Register Display of Azoteq IQS620 Magnetic/Touch/Inductive sensor
A library that performs a register dump of the Azoteq IQS620 ultra low power multisensor registers.
More information on the IQS620 here:
Serial Terminal Output
Diff: IQS620DisplayTerminal.cpp
- Revision:
- 3:945b99d8bb87
- Parent:
- 2:da8082c7476a
- Child:
- 5:2f4f4db0e46b
--- a/IQS620DisplayTerminal.cpp Sat May 13 00:12:38 2017 +0000 +++ b/IQS620DisplayTerminal.cpp Sun May 14 19:32:03 2017 +0000 @@ -15,19 +15,20 @@ IQS620Display::IQS620Display() : Serial(USBTX,USBRX) // use mbed default serial port #endif -{ +{ frameCounter=0; baud(DISPLAY_BAUD_RATE); -} +} #if defined(TARGET_TEENSY3_1) || defined (TARGET_TEENSY3_2) || IQS_USE_USBSERIAL -void IQS620Display::baud(int baudRate){} +void IQS620Display::baud(int baudRate) {} #endif // display a startup message to serial port -void IQS620Display::helloMessage(bool waitForUser) { +void IQS620Display::helloMessage(bool waitForUser) +{ puts("\x1b[2J \x1b[?25l \x1b[H"); // ANSII/VT100 codes to clear screen, invisible cursor, home cursor - printf(" IQS620 Register Display\r\n\r\n"); + printf(" IQS620 Register Display\r\n\r\n"); printf("To get a smooth screen refresh effect, use a terminal program that supports ANSI/VT100 escape codes such as Tera Term.\r\n\r\n"); printf("Handy hint - In many terminal programs, Alt-B (break) will reset your mbed Board.\r\n\r\n"); printf("Press any key to continue...\r\n"); @@ -36,49 +37,53 @@ } // show headings and I2C error count -void IQS620Display::showStatus(int I2Cspeed, int I2CErrorCount) { +void IQS620Display::showStatus(int I2Cspeed, int I2CErrorCount) +{ frameCounter++; puts("\x1b[H"); // ANSI/VT100 command for cursor home - printf("\t"); + printf("\t"); printf("\t IQS620 Register Display\r\n\r\n"); // heading printf("\t Frame number %06d", frameCounter); printf("\t I2C Speed %dk", I2Cspeed/1000); printf("\t I2C Errors %d", I2CErrorCount); } -// dump one line of text from the buffer with VT100 color formatting -void IQS620Display::showLine(char * buffer, char * color, int startbyte, int endbyte) { - for (int i=startbyte; i<=endbyte; i++) { +// dump one line of text from the buffer with VT100 color formatting +void IQS620Display::showLine(char * buffer, char * color, int startbyte, int endbyte) +{ + for (int i=startbyte; i<=endbyte; i++) { if ( color == NULL || color[i] == 0 ) - printf("%02x ", buffer[i]); + printf("%02x ", buffer[i]); else - #define USE_IQS_COLOR_DISPLAY - #ifndef DONT_USE_IQS_COLOR_DISPLAY - printf("\x1b[32m%02x\x1b[30m ", buffer[i]); // print out in green (ANSI VT100 code) - #else - printf("%02x ", buffer[i]); // print out in black & white - #endif - } - } +#define USE_IQS_COLOR_DISPLAY +#ifndef DONT_USE_IQS_COLOR_DISPLAY + printf("\x1b[32m%02x\x1b[30m ", buffer[i]); // print out in green (ANSI VT100 code) +#else + printf("%02x ", buffer[i]); // print out in black & white +#endif + } +} // formatted hex display of IQS620 registers // with color highlighting -void IQS620Display::showRegisters(char * buffer,char * color) { - printf("\r\n\r\n Device ID (41) [00] "); showLine(buffer,color,0x00,0x02); - printf("\r\n\r\n Events and Flags [10] "); showLine(buffer,color,0x10,0x1b); - printf("\r\n\r\n Channels 0-5 Raw Values [20] "); showLine(buffer,color,0x20,0x2b); - printf("\r\n\r\n Long Term Average Data [30] "); showLine(buffer,color,0x30,0x35); - printf("\r\n\r\n Proxfusion Settings #0 [40] "); showLine(buffer,color,0x40,0x4b); - printf("\r\n\r\n Proxfusion Settings #1 [50] "); showLine(buffer,color,0x50,0x57); - printf("\r\n\r\n Proxfusion Thresholds [60] "); showLine(buffer,color,0x60,0x66); - printf("\r\n\r\n SAR Thresholds [70] "); showLine(buffer,color,0x70,0x75); - printf("\r\n\r\n Metal Detect Threshold [80] "); showLine(buffer,color,0x80,0x83); - printf("\r\n\r\n Hall Sensor Settings [90] "); showLine(buffer,color,0x90,0x93); - printf("\r\n\r\n Hall Switch Thresholds [A0] "); showLine(buffer,color,0xa0,0xa5); - printf("\r\n\r\n Temperature Cal/Limits [C0] "); showLine(buffer,color,0xc0,0xc3); - printf("\r\n\r\n Device & Power Settings [D0] "); showLine(buffer,color,0xd0,0xd8); +void IQS620Display::showRegisters(char * buffer,char * color, bool showAllRegisters) +{ + bool d = showAllRegisters; // if true show all 16 registers per line - for debugging + printf("\r\n\r\n Device ID (41) [00] "); showLine(buffer,color,0x00,d?0x02:0x0f); + printf("\r\n\r\n Events and Flags [10] "); showLine(buffer,color,0x10,d?0x1b:0x1f); + printf("\r\n\r\n Channels 0-5 Raw Values [20] "); showLine(buffer,color,0x20,d?0x2b:0x2f); + printf("\r\n\r\n Long Term Average Data [30] "); showLine(buffer,color,0x30,d?0x35:0x3f); + printf("\r\n\r\n Proxfusion Settings #0 [40] "); showLine(buffer,color,0x40,d?0x4b:0x4f); + printf("\r\n\r\n Proxfusion Settings #1 [50] "); showLine(buffer,color,0x50,d?0x57:0x5f); + printf("\r\n\r\n Proxfusion Thresholds [60] "); showLine(buffer,color,0x60,d?0x66:0x6f); + printf("\r\n\r\n SAR Thresholds [70] "); showLine(buffer,color,0x70,d?0x75:0x7f); + printf("\r\n\r\n Metal Detect Threshold [80] "); showLine(buffer,color,0x80,d?0x83:0x8f); + printf("\r\n\r\n Hall Sensor Settings [90] "); showLine(buffer,color,0x90,d?0x93:0x9f); + printf("\r\n\r\n Hall Switch Thresholds [A0] "); showLine(buffer,color,0xa0,d?0xa5:0xaf); + printf("\r\n\r\n Temperature Cal/Limits [C0] "); showLine(buffer,color,0xc0,d?0xc3:0xcf); + printf("\r\n\r\n Device & Power Settings [D0] "); showLine(buffer,color,0xd0,d?0xd8:0xdf); printf("\r\n\r\n"); } \ No newline at end of file