Tick Tock
Dual CANbus monitor and instrumentation cluster. Presently tuned for the Nissan Leaf EV.
Dependencies: SPI_TFTx2_ILI9341 TFT_fonts TOUCH_TFTx2_ILI9341 mbed
Fork of
CANary_corrupt
by 
Tick Tock
After adding the LPC1768 platform, import as a program and do not select the "update to latest revision" box
User Guide
Eagle Schematic and Board design
/media/uploads/TickTock/canaryr6.zip
For LCD Rev 1.01:
For VCD Rev 2.00:
Parts List
Assembly
1) LCD Displays
I found ribbon cable is a nice way to organize the wires to the displays. There are two versions of the display and each must be wired differently. The original project used HW REV. 1.01. For that version, you'll need 12 conductors and I connected them in the following order:
| 1 | LED+ |
| 2 | LED- |
| 3 | RST |
| 4 | SDI |
| 5 | WR/SCLK |
| 6 | CS |
| 7 | X+ |
| 8 | X- |
| 9 | Y+ |
| 10 | Y- |
| 11 | VDD |
| 12 | GND |
If, instead, you have HW REV 2.0, you will need 13 conductors with the following order:
| 1 | LED+ |
| 2 | LED- |
| 3 | RST |
| 4 | SDI |
| 5 | RS (SCLK) |
| 6 | WR (DC) |
| 7 | CS |
| 8 | X+ |
| 9 | X- |
| 10 | Y+ |
| 11 | Y- |
| 12 | VDD |
| 13 | GND |
First I connected all the GND connections (2 GND & IM0, IM1, IM3 for REV1.01 or 2 GND, RD, & IM0 for REV2.00). Do not connect the bottom GND until you have the ribbon cable connected. After making all the ribbon cable connections (connecting the GND of the ribbon cable to the bottom GND pad), solder the GND bar from the previous step to the back of the bottom GND connection. Finally, make a connection from the back side 3.3V pin to IM2 for REV1.01 or to IM1,IM2,&IM3 for REV2.00. Take a break and repeat for the second display.
Examples of REV1.01 boards:
Examples of REV2.00:
Once the two displays are complete combine all wires except CS0, CS1, X+, X-, Y+, and Y-. Connect X- of the left display to X+ of the right. Similarly connect Y- of the left display to Y+ of the right. Insulate any exposed wires.
2) PCB
Refer to the schematics to place all the components on the board. If you plan to install into the CANary 3D enclosure, DO NOT install the battery holder or the socket for the mbed and, instead, connect two wires to the VB and GND pads nearby. You will have to install the battery holder against the back wall to avoid interfering with the right-hand display and the mbed will have to be directly soldered. I have not found a socket with a low enough profile to fit in the space provided (depth of enclosure is limited by the space behind the center console). Also, I recommend keeping as much lead as possible on the Zener diode (bending it as shown to clear the back wall). Although it is operating well within parameters, the Zener gets quite hot during extended operation and the leads help dissipate the heat and keep it away from the PCB and other components.Update: Several Zeners have failed resulting in damage to some users boards so I recommend using a DC-DC converter instead to bring the 12V down to 7V.
Once the PCB is populated, solder the LCDs to the PCB. CS0 connects to the right display and CS1 connects to the left.
Update:
The Zener diodes tended to fail after a few months so I am recommending removing them and replacing with a DC-DC converter. This will run cooler and waste less energy, too. To install, remove the left display panel to gain access to the Zener. From there, the Zener can be removed and it's pads used to connect to the DC-DC converter. I recommend setting the output voltage on the bench before installing since the trim pot is tricky to reach once installed. Set it to 7V. The input can be connected to the left pad previously occupied by the zener and the output can connect to the right. GND(-) can be connected to the bottom right pad on the 2x6 header below the flex cable connector. Make sure the GND wire lies flat so it doesn't interfere with the connection of the flex cable.
Once soldered in place, the DC-DC converter can easily be mounted to the back wall with double sided tape above the battery holder.
3) Testing
| 1) | First step is to buzz out all connections from the LCDs to the pins in the main board |
| 2) | Next check the touch screen connections. On the main board, place an Ohm meter across X+ and X-. You should read 700 Ohms. Repeat for Y+ and Y-. Then test the resistance from X+ to Y+. With nothing touching the screens, it should read >100K Ohms and <1K when touching either screen. |
| 3) | When all connections are checked, solder in the mbed. Download and install the touch2 program http://mbed.org/users/TickTock/code/touch2/ to test the basic operation of the mbed and touch screens. |
| tips: | |
| Touch screen is sensitive - excess flux on X+,X-,Y+,Y- connection on mbed can result in flakey operation | |
| If touch is not working, double-check the LCD0_CS and LCD1_CS are not swapped. LCD0_CS must connect to the CS of the LCD that has X- & Y- connected to the mbed. LCD1_CS must connect to the CS of the LCD that has X+ & Y+ connected to the mbed. | |
| 4) | Once touch2 works, it is time to connect to the OBD connector. I highly recommend double checking all connections from the OBD to the PCB with the cable in place before connecting to the Leaf. Buzz out all the pins in the OBS to make sure none are shorting to each other, Check that the 12V goes to the Zener (and nothing else) and the switched 12V to the resistor divider (and nothing else). Test the ground connection properly connects to ground and nothing else. |
| 5) | Once you are confident there are no shorts or wrong connections from the OBD connector, take a deep breath and plug it into your leaf. Touch2 program should come up and function. Unplug and install the latest CANary firmware. If you have the REV2.00 LCD boards, you will need to edit the precompile.h file in the TOUCH_TFTx2_w9341 library and set USE_ILI9341 to 1. Test all features before installing into the enclosure (gids, cellpair, menu system, logging) since installing and removing from the enclosure is a PITA. |
4) Enclosure
The 3D printer leaves a lot of powder behind - I used a strong spray of water to get it out of all the cracks. The enclosure comes with a rather rough finish. I recommend convincing yourself you like it, then simply lightly sand then paint before assembly. Sanding is very difficult - the nylon is very nicely fused and doesn't want to sand. I tried sandblasting and that didn't work either. I had some limited success with filler and then sanding, but only on the outside - it is too difficult to sand the face.
5) Final Assembly
Make sure you are well rested with lots of patience before attempting assembly. It is a puzzle figuring out how to get both displays and the PCB in place. Enclosure was too expensive for me to keep iterating to optimize for assembly. I ended up snipping the thin display posts shorter and using various tools to push the displays into place. Also, some USB connectors are taller than others. If you have one of the taller ones, you will have to deflect the back wall a bit while inserting the PCB (being careful not to bend the housing) to get it to it's opening in the back wall. Do use a screw in the provided post to secure the PCB as USB insertion will otherwise dislodge it.
I added an additional safety line which wraps around the center post to prevent the enclosure from becoming a projectile in the event of an accident.
Installed:
main.cpp
- Committer:
- TickTock
- Date:
- 2013-06-29
- Branch:
- Metric
- Revision:
- 107:e9be732c1ad4
- Parent:
- 106:f016912a03db
- Child:
- 108:29b5a760adc2
File content as of revision 107:e9be732c1ad4:
// main.cpp
//To Do:
// * USB device detect
// * Enable file timestamps
// * Audible friction brake feedback
// * User-configurable watchpoint
// * Add 50% charge option
// * Tire Pressure Sensor display
// * Fix bug in playback while connected to canbus (hangs)
// * Force regen display to zero when in neutral
// * Add coasting regen to regen/braking display
// * Change semilog efficiency graph to linear with 10 minute values
// * Add Trip meter (kWh and efficiency for current trip)
// * Make display updates interruptable for log writes
// * Add additional 79b bank readouts
// * Add ability to transfer settings config file to/from USB
// * Add once-on-powerup/powerdown log
// * Move log dump to ISR (but CAN RX at higher priority)
// * Add "recording" indicator on Main
// * Temperature table `terpolation
#include "mbed.h"
#include "CAN.h"
#include "beep.h"
#include "MSCFileSystem.h"
#include "PowerControl.h"
#include "EthernetPowerControl.h"
#include "utility.h"
#include "displayModes.h"
#include "TOUCH_TFTx2.h"
char revStr[7] = "107";
LocalFileSystem local("local");
// to write to USB Flash Drives, or equivalent (SD card in Reader/Writer)
MSCFileSystem fs("usb"); // to write to a USB Flash Drive
time_t seconds ;
Ticker autoPoll;
Ticker playback;
Ticker msgReq;
Timer timer;
DigitalOut led1(LED1);
DigitalOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);
InterruptIn touchpad(p17);
CAN can1(p9, p10); // CAN1 (EV) uses pins 9 and 10 (rx, tx) and pin 8 (rs)
DigitalOut can1SleepMode(p8); // Use pin 8 to control the sleep mode of can2
CAN can2(p30, p29); // CAN2 (CAR) uses pins 30 and 29 (rx, tx) and pin 28 (rs)
DigitalOut can2SleepMode(p28); // Use pin 28 to control the sleep mode of can1
AnalogIn mon12V(p15);
TOUCH_TFTx2 tt(p16, p17, p19, p20, p11, p12, p13, p6, p7, p5, "TFT"); // x+,x-,y+,y-,mosi, miso, sclk, cs0, cs1, reset
PwmOut dled(p23);
Beep spkr(p21);
// revision string, max 6 characters
// gg - revStr is used in 2 places
// gg - and is easy to edit here
// gg - added ZeroSecTick and revStr
bool debugMode = false;
bool logEn = false, logOpen = false;
bool yesBattLog = false ; // gg - Batt Log
unsigned char tNavRow = 3 ; // gg - 4x4 touch
FILE *hfile; // config file
FILE *lfile; // log file
char fileName[35] = "" ;
char writeBuffer[maxBufLen][13] __attribute__ ((section("AHBSRAM1"))); // buffer for USB write
char indexLastMsg[0x800]={0}; // index table for last message
CANMessage lastMsg[100]; // table to store last message of eachtype
//unsigned char battData[256]={0}; // 7 * 0x3D = BatDataBufMax
unsigned char battData[BatDataBufMax]={0}; // 7 * 0x3D = BatDataBufMax
unsigned char msgChanged[100]; // inidcates which bytes changed
char c;
volatile int writePointer = 0;
int readPointer=0;
volatile unsigned short secsNoMsg = 0;
volatile unsigned short secsNoTouch = 0;
volatile bool canIdle;
volatile bool userIdle;
bool touched=false; //flag to read touchscreen
unsigned char whichTouched = 0;
char counter = 0;
unsigned char dMode[2] = {mainScreen,brakeScreen}; //display mode
unsigned char sMode = 0; // setup mode
unsigned char lastDMode[2] = {0,0}; //last screen mode
unsigned char dtMode = 6;
char displayLog[20][40];
unsigned char displayLoc = 0;
unsigned int fwCount=1;
unsigned char indexOffset = 1;
bool showCP = false;
//bool pollCP = false;
bool logCP = false; //Turbo3
bool repeatPoll = true;
bool headlights = false;
bool tick = false;
bool ZeroSecTick = false;
float ledHi = 0.8; // Bright LED value (until config file read)
float ledLo = 0.1; // Dim LED value (until config file read)
unsigned short pollInt = 300; // polling interval=5 minutes (until config file read)
bool accOn = false; // Accessories on
bool laccOn = false;
float scale12V = 16.2; // R1:R2 ratio
signed long mWs_x4 = 0;
unsigned short numWsamples = 0;
unsigned short numSsamples = 0;
float accV = 0;
bool playbackEn = false;
bool playbackOpen = false;
//float playbackInt = 0.05; //read messages every 50 ms
float playbackInt = 0.005; //read messages every 5 ms
bool step = false;
char header[5];
char data[8];
signed long motorRPM;
unsigned char skin = ttSkin ;
unsigned char dtePeriod = 14; //ten minute averaging interval
float kWh_trip[3]={0};
float miles_trip[3]={0};
float mph[39]={0};
float kW[39]={0};
float mpkWh[39]={0};
// Logarithmic division scale (roughly - snapped to common units of time)
float timeConstant[39] = {1, 1.58, 2.51, 3.98, 6.31, 10, 15.8, 25.1, 39.8, 60, // 1 minute
60*1.58, 60*2.51, 60*3.98, 60*6.31, 60*10, 60*15.8, 60*25.1, 60*39.8, 60*60, // 1 hour
60*60*1.58, 60*60*2.51, 60*60*3.98, 60*60*6.31, 60*60*10, 60*60*15.8, 60*60*24, // 1 day
60*60*24*1.58, 60*60*24*2.51, 60*60*24*3.98, 60*60*24*6.31, 60*60*24*10, 60*60*24*15.8, 60*60*24*30, // 1 month
60*60*24*39.8, 60*60*24*63.1, 60*60*24*100, 60*60*24*158, 60*60*24*251, 60*60*24*365}; // 1 year
bool updateDTE = false;
unsigned short pointerSep;
unsigned char reqMsgCnt = 99;
unsigned char battTemp_x4 = 0;
unsigned long Ah_x10000 = 0;
unsigned long SOC_x10000 = 0;
unsigned short SOH_x100 = 0;
signed short battTemp_x10 = 0;
bool metric = false;
int main() {
char sTemp[40];
unsigned long secs;
unsigned char i,j,display=0,lwt=0;
point lastTouch;
float average;
tt.set_orientation(1);
tt.background(Black);
tt.set_display(2); // select both displays
tt.cls();
tt.claim(stdout); // send stdout to the TFT display
touchpad.rise(&touch_ISR);
tt.wfi(); // enable interrupt on touch
dled = 0.8; // turn on display LED 80%
timer.start() ;
RTC_Init(); // start the RTC Interrupts that sync the timer
struct tm t; // pointer to a static tm structure
NVIC_SetPriority(CAN_IRQn, 2); //set can priority just below RTC
NVIC_SetPriority(TIMER3_IRQn, 3); //set ticker priority just below can
seconds = time(NULL);
t = *localtime(&seconds) ;
// is it a date before 2012 ?
if ((t.tm_year + 1900) < 2012 ) {
// before 2013 so update year to make date entry easier
t.tm_year = 2013 - 1900;
// set the RTC
set_time(mktime(&t));
seconds = time(NULL);
}
t = *localtime(&seconds) ;
strftime(sTemp, 32, "%a %m/%d/%Y %X\n", &t);
printMsg(sTemp); // record RTC
// revision
sprintf(sTemp,"CANary firmware rev%s\n", revStr); // gg - for Logging the revision
printMsg(sTemp); // revision
// Look for new binary on thumbdrive
// Can't make this work right now since USB doesn't attach the right timestamp (so new binary isn't loaded)
/*cfile = fopen("/usb/CANary.bin", "rb");
lastDMode[whichTouched]=99;//force refresh
if (cfile!=NULL){ //found a new binary on the thumbdrive so copy it over
sprintf(sTemp,"New binary found.\n");
printMsg(sTemp); // new binary
lfile = fopen("/local/CANary.bin", "wb");
if (lfile==NULL){ //failed to open destination
sprintf(sTemp,"Unable to open destination file.\n");
printMsg(sTemp); // cannot open CANary.bin
} else {
tt.set_display(2);
tt.foreground(White);
tt.background(Black);
tt.cls();
tt.locate(1,40);
printf("%s\n","Copying binary - Do no remove power.");
tt.locate(1,80);
printf("CANary will reset when complete.\n");
wait(1); //Wait 1 sec for display DMA to finish before writing file
while ( int size = fread( writeBuffer, sizeof(char), maxBufLen*13, cfile )){
fwrite( writeBuffer, sizeof(char), size, lfile );
led4=led3;
led3=led2;
led2=led1;
led1=!led4;
}
fclose(cfile);
fclose(lfile);
remove("/usb/CANary.bin"); // delete original
mbed_reset(); //restart
}
}*/
secsNoMsg = 0;
//read efficiency history data
hfile = fopen("/local/ehist.cny", "r");
if (hfile!=NULL){ // found a efficiency history file
for(i=0;i<39;i++){
if(!feof(hfile)){
fscanf(hfile,"%f %f\r\n",&mph[i],&kW[i]);
mpkWh[i]=mph[i]/kW[i];
}
}
fclose(hfile);
sprintf(sTemp,"History Loaded.\n");
printMsg(sTemp); // History loaded
} else { // create initial file
sprintf(sTemp,"History not found. Created.\n");
printMsg(sTemp); // history not found, created
for(i=0;i<39;i++){
// Pre-load with 4 mpkWh @ 40 mph
mph[i]=40*timeConstant[i];
kW[i]=10*timeConstant[i];
mpkWh[i]=4;
}
}
// Read config file
readConfig();
// Start monitors
can1.monitor(true); // set to snoop mode
can2.monitor(true); // set to snoop mode
can1.frequency(500000);
can2.frequency(500000);
can1SleepMode = 1; // Turn on Monitor_only Mode
can2SleepMode = 1; // Turn on Monitor_only Mode
can1.attach(&recieve1);
can2.attach(&recieve2);
touched=false;
secsNoTouch=2;
while (true) {
if (!logOpen) { // Open new file if one is not already open
if(logEn){ //logging enable
seconds = time(NULL);
t = *localtime(&seconds) ;
strftime(fileName, 32, "/usb/%m%d%H%M.alc", &t); //mmddhhmm.alc
//sprintf(sTemp,"Using file %s\n",fileName);
//printMsg(sTemp); // using alc file ...
lfile = fopen(fileName, "ab");
lastDMode[0]=99;//force refresh
lastDMode[1]=99;//force refresh
if(lfile==NULL){
sprintf(sTemp,"\nUnable to open %s\n\n\n\n",fileName);
printMsg(sTemp); // cannot open alc file
logEn=false;
spkr.beep(1000,0.25);
} else {
logOpen = true;
readPointer=writePointer;
sprintf(sTemp,"Starting Can Log %s\n",fileName);
printMsg(sTemp); // starting alc log file
logTS(); // Date Time at start
logEvent("Starting"); // Log startup msg for testing
sprintf(sTemp,"Cr%s",revStr);
logEvent(sTemp); // gg - log firmware version
spkr.beep(2000,0.25);
}
}//logging enabled
} else { // if (logOpen)
pointerSep=(writePointer+maxBufLen-readPointer)%maxBufLen;
if (pointerSep>(maxBufLen/16)||canIdle||!logEn) {
// Dump buffer if > 1/16 full or canbus has stopped
if (lfile == NULL) {
logOpen = false;
sprintf(sTemp,"Failed to append log file.\n");
printMsg(sTemp); // failed to append
spkr.beep(3000,0.25);
spkr.beep(1500,0.25);
spkr.beep(750,0.25);
spkr.beep(375,0.25);
logEn=false;
} else {
while (readPointer != writePointer) {
for (j = 0; j<13; j++){
fprintf(lfile,"%c",writeBuffer[readPointer][j]);
}
if(++readPointer >= maxBufLen){
readPointer=0;
led4 = !led4;
}
}
}
} // if > 1/16 full, canbus has stopped, or logging stopped
if (!logEn) {
sprintf(sTemp,"Stopping Can Log %s\n",fileName);
printMsg(sTemp); // stopping alc log file
fclose(lfile);
logOpen=false;
pointerSep=0;
}
} // if logOpen
if (canIdle&&userIdle&&!playbackEn) { // canbus idle --> sleep to save power
if (repeatPoll) { // stop autopolling if enabled
autoPoll.detach();
}
if (logOpen){
fclose(lfile);
} // if (logOpen)*/
seconds = time(NULL);
t = *localtime(&seconds) ;
strftime(sTemp, 40, "Sleeping: %a %m/%d/%Y %X\n", &t);
printMsg(sTemp); // sleeping date time
updateDisplay(0); //Added for turbo3 who has a display override and wants to see the sleep message before going to sleep
updateDisplay(1);
//LPC_RTC->CIIR=0x00; // block RTC interrupts
led1=0;
led2=0;
led3=0;
led4=0;
dled=0; // turn off display
secs = time(NULL); // seconds past 12:00:00 AM 1 Jan 1900
while (secsNoMsg>canTimeout && !touched) {
//DeepPowerDown();
tt.wfi(); //enable touch interrupt
//__wfi(); // freeze CPU and wait for interrupt (from canbus or touch)
Sleep();
}
lastDMode[0]=99;
lastDMode[1]=99;
secsNoTouch=2;
canIdle=secsNoMsg>canTimeout;
dled=0.8; // turn on display LED
seconds = time(NULL);
t = *localtime(&seconds) ;
strftime(sTemp, 40, "Waking: %a %m/%d/%Y %X\n", &t);
printMsg(sTemp); // wakeup date time
if (time(NULL)>(secs+1800)) {
logOpen = false; // Start new file if asleep for more than 30 minutes
if (secsNoTouch>100) secsNoTouch = 100; // also mostly reset user Idle counter
} else if (logOpen){ // insert timestamp on each wake if logging enabled (disabled for now)
lfile = fopen(fileName, "ab");
logEvent("WakingUp"); // gg - use messeges
logTS(); // Date-Time at wakeup
}
if (repeatPoll) { // re-enable autopolling if enabled
autoPoll.attach(&autoPollISR,pollInt);
}
} // if idle
if(touched){ // call touchscreen procedure if touch interrupt detected
lastTouch = tt.get_touch();
lastTouch = tt.to_pixel(lastTouch); // convert to pixel pos
if((lastTouch.x!=639)&&(lastTouch.x!=319)&&(lastTouch.y!=239)){ // filter phantom touches
if (userIdle) {
secsNoTouch=2; // Ignore first touch if user idle
userIdle=false;
} else {
secsNoTouch=0;
}
if (lastTouch.x>320){
whichTouched=1;
} else {
whichTouched=0;
}
if (whichTouched!=lwt){
lastDMode[lwt]=99; // Repaint lastTouched
lwt=whichTouched;
}
sMode = 1;
}
//sprintf(sTemp,"%d,%d ",lastTouch.x,lastTouch.y);
//printMsg(sTemp); // touch x,y - for debug
touched = false; // clear interrupt flag
}
//---------------
// gg - 4x4 touch
//unsigned char tScrn = 0 ; // screen 0
unsigned char tCol ;
unsigned char tRow ;
if (!userIdle) {
if (secsNoTouch<2) {// Recently touched
secsNoTouch +=2; // increment to prevent double touch
sMode = 1;
//sprintf(sTemp,"button %d %d,%d %d\n",i,buttonX(lastTouch.x,3),buttonY(lastTouch.y,3),lastTouch.x);
//printMsg(sTemp); // button parms - for debug
switch (sMode) {
case 0: // no select
break;
case 1: // select screen
//--------------
// gg - 4x4 touch
tCol = buttonX(lastTouch.x,4) ;
if( tCol >= 4 ){ tCol -= 4; } // touch is on screen 1
tRow = buttonY(lastTouch.y,4) ;
highlightButton( tCol,tRow, whichTouched, 4,4) ; // gg - highlight
if( tRow == tNavRow ) tRow = 7 ; // gg
switch ( (tCol*10) + tRow ) {
//---------------------------------
case 00: // top row, left button on screen 0 or 1
if (dMode[whichTouched]==monitorScreen||dMode[whichTouched]==changedScreen) {
indexOffset=indexOffset>4?indexOffset-4:1;
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = mainScreen ; // GoTo Main Screen
sMode=0;
} else if (dMode[whichTouched]==configScreen) {
wait_ms(500);
tt.background(Black);
tt.calibrate();
} else if (dMode[whichTouched]==playbackScreen) { // slower
playbackInt *=2;
if(playbackEn){
playback.detach();
playback.attach(&playbackISR,playbackInt);
}
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//-----------------------------------------------
case 10: // 1,0 (col left of center,top row) on screen 0 or 1
if (dMode[whichTouched]==changedScreen) {
for(j=0;j<100;j++) msgChanged[j]=0; // clear changed data
lastDMode[whichTouched]=99;//force refresh
} else if (dMode[whichTouched] == indexScreen) { // gg - index
sMode=0;
dMode[whichTouched] = brakeScreen ; // GoTo Brake Screen
} else if (dMode[whichTouched]==cpScreen) {
reqMsgCnt=0;
msgReq.attach(&sendReq,0.015);
} else if (dMode[whichTouched]==cpHistScreen) { // gg - hist
reqMsgCnt=0;
msgReq.attach(&sendReq,0.015);
} else if (dMode[whichTouched]==cpBarScreen) { // gg - cpbars
reqMsgCnt=0;
msgReq.attach(&sendReq,0.015);
} else if (dMode[whichTouched]==configScreen) {
mbed_reset();
} else if (dMode[whichTouched]==playbackScreen) { // pause/unpause
playbackEn=!playbackEn;
if(playbackEn){
playback.attach(&playbackISR,playbackInt);
} else {
playback.detach();
}
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//--------------------------------------
case 20: // col 2 and row 0 on either screen 0 or 1
if (dMode[whichTouched]==monitorScreen||dMode[whichTouched]==changedScreen) {
indexOffset=indexOffset<77?indexOffset+4:80;
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = effScreen ; // GoTo EFF Screen
sMode=0;
} else if (dMode[whichTouched]==configScreen) {
sprintf(sTemp,"Saving config file.\n");
printMsg(sTemp); // saving config
saveConfig();
spkr.beep(2000,0.25);
} else if (dMode[whichTouched]==playbackScreen) { // faster
if(playbackInt>.002){
playbackInt/=2;
if(playbackEn){
playback.detach();
playback.attach(&playbackISR,playbackInt);
}
}
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
case 30: // right-most on top row
if (dMode[whichTouched]==configScreen) {
// step through skins
if( skin < maxSkin ) skin += 1 ;
else skin = 0 ;
// repaint both screens, I think
lastDMode[whichTouched]=99;//repaint to clear highlight
// and re-paint the other screen too, to see new skin there
lastDMode[whichTouched ^ 1]=99; // repaint other screen (^ = XOR)
//sprintf(sTemp,"Changed Skin to %d.\n");
//printMsg(sTemp); /// changed skin - for debug
//saveConfig();
//spkr.beep(2000,0.25);
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = dteScreen ; // GoTo DTE Screen
sMode=0;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//----------------------------------
//----------------------------------
case 01: // left col middle row
if (dMode[whichTouched]==configScreen) {
logEn = !logEn;
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = cpScreen ; // GoTo CP Data Screen
sMode=0;
} else if (dMode[whichTouched]==dateScreen){
dtMode=(dtMode<6)?dtMode+1:0;
lastDMode[whichTouched]=99;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//------------------------------
case 11:
if (dMode[whichTouched]==configScreen){
repeatPoll = !repeatPoll;
if (repeatPoll) {
autoPoll.attach(&autoPollISR,pollInt);
} else {
autoPoll.detach();
}
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = cpHistScreen ; // GoTo CP Hist Screen
sMode=0;
} else if (dMode[whichTouched]==playbackScreen) {
// Start/stop playback
if(!playbackOpen){
if(!logOpen){
lfile = fopen("/usb/playback.alc", "rb");
lastDMode[whichTouched]=99;//force refresh
if(lfile==NULL){
sprintf(sTemp,"Unable to open /usb/playback.alc\n");
printMsg(sTemp); // no playback.alc
spkr.beep(1000,0.25);
} else {
playbackOpen = true;
playbackEn=true;
playback.attach(&playbackISR,playbackInt);
sprintf(sTemp,"Starting playback\n");
printMsg(sTemp); // start playback
spkr.beep(2000,0.25);
can1.attach(&doNothing);// Stop recieving CAN data
can2.attach(&doNothing);
}
} else {
sprintf(sTemp,"Must stop logging first\n");
printMsg(sTemp); // Must stop logging first
}
} else {
playback.detach();
fclose(lfile);
playbackOpen=false;
playbackEn=false;
can1.attach(&recieve1);// Restore CAN data recieve
can2.attach(&recieve2);
lastDMode[whichTouched]=99;
}
} else if (dMode[whichTouched]==dateScreen){
upDate(dtMode,true);
lastDMode[whichTouched]=99;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//---------------------------------
case 21: // col 2 row 1
if (dMode[whichTouched]==configScreen) { // gg - Batt Log Enable Button
yesBattLog = !yesBattLog;
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = cpBarScreen ; // GoTo CP Bars Screen
sMode=0;
} else if (dMode[whichTouched]==dateScreen){
upDate(dtMode,false);
lastDMode[whichTouched]=99;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
case 31: // col 3 row 1
if (dMode[whichTouched]==configScreen) { // gg - Batt Log Enable Button
debugMode = !debugMode;
} else if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = configScreen ; // GoTo Config Screen
} else if (dMode[whichTouched] == tripScreen) {
miles_trip[0]=0;
kWh_trip[0]=0;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//-----------------------------------
case 02: // left col, bottom row (not nav)
if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = playbackScreen ; // GoTo Playback Screen
} else if (dMode[whichTouched]==configScreen) {
metric = !metric; // toggle metric/imperial display
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
case 12: // left-middle col, bottom row (not nav)
if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = dateScreen ; // GoTo Set Date/Time Screen
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
case 22: // right-middle col, bottom row (not nav)
if (dMode[whichTouched] == indexScreen) { // gg - index
dMode[whichTouched] = logScreen ;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
case 32: // right col, bottom row (not nav)
if (dMode[whichTouched] == configScreen) {
updateFirmware();
} else if (dMode[whichTouched] == tripScreen) {
miles_trip[1]=0;
kWh_trip[1]=0;
} else {
lastDMode[whichTouched]=99;//repaint to clear highlight
}
break;
//-----------------------------------
//-----------------------------------
// Prev Navigation
case 07: // col 0 row tNavRow
dMode[whichTouched]=dMode[whichTouched]>0?dMode[whichTouched]-1:maxScreens;
break;
//-----------------------------------
// Select Screen Navigation
case 17:
//secsNoTouch = userTimeout; // immediately exit config mode
sMode=0;
lastDMode[whichTouched]=99; // Repaint
break;
//-----------------------------------
// Index Navigation
case 27: // col 2 row tNavRow
dMode[whichTouched]= indexScreen ; // gg - index
break;
//------------------------------------
// Next Navigation
case 37: // lower right on Nav Line gg - move next
dMode[whichTouched]=dMode[whichTouched]<maxScreens?dMode[whichTouched]+1:0;
break;
//------------------------------------
//------------------------------------
default:
lastDMode[whichTouched]=99;//repaint to clear highlight
break;
}
break;
case 2: // numpad
break;
case 3:
break;
default:
break;
} // case sMode
} //recently touched
} else { // userIdle
if(sMode==1){
sMode=0;
lastDMode[whichTouched]=99;
}
}
if(tick){ // Executes once a second
headlights = (lastMsg[indexLastMsg[0x358]].data[1]&0x80)?true:false; // headlight/turn signal indicator
accV=floor(mon12V*scale12V*10+0.5)/10; //Round to nearest 10th
accOn=(accV>5)?true:false;
if(laccOn&&!accOn){ // Car turned off
//write efficiency history data
hfile = fopen("/local/ehist.cny", "w");
if (hfile!=NULL){ // found a efficiency history file
for(i=0;i<39;i++){
fprintf(hfile,"%f %f\r\n",mph[i],kW[i]);
}
fclose(hfile);
}
}
if(!laccOn&&accOn){ // Car turned on
miles_trip[2]=0;
kWh_trip[2]=0;
}
laccOn=accOn;
if(!accOn&&!logEn&&userIdle&&!playbackEn){
dled = 0; // turn off display if car off and logging disabled and no user activity
}else if(!headlights){
dled = ledHi;
} else {
dled = ledLo;
}
//compute historic efficiency
if(numSsamples>0){ // Avoid div0
mph[0]=((float) motorRPM)/numSsamples/215; // Empirically derived - may change car to car
} else {
mph[0]=0;
}
if(mph[0]>99){
mph[0]=0;
}
mpkWh[0]=mph[0];
miles_trip[0]+=mph[0]/3600;
miles_trip[1]+=mph[0]/3600;
miles_trip[2]+=mph[0]/3600;
if(numWsamples>0){ // Avoid div0
kW[0]=((float) mWs_x4)/numWsamples/4e3;
mpkWh[0]/=kW[0];
if (mpkWh[0]<0) {
mpkWh[0]=99;// negative means inf.
}
} else {
kW[0]=0;
mpkWh[0]=0;
}
kWh_trip[0]+=kW[0]/3600;
kWh_trip[1]+=kW[0]/3600;
kWh_trip[2]+=kW[0]/3600;
motorRPM=0;
numSsamples=0;
mWs_x4=0;
numWsamples=0;
if(accOn||playbackEn){
for(i=1;i<39;i++){
average=mph[i]/timeConstant[i];
mph[i]-=average;
mph[i]+=mph[0];
mpkWh[i]=average;
average=kW[i]/timeConstant[i];
if((mph[0]>0)||(kW[0]>0)){ //Not charging - so include in efficiency data
kW[i]-=average;
kW[i]+=kW[0];
}
mpkWh[i]/=average;
if (mpkWh[i]<0) {
mpkWh[i]=99;// negative means inf.
}
//mpkWh[i]=floor(mpkWh[i]*10+0.5)/10; // Round to nearest 10th
}
}
updateDTE=true;
if(logCP)
logPackVoltages(); // Turbo3, only call
tick=false;
}
display=display<1?display+1:0; // toggle display
updateDisplay(display);
if(step){ // playback
if(playbackOpen&&playbackEn){
for(i=0;i<120;i++){
if(!feof(lfile)){
fscanf(lfile,"%5c%8c",&header,&data);
logCan(header[0],CANMessage(0x7ff&((header[4]<<8)+header[3]), data, 8)); // Playback
} else {
fclose(lfile); // restart
lfile = fopen("/usb/playback.alc", "rb");
lastDMode[whichTouched]=99;//force refresh
spkr.beep(2000,0.25);
}
}
}
step=false;
}
} //while (true)
}