Bluetooth app controlled robot
Dependencies: ESP8266 HALLFX_ENCODER LSM9DS1_Library_cal MotorDriver PID mbed
Fork of ESP8266_pid_redbot_webserver by
Diff: main.cpp
- Revision:
- 0:11bc7a815367
- Child:
- 1:d4a95e3a8aeb
diff -r 000000000000 -r 11bc7a815367 main.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/main.cpp Fri Nov 27 15:30:19 2015 +0000 @@ -0,0 +1,657 @@ +/* + Uses the ESP8266 WiFi Chip to set up a WiFi Webserver used to control + the position or speed of a motor using a PID controller. USE FIREFOX + Web Browser + + NOTES: + 1. Webpage Handling in this program is specific to a CUSTOM + WEBPAGE. Program must be modified to handle specfically a new + webpage. A copy of the webpage for this program can be found at + the end of this program page. Simply copy and past text into a + html file and save as the given name. + + 2. Developed and tested with FireFox 42.0 Web Browser. Does not seem to work + well with Google Chrome or Internet Explorer for some reason... they seem + to generate two post requests which messes with the user input values. + + 3. There are a bunch of printf statements in the code that can be + uncommented for debugging in a serial terminal progrom. + + + TODO: ESP8366 has a max packet send size. Make sure we implement + a method to send webpages that exceed this value. The max size is + listed in the official ESP8266 AT Commands Documentation, I think + it is 2048 bytes/chars + + TODO: CREATE CONFIG FUNCTION TO SET SSID, PASSWORD, BAUDRATE ETC. + Perhaps have a serial terminal method to take user input, and + put the function call into a #ifdef WiFiConfig statement, so + that the user can enable it to config Wifi module then turn + it off once Wifi module is configed so that this program can + run in a "stand alone" mode. + + TODO: Implement stop button in webpage +*/ + + +#include "mbed.h" +#include "SDFileSystem.h" +#include "PID.h" +#include "QEI.h" +#include <algorithm> + +//#define DEBUG // Uncomment for serial terminal print debugging + // Comment out to turn prints off for normal op + +/*********PID CONTROLLER SPECIFIC DECLARATIONS********************************/ +/*****************************************************************************/ + +float setpoint, feedback, output; // Should these be volatile? +const float output_lower_limit = -1.0; +const float output_upper_limit = 1.0; +const float FEEDBACK_SCALE = 1.0/3000.0; // Scale feedback to 1rev/3000cnts + // this is encoder specific. +enum CONTROL_MODE{POSITION = 0, SPEED = 1}; +bool control_mode = POSITION; +float kp, ki, kd; // Gain variables for working +const float Ts = 0.04; // 25Hz Sample Freq (40ms Sample Time) +const float Ts_PID_CALLBACK = Ts/2.0; // Update Motors and sensers twice as + // fast as PID sample rate, ensures + // PID feedback is upto date every + // time PID calculations run + +// Vars to store gains for Speed and Position when switching Control modes +const float kp_init = 2.5; // Good Kp for Position Control +const float ki_init = 5.0; // Good Ki for Position Control +const float kd_init = 0.25; // Good Kd for Position Control + +PID pid(&setpoint, &feedback, &output, + output_lower_limit, output_upper_limit, + kp_init, ki_init, kd_init, Ts); // Init for position control +QEI encoder(p15, p16); +PwmOut mtr_pwm(p25); +DigitalOut mtr_dir(p24); +void pid_callback(); // Updates encoder feedback and motor output +Ticker motor; +/*****************************************************************************/ +/*****************************************************************************/ + +/**********WEB SERVER SPECIFIC DECLARTATIONS**********************************/ +/*****************************************************************************/ +SDFileSystem sd(p5,p6,p7,p8,"sd"); // MOSI, MISO, SCLK, CS, + // Virtual File System Name +Serial esp(p13, p14); // tx, rx +DigitalOut espRstPin(p26); // ESP Reset +DigitalOut led(LED4); + +Timer t1; +Timer t2; + +void init(char* buffer, int size); +void getreply(int timeout_ms, char* buffer, int size, int numBytes); +void startserver(char* buffer, int size); +void update_webpage(char* webpage, float setpoint, float kp, float ki, float kd); +void parse_input(char* webpage_user_data, bool* control_mode, float* setpoint, float* kp, float* ki, float* kd); +int port =80; // set server port +int serverTimeout_secs =5; // set server timeout in seconds in case + // link breaks. +/*****************************************************************************/ +/*****************************************************************************/ + +// Common Application Declarations +Serial pc(USBTX, USBRX); +float clip(float value, float lower, float upper); + +int main() +{ + printf("Starting\n"); + + /****************** Load Webpage from SD Card***************************************/ + /***********************************************************************************/ + char file[] = "/sd/pid_dual.html"; + + // Get file size so we can dynamically allocate buffer size + int num_chars = 0; + FILE *fp = fopen(file, "r"); + while(!feof(fp)){ + fgetc(fp); + num_chars++; + } + rewind(fp); // Go to beginning of file + + #ifdef DEBUG + printf("Webpage Data Size: %d byte\r\n", num_chars); + #endif + + const int WEBPAGE_SIZE = num_chars; + char webpage[WEBPAGE_SIZE]; + webpage[0] = NULL; // Init our array so that element zero contains a null + // This is important, ensures strings are placed into + // buffer starting at element 0... not some random + // elment + // Read in and buffer file to memory + if(fp == NULL){ + printf("Error: No Such File or something :("); + return 1; + } + else{ + while(!feof(fp)){ + fgets(webpage + strlen(webpage), WEBPAGE_SIZE, fp); // Get a string from stream, add to buffer + } + } + fclose(fp); + printf("Webpage Buffer Size: %d bytes\r\n", sizeof(webpage)); + update_webpage(webpage, setpoint, kp_init, ki_init, kd_init); // Update Webpage for + // Position Mode + /***********************************************************************************/ + /***********************************************************************************/ + + /***************BRING UP SERVER*****************************************************/ + /***********************************************************************************/ + char buff[5000]; // Working buffer + init(buff, sizeof(buff)); // Init ESP8266 + + esp.baud(115200); // ESP8266 baudrate. Maximum on KLxx' is 115200, 230400 works on K20 and K22F + + startserver(buff, sizeof(buff)); // Configure the ESP8266 and Setup as Server + + printf(buff); // If start successful buff contains IP address... + // if not if contains an error. + /***********************************************************************************/ + /***********************************************************************************/ + + /************Initialize the PID*****************************************************/ + /***********************************************************************************/ + setpoint = 0.0; + encoder.reset(); + feedback = encoder.read(); + + // Init the motor + mtr_dir = 0; // Can be 0 or 1, sets the direction + mtr_pwm = 0.0; + + // Update sensors and feedback twice as fast as PID sample time + // this makes pid react in real-time avoiding errors due to + // missing counts etc. + motor.attach(&pid_callback, Ts_PID_CALLBACK); + + // Start PID sampling + pid.start(); + + /***********************************************************************************/ + /***********************************************************************************/ + + while(1){ + /**************SERVICE WEBPAGE******************************************************/ + /***********************************************************************************/ + if(esp.readable()){ + getreply(500, buff, sizeof(buff), sizeof(buff) -1); // Get full buff, leave last element for null char + #ifdef DEBUG + printf("\r\n*************WORKING BUFFER******************************\r\n"); + printf(buff); printf("\n"); + printf("\r\n**************END WORKING BUFFER**************************\r\n"); + #endif + // If Recieved Data get ID, Length, and Data + char* rqstPnt = strstr(buff, "+IPD"); + if(rqstPnt != NULL){ + int id, len; + char type[10]; memset(type, '\0', sizeof(type)); // Create and null out data buff + sscanf(rqstPnt, "+IPD,%d,%d:%s ", &id, &len, type); + #ifdef DEBUG + printf("ID: %i\nLen: %i\nType: %s\n", id, len, type); + #endif + // If GET or POST request "type" parse and update user input then send webpage + if(strstr(type, "GET") != NULL || strstr(type, "POST") != NULL){ + #ifdef DEBUG + printf("I got web request\n"); + #endif + /* Read Webpage <Form> data sent using "method=POST"... + Note: Input elements in the <Form> need a set name attribute to + appear in the returned HTML body. Thus to "POST" data ensure: + <Form method="POST"> <input type="xxx" name="xxx" value="xxx"> + <input type="xxx" value="xxx"> </Form> + Only the input with name="xxx" will appear in body of HTML + */ + #ifdef DEBUG + printf("\r\n*************USER INPUT**********************************\r\n"); + #endif + + parse_input(buff, &control_mode, &setpoint, &kp, &ki, &kd); + setpoint = clip(setpoint, -999.99, 999.99); + kp = clip(kp, 0.00, 999.99); + ki = clip(ki, 0.00, 999.99); + kd = clip(kd, 0.00, 999.99); + + #ifdef DEBUG + printf("User Entered: \ncontrol_mode: %i\nSetpoint: %7.4f\nKp: %6.4f\nKi: %6.4f\nKd: %6.4f\n", + control_mode, setpoint, kp, ki, kd); + #endif + + pid.set_parameters(kp, ki, kd, Ts); // Updata PID params + + #ifdef DEBUG + printf("Updated to Kp: %1.4f Ki: %1.4f Kd: %1.4f Ts: %1.4f\r\n", + pid.getKp(), pid.getKi(), pid.getKd(), pid.getTs()); + printf("Setpoint: %1.4f\r\n", setpoint); + printf("Output: %1.4f\r\n", output); + printf("\r\n*************END USER INPUT******************************\r\n"); + #endif + + // Update Webpage to reflect new values POSTED by client + static bool isFirstRequest = true; + if(!isFirstRequest) update_webpage(webpage, setpoint, kp, ki, kd); + else isFirstRequest = false; // First Request just send page with initial values + + #ifdef DEBUG + printf(webpage); // DEBUGGING ONLY!!! REMOVE FOR RELEASE!!! + #endif + + // Command TCP/IP Data Tx + esp.printf("AT+CIPSEND=%d,%d\r\n", id, strlen(webpage)); + getreply(200, buff, sizeof(buff), 15); /*TODO: Wait for "OK\r\n>"*/ + + #ifdef DEBUG + printf(buff); printf("\n"); + #endif + + // Send webpage +// while(!esp.writeable()); // Wait until esp ready to send data + int idx = 0; + while(webpage[idx] != '\0'){ + esp.putc(webpage[idx]); + idx++; + } + + // Check status - Success: close channel and update PID controller, Error: reconnect + bool weberror = true; + t2.reset(); t2.start(); + while(weberror ==1 && t2.read_ms() < 5000){ + getreply(500, buff, sizeof(buff), 24); + if(strstr(buff, "SEND OK") != NULL) weberror = false; + } + if(weberror){ + esp.printf("AT+CIPMUX=1\r\n"); + getreply(500, buff, sizeof(buff), 10); + #ifdef DEBUG + printf(buff); printf("\n"); + #endif + esp.printf("AT+CIPSERVER=1,%d\r\n", port); + getreply(500, buff, sizeof(buff), 10); + #ifdef DEBUG + printf(buff); printf("\n"); + #endif + } + else{ + esp.printf("AT+CIPCLOSE=%d\r\n", id); // Notice id is an int formatted to string + getreply(500, buff, sizeof(buff), 24); + #ifdef DEBUG + printf(buff); printf("\n"); + #endif + } + } + } + } + /*********************************************************************/ + /*********************************************************************/ + + + } +} + +// Initialize ESP8266 +void init(char* buffer, int size){ + // Hardware Reset ESP + espRstPin=0; + wait(0.5); + espRstPin=1; + // Get start up junk from ESP8266 + getreply(6000, buffer, size, 500); +} + +// Get Command and ESP status replies +void getreply(int timeout_ms, char* buffer, int size, int numBytes) +{ + memset(buffer, '\0', size); // Null out buffer + t1.reset(); + t1.start(); + int idx = 0; + while(t1.read_ms()< timeout_ms && idx < numBytes) { + if(esp.readable()) { + buffer[idx] = esp.getc(); + idx++; + } + } + t1.stop(); +} + +// Starts and restarts webserver if errors detected. +void startserver(char* buffer, int size) +{ + esp.printf("AT+RST\r\n"); // BWW: Reset the ESP8266 + getreply(8000, buffer, size, 1000); + + if (strstr(buffer, "OK") != NULL) { + // BWW: Set ESP8266 for multiple connections + esp.printf("AT+CIPMUX=1\r\n"); + getreply(500, buffer, size, 20); + + // BWW: Set ESP8266 as Server on given port + esp.printf("AT+CIPSERVER=1,%d\r\n", port); + getreply(500, buffer, size, 20); // BWW: Wait for reply + + // BWW: Set ESP8266 Server Timeout + esp.printf("AT+CIPSTO=%d\r\n", serverTimeout_secs); + getreply(500, buffer, size, 50); // BWW: Wait for reply + + // BWW: Request IP Address from router for ESP8266 + int weberror = 0; + while(weberror==0) { + esp.printf("AT+CIFSR\r\n"); + getreply(2500, buffer, size, 200); + if(strstr(buffer, "0.0.0.0") == NULL) { + weberror=1; // wait for valid IP + } + } + } + // else ESP8266 did not reply "OK" something is messed up + else { + strcpy(buffer, "ESP8266 Error\n"); + } +} + +/* + update_webpage() updates output fields based on webpage user inputs "POSTED" + Preconditions: webpage[] must have the following elements + "kp_output" value="xxx.xx" + "ki_output" value="xxx.xx" + "kp_output" value="xxx.xx" + @param webpage Pointer to webpage char[] + @param kp New kp value posted by user + @param ki New ki value posted by user + @param kd New kd value posted by user + + NOTE: THIS IS WEBPAGE SPECIFIC!!!! CHANGE THE CODE IN HERE TO SUITE THE + SPECIFIC APPLICATION WEBPAGE!!! ALSO USED TO REFLECT THE CUSTOM + IMPLEMENTATION OF THE parse_intput() function. MAKE SURE THESE TWO FUNCTIONS + INTEGRATE PROPERLY!!! +*/ +void update_webpage(char* webpage, float setpoint, float kp, float ki, float kd){ + // Change output value to reflect new control mode, setpoint, kp, ki, kd values + char* begin; + char temp[8]; + int idx; + + // Update Control Mode Radio Buttons + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"control_mode\" value=\"") + + sizeof("name=\"control_mode\" value=\"0"); // Update Control Mode Position Radio Button + if(control_mode == POSITION) sprintf(temp, "%s", "checked");// If Position active "check" it + else sprintf(temp, "%s", " "); // else "clear" it + while(temp[idx] != '\0'){ // Write "checked"/" " to field + begin[idx] = temp[idx]; + idx++; + } + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"control_mode\" value=\"") + + sizeof("name=\"control_mode\" value=\"0\""); // Nav to first Control Mode Radio Button (Position) + begin = strstr(begin, "name=\"control_mode\" value=\"") + + sizeof("name=\"control_mode\" value=\"1"); // Nav to second Control Mode Radio Button (Speed) + if(control_mode == SPEED) sprintf(temp, "%s", "checked"); // If Speed active "check" it + else sprintf(temp, "%s", " "); // else "clear" it + while(temp[idx] != '\0'){ // Write "checked"/" " to field + begin[idx] = temp[idx]; + idx++; + } + + // Update Kp Paramater Field + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"kp_input\" value=\"") + + sizeof("name=\"kp_input\" value="); // Points to start of kp_output field + // Determine precision of float such temp string has no empty spaces; + // i.e. each space must have a value or a decimal point, other wise webbrowser may not recognize value + if(kp >= 100) sprintf(temp, "%6.2f", kp); // xxx.00 + else if(10 <= kp && kp < 100) sprintf(temp, "%6.3f", kp); // xx.000 + else sprintf(temp, "%6.4f", kp); // x.0000 + while(temp[idx] != '\0'){ // Overwrite old digits with new digits + begin[idx] = temp[idx]; + idx++; + } + + // Update Ki Parameter Field + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"ki_input\" value=\"") + + sizeof("name=\"ki_input\" value="); // Points to start of ki_output field + // Determine precision of float such temp string has no empty spaces; + // i.e. each space must have a value or a decimal point, other wise webbrowser may not recognize value + if(ki >= 100) sprintf(temp, "%6.2f", ki); // xxx.00 + else if(10 <= ki && ki < 100) sprintf(temp, "%6.3f", ki); // xx.000 + else sprintf(temp, "%6.4f", ki); // x.0000 + while(temp[idx] != '\0'){ // Overwrite old digits with new digits + begin[idx] = temp[idx]; + idx++; + } + + // Update Kd Parameter Field + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"kd_input\" value=\"")+ + sizeof("name=\"kd_input\" value="); // Points to start of kd_output field + // Determine precision of float such temp string has no empty spaces; + // i.e. each space must have a value or a decimal point, other wise webbrowser may not recognize value + if(kd >= 100) sprintf(temp, "%6.2f", kd); // xxx.00 + else if(10 <= kd && kd < 100) sprintf(temp, "%6.3f", kd); // xx.000 + else sprintf(temp, "%6.4f", kd); // x.0000 + while(temp[idx] != '\0'){ // Overwrite old digits with new digits + begin[idx] = temp[idx]; + idx++; + } + + // Update Setpoint Parameter Field + // Determine precision of float such temp string has no empty spaces; + // i.e. each space must have a value or a decimal point or neg sign, + // other wise webbrowser may not recognize value + memset(temp, '\0', sizeof(temp)); + idx = 0; + begin = strstr(webpage, "name=\"setpoint_input\" value=\"")+ + sizeof("name=\"setpoint_input\" value="); // Points to start of kp_output field + // Determine precision of float such temp string has no empty spaces; + // i.e. each space must have a value or a decimal point, other wise webbrowser may not recognize value + if(setpoint >= 0.00){ + if(setpoint >= 100) sprintf(temp, "%6.3f", setpoint); // xxx.000 + else if(10 <= setpoint && setpoint < 100) sprintf(temp, "%7.4f", setpoint); // xx.0000 + else sprintf(temp, "%6.5f", setpoint); // x.00000 + } + else{ + if(setpoint <= -100) sprintf(temp, "%6.2f", setpoint); // -xxx.00 + else if(-100 < setpoint && setpoint <= -10) sprintf(temp, "%6.3f", setpoint); // -xx.000 + else sprintf(temp, "%6.4f", setpoint); // -x.0000 + } + while(temp[idx] != '\0'){ // Overwrite old digits with new digits + begin[idx] = temp[idx]; + idx++; + } +} + +/* + parse_input() take a char*, in particular a pointer to Webpage User + Input Data, for example: + char str[] = "+IPD,0,44:kp_input=0.12&ki_input=14.25&kd_input=125.42"; + + and parses out the Setpoint Kp, Ki, Kd values that the user entered + and posted in the webpage. Values are converted to floats and + assigned to the given argurments. + + NOTE: THIS IS WEBPAGE SPECIFIC!!!! CHANGE THE CODE IN HERE TO SUITE THE + SPECIFIC APPLICATION WEBPAGE!!! THESE EXTRACTED VALUES WILL BE USED IN + THE update_webpage() function. MAKE SURE THESE TWO FUNCTIONS INTEGRATE + PROPERLY!!! +*/ +void parse_input(char* webpage_user_data, bool* control_mode, float *setpoint, float* kp, float* ki, float* kd){ + char keys[] = {'&', '\0'}; + + // Parse out user input values + char input_buff[50]; + char* begin; + char* end; + + // Parse and Update Control Mode Value + memset(input_buff, '\0', sizeof(input_buff)); // Null out input buff + begin = strstr(webpage_user_data, "control_mode=") + + sizeof("control_mode"); // Points to start of setpoint_input value + end = begin + strcspn(begin, keys); // Points to end of setpoint_input value + for(long i = 0; i < end - begin; i++){ // Parse out the value one char at a time + input_buff[i] = begin[i]; + } + *control_mode = atoi(input_buff); + + // Parse and Update Setpoint Value + memset(input_buff, '\0', sizeof(input_buff)); // Null out input buff + begin = strstr(webpage_user_data, "setpoint_input=") + + sizeof("setpoint_input"); // Points to start of setpoint_input value + end = begin + strcspn(begin, keys); // Points to end of setpoint_input value + for(long i = 0; i < end - begin; i++){ // Parse out the value one char at a time + input_buff[i] = begin[i]; + } + *setpoint = atof(input_buff); + + // Parse and Update Kp Value + memset(input_buff, '\0', sizeof(input_buff)); // Null out input buff + begin = strstr(webpage_user_data, "kp_input=") + + sizeof("kp_input"); // Points to start of kp_input value + end = begin + strcspn(begin, keys); // Points to end of kp_input value + for(long i = 0; i < end - begin; i++){ // Parse out the value one char at a time + input_buff[i] = begin[i]; + } + *kp = atof(input_buff); + + // Parse and Update Ki Value + memset(input_buff, '\0', sizeof(input_buff)); // Null out input buff + begin = strstr(webpage_user_data, "ki_input=") + + sizeof("ki_input"); // Points to start of ki_input value + end = begin + strcspn(begin, keys); // Points to end of ki_input value + for(long i = 0; i < end - begin; i++){ // Parse out the value one char at a time + input_buff[i] = begin[i]; + } + *ki = atof(input_buff); + + // Parse and Update Kd Value + memset(input_buff, '\0', sizeof(input_buff)); // Null out input buff + begin = strstr(webpage_user_data, "kd_input=") + + sizeof("kd_input"); // Points to start of kd_input value + end = begin + strcspn(begin, keys); // Points to end of kd_input value + for(long i = 0; i < end - begin; i++){ // Parse out the value one char at a time + input_buff[i] = begin[i]; + } + *kd = atof(input_buff); +} + +void pid_callback(){ + // If control_mode is POSITION run position pid + if(control_mode == POSITION){ + // Update motor + if(output >= 0.0) mtr_dir = 1; // Set direction to sign of output + else mtr_dir = 0; + mtr_pwm = abs(output); // Apply motor output + + // Update feedback + feedback = encoder.read()*FEEDBACK_SCALE;// Scale feedback to num wheel revs + } + // else control_mode must be SPEED, run speed pid + else{ + if(setpoint >= 0.0) mtr_dir = 1; // Set motor direction based on setpoint + else mtr_dir = 0; + if(-0.001 < setpoint && setpoint < 0.001){ + /* Setpoint = 0 is a special case, we allow output to control speed AND + direction to fight intertia and/or downhill roll. */ + if(output >= 0.0) mtr_dir = 1; + else mtr_dir = 0; + mtr_pwm = abs(output); + } + else{ + if(mtr_dir == 1){ // If CW then apply positive outputs + if(output >= 0.0) mtr_pwm = output; + else mtr_pwm = 0.0; + } + else{ // If CCW then apply negative outputs + if(output <= 0.0) mtr_pwm = abs(output); + else mtr_pwm = 0.0; + } + } + float k = Ts/2.0; // Discrete time, (Ts/2 because this callback is called + // at interval of Ts/2... or twice as fast as pid controller) + + /* TODO: Implement a "rolling"/"moving" average */ + static int last_count = 0; + int count = encoder.read(); + float raw_speed = ((count - last_count)*FEEDBACK_SCALE) / k; + float rpm_speed = raw_speed * 60.0; // Convert speed to RPM + + last_count = count; // Save last count + feedback = rpm_speed; + } +} + +/* + Clips value to lower/ uppper + @param value The value to clip + @param lower The mininum allowable value + @param upper The maximum allowable value + @return The resulting clipped value +*/ +float clip(float value, float lower, float upper){ + return std::max(lower, std::min(value, upper)); +} + +/**************************WEB PAGE TEXT**************************************/ +/***************************************************************************** +Copy and past text below into a html file and save as the given file name to +your SD card. + +file name: pid_dual.html + +html text: + +<!DOCTYPE html> +<html> +<head> +<title>PID Motor Control</title> +</head> +<body> +<h1>PID Motor Control</h1> +<h2>Motor Status</h2> +<p> +<form title="Motor Status"> +<input type="text" value="Some user information" size="25" readonly /><br> +Current Setpoint: +<input type="number" name="current_setpoint" value="0000.00" readonly /><br> +Current Position: +<input type="number" name="current_position" value="0000.00" readonly /><br> +</form> +</p> +<h2>PID Status</h2> +<form title="User Input" method="post"> +PID Controls: <br> +<input type="radio" name="control_mode" value="0"checked>Position(#Revolutions) +<br> +<input type="radio" name="control_mode" value="1" >Speed(RPM) +<br> +Setpoint: +<input type="number" name="setpoint_input" value="0000.00" step="0.0000001" size="6" /><br> +Proportional Gain: (Good Starting Values: Position = 2.50 Speed = 0.01)<br> +<input type="number" name="kp_input" value="002.50" step="0.0000001" size="6" /><br> +Integral Gain: (Good Starting Values: Position = 5.0 Speed = 0.015)<br> +<input type="number" name="ki_input" value="005.00" step="0.0000001" size="6" /><br> +Derivative Gain: (Good Starting Values: Position = 0.25 Speed = 0.0001)<br> +<input type="number" name="kd_input" value="000.25" step="0.0000001" size="6" /><br> +<br> +<input type="submit" value="Update" /> +</form> +</body> +</html> + +*****************************************************************************/ +/*****************************************************************************/ \ No newline at end of file