Impedance_Fast_Circuitry - Impedance Fast Circuitry Software

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Jared Baxter / Mbed 2 deprecated Impedance_Fast_Circuitry

Impedance Fast Circuitry Software

Fork of DSP_200kHz by Mazzeo Research Group

main.cpp@83:0d068da1c6b7, 2017-08-30 (annotated)

Committer:: baxterja
Date:: Wed Aug 30 02:45:23 2017 +0000
Revision:: 83:0d068da1c6b7
Parent:: 82:f6fbbb8a2139

Not working

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	72:0b554f5026b9	13	#define PRINT_BUFFER_LENGTH 10000
baxterja	73:b059b5bdc664	14	#define GATHER_STATISTICS 1
bmazzeo	67:ec0c58490ce6	15
baxterja	74:ebc9f09fda11	16
timmey9	22:523e316cbe70	17	// for debug purposes
baxterja	79:5f24cfd685d8	18	DigitalOut led1(LED1);
baxterja	79:5f24cfd685d8	19	DigitalOut led2(LED2);
timmey9	18:b17ddeeb1c09	20	Serial pc(USBTX, USBRX);
timmey9	18:b17ddeeb1c09	21	DigitalOut led_red(LED_RED);
timmey9	18:b17ddeeb1c09	22	DigitalOut led_green(LED_GREEN);
timmey9	18:b17ddeeb1c09	23	DigitalOut led_blue(LED_BLUE);
bmazzeo	58:4bee89daccff	24	DigitalOut status_0(D0);
bmazzeo	58:4bee89daccff	25	DigitalOut status_1(D1);
baxterja	77:1ee17a9e9f8b	26	DigitalOut status_3(D3);
baxterja	80:7a4856c596fc	27	DigitalOut Start_sync(D4);//
baxterja	73:b059b5bdc664	28	DigitalIn sw2(SW2);//Button 2
baxterja	73:b059b5bdc664	29	DigitalIn sw3(SW3);//Button 3
timmey9	51:43143a3fc2d7	30
timmey9	52:5a40cc58c4c2	31	// defined in dma.cpp
timmey9	45:d591d138cdeb	32	extern int len;
baxterja	73:b059b5bdc664	33	extern uint16_t static_input_array0[];//ADC 0(swaps between a0 and a1. Used to measure current)
baxterja	73:b059b5bdc664	34	extern uint16_t static_input_array1[];//ADC 1(measures the voltage between the probe and ground)
baxterja	73:b059b5bdc664	35	extern uint16_t static_output_array0[];//DAC outputs whatever wave form we want.
baxterja	73:b059b5bdc664	36	extern uint16_t sampling_status;//used to determine when adc's are done reading.
baxterja	82:f6fbbb8a2139	37	extern uint16_t out_val_pre[];
baxterja	82:f6fbbb8a2139	38
bmazzeo	57:7b8c49e1c1f6	39
baxterja	73:b059b5bdc664	40	#define INPUT_ARRAY_SIZE 32
baxterja	73:b059b5bdc664	41	#define DECIMATION_FACTOR 8
baxterja	73:b059b5bdc664	42	#define DEMODULATED_SIGNAL_LENGTH 64
baxterja	73:b059b5bdc664	43
baxterja	73:b059b5bdc664	44	float *input_50k[8];
baxterja	73:b059b5bdc664	45
baxterja	79:5f24cfd685d8	46	int probe_number = -1;
baxterja	79:5f24cfd685d8	47	bool recording = false;
baxterja	73:b059b5bdc664	48
baxterja	73:b059b5bdc664	49
baxterja	82:f6fbbb8a2139	50	/*
baxterja	81:30d699e951a8	51	#define pre_compute_length 176
baxterja	69:014d4bbd4e03	52	#define SAMPLEFREQUENCY 100000
baxterja	81:30d699e951a8	53	#define CarrierFrequency (float(SAMPLEFREQUENCY)/pre_compute_length)
baxterja	81:30d699e951a8	54
baxterja	73:b059b5bdc664	55	//float i_mod_pre[demodulation_length+(INPUT_ARRAY_SIZE/DECIMATION_FACTOR)];
baxterja	73:b059b5bdc664	56	//float q_mod_pre[demodulation_length+(INPUT_ARRAY_SIZE/DECIMATION_FACTOR)];
baxterja	73:b059b5bdc664	57	uint16_t out_val_pre[pre_compute_length]; //used to write values to the dac
baxterja	69:014d4bbd4e03	58	float twopi = 3.14159265359 * 2;
baxterja	69:014d4bbd4e03	59
baxterja	69:014d4bbd4e03	60
baxterja	69:014d4bbd4e03	61	void pre_compute_tables() {
baxterja	69:014d4bbd4e03	62	// This function will precompute the cos and sin tables used in the rest of the program
baxterja	69:014d4bbd4e03	63	for(int precompute_counter = 0; precompute_counter < pre_compute_length; precompute_counter++){
baxterja	81:30d699e951a8	64	out_val_pre[precompute_counter] = (int) ((cos(twopi * CarrierFrequency /SAMPLEFREQUENCY * precompute_counter)) * 2046.0 + 2048.0);//12 bit cos wave
baxterja	69:014d4bbd4e03	65	}
baxterja	82:f6fbbb8a2139	66
baxterja	73:b059b5bdc664	67	//float decimated_frequency = 6250;
baxterja	73:b059b5bdc664	68	//for(int precompute_counter = 0; precompute_counter < demodulation_length+(INPUT_ARRAY_SIZE/DECIMATION_FACTOR); precompute_counter++){
baxterja	73:b059b5bdc664	69	// i_mod_pre[precompute_counter] = (cos(twopi * CarrierFrequency / decimated_frequency * precompute_counter));
baxterja	73:b059b5bdc664	70	// q_mod_pre[precompute_counter] = (-sin(twopi * CarrierFrequency / decimated_frequency * precompute_counter));
baxterja	73:b059b5bdc664	71
baxterja	82:f6fbbb8a2139	72	}*/
baxterja	69:014d4bbd4e03	73
baxterja	79:5f24cfd685d8	74	void callback() {
baxterja	79:5f24cfd685d8	75	// Note: you need to actually read from the serial to clear the RX interrupt
baxterja	79:5f24cfd685d8	76	printf("%c\n", pc.getc());
baxterja	79:5f24cfd685d8	77	led2 = !led2;
baxterja	79:5f24cfd685d8	78	}
emilmont	7:65188f4a8c25	79	int main() {
baxterja	79:5f24cfd685d8	80
timmey9	22:523e316cbe70	81	led_blue = 1;
timmey9	35:df40c4566826	82	led_green = 1;
timmey9	18:b17ddeeb1c09	83	led_red = 1;
timmey9	34:44cc9b76a507	84
baxterja	82:f6fbbb8a2139	85	//pre_compute_tables();
baxterja	79:5f24cfd685d8	86	precompute_tables();
baxterja	79:5f24cfd685d8	87	//turn off all LEDs
baxterja	73:b059b5bdc664	88
baxterja	79:5f24cfd685d8	89
baxterja	79:5f24cfd685d8	90
baxterja	79:5f24cfd685d8	91
baxterja	73:b059b5bdc664	92
baxterja	73:b059b5bdc664	93	pc.baud(230400);
baxterja	82:f6fbbb8a2139	94
baxterja	79:5f24cfd685d8	95
baxterja	79:5f24cfd685d8	96	//pc.printf("High: %x Mid: %x Low: %x",SIM->UIDH,SIM->UIDML,SIM->UIDL);
baxterja	79:5f24cfd685d8	97
baxterja	80:7a4856c596fc	98	if(SIM->UIDH == 0x2effff && SIM->UIDML == 0x4e453154 && SIM->UIDL == 0x1004001e) probe_number = 1;
baxterja	80:7a4856c596fc	99	else if(SIM->UIDH == 0x1cffff && SIM->UIDML == 0x4e453215 && SIM->UIDL == 0x700b0003) probe_number = 2;
baxterja	80:7a4856c596fc	100	else if(SIM->UIDH == 0x2effff && SIM->UIDML == 0x4e453215 && SIM->UIDL == 0x700b0021) probe_number = 3;
baxterja	80:7a4856c596fc	101	else if(SIM->UIDH == 0x14ffff && SIM->UIDML == 0x4e453154 && SIM->UIDL == 0x5009002b) probe_number = 4;
baxterja	80:7a4856c596fc	102	else if(SIM->UIDH == 0x12ffff && SIM->UIDML == 0x4e453103 && SIM->UIDL == 0x60010030) probe_number = 5;
baxterja	80:7a4856c596fc	103	else if(SIM->UIDH == 0x10ffff && SIM->UIDML == 0x4e453105 && SIM->UIDL == 0x100b0031) probe_number = 6;
baxterja	80:7a4856c596fc	104	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	105	else
baxterja	80:7a4856c596fc	106	{
baxterja	80:7a4856c596fc	107	pc.printf("FRDM BOARD NOT RECOGNIZED. Here is the new ID:\n\r");
baxterja	80:7a4856c596fc	108	pc.printf("High: %x Mid: %x Low: %x\n\r",SIM->UIDH,SIM->UIDML,SIM->UIDL);
baxterja	80:7a4856c596fc	109	probe_number = 6;
baxterja	80:7a4856c596fc	110	}
baxterja	80:7a4856c596fc	111	pc.printf("PROBE #%d",probe_number);
baxterja	80:7a4856c596fc	112	wait(1.0f);
baxterja	79:5f24cfd685d8	113	/*
baxterja	79:5f24cfd685d8	114	while(!pc.readable())
baxterja	79:5f24cfd685d8	115	{
baxterja	79:5f24cfd685d8	116	continue;
baxterja	79:5f24cfd685d8	117	}
baxterja	79:5f24cfd685d8	118	pc.printf("%d",probe_number);
baxterja	79:5f24cfd685d8	119	*/
baxterja	79:5f24cfd685d8	120	int DAC_COUNTER = 0;
baxterja	79:5f24cfd685d8	121	//SIM_UIDH == 0x20ffff && SIM_UIDML == 0x4e453103 && SIM_UIDL == 0x60010028)
baxterja	79:5f24cfd685d8	122	//printf("High: %x Mid: %x Low: %x",SIM->UIDH,SIM->UIDML,SIM->UIDL);
baxterja	78:10b2916b8f5c	123
baxterja	78:10b2916b8f5c	124	//Fs = 100000, FPass = 1500, FStop = 4500, -40db
baxterja	78:10b2916b8f5c	125	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	126	//FS = 12500, Fpass = 100 Fstop 595 -50 db, picks on 1KHz signal
baxterja	78:10b2916b8f5c	127	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	128	//Fs = 1562.5 Fpass = 100, FStop = 195.6, null at 200 Hz
baxterja	78:10b2916b8f5c	129	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	130	//Fs = 781.25, Fpass = 60, Fstop = 120, -50 Db
baxterja	78:10b2916b8f5c	131	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	132
baxterja	73:b059b5bdc664	133	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	134	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	135
baxterja	73:b059b5bdc664	136	for(int i = 0; i < 8; i++)
baxterja	77:1ee17a9e9f8b	137	input_50k[i] = new float[64];//each array represents the input of the adcs
baxterja	78:10b2916b8f5c	138
baxterja	78:10b2916b8f5c	139
baxterja	78:10b2916b8f5c	140	filters f4 = filters(4, 8, NULL, 8, 32, Coeffs_782,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	141	filters f3 = filters(4, 2, &f4, 4, 32, Coeffs_1563,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	142	filters f2 = filters(4, 8, &f3, 8, 64, Coeffs_12500,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	143	filters f1 = filters(2, 8, &f2, 64, 64, Coeffs_100k,DEMOD_200HZ);
baxterja	73:b059b5bdc664	144
baxterja	82:f6fbbb8a2139	145
baxterja	78:10b2916b8f5c	146	filters f4_b = filters(4, 8, NULL, 8, 32, Coeffs_782,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	147	filters f3_b = filters(4, 2, &f4_b, 4, 32, Coeffs_1563,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	148	filters f2_b = filters(4, 8, &f3_b, 8, 64, Coeffs_12500,DEMOD_No_Demod);
baxterja	78:10b2916b8f5c	149	filters f1_b = filters(2, 8, &f2_b, 64, 64, Coeffs_100k,DEMOD_1000HZ);
baxterja	82:f6fbbb8a2139	150
baxterja	78:10b2916b8f5c	151	//filters f_pre = filters(2, 2, &f1, 64, 64, Coeffs_50k,false);
baxterja	69:014d4bbd4e03	152
baxterja	73:b059b5bdc664	153	//float output_print_buffer[PRINT_BUFFER_LENGTH];//used to store the adc0 values(current measurment)
baxterja	73:b059b5bdc664	154	//float output_print_buffer2[PRINT_BUFFER_LENGTH];//used to store the adc0 values(voltage measurment)
baxterja	70:8cd7a8a2c153	155	int print_buffer_count = 0;
baxterja	70:8cd7a8a2c153	156
bmazzeo	66:72c5c24e532c	157	pdb_init(); // Initalize PDB
bmazzeo	66:72c5c24e532c	158	dac_init(); // initializes DAC
timmey9	45:d591d138cdeb	159	adc_init(); // always initialize adc before dma
bmazzeo	53:83a90a47c1fd	160	pc.printf("ADC Initialized\r\n");
baxterja	74:ebc9f09fda11	161	dma_init2(); // initializes DMAs
bmazzeo	55:2526b3317bc8	162	dma_reset(); // This clears any DMA triggers that may have gotten things into a different state
bmazzeo	67:ec0c58490ce6	163	pc.printf("Buffer Size: %i\r\n", len);
bmazzeo	54:1697dc574b96	164
timmey9	46:a015ebf4663b	165	led_green = 1;
baxterja	79:5f24cfd685d8	166	pc.printf("High: %x Mid: %x Low: %x",SIM->UIDH,SIM->UIDML,SIM->UIDL);
timmey9	40:bd6d8c35e822	167	pc.printf("\r\n\r\n\r\n");
timmey9	37:8bdc71f3e874	168
bmazzeo	64:bb4a4bd57681	169	pdb_start();
baxterja	70:8cd7a8a2c153	170	//while(print_buffer_count<PRINT_BUFFER_LENGTH)
baxterja	73:b059b5bdc664	171	while(!GATHER_STATISTICS\|\|print_buffer_count<PRINT_BUFFER_LENGTH)
baxterja	73:b059b5bdc664	172	{
baxterja	79:5f24cfd685d8	173	if(pc.readable())//if the python code has sent any characters recently
baxterja	79:5f24cfd685d8	174	{
baxterja	79:5f24cfd685d8	175	while(pc.readable()){pc.getc();}
baxterja	79:5f24cfd685d8	176	pc.printf("p%d",probe_number);
baxterja	79:5f24cfd685d8	177	}
baxterja	79:5f24cfd685d8	178
baxterja	73:b059b5bdc664	179	while(sampling_status == 0)//wait until the ADCs read a new value
baxterja	73:b059b5bdc664	180	{
baxterja	73:b059b5bdc664	181	status_0 = 1;
baxterja	77:1ee17a9e9f8b	182	print_filter_data(&pc);
baxterja	75:8bb94685c80b	183	//Thread::wait(.0001);
baxterja	73:b059b5bdc664	184	}
baxterja	73:b059b5bdc664	185	sampling_status = 0;//sets sampling status to 0. DMA sets it to one once ADCs sample
baxterja	73:b059b5bdc664	186	status_0 = 0;//Tied to D0. use an O-scope to measure how much free time there is to play with.
baxterja	73:b059b5bdc664	187	status_1 = 1;//Tied to D1. use an O-scope to measure how much time the processing takes
baxterja	73:b059b5bdc664	188
baxterja	77:1ee17a9e9f8b	189	for(int i = 0; i < len; i++)
bmazzeo	61:a56cca07d4a6	190	{
baxterja	73:b059b5bdc664	191	static_output_array0[i] = out_val_pre[DAC_COUNTER];//DAC output
baxterja	73:b059b5bdc664	192	DAC_COUNTER++;//Counter to kepp track of where we are in our precomputed table
baxterja	73:b059b5bdc664	193	if (DAC_COUNTER>=pre_compute_length) {DAC_COUNTER = 0;}//wrap around the counter
baxterja	77:1ee17a9e9f8b	194	//static_output_array0[i+1] = out_val_pre[DAC_COUNTER];//DAC output
baxterja	77:1ee17a9e9f8b	195	//DAC_COUNTER++;//Counter to kepp track of where we are in our precomputed table
baxterja	77:1ee17a9e9f8b	196	//if (DAC_COUNTER>=pre_compute_length) {DAC_COUNTER = 0;}//wrap around the counter
baxterja	73:b059b5bdc664	197
baxterja	77:1ee17a9e9f8b	198	input_50k[1][i]=float(static_input_array1[i]);
baxterja	77:1ee17a9e9f8b	199	// input_50k[3][i/2]=static_input_array1[i+1];
baxterja	77:1ee17a9e9f8b	200	input_50k[0][i]=float(static_input_array0[i]);
baxterja	77:1ee17a9e9f8b	201	//input_50k[2][i/2]=static_input_array0[i+1];
baxterja	73:b059b5bdc664	202
baxterja	73:b059b5bdc664	203
baxterja	73:b059b5bdc664	204
baxterja	73:b059b5bdc664	205	}//End of for loop going throught the buffer of adc samples
baxterja	77:1ee17a9e9f8b	206	//input_50k[0] = static_input_array0;
baxterja	77:1ee17a9e9f8b	207	//input_50k[1] = static_input_array1;
baxterja	83:0d068da1c6b7	208	f1_b.input(input_50k,64,DEMOD_1000HZ);
baxterja	78:10b2916b8f5c	209	f1.input(input_50k,64,DEMOD_200HZ);
baxterja	83:0d068da1c6b7	210
baxterja	77:1ee17a9e9f8b	211	//status_3 = 1;
baxterja	77:1ee17a9e9f8b	212	//pc.printf("Y");
baxterja	77:1ee17a9e9f8b	213	//status_3 = 0;
baxterja	73:b059b5bdc664	214
baxterja	70:8cd7a8a2c153	215
baxterja	73:b059b5bdc664	216	status_1 = 0;//turn off D1 used in deterimining how long processing is taking
baxterja	73:b059b5bdc664	217	//filter_input_array[i] = (float) (((int)static_input_array0[i]) - 0x8000);
baxterja	73:b059b5bdc664	218	//arm_fir_f32(&S, filter_input_array, filter_output_array, len);
baxterja	73:b059b5bdc664	219
baxterja	73:b059b5bdc664	220	}//end of while loop
baxterja	73:b059b5bdc664	221
baxterja	73:b059b5bdc664	222	//for(int i = 0; i<PRINT_BUFFER_LENGTH; i++)//print all the adc values measured
baxterja	73:b059b5bdc664	223	//{
baxterja	73:b059b5bdc664	224	// printf("%.1f %.1f\n\r",output_print_buffer[i],output_print_buffer2[i]);
baxterja	73:b059b5bdc664	225	//}
baxterja	73:b059b5bdc664	226
baxterja	70:8cd7a8a2c153	227
bmazzeo	61:a56cca07d4a6	228	}
bmazzeo	63:7903a33e2fd4	229