Wim Huiskamp
Library for TM1650 LED controller (32 LEDs max, 28 keys max)
See here for more info.
TM1650.cpp
- Committer:
- wim
- Date:
- 2017-10-10
- Revision:
- 0:4430a1559b4f
File content as of revision 0:4430a1559b4f:
/* mbed TM1650 Library, for TM1650 LED controller
* Copyright (c) 2017, v01: WH, Initial version
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, inclumosig without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUmosiG BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "mbed.h"
#include "TM1650.h"
/** Constructor for class for driving TM1650 LED controller with Serial bus interface device.
* @brief Supports 4 digits @ 8 segments. Also supports upto 28 Keys.
*
* @param PinName dio Serial bus DIO pin
* @param PinName clk Serial bus CLK pin
*/
TM1650::TM1650(PinName dio, PinName clk) : _dio(dio), _clk(clk) {
_init();
}
/** Init the Serial interface and the controller
* @param none
* @return none
*/
void TM1650::_init(){
//TM1650 uses a Serial bus that looks like I2C, but really is not.
//It has Start and Stop conditions like I2C and an Ack pulse, but instead of slaveaddresses and a RW bit it just transmits commands and data.
//init Serial bus
_dio.output();
// _dio.mode(PullUp);
wait_us(1);
_dio=1;
_clk=1;
//init controller
_bright = TM1650_BRT_DEF;
_segment = TM1650_DSP_8S;
_display = TM1650_DSP_ON;
_writeCmd(TM1650_DSP_CTRL_CMD, _bright | _segment | _display ); // Display control cmd, brightness, 7/8 segments, display on/off
}
/** Clear the screen and locate to 0
*/
void TM1650::cls() {
for (int cnt=0; cnt<TM1650_DISPLAY_MEM; cnt++) {
_start();
_write(TM1650_DATA_WR_CMD | (cnt << 1)); // Set Address cmd (no auto incr supported)
_write(0x00); // Write data
_stop();
}
}
/** Set Brightness
*
* @param char brightness (3 significant bits, valid range 0..7 (1/16 .. 14/14 dutycycle)
* @return none
*/
void TM1650::setBrightness(char brightness){
_bright = brightness & TM1650_BRT_MSK; // mask invalid bits
_writeCmd(TM1650_DSP_CTRL_CMD, _bright | _segment | _display ); // Display control cmd, brightness, 7/8 segments, display on/off
}
/** Set the Display mode On/off
*
* @param bool display mode
*/
void TM1650::setDisplay(bool on) {
if (on) {
_display = TM1650_DSP_ON;
}
else {
_display = TM1650_DSP_OFF;
}
_writeCmd(TM1650_DSP_CTRL_CMD, _bright | _segment | _display ); // Display control cmd, brightness, 7/8 segments, display on/off
}
/** Write databyte to TM1650
* @param int address display memory location to write byte
* @param char data byte written at given address
* @return none
*/
void TM1650::writeData(char data, int address) {
_start();
_write(TM1650_DATA_WR_CMD | ((address & TM1650_ADDR_MSK) << 1)); // Set Address cmd
_write(data); // Write data
_stop();
}
/** Write Display datablock to TM1650
* @param DisplayData_t data Array of TM1650_DISPLAY_MEM (=4) bytes for displaydata
* @param length number bytes to write (valid range 0..(TM1650_MAX_NR_GRIDS * TM1650_BYTES_PER_GRID) (=4), when starting at address 0)
* @param int address display memory location to write bytes (default = 0)
* @return none
*/
void TM1650::writeData(DisplayData_t data, int length, int address) {
// sanity check
address &= TM1650_ADDR_MSK;
if (length < 0) {length = 0;}
if ((length + address) > TM1650_DISPLAY_MEM) {length = (TM1650_DISPLAY_MEM - address);}
for (int idx=0; idx<length; idx++) {
_start();
_write(TM1650_DATA_WR_CMD | ((address + idx) << 1)); // Set Address cmd (no auto incr supported)
_write(data[address + idx]); // Write data
_stop();
}
}
/** Read keydata block from TM1650
* @param *keydata Ptr to bytes for keydata
* @return bool keypress True when at least one key was pressed
*/
bool TM1650::getKeys(KeyData_t *keydata) {
_start();
// Enable Key Read mode
_write(TM1650_KEY_RD_CMD); // Read Key cmd
// Read key
*keydata = _read();
// printf("Key = 0x%02x\r\n", *keydata); // debug
_stop();
// Check if valid key bits are set
return ( (*keydata & TM1650_SW_MSK) == TM1650_SW_MSK );
}
/** Generate Start condition for TM1650
* @param none
* @return none
*/
void TM1650::_start() {
_dio=0;
wait_us(1);
_clk=0;
wait_us(1);
}
/** Generate Stop condition for TM1650
* @param none
* @return none
*/
void TM1650::_stop() {
_dio=0;
wait_us(1);
_clk=1;
wait_us(1);
_dio=1;
wait_us(1);
}
/** Send byte to TM1650
* @param int data
* @return none
*/
void TM1650::_write(int data) {
for (int bit=7; bit >= 0; bit--) {
//The TM1650 expects MSB first
if (((data >> bit) & 0x01) == 0x01) {
_dio=1;
}
else {
_dio=0;
}
wait_us(1);
_clk=1;
wait_us(1);
_clk=0;
wait_us(1);
}
_dio=1;
// Prepare DIO to read data
_dio.input();
wait_us(3);
// dummy Ack
_clk=1;
wait_us(1);
// _ack = _dio;
_clk=0;
wait_us(1);
// Return DIO to output mode
_dio.output();
wait_us(3);
_dio=1; //idle
}
/** Read byte from TM1650
* @param none
* @return read byte
*/
char TM1650::_read() {
char keycode = 0;
// Prepare DIO to read data
_dio.input();
wait_us(3);
for (int bit=0; bit<8; bit++) {
//The TM1650 sends bitpattern: D7..D0
//Data is shifted out by the TM1650 on the falling edge of CLK
//Observe sufficient delay to allow the Open Drain DIO to rise to H levels
// Prepare to read next bit, MSB (ie D7) first.
keycode = keycode << 1;
_clk=1;
wait_us(1);
// Read next bit
if (_dio) { keycode |= 0x01; }
_clk=0;
wait_us(5); // Delay to allow for slow risetime
}
// Return DIO to output mode
_dio.output();
wait_us(3);
// dummy Ack
_dio=0; //Ack
wait_us(1);
_clk=1;
wait_us(1);
_clk=0;
wait_us(1);
_dio=1; //idle
return keycode;
}
/** Write command (and parameters) to TM1650
* @param int cmd Command byte
* @Param int data Parameters for command
* @return none
*/
void TM1650::_writeCmd(int cmd, int data){
_start();
_write(cmd);
_write(data);
_stop();
}
#if (MEIBAI_TEST == 1)
// Derived class for TM1650 used in MEIBAI display unit
//
/** Constructor for class for driving TM1650 LED controller
*
* @brief Supports 4 Digits of 7 Segments + DP.
* Also supports 3 keys.
* Serial bus interface device.
*
* @param PinName dio Serial bus DIO pin
* @param PinName sck Serial bus CLK pin
*/
TM1650_MEIBAI::TM1650_MEIBAI(PinName dio, PinName clk) : TM1650(dio, clk) {
_column = 0;
_columns = MEIBAI_NR_DIGITS;
}
#if(0)
#if DOXYGEN_ONLY
/** Write a character to the Display
*
* @param c The character to write to the display
* @return c
*/
int putc(int c);
/** Write a formatted string to the Display
*
* @param format A printf-style format string, followed by the
* variables to use in formatting the string.
*/
int printf(const char* format, ...);
#endif
#endif
/** Locate cursor to a screen column
*
* @param column The horizontal position from the left, indexed from 0
* @return none
*/
void TM1650_MEIBAI::locate(int column) {
//sanity check
if (column < 0) {column = 0;}
if (column > (_columns - 1)) {column = _columns - 1;}
_column = column;
}
/** Number of screen columns
*
* @param none
* @return columns
*/
int TM1650_MEIBAI::columns() {
return _columns;
}
/** Clear the screen and locate to 0
*
* @param bool clrAll Clear Icons also (default = false)
* @return none
*/
void TM1650_MEIBAI::cls(bool clrAll) {
if (clrAll) {
//clear local buffer (inclumosig Icons)
for (int idx=0; idx < MEIBAI_NR_GRIDS; idx++) {
_displaybuffer[idx] = 0x00;
}
}
else {
//clear local buffer (preserving Icons)
for (int idx=0; idx < MEIBAI_NR_GRIDS; idx++) {
_displaybuffer[idx] = _displaybuffer[idx] & MASK_ICON_GRID[idx];
}
}
writeData(_displaybuffer, (MEIBAI_NR_GRIDS * TM1650_BYTES_PER_GRID), 0);
_column = 0;
}
/** Set Icon
*
* @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
* @return none
*/
void TM1650_MEIBAI::setIcon(Icon icon) {
int addr, icn;
icn = icon & 0xFFFF;
addr = (icon >> 24) & 0xFF;
addr = (addr - 1);
//Save char...and set bits for icon to write
_displaybuffer[addr] = _displaybuffer[addr] | LO(icn);
// writeData(_displaybuffer, (MEIBAI_NR_GRIDS * TM1650_BYTES_PER_GRID), 0);
writeData(_displaybuffer, TM1650_BYTES_PER_GRID, addr);
}
/** Clr Icon
*
* @param Icon icon Enums Icon has Grid position encoded in 8 MSBs, Icon pattern encoded in 16 LSBs
* @return none
*/
void TM1650_MEIBAI::clrIcon(Icon icon) {
int addr, icn;
icn = icon & 0xFFFF;
addr = (icon >> 24) & 0xFF;
addr = (addr - 1);
//Save char...and clr bits for icon to write
_displaybuffer[addr] = _displaybuffer[addr] & ~LO(icn);
// writeData(_displaybuffer, (MEIBAI_NR_GRIDS * TM1650_BYTES_PER_GRID), 0);
writeData(_displaybuffer, TM1650_BYTES_PER_GRID, addr);
}
/** Set User Defined Characters (UDC)
*
* @param unsigned char udc_idx The Index of the UDC (0..7)
* @param int udc_data The bitpattern for the UDC (8 bits)
* @return none
*/
void TM1650_MEIBAI::setUDC(unsigned char udc_idx, int udc_data) {
//Sanity check
if (udc_idx > (MEIBAI_NR_UDC-1)) {
return;
}
// Mask out Icon bits?
_UDC_7S[udc_idx] = LO(udc_data);
}
/** Write a single character (Stream implementation)
*
* @param c The character to write to the display
* @return c
*/
int TM1650_MEIBAI::_putc(int value) {
//The MEIBAI mapping between Digit positions (Left to Right) and Grids is:
// GR1 GR2 GR3 GR4
//The memory addresses or column numbers are:
// 0 1 2 3
int addr;
bool validChar = false;
char pattern = 0x00;
if ((value == '\n') || (value == '\r')) {
//No character to write
validChar = false;
//Update Cursor
_column = 0;
}
else if ((value == '.') || (value == ',')) {
//No character to write
validChar = false;
pattern = S7_DP; // placeholder for all DPs
// Check to see that DP can be shown for current column
if (_column > 0) {
//Translate between _column and displaybuffer entries
//Add DP to bitpattern of digit left of current column.
addr = (_column - 1);
//Save icons...and set bits for decimal point to write
_displaybuffer[addr] = _displaybuffer[addr] | pattern;
// writeData(_displaybuffer, (MEIBAI_NR_GRIDS * TM1650_BYTES_PER_GRID));
writeData(_displaybuffer, TM1650_BYTES_PER_GRID, addr);
//No Cursor Update
}
}
else if ((value >= 0) && (value < MEIBAI_NR_UDC)) {
//Character to write
validChar = true;
pattern = _UDC_7S[value];
}
#if (SHOW_ASCII == 1)
//display all ASCII characters
else if ((value >= FONT_7S_START) && (value <= FONT_7S_END)) {
//Character to write
validChar = true;
pattern = FONT_7S[value - FONT_7S_START];
} // else
#else
//display only digits and hex characters
else if (value == '-') {
//Character to write
validChar = true;
pattern = C7_MIN;
}
else if ((value >= (int)'0') && (value <= (int) '9')) {
//Character to write
validChar = true;
pattern = FONT_7S[value - (int) '0'];
}
else if ((value >= (int) 'A') && (value <= (int) 'F')) {
//Character to write
validChar = true;
pattern = FONT_7S[10 + value - (int) 'A'];
}
else if ((value >= (int) 'a') && (value <= (int) 'f')) {
//Character to write
validChar = true;
pattern = FONT_7S[10 + value - (int) 'a'];
} //else
#endif
if (validChar) {
//Character to write
//Translate between _column and displaybuffer entries
addr = _column;
//Save icons...and set bits for character to write
_displaybuffer[addr] = (_displaybuffer[addr] & MASK_ICON_GRID[_column]) | pattern;
// writeData(_displaybuffer, (MEIBAI_NR_GRIDS * TM1650_BYTES_PER_GRID));
writeData(_displaybuffer, TM1650_BYTES_PER_GRID, addr);
//Update Cursor
_column++;
if (_column > (MEIBAI_NR_DIGITS - 1)) {
_column = 0;
}
} // if validChar
return value;
}
/** Get a single character (Stream implementation)
*
* @param none
* @return -1
*/
int TM1650_MEIBAI::_getc() {
return -1;
}
#endif
TM1650 LED controller (32 LEDs max), Keyboard scan (28 keys max).