Wim Huiskamp
/
mbed_PT6318
Example for PT6318 VFD controller. Supports KUH8300 player
main.cpp
- Committer:
- wim
- Date:
- 2016-02-01
- Revision:
- 0:6bbcbddf4edc
File content as of revision 0:6bbcbddf4edc:
/* mbed PT6318 Test program, for Princeton PT6318 VFD controller * Copyright (c) 2016, v01: WH, Initial version, KUH8300 * * 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, including 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, INCLUDING 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 "PT6318.h" // Select one of the testboards for Princeton PT6318 VFD controller #if (KUH8300_TEST == 1) // KUH8300 PT6318 Test #include "mbed.h" #include "PT6318.h" #include "Font_16Seg.h" Serial pc(USBTX, USBRX); DigitalOut myled(LED1); // DisplayData_t size is 24 bytes (8 grids @ max 20 segments) ... 48 bytes (16 grids @ max 12 segments) // DisplayData_t size for KUH8300 is 24 bytes (8 Grids @ 20 Segments) PT6318::DisplayData_t all_str = {0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, \ 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F }; PT6318::DisplayData_t cls_str = {0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, \ 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00 }; // KeyData_t size is 6 bytes PT6318::KeyData_t keydata; //PT6318_KUH8300 declaration, Setting 8 Grids @ 20 Segments PT6318_KUH8300 KUH8300(p5,p6,p7, p8); char cmd, bits; int main() { pc.printf("Hello World\r\n"); // KUH8300.cls(); KUH8300.writeData(all_str); wait(4); KUH8300.setBrightness(PT6318_BRT3); wait(1); KUH8300.setBrightness(PT6318_BRT0); wait(1); KUH8300.setBrightness(PT6318_BRT7); while (1) { // Check and read keydata if (KUH8300.getKeys(&keydata)) { pc.printf("Keydata 0..5 = 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\r\n", keydata[0], keydata[1], keydata[2], keydata[3], keydata[4], keydata[5]); if (keydata[0] == 0x01) { //up KUH8300.cls(); KUH8300.writeData(all_str); } if (keydata[0] == 0x02) { //pause KUH8300.cls(); KUH8300.writeData(cls_str); #if(1) //test to show all segs pc.printf("Show all segs\r\n"); wait(1); KUH8300.cls(); for (int i=0; i<PT6318_DISPLAY_MEM; i++) { for (int bit=0; bit<8; bit++) { KUH8300.cls(); bits = 0x01 << bit; KUH8300.writeData(bits, i); pc.printf("Idx = %d, Bits = 0x%02x\r\n", i, bits); // wait(0.5); cmd = pc.getc(); // wait for key } } pc.printf("Show all segs done\r\n"); #endif } if (keydata[0] == 0x04) { //play #if(0) //test to show all digits (base is 10) pc.printf("Show all digits\r\n"); wait(1); KUH8300.cls(); for (int i=0; i<KUH8300_NR_DIGITS; i++) { for (int cnt=0; cnt<10; cnt++) { KUH8300.locate(i); KUH8300.printf("%0d", cnt); // wait(0.5); cmd = pc.getc(); // wait for key } } pc.printf("Show all digits done\r\n"); #endif #if(1) //test to show all digits (base is 0x10) pc.printf("Show all digits\r\n"); wait(1); KUH8300.cls(); KUH8300.printf("%d", 0); cmd = pc.getc(); // wait for key KUH8300.cls(); KUH8300.printf("%3.4f", 12.3456); cmd = pc.getc(); // wait for key KUH8300.cls(); KUH8300.printf("%d", 123456); cmd = pc.getc(); // wait for key KUH8300.cls(); KUH8300.printf("%08x", 0x0123ABCD); //Note this value needs 64bits cmd = pc.getc(); // wait for key for (int i=0; i<KUH8300_NR_DIGITS; i++) { for (int cnt=0; cnt<0x10; cnt++) { KUH8300.locate(i); KUH8300.printf("%0x", cnt); // wait(0.5); cmd = pc.getc(); // wait for key } } pc.printf("Show all digits done\r\n"); #endif } if (keydata[0] == 0x08) { //open #if(1) //test to show all alpha chars pc.printf("Show all alpha chars\r\n"); wait(1); KUH8300.cls(); for (int i=0; i<26; i++) { KUH8300.printf("%c", char(i + 'A')); // KUH8300.printf("%c", char(i + 'a')); wait(0.25); } pc.printf("Show all alpha chars done\r\n"); #endif #if(0) //test to show all chars pc.printf("Show all chars\r\n"); wait(1); KUH8300.cls(); for (int i=FONT_16S_START; i<FONT_16S_END; i++) { KUH8300.printf("%c", char(i)); // wait(0.25); cmd = pc.getc(); // wait for key } pc.printf("Show all chars done\r\n"); #endif } if (keydata[0] == 0x10) { //down #if(0) //wheel for(int cnt=0;cnt<10;cnt++) { for(int idx=0;idx<8;idx++) { KUH8300.setUDC(0, WHEEL_ANI[idx]); KUH8300.locate(0); KUH8300.printf("%c%c%c%c%c%c%c%c",(char)0,(char)0, (char)0,(char)0, (char)0,(char)0, (char)0,(char)0); wait(0.1); } } #endif } if (keydata[0] == 0x20) { //title KUH8300.cls(); // 01234567 KUH8300.printf("Hi mbed"); } if (keydata[0] == 0x40) { //menu #if(1) //test to show all icons pc.printf("Show all icons\r\n"); wait(1); KUH8300.cls(true); // Also clear all Icons wait(1); float delay=0.1; KUH8300.setIcon(PT6318_KUH8300::CAM); wait(delay); KUH8300.setIcon(PT6318_KUH8300::DIG); wait(delay); KUH8300.setIcon(PT6318_KUH8300::MONO); wait(delay); KUH8300.setIcon(PT6318_KUH8300::PRG); wait(delay); KUH8300.setIcon(PT6318_KUH8300::DTS); wait(delay); KUH8300.setIcon(PT6318_KUH8300::MEM); wait(delay); KUH8300.setIcon(PT6318_KUH8300::KHZ); wait(delay); KUH8300.setIcon(PT6318_KUH8300::STR); wait(delay); KUH8300.setIcon(PT6318_KUH8300::MHZ); wait(delay); KUH8300.setIcon(PT6318_KUH8300::KEY); wait(delay); KUH8300.setIcon(PT6318_KUH8300::ALL); wait(delay); KUH8300.setIcon(PT6318_KUH8300::DP6); wait(delay); KUH8300.setIcon(PT6318_KUH8300::COL6); wait(delay); KUH8300.setIcon(PT6318_KUH8300::ARW); wait(delay); KUH8300.setIcon(PT6318_KUH8300::A_); wait(delay); KUH8300.setIcon(PT6318_KUH8300::B_); wait(delay); KUH8300.setIcon(PT6318_KUH8300::CD4A); wait(delay); KUH8300.setIcon(PT6318_KUH8300::CHP); wait(delay); KUH8300.setIcon(PT6318_KUH8300::N3); wait(delay); KUH8300.setIcon(PT6318_KUH8300::L3); wait(delay); KUH8300.setIcon(PT6318_KUH8300::HK3); wait(delay); KUH8300.setIcon(PT6318_KUH8300::TTL); wait(delay); KUH8300.setIcon(PT6318_KUH8300::JM1); wait(delay); KUH8300.setIcon(PT6318_KUH8300::HK2); wait(delay); KUH8300.setIcon(PT6318_KUH8300::PSE); wait(delay); KUH8300.setIcon(PT6318_KUH8300::PLY); wait(delay); KUH8300.setIcon(PT6318_KUH8300::PBC); wait(delay); KUH8300.setIcon(PT6318_KUH8300::DVD); wait(delay); KUH8300.setIcon(PT6318_KUH8300::CD); wait(delay); KUH8300.setIcon(PT6318_KUH8300::V); wait(delay); KUH8300.setIcon(PT6318_KUH8300::S); wait(delay); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::CAM); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::DIG); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::MONO); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::PRG); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::DTS); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::MEM); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::KHZ); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::STR); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::MHZ); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::KEY); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::ALL); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::DP6); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::COL6); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::ARW); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::A_); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::B_); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::CD4A); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::CHP); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::N3); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::L3); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::HK3); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::TTL); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::JM1); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::HK2); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::PSE); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::PLY); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::PBC); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::DVD); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::CD); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::V); wait(delay); KUH8300.clrIcon(PT6318_KUH8300::S); wait(delay); wait(1); KUH8300.cls(); // clear all, preserve Icons pc.printf("Show all icons done\r\n"); #endif } if (keydata[0] == 0x80) { //stop //write LEDs off // KUH8300.setLED(0x07); KUH8300.setLED(PT6318_LED1 | PT6318_LED2 | PT6318_LED3 | PT6318_LED4 | PT6318_LED5); } if (keydata[1] == 0x01) { //left //write LEDs on KUH8300.setLED(0x00); } if (keydata[1] == 0x02) { //pwr } if (keydata[1] == 0x04) { //next } } //if Key myled = !myled; wait(0.3); } //while } #endif #if(PT6318_TEST == 1) // Direct PT6318 Test #include "mbed.h" #include "PT6318.h" Serial pc(USBTX, USBRX); DigitalOut myled(LED1); // DisplayData_t size is 24 bytes (8 digits @ max 20 segments) ... 48 bytes (16 digits @ max 12 segments) // DisplayData_t size default is 48 bytes (16 Grids @ 12 Segments) PT6318::DisplayData_t all_str = {0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, \ 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, \ 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, \ 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F, 0xFF,0xFF,0x0F}; PT6318::DisplayData_t cls_str = {0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, \ 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, \ 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, \ 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00, 0x00,0x00,0x00}; // KeyData_t size is 6 bytes PT6318::KeyData_t keydata; // Switchdata is 1 byte char switchdata; PT6318 PT6318(p5,p6,p7, p8); //PT6318 PT6318(p5,p6,p7, p8, PT6318::Grid16_Seg12); char cmd, bits; int main() { pc.printf("Hello World\r\n"); // PT6318.cls(); PT6318.writeData(all_str); wait(4); PT6318.setBrightness(PT6318_BRT3); wait(1); PT6318.setBrightness(PT6318_BRT0); wait(1); PT6318.setBrightness(PT6318_BRT7); while (1) { // Check and read keydata if (PT6318.getKeys(&keydata)) { pc.printf("Keydata 0..5 = 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\r\n", keydata[0], keydata[1], keydata[2], keydata[3], keydata[4], keydata[4]); if (keydata[0] == 0x01) { //up PT6318.cls(); PT6318.writeData(all_str); } if (keydata[0] == 0x02) { //pause PT6318.cls(); PT6318.writeData(cls_str); } if (keydata[0] == 0x04) { //play PT6318.cls(); PT6318.writeData(all_str); #if(1) //test to show all segs pc.printf("Show all segs\r\n"); wait(1); PT6318.cls(); for (int i=0; i<PT6318_DISPLAY_MEM; i++) { for (int bit=0; bit<8; bit++) { PT6318.cls(); bits = 0x01 << bit; PT6318.writeData(bits, i); pc.printf("Idx = %d, Bits = 0x%02x\r\n", i, bits); // wait(0.5); cmd = pc.getc(); // wait for key } } pc.printf("Show all segs done\r\n"); #endif } } //if Key myled = !myled; wait(0.3); } //while } #endif