Page 1 DIDACTIC TOOL FOR PRACTICAL TESTING OF DIGITAL

DIDACTIC TOOL FOR PRACTICAL TESTING OF DIGITAL VOLTAGE GRADING APPLICATIONS l Renata 1. S. Pereira , Sandro C. S. Juca2

l

Federal University of Ceara, Fortaleza - Ceara, Brazil 2 Federal Institute of Ceara, Maracanau - Ceara, Brazil e-mail: [email protected]@ifce.edu.br

Abstract

-

This

paper

and

implementation

programming

describes

the of

construction,

an

II. IMPLEMENTATION OF THE DIDACTIC SYSTEM FOR DIGITAL VOLTAGE GRADING

educational

embedded system made up of free educational software and

an

embedded

control

voltage for

electricity

laboratory.

Thus,

software

this

developed

of

sinusoidal

practices

in

work

and

power

presents

applied

to

alternating

The developed system can act in two ways: open-loop

electronics

control, as in the proposed gradation control voltage; or

educational

digital

control,

wirelessly via Bluetooth, to change the AC voltage of the

closed-loop with analog control of some variable such as, for example, temperature. These two forms of application are described in this topic.

grid using Android smartphones or tablets, making the

In order to implement the developed embedded system for

experiment more interactive and playful. The application

graduation by PWM, two applications will be shown: light

of

control of AC lamps

educational

verifying

the

software program

phenomena

and

development

and

in

experiments

change

stimulates consequently

influence

the the

logical

also in

allows

physical

and sinusoidal voltage control in

heating device.

reasoning

autonomy

of

the

A. Sinusoidal voltage grading in open-loop control

students that can raise hypotheses, make interferences in

When implementing the develop teaching tool in open­

the programming and drawing conclusions from the

loop, a program in C language (firmware) was developed,

practical results obtained.

which must be recorded in the microcontroller circuit so that information from Android devices via Bluetooth could be

Keywords

-

Embedded system, Didactic tool, Free

received, such as smartphones or tablets, and vary the alternating voltage effective (AC) load via a digital circuit

Software, Digital Voltage Grading.

control. The communication process of the Android device to a load supplied by AC voltage is illustrated in Figure 1.

I. INTRODUCTION

Android

Embedded Microcontrolled System

Microcontroller embedded systems are very useful tools

�"

for the development of practices aimed at practical teaching power electronics [I] and, along with free software can contribute effectively in the teaching-learning process [2] [3]. Therefore, it is recommended, in the Brazilian National Curriculum Parameters, develop educational tools consistent with new teaching and learning methods compatible with current technologies [4]. Besides, this can awake vocations for technology careers in higher education [5].

lL

�

AC digital control

Input 1101220 Vac

...

� i 1

Bluetooth

In alternating current teaching practices (CA), in which

Fig. 1. Illustration of the Bluetooth communication process between

you want to change the voltage value and effective load

an Android device and the microcontroller system for AC digital

current is usual the use of sinusoidal voltage drivers, also

control.

known as PWM (Pulse-Width Modulation) graders, Static Contactors or Controllers. In this context, this work describes the construction, the programming and the implementation of an educational system composed of

free educational software

and

an

embedded control system of AC sinusoidal voltage for electricity and power electronic practices in schools and universities laboratories. This system can act both in open and closed-loop. The communication of the experiments with free educational software can be performed via USB and using wireless communication protocols such as WiFi and Bluetooth [6].

To enable greater diffusion of the proposed educational software [7]-[8], a program (sketch) for communication with the Arduino platform, which can be accessed directly in the application educational software screen,

was developed.

Among other features, the application allows a certain PWM configuration of an experiment is stored in the application's permanent memory.

B. Android Educational software for Android devices This topic describes the operation of the application educational software called BT4SanUSB (2014) developed and available for free for Android devices on Google Play. This application developed for Android lets you control the

978-1-4799-8779-5/15/$31.00 ©2015 IEEE

variation of AC voltage via Bluetooth using the gradual disk on the application or through the on/off buttons. In Figure 2 the free educational software screens used in experimental physics also for composing real and virtual colors are shown. aD

{}

i!'

�

....

_

1703

� Connect

On

Off

Set1d L

Set1d 0

Disconnect

Voice Recognition

ConfIgure BT name Download: BT4SanuSB.c

Bluetooth Modem:

Connect



r. --+----,-----1 - --+--.--t-----1

T

Thermocouples can measure a wide range of temperatures and can be replaced by other equivalents without introducing

GND

significant errors. Although practically it is possible to build a thermocouple with any combination of two metals, only those using a few standard combinations are used, that is because they have predictable output voltages to certain temperatures. One of the advantages of using thermocouples is that these generate theiw own voltage signal, i.e., excitation current are not requiered (that means there are no errors by self-heating). They are usually simple, robust, immune to vibrations and

Fig. 10. Pinout diagram and internal IC MAX31855 blocks.

Importantly,

the IC

MAX31855

uses

a

conditioning

circuit composed of an LC filter (inductive-capacitive) at the input and a buffer to 5 V voltage conversion (MCU supply voltage) to 3.3 V (supply voltage IC), as illustrated in the schematic of Figure 1 I .

The AD conversion results are read from the SO pin (serial

In this case, the mesh controller is a microcontroller with

data output), placing the CS pin (chip select) at low logic

PI control on the firmware; the actuator is the optoisolated

level and applying a clock signal SCK (serial clock input) as

TRIAC; the process is the heating resistive element and the

shown in Figure 12.

temperature sensor is a thermocouple, as shown in the

When the CS pin is at low logic level, the conditioning

diagram of the dynamic process in Figure 13. Reference is

circuit assumes the transmission status. Thus, any conversion

understood to be the input variable, i.e,

the controller

process is disabled. To start a new AD conversion of the

reference

to

thermocouple output

calculation.

analog

signal

to

four

bytes

it

is

necessary that CS pin is at a high logic level.

value

(desired

,------,

GND

LCFILTER r

:

FBl Inpu1 plug , 2512066017Yl -INPUT.2 _+_____

1

CONTROLLER

+3V3

Firmware with embedded PI

C4 NP

value)

is

used

,

�---�

�=tj 2Y'Y lA �� 43YY 3A4A 2'" 4

C1 10nF

t�

2512066017Y1 FB2

!

L _____________________________________________ J

PloIInt

VOLTAGE CONVERTER

, + � ���U_T�1.-.. -'---_____-+...J J

error

1,··············································1, , ,

-+--,

the

� GND

2A

+3V3

C3

DonF

GND

GND

''''

14 7

GND

vee 3C5E GND