tom dunigan
demonstrate teensy 3.1 ADC internal channels: temperature sensor and VREF output
Fork of
Teensy_MBED_BLINKY
by 
HM Yoong
Diff: main.cpp
- Revision:
- 2:5b51fe85e931
- Parent:
- 1:e452bc59d245
--- a/main.cpp Sun Jul 26 01:40:06 2015 +0000
+++ b/main.cpp Fri Oct 02 16:09:35 2015 +0000
@@ -1,20 +1,125 @@
-// MBED_BLINKY with Teensy 3.1
-
-// You need to update the latest USBDevice library
-
+// Teensy 3.1 internal ADC temperature VREF
+// analog resolution 16-bits
#include "mbed.h"
#include "USBSerial.h"
+#include "clk_freqs.h"
-DigitalOut myled(LED1); // Onboard LED
+#define DEFAULT 0
+#define INTERNAL 2
+#define INTERNAL1V2 2
+#define INTERNAL1V1 2
+#define EXTERNAL 0
+
+// for teensy 3.1 temp sensor on ADC0 channel 26, vref output on ADC1 channel 18 GC3
+#define ADC_TEMP 26
+#define ADC_VREF 18
+
+#define PRREG(x) pc.printf(#x" %0x\n",x)
+
USBSerial pc; // Virtual serial port over USB
-
-
+
+#define MAX_FADC 6000000
+#define ADC1 ((ADC_Type *)0x400BB000u)
+
+void adc_init(){
+ VREF->TRM = 0x60; // from teensy enable vref
+ VREF->SC = 0xE1;
+
+ // enable ADC0 and ADC1
+ SIM->SCGC6 |= SIM_SCGC6_ADC0_MASK;
+ SIM->SCGC3 |= SIM_SCGC3_ADC1_MASK;
+
+ // bus clk
+ uint32_t PCLK = bus_frequency();
+ uint32_t clkdiv;
+ for (clkdiv = 0; clkdiv < 4; clkdiv++) {
+ if ((PCLK >> clkdiv) <= MAX_FADC)
+ break;
+ }
+ if (clkdiv == 4) //Set max div
+ clkdiv = 0x7;
+
+ // ADC0->SC1[1] = ADC_SC1_ADCH(obj->adc);
+
+ ADC0->CFG1 = ADC_CFG1_ADLPC_MASK // Low-Power Configuration
+ | ADC_CFG1_ADIV(clkdiv & 0x3) // Clock Divide Select
+ | ADC_CFG1_ADLSMP_MASK // Long Sample Time
+ | ADC_CFG1_MODE(3) // (16)bits Resolution
+ | ADC_CFG1_ADICLK(clkdiv >> 2); // Input Clock
+
+ ADC0->CFG2 = ADC_CFG2_MUXSEL_MASK // ADxxb or ADxxa channels
+ | ADC_CFG2_ADHSC_MASK // High-Speed Configuration
+ | ADC_CFG2_ADLSTS(0); // Long Sample Time Select
+
+ ADC0->SC2 = ADC_SC2_REFSEL(0); // Default Voltage Reference
+
+ ADC0->SC3 = ADC_SC3_AVGE_MASK // Hardware Average Enable
+ | ADC_SC3_AVGS(0); // 4 Samples Averaged
+// ADC1
+ ADC1->CFG1 = ADC_CFG1_ADLPC_MASK // Low-Power Configuration
+ | ADC_CFG1_ADIV(clkdiv & 0x3) // Clock Divide Select
+ | ADC_CFG1_ADLSMP_MASK // Long Sample Time
+ | ADC_CFG1_MODE(3) // (16)bits Resolution
+ | ADC_CFG1_ADICLK(clkdiv >> 2); // Input Clock
+
+ ADC1->CFG2 = ADC_CFG2_MUXSEL_MASK // ADxxb or ADxxa channels
+ | ADC_CFG2_ADHSC_MASK // High-Speed Configuration
+ | ADC_CFG2_ADLSTS(0); // Long Sample Time Select
+
+ ADC1->SC2 = ADC_SC2_REFSEL(0); // Default Voltage Reference
+
+ ADC1->SC3 = ADC_SC3_AVGE_MASK // Hardware Average Enable
+ | ADC_SC3_AVGS(0); // 4 Samples Averaged
+}
+
+
+uint16_t adc0_read(int channel) {
+ // start conversion
+ ADC0->SC1[0] = ADC_SC1_ADCH(channel);
+
+ // Wait Conversion Complete
+ while ((ADC0->SC1[0] & ADC_SC1_COCO_MASK) != ADC_SC1_COCO_MASK);
+
+ return (uint16_t)ADC0->R[0];
+}
+
+uint16_t adc1_read(int channel) {
+ // start conversion
+ ADC1->SC1[0] = ADC_SC1_ADCH(channel);
+
+ // Wait Conversion Complete
+ while ((ADC1->SC1[0] & ADC_SC1_COCO_MASK) != ADC_SC1_COCO_MASK);
+
+ return (uint16_t)ADC1->R[0];
+}
+
+void adc0_ref(int ref){
+ ADC0->SC2 = ADC_SC2_REFSEL(ref);
+ adc0_read(0); // discard a reading after ref change
+}
+
int main() {
+ double c, v;
while(1) {
- pc.printf("Hello World\r\n");
- myled = 1;
- wait(0.2);
- myled = 0;
- wait(0.2);
+ uint16_t val;
+ pc.printf("SystemCoreClock %d %s %s\n",SystemCoreClock,__TIME__,__DATE__);
+ PRREG(SIM->CLKDIV1);
+ PRREG(SIM->CLKDIV2);
+
+ PRREG(SIM->SCGC2); //ref 12.2
+ PRREG(SIM->SCGC3);
+ PRREG(SIM->SCGC4);
+ PRREG(SIM->SCGC5);
+ PRREG(SIM->SCGC6);
+ PRREG(SIM->SCGC7);
+ adc_init();
+ val = adc0_read(ADC_TEMP);
+ c= -0.02432*val + 371; // may need to calibrate for your chip
+ pc.printf("val %d %.1f C\n",val,c);
+
+ val = adc1_read(ADC_VREF);
+ v = 1.195*65536/val; // datasheet says internal vref is 1.195v
+ pc.printf("val %d Vcc %.3f\n",val,v);
+ wait(3.0);
}
}