zigbee+BLE protocol stack communication experiment that described experimental group 14 forms and Internet of Things Comprehensive Control experiment.Various variation, Microduino Interesting Tests interdisciplinary can be designed by above multiple expansion module.

It is worth mentioning that, experimental box described in the utility model experimental box provides WiFi, Zigbee, BLE, SmartRF, nRF24, GPS, GPRS/GSM and NFC communication module, can realize the communication experiment that STM32+WiFi Comprehensive Experiment and the experiment of described Zigbee+BLE protocol stack communication and other communications combine.By above-mentioned communication module, sensor and described stepper motor, described DC micromotor, described steering wheel module, described audio driver module, described power amplifier module, described SD memory module and the described RTC clock module such as described RCW-0006 ultrasonic distance measuring module, described AM2302 humiture collection module, described F05714 active buzzer module, described photoresistance module, described 10DOF attitude sensor module, described Microduino-OLED module that there is provided of Binding experiment case again, multiple Internet of Things of can having arranged in pairs or groups is tested.That is the utility model has multi-functional and how interesting, makes user complete the development and application grasping Internet of Things knowledge and association's technology of Internet of things in the experiment of various Internet of Things.

It is worth mentioning that, because Microduino is the Arduino development board of a mini version, volume is much less than Arduino.Take the utility model is adopt core and USB chip separation scheme simultaneously, and user only can use core board when using the utility model, thus reduces the cost of development of user.

In addition, a lot of slot and pin is had based on the every block circuit board in the Teaching Experiment Box of Microduino controller described in the utility model, they only need be stitched together by user, just can form a hardware solution, build an all satisfactory development platform from function and volume.

It is worth mentioning that, in other embodiments of the present utility model, described Microduino controller is Microduino-Core, Microduino-STM control panel

One skilled in the art will understand that the embodiment of the present utility model shown in foregoing description and accompanying drawing only limits the utility model as an example and not.The purpose of this utility model is complete and effectively realize.Function of the present utility model and structural principle are shown in an embodiment and are illustrated, do not deviating under described principle, embodiment of the present utility model can have any distortion or amendment.

Claims (10)

1. one based on the Teaching Experiment Box of Microduino controller, the described Teaching Experiment Box based on Microduino controller comprises an experimental box body and is connected to described experimental box body and a power supply unit of powering for described experimental box body, it is characterized in that: described experimental box body is provided with a Microduino control module, one Microduino easily extensible modularized experiment platform, one Experimental Platform of Motor Control, one wireless sense network experiment porch, one OPENWRT and intelligent radio routing module MT7620A communication experiment experiment porch, one based on S5PV210CORTEX-A8 application processor module embedded development experiment porch, the multipad experiment porch of one Based PC end CS framework, one based on the APP application contrived experiment platform of the Android of Internet of Things, one based on the APP application and development experiment porch of the IOS of Internet of Things and a cloud service interface communication experiment porch, the described Microduino control module of wherein said experimental box body is connected with each described experiment porch, wherein said Microduino control module is Microduino controller, described power supply unit is that 220V turns 24V, one Switching Power Supply of 12V and 5V, the circuit board of one integrated each way of extensive experimentation module interface and a gauge tap.

2. the Teaching Experiment Box based on Microduino controller according to claim 1, wherein said Microduino easily extensible modularized experiment platform comprises a RCW-0006 ultrasonic distance measuring module, an AM2302 humiture collection module, a F05714 active buzzer module, a photoresistance module, a 10DOF attitude sensor module, a Microduino-OLED module, an audio driver module, a power amplifier module, a SD memory module and a RTC clock module and a mini telepilot.

3. the Teaching Experiment Box based on Microduino controller according to claim 1, wherein said Experimental Platform of Motor Control comprises a DC micromotor experiment module, one steering wheel experiment module and a two-phase bipolar stepping motor experiment module, wherein said DC micromotor experiment module comprises a DC micromotor and a Motor motor drive module, DC micromotor described in described Microduino controller controls through Motor motor drive module, wherein said two-phase bipolar stepping motor experiment module, comprise a two-phase bipolar stepping motor and a StepperA4982 driving stepper motor module, described Microduino controller drives described two-phase bipolar stepping motor through described StepperA4982 stepper motor driver.

4. the Teaching Experiment Box based on Microduino controller according to claim 2, wherein said Experimental Platform of Motor Control comprises a DC micromotor experiment module, one steering wheel experiment module and a two-phase bipolar stepping motor experiment module, wherein said DC micromotor experiment module comprises a DC micromotor and a Motor motor drive module, DC micromotor described in described Microduino controller controls through Motor motor drive module, wherein said two-phase bipolar stepping motor experiment module, comprise a two-phase bipolar stepping motor and a StepperA4982 driving stepper motor module, described Microduino controller drives described two-phase bipolar stepping motor through described StepperA4982 stepper motor driver.

5. the Teaching Experiment Box based on Microduino controller according to claim 3, wherein said steering wheel experiment module is MicroSG90.

6. the Teaching Experiment Box based on Microduino controller according to claim 4, wherein said steering wheel experiment module is MicroSG90.

7. the Teaching Experiment Box based on Microduino controller according to claim 3, wherein said Microduino controller is Microduino-Core or Microduino-STM control panel.

8. the Teaching Experiment Box based on Microduino controller according to claim 4, wherein said Microduino controller is Microduino-Core or Microduino-STM control panel.

9. the Teaching Experiment Box based on Microduino controller according to claim 1, wherein said Microduino easily extensible modularized experiment platform comprises an expansion module part and a module interface part, described expansion module part comprises the described experiment porch for Microduino controller, and described module interface part comprises the integrated Interface Terminal of described expansion module part and described Microduino controller.

10. the Teaching Experiment Box based on Microduino controller according to claim 3, it is characterized in that: described Microduino easily extensible modularized experiment platform comprises an expansion module part and a module interface part, described expansion module part comprises the described experiment porch for Microduino controller, and described module interface part comprises the integrated Interface Terminal of described expansion module part and described Microduino controller.