Impedance_Fast_Circuitry - Impedance Fast Circuitry Software

Users » baxterja » Code » Impedance_Fast_Circuitry

Jared Baxter / Mbed 2 deprecated Impedance_Fast_Circuitry

Impedance Fast Circuitry Software

Fork of DSP_200kHz by Mazzeo Research Group

main.cpp@85:f1be018aacac, 2018-04-25 (annotated)

Committer:: baxterja
Date:: Wed Apr 25 16:21:11 2018 +0000
Revision:: 85:f1be018aacac
Parent:: 84:5b4466dd2326
Child:: 86:b3520f4453cf

Made it so that to change frequencies we only need to change the probe number.

Who changed what in which revision?

User	Revision	Line number	New contents of line
donatien	0:bb128f0e952f	1	#include "mbed.h"
timmey9	22:523e316cbe70	2
timmey9	52:5a40cc58c4c2	3	// Sampling
bmazzeo	53:83a90a47c1fd	4	#include "DMA_sampling/adc.h"
bmazzeo	54:1697dc574b96	5	#include "DMA_sampling/dac.h"
bmazzeo	55:2526b3317bc8	6	#include "DMA_sampling/pdb.h"
baxterja	73:b059b5bdc664	7	#include "Jareds_DSP/filters_jared.h"
baxterja	75:8bb94685c80b	8	#include "Jareds_DSP/demodulate.h"
bmazzeo	67:ec0c58490ce6	9	// DSP
bmazzeo	67:ec0c58490ce6	10	#include "dsp.h"
baxterja	76:704fc58ffcd0	11	#include "print_data.h"
bmazzeo	67:ec0c58490ce6	12
baxterja	85:f1be018aacac	13	#define PROBE_NUMBER 5
baxterja	85:f1be018aacac	14	#if PROBE_NUMBER == 1
baxterja	85:f1be018aacac	15	#define PRE_COMPUTE_LENGTH 232
baxterja	85:f1be018aacac	16	#elif PROBE_NUMBER == 2
baxterja	85:f1be018aacac	17	#define PRE_COMPUTE_LENGTH 528
baxterja	85:f1be018aacac	18	#elif PROBE_NUMBER == 3
baxterja	85:f1be018aacac	19	#define PRE_COMPUTE_LENGTH 176
baxterja	85:f1be018aacac	20	#elif PROBE_NUMBER == 4
baxterja	85:f1be018aacac	21	#define PRE_COMPUTE_LENGTH 320
baxterja	85:f1be018aacac	22	#elif PROBE_NUMBER == 5
baxterja	85:f1be018aacac	23	#define PRE_COMPUTE_LENGTH 208
baxterja	85:f1be018aacac	24	#elif PROBE_NUMBER == 6
baxterja	85:f1be018aacac	25	#define PRE_COMPUTE_LENGTH 528
baxterja	85:f1be018aacac	26	#endif
baxterja	85:f1be018aacac	27	//#define probe_number 1 //Probe number
baxterja	85:f1be018aacac	28	const int probe_number = PROBE_NUMBER;
baxterja	85:f1be018aacac	29	//const int PCL_LUT[] = {232,528,176,320,208}; //Pre-compute-length for the different probe numbers
baxterja	85:f1be018aacac	30	//190Hz 528
baxterja	85:f1be018aacac	31	//312Hz 320
baxterja	85:f1be018aacac	32	//431Hz 232
baxterja	85:f1be018aacac	33	//481Hz 208
baxterja	85:f1be018aacac	34	//568Hz 176
baxterja	85:f1be018aacac	35
baxterja	72:0b554f5026b9	36	#define PRINT_BUFFER_LENGTH 10000
baxterja	73:b059b5bdc664	37	#define GATHER_STATISTICS 1
bmazzeo	67:ec0c58490ce6	38
baxterja	85:f1be018aacac	39	Serial pc(USBTX, USBRX);
baxterja	74:ebc9f09fda11	40
timmey9	22:523e316cbe70	41	// for debug purposes
timmey9	18:b17ddeeb1c09	42	DigitalOut led_red(LED_RED);
timmey9	18:b17ddeeb1c09	43	DigitalOut led_green(LED_GREEN);
timmey9	18:b17ddeeb1c09	44	DigitalOut led_blue(LED_BLUE);
bmazzeo	58:4bee89daccff	45	DigitalOut status_0(D0);
bmazzeo	58:4bee89daccff	46	DigitalOut status_1(D1);
baxterja	77:1ee17a9e9f8b	47	DigitalOut status_3(D3);
baxterja	85:f1be018aacac	48	DigitalOut Start_sync(D4);// Currently not being used.
baxterja	85:f1be018aacac	49	DigitalIn sw2(SW2);//Button 2 Currently not being used
baxterja	85:f1be018aacac	50	DigitalIn sw3(SW3);//Button 3 Currently not being used
timmey9	51:43143a3fc2d7	51
timmey9	52:5a40cc58c4c2	52	// defined in dma.cpp
timmey9	45:d591d138cdeb	53	extern int len;
baxterja	73:b059b5bdc664	54	extern uint16_t static_input_array0[];//ADC 0(swaps between a0 and a1. Used to measure current)
baxterja	73:b059b5bdc664	55	extern uint16_t static_input_array1[];//ADC 1(measures the voltage between the probe and ground)
baxterja	73:b059b5bdc664	56	extern uint16_t static_output_array0[];//DAC outputs whatever wave form we want.
baxterja	73:b059b5bdc664	57	extern uint16_t sampling_status;//used to determine when adc's are done reading.
bmazzeo	57:7b8c49e1c1f6	58
baxterja	85:f1be018aacac	59	//#define INPUT_ARRAY_SIZE 32
baxterja	85:f1be018aacac	60	//#define DECIMATION_FACTOR 8
baxterja	85:f1be018aacac	61	//#define DEMODULATED_SIGNAL_LENGTH 64
baxterja	73:b059b5bdc664	62
baxterja	73:b059b5bdc664	63	float *input_50k[8];
baxterja	73:b059b5bdc664	64
baxterja	85:f1be018aacac	65
baxterja	85:f1be018aacac	66
baxterja	73:b059b5bdc664	67
baxterja	73:b059b5bdc664	68
baxterja	84:5b4466dd2326	69	//190Hz 528
baxterja	84:5b4466dd2326	70	//312Hz 320
baxterja	84:5b4466dd2326	71	//431Hz 232
baxterja	84:5b4466dd2326	72	//481Hz 208
baxterja	84:5b4466dd2326	73	//568Hz 176
baxterja	85:f1be018aacac	74	//#define pre_compute_length 208
baxterja	85:f1be018aacac	75	//#define CarrierFrequency (100000/pre_compute_length)
baxterja	85:f1be018aacac	76	const int pre_compute_length = PRE_COMPUTE_LENGTH;
baxterja	85:f1be018aacac	77	const float CarrierFrequency = (100000/pre_compute_length);
baxterja	69:014d4bbd4e03	78	#define SAMPLEFREQUENCY 100000
baxterja	85:f1be018aacac	79
baxterja	73:b059b5bdc664	80	uint16_t out_val_pre[pre_compute_length]; //used to write values to the dac
baxterja	69:014d4bbd4e03	81	float twopi = 3.14159265359 * 2;
baxterja	69:014d4bbd4e03	82
baxterja	69:014d4bbd4e03	83
baxterja	69:014d4bbd4e03	84	void pre_compute_tables() {
baxterja	69:014d4bbd4e03	85	// This function will precompute the cos and sin tables used in the rest of the program
baxterja	69:014d4bbd4e03	86	for(int precompute_counter = 0; precompute_counter < pre_compute_length; precompute_counter++){
baxterja	84:5b4466dd2326	87	out_val_pre[precompute_counter] = (int) ((cos(twopi * CarrierFrequency /SAMPLEFREQUENCY * precompute_counter)) * 2046.0 + 2048.0);//12 bit cos wave
baxterja	69:014d4bbd4e03	88	}
baxterja	73:b059b5bdc664	89
baxterja	73:b059b5bdc664	90
baxterja	69:014d4bbd4e03	91	}
baxterja	69:014d4bbd4e03	92
baxterja	85:f1be018aacac	93
emilmont	7:65188f4a8c25	94	int main() {
baxterja	79:5f24cfd685d8	95
timmey9	22:523e316cbe70	96	led_blue = 1;
timmey9	35:df40c4566826	97	led_green = 1;
timmey9	18:b17ddeeb1c09	98	led_red = 1;
timmey9	34:44cc9b76a507	99
baxterja	79:5f24cfd685d8	100	pre_compute_tables();
baxterja	79:5f24cfd685d8	101	precompute_tables();
baxterja	79:5f24cfd685d8	102	//turn off all LEDs
baxterja	73:b059b5bdc664	103
baxterja	84:5b4466dd2326	104	//slight change.
baxterja	79:5f24cfd685d8	105
baxterja	79:5f24cfd685d8	106
baxterja	73:b059b5bdc664	107
baxterja	73:b059b5bdc664	108	pc.baud(230400);
baxterja	85:f1be018aacac	109	/*
baxterja	79:5f24cfd685d8	110	//pc.printf("High: %x Mid: %x Low: %x",SIM->UIDH,SIM->UIDML,SIM->UIDL);
baxterja	84:5b4466dd2326	111	if(SIM->UIDH == 0x2effff && SIM->UIDML == 0x4e453154 && SIM->UIDL == 0x1004001e) probe_number = 6;
baxterja	80:7a4856c596fc	112	else if(SIM->UIDH == 0x1cffff && SIM->UIDML == 0x4e453215 && SIM->UIDL == 0x700b0003) probe_number = 2;
baxterja	80:7a4856c596fc	113	else if(SIM->UIDH == 0x2effff && SIM->UIDML == 0x4e453215 && SIM->UIDL == 0x700b0021) probe_number = 3;
baxterja	80:7a4856c596fc	114	else if(SIM->UIDH == 0x14ffff && SIM->UIDML == 0x4e453154 && SIM->UIDL == 0x5009002b) probe_number = 4;
baxterja	84:5b4466dd2326	115	else if(SIM->UIDH == 0x12ffff && SIM->UIDML == 0x4e453103 && SIM->UIDL == 0x60010030) probe_number = 1;
baxterja	84:5b4466dd2326	116	else if(SIM->UIDH == 0x10ffff && SIM->UIDML == 0x4e453105 && SIM->UIDL == 0x100b0031) probe_number = 5;
baxterja	80:7a4856c596fc	117	else if(SIM->UIDH == 0x19ffff && SIM->UIDML == 0x4d441504 && SIM->UIDL == 0x90110031) probe_number = 7;//this FRDM board had a bad usb connection
baxterja	80:7a4856c596fc	118	else
baxterja	80:7a4856c596fc	119	{
baxterja	80:7a4856c596fc	120	pc.printf("FRDM BOARD NOT RECOGNIZED. Here is the new ID:\n\r");
baxterja	80:7a4856c596fc	121	pc.printf("High: %x Mid: %x Low: %x\n\r",SIM->UIDH,SIM->UIDML,SIM->UIDL);
baxterja	80:7a4856c596fc	122	probe_number = 6;
baxterja	80:7a4856c596fc	123	}
baxterja	85:f1be018aacac	124	*/
baxterja	80:7a4856c596fc	125	pc.printf("PROBE #%d",probe_number);
baxterja	80:7a4856c596fc	126	wait(1.0f);
baxterja	85:f1be018aacac	127
baxterja	79:5f24cfd685d8	128	int DAC_COUNTER = 0;
baxterja	85:f1be018aacac	129
baxterja	78:10b2916b8f5c	130
baxterja	85:f1be018aacac	131	//Filters used in program. Coefficients generated using matlab FDA tool
baxterja	78:10b2916b8f5c	132	//Fs = 100000, FPass = 1500, FStop = 4500, -40db
baxterja	78:10b2916b8f5c	133	float Coeffs_100k[64] = {0.00368762746013400, -0.00390835182721185, -0.00352466159836192, -0.00378044968164769, -0.00434746630849834, -0.00502920744118478, -0.00570543677799210, -0.00628464650365093, -0.00668691824262464, -0.00683917139561193, -0.00667505410229485, -0.00613341508706847, -0.00516232410283893, -0.00371868951723358, -0.00177417571286934, 0.000685809876396031, 0.00365648516386919, 0.00711658039739992, 0.0110234409358280, 0.0153179248880130, 0.0199204447074274, 0.0247385052308702, 0.0296636617979935, 0.0345813441342327, 0.0393672306749833, 0.0438989152744108, 0.0480511039644129, 0.0517108728403463, 0.0547710075854812, 0.0571509837193129, 0.0587848911618005, 0.0596038010741317, 0.0596038010741317, 0.0587848911618005, 0.0571509837193129, 0.0547710075854812, 0.0517108728403463, 0.0480511039644129, 0.0438989152744108, 0.0393672306749833, 0.0345813441342327, 0.0296636617979935, 0.0247385052308702, 0.0199204447074274, 0.0153179248880130, 0.0110234409358280, 0.00711658039739992, 0.00365648516386919, 0.000685809876396031, -0.00177417571286934, -0.00371868951723358, -0.00516232410283893, -0.00613341508706847, -0.00667505410229485, -0.00683917139561193, -0.00668691824262464, -0.00628464650365093, -0.00570543677799210, -0.00502920744118478, -0.00434746630849834, -0.00378044968164769, -0.00352466159836192, -0.00390835182721185, 0.00368762746013400};
baxterja	78:10b2916b8f5c	134	//FS = 12500, Fpass = 100 Fstop 595 -50 db, picks on 1KHz signal
baxterja	78:10b2916b8f5c	135	float Coeffs_12500[64] = {-0.00222124676855946, -0.00163176345559825, -0.00214372257722720, -0.00268653504526241, -0.00323192624665395, -0.00374368158669702, -0.00417907979321931, -0.00449328006488225, -0.00463658803501384, -0.00455550760053878, -0.00419848205106894, -0.00352024663122325, -0.00247317556122392, -0.00102679426345247, 0.000845020041268567, 0.00315252023354445, 0.00589238992243332, 0.00904676286706929, 0.0125796442526745, 0.0164391331165775, 0.0205582919104753, 0.0248562683452381, 0.0292399202971496, 0.0336089813533200, 0.0378556202824368, 0.0418719268554270, 0.0455508704073759, 0.0487915537931733, 0.0515035460002020, 0.0536094934833149, 0.0550483048257919, 0.0557785148825623, 0.0557785148825623, 0.0550483048257919, 0.0536094934833149, 0.0515035460002020, 0.0487915537931733, 0.0455508704073759, 0.0418719268554270, 0.0378556202824368, 0.0336089813533200, 0.0292399202971496, 0.0248562683452381, 0.0205582919104753, 0.0164391331165775, 0.0125796442526745, 0.00904676286706929, 0.00589238992243332, 0.00315252023354445, 0.000845020041268567, -0.00102679426345247, -0.00247317556122392, -0.00352024663122325, -0.00419848205106894, -0.00455550760053878, -0.00463658803501384, -0.00449328006488225, -0.00417907979321931, -0.00374368158669702, -0.00323192624665395, -0.00268653504526241, -0.00214372257722720, -0.00163176345559825, -0.00222124676855946};
baxterja	78:10b2916b8f5c	136	//Fs = 1562.5 Fpass = 100, FStop = 195.6, null at 200 Hz
baxterja	78:10b2916b8f5c	137	float Coeffs_1563[32] = {-0.00296990567211633, 0.00784631357544163, 0.00955642274001412, 0.0105078670942049, 0.00746432577935901, -0.000715888274492355, -0.0127656342089486, -0.0248578255670040, -0.0313597093257934, -0.0264804428976321, -0.00639056527392095, 0.0289495639622991, 0.0749846381319702, 0.123239880157668, 0.163403327438059, 0.186215627611441, 0.186215627611441, 0.163403327438059, 0.123239880157668, 0.0749846381319702, 0.0289495639622991, -0.00639056527392095, -0.0264804428976321, -0.0313597093257934, -0.0248578255670040, -0.0127656342089486, -0.000715888274492355, 0.00746432577935901, 0.0105078670942049, 0.00955642274001412, 0.00784631357544163, -0.00296990567211633};
baxterja	78:10b2916b8f5c	138	//Fs = 781.25, Fpass = 60, Fstop = 120, -50 Db
baxterja	78:10b2916b8f5c	139	float Coeffs_782[32] = {-0.00423132648651131, -0.00413085595827858, -0.00212955364173648, 0.00345345707266939, 0.0105870277845968, 0.0147191914630408, 0.0108878516242339, -0.00283458314983071, -0.0224398052018669, -0.0377493805765767, -0.0358474685211045, -0.00721456868509791, 0.0483564412276129, 0.119338204671425, 0.185468453617916, 0.225354002914126, 0.225354002914126, 0.185468453617916, 0.119338204671425, 0.0483564412276129, -0.00721456868509791, -0.0358474685211045, -0.0377493805765767, -0.0224398052018669, -0.00283458314983071, 0.0108878516242339, 0.0147191914630408, 0.0105870277845968, 0.00345345707266939, -0.00212955364173648, -0.00413085595827858, -0.00423132648651131};
baxterja	76:704fc58ffcd0	140
baxterja	73:b059b5bdc664	141	float Coeffs[20] = {0.0328368433284673, 0.0237706090075265, 0.0309894695180997, 0.0385253568846695, 0.0459996974310349, 0.0530165318016261, 0.0591943866845610, 0.0641755708098907, 0.0676960677594849, 0.0694621149975389, 0.0694621149975389, 0.0676960677594849, 0.0641755708098907, 0.0591943866845610, 0.0530165318016261, 0.0459996974310349, 0.0385253568846695, 0.0309894695180997, 0.0237706090075265, 0.0328368433284673};
baxterja	73:b059b5bdc664	142	float Coeffs2[20] = {-0.00506451294187997, -0.00824932319607346, -0.00986370066237912, -0.00518913235010027, 0.00950858650162284, 0.0357083149022659, 0.0711557142019980, 0.109659494661247, 0.142586101123340, 0.161603335553589, 0.161603335553589, 0.142586101123340, 0.109659494661247, 0.0711557142019980, 0.0357083149022659, 0.00950858650162284, -0.00518913235010027, -0.00986370066237912, -0.00824932319607346, -0.00506451294187997};
baxterja	73:b059b5bdc664	143
baxterja	85:f1be018aacac	144	//note I allocate space for 4 adc inputs, but usually I only use 2
baxterja	73:b059b5bdc664	145	for(int i = 0; i < 8; i++)
baxterja	77:1ee17a9e9f8b	146	input_50k[i] = new float[64];//each array represents the input of the adcs
baxterja	78:10b2916b8f5c	147
baxterja	85:f1be018aacac	148	//filters(const int num_filters, const int DECIMATION, filters * f, const int block_size, const int numTaps, float coeffs[], int demodulate_after)
baxterja	85:f1be018aacac	149	//num filters: usually 4. In-phase and quadrature phase for both voltage and current
baxterja	85:f1be018aacac	150	//DECIMATION: Decimation Factor
baxterja	85:f1be018aacac	151	//f: the filter after current filter.
baxterja	85:f1be018aacac	152	//block_size: block size of each filter command should be an integer multiple of DECIMATION
baxterja	85:f1be018aacac	153	//Flag noting rather or not to demodulate, and if so what frequency to demodulate at
baxterja	78:10b2916b8f5c	154	filters f4 = filters(4, 8, NULL, 8, 32, Coeffs_782,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	155	filters f3 = filters(4, 2, &f4, 4, 32, Coeffs_1563,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	156	filters f2 = filters(4, 8, &f3, 8, 64, Coeffs_12500,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	157	filters f1 = filters(2, 8, &f2, 64, 64, Coeffs_100k,DEMOD_200HZ);
baxterja	73:b059b5bdc664	158
baxterja	84:5b4466dd2326	159	/*
baxterja	78:10b2916b8f5c	160	filters f4_b = filters(4, 8, NULL, 8, 32, Coeffs_782,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	161	filters f3_b = filters(4, 2, &f4_b, 4, 32, Coeffs_1563,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	162	filters f2_b = filters(4, 8, &f3_b, 8, 64, Coeffs_12500,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	163	filters f1_b = filters(2, 8, &f2_b, 64, 64, Coeffs_100k,DEMOD_1000HZ);
baxterja	84:5b4466dd2326	164	*/
baxterja	78:10b2916b8f5c	165	//filters f_pre = filters(2, 2, &f1, 64, 64, Coeffs_50k,false);
baxterja	69:014d4bbd4e03	166
baxterja	73:b059b5bdc664	167	//float output_print_buffer[PRINT_BUFFER_LENGTH];//used to store the adc0 values(current measurment)
baxterja	73:b059b5bdc664	168	//float output_print_buffer2[PRINT_BUFFER_LENGTH];//used to store the adc0 values(voltage measurment)
baxterja	70:8cd7a8a2c153	169	int print_buffer_count = 0;
baxterja	70:8cd7a8a2c153	170
bmazzeo	66:72c5c24e532c	171	pdb_init(); // Initalize PDB
bmazzeo	66:72c5c24e532c	172	dac_init(); // initializes DAC
timmey9	45:d591d138cdeb	173	adc_init(); // always initialize adc before dma
bmazzeo	53:83a90a47c1fd	174	pc.printf("ADC Initialized\r\n");
baxterja	74:ebc9f09fda11	175	dma_init2(); // initializes DMAs
bmazzeo	55:2526b3317bc8	176	dma_reset(); // This clears any DMA triggers that may have gotten things into a different state
bmazzeo	67:ec0c58490ce6	177	pc.printf("Buffer Size: %i\r\n", len);
bmazzeo	54:1697dc574b96	178
timmey9	46:a015ebf4663b	179	led_green = 1;
baxterja	79:5f24cfd685d8	180	pc.printf("High: %x Mid: %x Low: %x",SIM->UIDH,SIM->UIDML,SIM->UIDL);
timmey9	40:bd6d8c35e822	181	pc.printf("\r\n\r\n\r\n");
timmey9	37:8bdc71f3e874	182
bmazzeo	64:bb4a4bd57681	183	pdb_start();
baxterja	84:5b4466dd2326	184	bool is_actively_printing = false;
baxterja	84:5b4466dd2326	185	char read_in_character = 'a';
baxterja	70:8cd7a8a2c153	186	//while(print_buffer_count<PRINT_BUFFER_LENGTH)
baxterja	73:b059b5bdc664	187	while(!GATHER_STATISTICS\|\|print_buffer_count<PRINT_BUFFER_LENGTH)
baxterja	73:b059b5bdc664	188	{
baxterja	79:5f24cfd685d8	189	if(pc.readable())//if the python code has sent any characters recently
baxterja	79:5f24cfd685d8	190	{
baxterja	85:f1be018aacac	191	while(pc.readable())//if there is a Keyboard input
baxterja	84:5b4466dd2326	192	{
baxterja	85:f1be018aacac	193	read_in_character = pc.getc();// read the keyboard input
baxterja	85:f1be018aacac	194	if (read_in_character == 'R')//start printing
baxterja	84:5b4466dd2326	195	is_actively_printing = true;
baxterja	85:f1be018aacac	196	else if (read_in_character == 'S')//Stop printing
baxterja	84:5b4466dd2326	197	is_actively_printing = false;
baxterja	85:f1be018aacac	198	else if (read_in_character == 'P')//return probe number
baxterja	84:5b4466dd2326	199	pc.printf("p%d",probe_number);
baxterja	84:5b4466dd2326	200	}
baxterja	84:5b4466dd2326	201
baxterja	79:5f24cfd685d8	202	}
baxterja	79:5f24cfd685d8	203
baxterja	85:f1be018aacac	204	while(sampling_status == 0)//wait until the ADCs read a new values
baxterja	73:b059b5bdc664	205	{
baxterja	85:f1be018aacac	206	status_0 = 1; //used for debugging allows to see utilization
baxterja	85:f1be018aacac	207	print_filter_data(&pc,is_actively_printing);//while waiting for new samples print as much data as possible
baxterja	75:8bb94685c80b	208	//Thread::wait(.0001);
baxterja	73:b059b5bdc664	209	}
baxterja	73:b059b5bdc664	210	sampling_status = 0;//sets sampling status to 0. DMA sets it to one once ADCs sample
baxterja	73:b059b5bdc664	211	status_0 = 0;//Tied to D0. use an O-scope to measure how much free time there is to play with.
baxterja	73:b059b5bdc664	212	status_1 = 1;//Tied to D1. use an O-scope to measure how much time the processing takes
baxterja	73:b059b5bdc664	213
baxterja	77:1ee17a9e9f8b	214	for(int i = 0; i < len; i++)
bmazzeo	61:a56cca07d4a6	215	{
baxterja	73:b059b5bdc664	216	static_output_array0[i] = out_val_pre[DAC_COUNTER];//DAC output
baxterja	73:b059b5bdc664	217	DAC_COUNTER++;//Counter to kepp track of where we are in our precomputed table
baxterja	73:b059b5bdc664	218	if (DAC_COUNTER>=pre_compute_length) {DAC_COUNTER = 0;}//wrap around the counter
baxterja	77:1ee17a9e9f8b	219	//static_output_array0[i+1] = out_val_pre[DAC_COUNTER];//DAC output
baxterja	77:1ee17a9e9f8b	220	//DAC_COUNTER++;//Counter to kepp track of where we are in our precomputed table
baxterja	77:1ee17a9e9f8b	221	//if (DAC_COUNTER>=pre_compute_length) {DAC_COUNTER = 0;}//wrap around the counter
baxterja	73:b059b5bdc664	222
baxterja	85:f1be018aacac	223	//Note currently we are sampling 2 adc at 100 KHz. If desired you can also sample 4 ADCs at 50 KHz
baxterja	77:1ee17a9e9f8b	224	input_50k[1][i]=float(static_input_array1[i]);
baxterja	77:1ee17a9e9f8b	225	// input_50k[3][i/2]=static_input_array1[i+1];
baxterja	77:1ee17a9e9f8b	226	input_50k[0][i]=float(static_input_array0[i]);
baxterja	77:1ee17a9e9f8b	227	//input_50k[2][i/2]=static_input_array0[i+1];
baxterja	73:b059b5bdc664	228
baxterja	73:b059b5bdc664	229	}//End of for loop going throught the buffer of adc samples
baxterja	85:f1be018aacac	230
baxterja	85:f1be018aacac	231
baxterja	78:10b2916b8f5c	232	f1.input(input_50k,64,DEMOD_200HZ);
baxterja	84:5b4466dd2326	233	//f1_b.input(input_50k,64,DEMOD_1000HZ);
baxterja	77:1ee17a9e9f8b	234	//status_3 = 1;
baxterja	77:1ee17a9e9f8b	235	//pc.printf("Y");
baxterja	77:1ee17a9e9f8b	236	//status_3 = 0;
baxterja	73:b059b5bdc664	237
baxterja	70:8cd7a8a2c153	238
baxterja	73:b059b5bdc664	239	status_1 = 0;//turn off D1 used in deterimining how long processing is taking
baxterja	85:f1be018aacac	240
baxterja	73:b059b5bdc664	241	}//end of while loop
baxterja	73:b059b5bdc664	242
baxterja	85:f1be018aacac	243	//prints ADC buffer if desired
baxterja	85:f1be018aacac	244
baxterja	73:b059b5bdc664	245	//for(int i = 0; i<PRINT_BUFFER_LENGTH; i++)//print all the adc values measured
baxterja	73:b059b5bdc664	246	//{
baxterja	73:b059b5bdc664	247	// printf("%.1f %.1f\n\r",output_print_buffer[i],output_print_buffer2[i]);
baxterja	73:b059b5bdc664	248	//}
baxterja	73:b059b5bdc664	249
baxterja	70:8cd7a8a2c153	250
bmazzeo	61:a56cca07d4a6	251	}
bmazzeo	63:7903a33e2fd4	252