Motoo Tanaka
A simple meter using Adafruit 2.8 TFT with touch v2
Dependencies: SPI_STMPE610 UniGraphic mbed vt100
A dumb simple voltage tester using ADC.
With FRDM-KL25Z, you can measure about 0V to 3.28V.
Nothing to drop your jaw nor holding your breath
but I wanted one, so I wrote one ;-)
とても単純はADCを使用した電圧テスターです。
FRDM-KL25Z を使用した場合、0V ~ 3.28V くらいが測定範囲です。
特に目新しいことも、驚くこともありませんが、
自分が欲しいので書いてみました (^ - ^)
On 18-May-2018
I changed the number display from 0.00 to 0.000
so that I can measure the change of a small loadcell.
2018年5月18日
ロードセル (重量センサ)の出力値の変化を見たかったので
有効数字を小数点以下2桁から3桁に変更しました。
meter.cpp
- Committer:
- Rhyme
- Date:
- 2017-07-21
- Revision:
- 2:204e60dbd73d
- Parent:
- 1:d7f2aa328962
- Child:
- 3:bf8761c8eb17
File content as of revision 2:204e60dbd73d:
#include "mbed.h"
#include <math.h>
#include <string.h>
#include "ILI9341.h"
#include "Arial12x12.h"
#include "Arial24x23.h"
#include "Arial28x28.h"
#include "Arial43x48_numb.h"
#include "SPI_STMPE610.h"
#include "meter.h"
#include "vt100.h"
#include "main.h"
#ifndef M_PI
#define M_PI 3.141593
#endif
extern vt100 *tty ;
extern ILI9341 *tft ;
extern SPI_STMPE610 *tsc ;
extern meter *tacho ;
double SIN[451] ;
double COS[451] ;
static void fillTriTable(void)
{
double theta ;
int i ;
for (i = 0 ; i <= 450 ; i++ ) {
theta = M_PI * (((double)(i + 450))/1800.0) ;
SIN[i] = sin( theta ) ;
COS[i] = cos( theta ) ;
}
}
meter::meter(int x, int y, int width, int height, float min, float max)
{
_x = x ;
_y = y ;
_w = width ;
_h = height ;
_value = min ;
_min = min ;
_max = max ;
_center_x = _x + _w / 2 ;
_center_y = _y + (2 * _h) / 3 ;
fillTriTable() ;
}
meter::~meter(void)
{
}
void meter::drawFrame(void)
{
tft->BusEnable(true) ;
tft->fillrect(_x, _y, _x+ _w - 1, _y+(2 * _h)/3 - 1, White) ;
tft->fillrect(_x, _y+(2 * _h)/3 - 1, _x + _w - 1, _y + _h - 1, Black) ;
tft->rect(_x, _y, _x + _w - 1, _y + _h - 1, Green) ;
tft->BusEnable(false) ;
}
void meter::drawScale(void)
{
int x1, x2, y1, y2 ;
double radius ;
double append ;
radius = _w / 2.0 ;
tft->BusEnable(true) ;
for (int i = 0 ; i < 450 ; i += 45 ) {
x1 = (radius * COS[i] + 0.5) ;
y1 = (radius * SIN[i] + 0.5) ;
if ((i % 10) == 5) {
append = 5 ;
} else {
append = 10 ;
}
x2 = ((radius + append) * COS[i] + 0.5) ;
y2 = ((radius + append) * SIN[i] + 0.5) ;
tft->line(_center_x + x1, _center_y - y1, _center_x + x2, _center_y - y2, Black) ;
tft->line(_center_x - x1, _center_y - y1, _center_x - x2, _center_y - y2, Black) ;
}
tft->line(_center_x, _center_y - radius, _center_x, _center_y - (radius + 10), Black) ;
tft->BusEnable(false) ;
}
void meter::drawHand(float value)
{
static int prev_x1 = 0, prev_x2 = 0, prev_y1 = 0, prev_y2 = 0 ;
int x1, x2, y1, y2 ;
double theta ;
double radius = _w / 20.0 ;
double append = 8.0 * (_w / 20.0) ;
int i ;
theta = 90.0 - (90.0 * (value / _max)) ;
if (theta < 0.0) { theta = 0.0 ; }
if (theta > 90.0) { theta = 90.0 ; }
if (theta > 45.0) {
i = (10.0 * (90.0 - theta + 45.0) + 0.5) - 450 ;
x1 = _center_x -(radius * COS[i] + 0.5) ;
x2 = _center_x -((radius + append) * COS[i] + 0.5) ;
} else {
i = (10.0 * (theta + 45.0) + 0.5) - 450 ;
x1 = _center_x + (radius * COS[i] + 0.5) ;
x2 = _center_x + ((radius + append) * COS[i] + 0.5) ;
}
y1 = _center_y - (radius * SIN[i] + 0.5) ;
y2 = _center_y - ((radius + append) * SIN[i] + 0.5) ;
tft->BusEnable(true) ;
tft->line(prev_x1, prev_y1, prev_x2, prev_y2, White) ;
tft->line(x1, y1, x2, y2, Black) ;
tft->BusEnable(false) ;
prev_x1 = x1 ;
prev_x2 = x2 ;
prev_y1 = y1 ;
prev_y2 = y2 ;
}
void meter::draw(void)
{
}
void meter::draw(float value)
{
tft->BusEnable(true) ;
drawHand(_value) ;
tft->BusEnable(false) ;
}
void meter::drawValue(float value)
{
char str[32] ;
int v1, v2 ;
v1 = (int)value ;
v2 = ((int)(100.0 * value) % 100) ;
sprintf(str, "%d.%02d V", v1, v2) ;
tft->BusEnable(true) ;
tft->locate(80, 190) ;
tft->printf(str) ;
wait(0.01) ;
tft->BusEnable(false) ;
}
void meter::update(float value)
{
}