Kenji Arai
Frequency counter using GPS 1PPS signal and temperature controlled 50MHz Base clock. Ported from F411 Frequency Counter.
Dependencies: QEI DRV8830 PID ADT7410 TextLCD Frq_cuntr_Nucleo-F746ZG RingBuffer
Fork of
Frequency_Counter_w_GPS_1PPS
by 
Kenji Arai
Please refer following.
/users/kenjiArai/notebook/frequency-counters/
Diff: main.cpp
- Revision:
- 8:7b033903c8fb
- Parent:
- 7:0c09d29c4cf3
- Child:
- 9:e98e94ba17f9
diff -r 0c09d29c4cf3 -r 7b033903c8fb main.cpp
--- a/main.cpp Wed Oct 22 00:41:14 2014 +0000
+++ b/main.cpp Sat Nov 22 23:09:17 2014 +0000
@@ -1,11 +1,11 @@
/*
- * mbed Application program / Frequency Counter
+ * mbed Application program / Frequency Counter with GPS 1PPS Compensation
*
* Copyright (c) 2014 Kenji Arai / JH1PJL
* http://www.page.sannet.ne.jp/kenjia/index.html
* http://mbed.org/users/kenjiArai/
* Created: October 18th, 2014
- * Revised: October 22nd, 2014
+ * Revised: Nobember 23rd, 2014
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE
@@ -15,18 +15,12 @@
*/
#define USE_COM // use Communication with PC(UART)
-#define USE_TEXT_LCD // use Text LCD/I2C Interface
-#define USE_GRAP_LCD // use Grafic LCD/SPI interface
// Include ---------------------------------------------------------------------------------------
#include "mbed.h"
-#include "freq_counter.h"
-#if defined(USE_TEXT_LCD)
-#include "TextLCD.h" // Std. lib./ LCD control
-#endif
-#if defined(USE_GRAP_LCD)
-#include "ST7565_SPI_LCD.h"
-#endif
+#include "frq_cuntr_full.h"
+
+using namespace Frequency_counter;
// Definition ------------------------------------------------------------------------------------
#ifdef USE_COM
@@ -43,89 +37,17 @@
#define READABLE(x) {;}
#endif
-#if defined(TARGET_LPC1768)
-// LPC1768 Frequency example
-// Outout mbed's "PWM6" pin to 96MHZ/19 = 5.052MHz (Approx)
-#define CLK_REFRENCE() PWM6_SETCLK(19)
-// Outout mbed's "PWM6" pin to 96MHZ/96 = 1.000MHz (Approx)
-//#define CLK_REFRENCE() PWM6_SETCLK(96)
-#elif defined(TARGET_LPC1114)
-#define led_not_zero temp_ram
-#define led_01 temp_ram
-#define led_10 temp_ram
-#define CLK_REFRENCE() clock_out()
-#warning "Don't forget LPC1114 runs with internal clock. Measurement data is not accurate!!"
-#elif defined(TARGET_NUCLEO_F401RE) || defined(TARGET_NUCLEO_F411RE)
-#define led_not_zero temp_ram
-#define led_01 temp_ram
-#define led_10 temp_ram
-#define CLK_REFRENCE() port_mco1_mco2_set()
-#else
-#error "No support for this CPU"
-#endif
-
// Object ----------------------------------------------------------------------------------------
-#if defined(TARGET_LPC1768)
-
-DigitalOut led_gate(LED1);
-DigitalOut led_not_zero(LED2);
-DigitalOut led_01(LED3);
-DigitalOut led_10(LED4);
-DigitalIn sw_01(p19);
-DigitalIn sw_10(p20);
-Serial pc(USBTX, USBRX);
-I2C i2cBus(p9, p10); // SDA, SCL
-#if defined(USE_TEXT_LCD)
-TextLCD_I2C_N lcd(&i2cBus, 0x7c, TextLCD::LCD8x2); // LCD(Akizuki AQM0802A)
-#endif
-#if defined(USE_GRAP_LCD)
-ST7565 glcd(p5, p7, p19, p8, p20, ST7565::AD12864SPI); // mosi, sck, reset, a0, ncs
-#endif
-PwmOut fmclck(p21); // for RESERVE pin21 as PWM1[6]
-F_COUNTER fc(p30);
-
-#elif defined(TARGET_LPC1114)
-
-DigitalOut led_gate(LED2);
-DigitalIn sw_01(dp25);
-DigitalIn sw_10(dp26);
-Serial pc(dp16,dp15); // Communication with Host
-I2C i2cBus(dp5,dp27); // SDA, SCL
-#if defined(USE_TEXT_LCD)
-TextLCD_I2C_N lcd(&i2cBus, 0x7c, TextLCD::LCD8x2); // LCD(Akizuki AQM0802A)
-#endif
-#if defined(USE_GRAP_LCD)
-ST7565 glcd(dp2, dp6, dp10, dp4, dp9, ST7565::AQM1248A); // mosi, sck, reset, a0, ncs
-#endif
-F_COUNTER fc(dp14);
-// dp24 uses for CLOCKOUT -> Clock output for checking
-
-#elif defined(TARGET_NUCLEO_F401RE) || defined(TARGET_NUCLEO_F411RE)
-
-DigitalOut led_gate(LED1);
-DigitalIn sw_01(PC_0);
-DigitalIn sw_10(PC_1);
-Serial pc(USBTX, USBRX);
-I2C i2cBus(PB_9,PB_8); // SDA, SCL
-#if defined(USE_TEXT_LCD)
-TextLCD_I2C_N lcd(&i2cBus, 0x7c, TextLCD::LCD8x2); // LCD(Akizuki AQM0802A)
-#endif
-#if defined(USE_GRAP_LCD)
-ST7565 glcd(PB_5, PB_3, PA_10, PB_10, PA_9, ST7565::AD12864SPI); // mosi, sck, reset, a0, ncs
-#endif
-F_COUNTER fc(PA_0);
-// PA8 & PC9 uses for MCO_1 % MCO_2 -> Clock output for checking
-
-#else
-#error "No support for this CPU"
-#endif
+//DigitalOut led_gate(LED1);
+DigitalIn sw_01(PC_0);
+DigitalIn sw_10(PC_1);
+Serial pc(USBTX, USBRX);
+I2C i2cBus(PB_9,PB_8); // SDA, SCL
+// PC_6,PC_7 & PB6 use for Timer3 & 4
+// PA_0,PA_1 & PB_10 use for Timer2
+FRQ_CUNTR fc(PC_6, 1.0); // Input port & gate time[sec]
// RAM -------------------------------------------------------------------------------------------
-float freqency;
-double t_gate;
-uint8_t sw;
-
-uint32_t temp_ram; // dummy ram (please keep it!)
// ROM / Constant data ---------------------------------------------------------------------------
@@ -136,201 +58,27 @@
//-------------------------------------------------------------------------------------------------
// Control Program
//-------------------------------------------------------------------------------------------------
-#if defined(TARGET_LPC1768)
-
-// Clock Output From pin21(PWM6)
-// Set Clock Freq with div.
-// if mbed is running at 96MHz, div is set 96 to Get 1MHz.
-void PWM6_SETCLK(int div)
-{
- LPC_PWM1->TCR = (1 << 1); // 1)Reset counter, disable PWM
- LPC_SC->PCLKSEL0 &= ~(0x3 << 12);
- LPC_SC->PCLKSEL0 |= (1 << 12); // 2)Set peripheral clock divider to /1, i.e. system clock
- LPC_PWM1->MR0 = div - 1; // 3)Match Register 0 is shared period counter for all PWM1
- LPC_PWM1->MR6 = (div + 1)>> 1; //
- LPC_PWM1->LER |= 1; // 4)Start updating at next period start
- LPC_PWM1->TCR = (1 << 0) || (1 << 3); // 5)Enable counter and PWM
-}
-
-#elif defined(TARGET_LPC1114)
-
-// CLOCKOUT from pin24(dp18)
-// Freq = 48MHz/4 = 12MHz
-void clock_out(void)
-{
- LPC_SYSCON->CLKOUTCLKSEL = 3; // System clock
- LPC_SYSCON->CLKOUTDIV = 4; // div 1/4
- LPC_IOCON->PIO0_1 = 1; // select CLKOUT to P0_1(pin24)/dp18
- LPC_SYSCON->CLKOUTUEN = 1; // enable output
-}
-
-#elif defined(TARGET_NUCLEO_F401RE) || defined(TARGET_NUCLEO_F411RE)
-
-void port_mco1_mco2_set(void)
-{
- uint32_t temp = 0x00;
-
- // PA8 -> MCO_1
- temp = ((uint32_t)(GPIO_AF0_MCO) << (((uint32_t)8 & (uint32_t)0x07) * 4)) ;
- GPIOA->AFR[8 >> 3] &= ~((uint32_t)0xf << ((uint32_t)(8 & (uint32_t)0x07) * 4)) ;
- GPIOA->AFR[8 >> 3] |= temp;
- GPIOA->MODER &= ~(GPIO_MODER_MODER0 << (8 * 2));
- GPIOA->MODER |= (0x2 << (8 * 2));
- // PC9 -> MCO_2
- temp = ((uint32_t)(GPIO_AF0_MCO) << (((uint32_t)9 & (uint32_t)0x07) * 4)) ;
- GPIOC->AFR[9 >> 3] &= ~((uint32_t)0xf << ((uint32_t)(9 & (uint32_t)0x07) * 4)) ;
- GPIOC->AFR[9 >> 3] |= temp;
- GPIOC->MODER &= ~(GPIO_MODER_MODER0 << (9 * 2));
- GPIOC->MODER |= (0x2 << (9 * 2));
- // Select output clock source
- RCC->CFGR &= 0x009fffff;
- // MC0_1 output HSE 1/4, MCO_2 output SYSCLK 1/4
- // MCO2 MCO2PRE MCO1PRE MCO1
- RCC->CFGR |= (0x0 << 30) + (0x6 << 27) + (0x6 << 24) + (0x3 << 22);
-}
-
-#else
-#error "No support for this CPU"
-#endif
-
-void read_sw_and_set_gate_time(void)
-{
- if (sw_10) {
- led_10 = 1;
- sw = 2;
- } else {
- led_10 = 0;
- sw = 0;
- }
- if (sw_01) {
- led_01 = 1;
- sw += 1;
- } else {
- led_01 = 0;
- }
- switch (sw) {
- case 0:
- t_gate = 0.001;
- break;
- case 1:
- t_gate = 0.01;
- break;
- case 2:
- t_gate = 0.1;
- break;
- case 3:
- default:
- t_gate = 1.0;
- break;
- }
-}
-
int main()
{
+ uint32_t counter_1pps = 0;
+ uint32_t new_frequency = 0;
+
+ BAUD(9600);
+ // PA8 & PC9 uses for MCO_1 & MCO_2 -> Clock output for checking
+ fc.port_mco1_mco2_set(2); // Clk/2 ->1/1(100MHz) cannot measure!!
+ wait(1.0);
+ fc.read_frequency_TIM2(1.0);
+ fc.read_frequency_TIM3P4(1.0);
PRINTF("\r\nFrequency Counter by JH1PJL created on "__DATE__"\r\n");
- t_gate = 1.0;
- // Initialize LCD
-#if defined(USE_TEXT_LCD)
- lcd.locate(0, 0); // 1st line top
- // 12345678
- lcd.printf("Fre-Cntr");
- lcd.locate(0, 1); // 2nd line top
- // 12345678
- lcd.puts(" JH1PJL ");
- lcd.setContrast(0x16);
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.cls();
- glcd.locate(0, 0);
- glcd.printf("--- Frequency Counter --\r\n");
- glcd.printf(" Kenji Arai / JH1PJL\r\n" );
- glcd.printf(" \r\n");
-#if defined(TARGET_LPC1768)
- glcd.set_contrast(0x06);
- glcd.printf(" Input: P30 PWM out: P21\r\n" );
- glcd.printf(" LED1:Gate LED2:signal \r\n" );
-#elif defined(TARGET_LPC1114)
- glcd.set_contrast(0x01);
- glcd.printf(" LED2:Gate " );
-#elif defined(TARGET_NUCLEO_F401RE) || defined(TARGET_NUCLEO_F411RE)
- glcd.set_contrast(0x06);
- glcd.printf(" Input: PA0 PWM out: PA8\r\n" );
- glcd.printf(" LED1:Gate \r\n" );
-#else
-#error "No support for this CPU"
-#endif
-#endif // defined(USE_GRAP_LCD)
-#if defined(USE_TEXT_LCD)
- wait(5.0);
- lcd.locate(0, 1); // 2nd line top
- // 12345678
- lcd.puts(" ");
-#endif
- // Set Internalclock for reference
- CLK_REFRENCE();
- freqency = 0;
while(true) {
- led_gate = 1;
- freqency = (float)fc.read_frequency(t_gate);
- led_gate = 0;
- wait(1.1 - t_gate);
- if (freqency == 0) {
- led_not_zero = 1;
- } else {
- led_not_zero = 0;
+ while (fc.status_1pps() == 0) {
+ ;
}
- read_sw_and_set_gate_time();
- PRINTF("f= %9.0f [Hz], gate= %4.3f [Sec]\r\n", freqency/t_gate, t_gate);
-#if defined(USE_TEXT_LCD)
- lcd.locate(0, 0); // 1st line top
- lcd.printf("%8.0f", freqency);
- lcd.locate(0, 1); // 2nd line top
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.locate(0, 10);
- glcd.printf(" \r\n");
- glcd.locate(10, 10);
- glcd.printf("%8.0f Hz", freqency);
- glcd.locate(10, 20);
-#endif
- switch (sw) {
- case 0:
-#if defined(USE_TEXT_LCD)
- // 12345678
- lcd.printf("x1000 Hz");
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.printf(" x1000 ");
-#endif
- break;
- case 1:
-#if defined(USE_TEXT_LCD)
- // 12345678
- lcd.printf("x100 Hz");
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.printf(" x100 ");
-#endif
- break;
- case 2:
-#if defined(USE_TEXT_LCD)
- // 12345678
- lcd.printf("x10 Hz");
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.printf("x10 ");
-#endif
- break;
- case 3:
- default:
-#if defined(USE_TEXT_LCD)
- // 12345678
- lcd.printf("x1 Hz");
-#endif
-#if defined(USE_GRAP_LCD)
- glcd.printf(" x1 ");
-#endif
- break;
+ counter_1pps = fc.read_avarage_1pps();
+ while (fc.status_freq_update() == 0) {
+ ;
}
+ new_frequency = fc.read_freq_data();
+ PRINTF("1PPS/ave = %9d , FREQUENCY = %9d\r\n", counter_1pps, new_frequency);
}
}