116 lines
3.6 KiB
C++
116 lines
3.6 KiB
C++
// You will need to install RP2040_PWM in the Arduino IDE first!
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#define F_CPU 204000000
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#include "RP2040_PWM.h"
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//////////////////////////////////// begin clock code
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#include "hardware/pll.h"
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#include "hardware/clocks.h"
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void set_sys_clock_pll(uint32_t vco_freq, uint post_div1, uint post_div2) {
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if (!running_on_fpga()) {
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clock_configure(clk_sys,
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CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLKSRC_CLK_SYS_AUX,
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CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB,
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48 * MHZ,
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48 * MHZ);
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pll_init(pll_sys, 1, vco_freq, post_div1, post_div2);
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uint32_t freq = vco_freq / (post_div1 * post_div2);
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// Configure clocks
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// CLK_REF = XOSC (12MHz) / 1 = 12MHz
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clock_configure(clk_ref,
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CLOCKS_CLK_REF_CTRL_SRC_VALUE_XOSC_CLKSRC,
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0, // No aux mux
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12 * MHZ,
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12 * MHZ);
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// CLK SYS = PLL SYS (125MHz) / 1 = 125MHz
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clock_configure(clk_sys,
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CLOCKS_CLK_SYS_CTRL_SRC_VALUE_CLKSRC_CLK_SYS_AUX,
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CLOCKS_CLK_SYS_CTRL_AUXSRC_VALUE_CLKSRC_PLL_SYS,
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freq, freq);
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clock_configure(clk_peri,
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0, // Only AUX mux on ADC
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CLOCKS_CLK_PERI_CTRL_AUXSRC_VALUE_CLKSRC_PLL_USB,
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48 * MHZ,
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48 * MHZ);
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}
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}
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bool check_sys_clock_khz(uint32_t freq_khz, uint *vco_out, uint *postdiv1_out, uint *postdiv_out) {
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uint crystal_freq_khz = clock_get_hz(clk_ref) / 1000;
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for (uint fbdiv = 320; fbdiv >= 16; fbdiv--) {
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uint vco = fbdiv * crystal_freq_khz;
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if (vco < 400000 || vco > 1600000) continue;
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for (uint postdiv1 = 7; postdiv1 >= 1; postdiv1--) {
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for (uint postdiv2 = postdiv1; postdiv2 >= 1; postdiv2--) {
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uint out = vco / (postdiv1 * postdiv2);
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if (out == freq_khz && !(vco % (postdiv1 * postdiv2))) {
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*vco_out = vco * 1000;
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*postdiv1_out = postdiv1;
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*postdiv_out = postdiv2;
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return true;
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}
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}
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}
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}
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return false;
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}
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static inline bool set_sys_clock_khz(uint32_t freq_khz, bool required) {
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uint vco, postdiv1, postdiv2;
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if (check_sys_clock_khz(freq_khz, &vco, &postdiv1, &postdiv2)) {
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set_sys_clock_pll(vco, postdiv1, postdiv2);
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return true;
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} else if (required) {
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panic("System clock of %u kHz cannot be exactly achieved", freq_khz);
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}
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return false;
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}
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//////////////////////////////////// end clock code
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RP2040_PWM* pwm;
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RP2040_PWM* led;
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void setup() {
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Serial.begin(9600);
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set_sys_clock_khz(204000, true);
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pwm = new RP2040_PWM(15, 1557000, 0);
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pwm->enablePWM();
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uint16_t PWM_TOP = pwm->get_TOP();
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uint16_t PWM_DIV = pwm->get_DIV();
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uint16_t PWM_Level = 0;
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// setPWM_manual(uint8_t pin, uint16_t top, uint8_t div, uint16_t level, bool phaseCorrect = false)
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pwm->setPWM_manual(15, PWM_TOP, PWM_DIV, PWM_Level, true);
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led = new RP2040_PWM(LED_BUILTIN, 1557000, 100);
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led->enablePWM();
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PWM_TOP = led->get_TOP();
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PWM_DIV = led->get_DIV();
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PWM_Level = 65535;
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// setPWM_manual(uint8_t pin, uint16_t top, uint8_t div, uint16_t level, bool phaseCorrect = false)
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led->setPWM_manual(LED_BUILTIN, PWM_TOP, PWM_DIV, PWM_Level, false);
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delay(200);
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Serial.println(pwm->get_freq_CPU());
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Serial.println(pwm->getActualFreq());
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}
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//long n = 0;
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//float m = 0;
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void loop() {
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float v = ((float) analogRead(26) / 4096.0 * 6 * 100.0 + 10);
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pwm->setPWM_DCPercentage_manual(15, v);
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led->setPWM_DCPercentage_manual(LED_BUILTIN, v);
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//n = n + 1;
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//if(m < v) { m = v; }
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//if(n % 100000 == 0) {
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//Serial.print(n);
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//Serial.println(": ");
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//Serial.println(m);
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//m = 0;
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//}
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}
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