Pinscape Controller version 1 fork. This is a fork to allow for ongoing bug fixes to the original controller version, from before the major changes for the expansion board project.
Dependencies: FastIO FastPWM SimpleDMA mbed
Fork of Pinscape_Controller by
config.h@35:e959ffba78fd, 2015-12-19 (annotated)
- Committer:
- mjr
- Date:
- Sat Dec 19 06:37:19 2015 +0000
- Revision:
- 35:e959ffba78fd
- Parent:
- 34:6b981a2afab7
- Child:
- 38:091e511ce8a0
Keyboard/Media Control interface working, but the extra interface confuses the DOF connector.
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
mjr | 17:ab3cec0c8bf4 | 1 | // Pinscape Controller Configuration |
mjr | 17:ab3cec0c8bf4 | 2 | // |
mjr | 35:e959ffba78fd | 3 | // New for 2016: dynamic configuration! To configure the controller, connect |
mjr | 35:e959ffba78fd | 4 | // the KL25Z to your PC, install the .bin file, and run the Windows config tool. |
mjr | 35:e959ffba78fd | 5 | // There's no need (as there was in the past) to edit this file or to compile a |
mjr | 35:e959ffba78fd | 6 | // custom version of the binary (.bin) to customize setup options. |
mjr | 35:e959ffba78fd | 7 | // |
mjr | 35:e959ffba78fd | 8 | // In earlier versions, configuration was largely handled with compile-time |
mjr | 35:e959ffba78fd | 9 | // constants. To customize the setup, you had to create a private forked copy |
mjr | 35:e959ffba78fd | 10 | // of the source code, edit the constants defined in config.h, and compile a |
mjr | 35:e959ffba78fd | 11 | // custom binary. That's no longer necessary! |
mjr | 35:e959ffba78fd | 12 | // |
mjr | 35:e959ffba78fd | 13 | // The new approach is to do everything (or as much as possible, anyway) |
mjr | 35:e959ffba78fd | 14 | // via the Windows config tool. You shouldn't have to recompile a custom |
mjr | 35:e959ffba78fd | 15 | // version just to make a configurable change. Of course, you're still free |
mjr | 35:e959ffba78fd | 16 | // to create a custom version if you need to add or change features in ways |
mjr | 35:e959ffba78fd | 17 | // that weren't anticipated in the original design. |
mjr | 35:e959ffba78fd | 18 | // |
mjr | 35:e959ffba78fd | 19 | |
mjr | 17:ab3cec0c8bf4 | 20 | |
mjr | 25:e22b88bd783a | 21 | #ifndef CONFIG_H |
mjr | 25:e22b88bd783a | 22 | #define CONFIG_H |
mjr | 17:ab3cec0c8bf4 | 23 | |
mjr | 33:d832bcab089e | 24 | |
mjr | 35:e959ffba78fd | 25 | // Plunger type codes |
mjr | 35:e959ffba78fd | 26 | // NOTE! These values are part of the external USB interface. New |
mjr | 35:e959ffba78fd | 27 | // values can be added, but the meaning of an existing assigned number |
mjr | 35:e959ffba78fd | 28 | // should remain fixed to keep the PC-side config tool compatible across |
mjr | 35:e959ffba78fd | 29 | // versions. |
mjr | 35:e959ffba78fd | 30 | const int PlungerType_None = 0; // no plunger |
mjr | 35:e959ffba78fd | 31 | const int PlungerType_TSL1410RS = 1; // TSL1410R linear image sensor (1280x1 pixels, 400dpi), serial mode |
mjr | 35:e959ffba78fd | 32 | const int PlungerType_TSL1410RP = 2; // TSL1410R, parallel mode (reads the two sensor sections concurrently) |
mjr | 35:e959ffba78fd | 33 | const int PlungerType_TSL1412RS = 3; // TSL1412R linear image sensor (1536x1 pixels, 400dpi), serial mode |
mjr | 35:e959ffba78fd | 34 | const int PlungerType_TSL1412RP = 4; // TSL1412R, parallel mode |
mjr | 35:e959ffba78fd | 35 | const int PlungerType_Pot = 5; // potentionmeter |
mjr | 35:e959ffba78fd | 36 | const int PlungerType_OptQuad = 6; // AEDR8300 optical quadrature sensor |
mjr | 35:e959ffba78fd | 37 | const int PlungerType_MagQuad = 7; // AS5304 magnetic quadrature sensor |
mjr | 21:5048e16cc9ef | 38 | |
mjr | 35:e959ffba78fd | 39 | // Accelerometer orientation codes |
mjr | 35:e959ffba78fd | 40 | // These values are part of the external USB interface |
mjr | 35:e959ffba78fd | 41 | const int OrientationFront = 0; // USB ports pointed toward front of cabinet |
mjr | 35:e959ffba78fd | 42 | const int OrientationLeft = 1; // ports pointed toward left side of cabinet |
mjr | 35:e959ffba78fd | 43 | const int OrientationRight = 2; // ports pointed toward right side of cabinet |
mjr | 35:e959ffba78fd | 44 | const int OrientationRear = 3; // ports pointed toward back of cabinet |
mjr | 25:e22b88bd783a | 45 | |
mjr | 35:e959ffba78fd | 46 | // input button types |
mjr | 35:e959ffba78fd | 47 | const int BtnTypeJoystick = 1; // joystick button |
mjr | 35:e959ffba78fd | 48 | const int BtnTypeKey = 2; // regular keyboard key |
mjr | 35:e959ffba78fd | 49 | const int BtnTypeModKey = 3; // keyboard modifier key (shift, ctrl, etc) |
mjr | 35:e959ffba78fd | 50 | const int BtnTypeMedia = 4; // media control key (volume up/down, etc) |
mjr | 33:d832bcab089e | 51 | |
mjr | 35:e959ffba78fd | 52 | // maximum number of input button mappings |
mjr | 35:e959ffba78fd | 53 | const int MAX_BUTTONS = 32; |
mjr | 33:d832bcab089e | 54 | |
mjr | 35:e959ffba78fd | 55 | // LedWiz output port type codes |
mjr | 35:e959ffba78fd | 56 | // These values are part of the external USB interface |
mjr | 35:e959ffba78fd | 57 | const int PortTypeDisabled = 0; // port is disabled - not visible to LedWiz/DOF host |
mjr | 35:e959ffba78fd | 58 | const int PortTypeGPIOPWM = 1; // GPIO port, PWM enabled |
mjr | 35:e959ffba78fd | 59 | const int PortTypeGPIODig = 2; // GPIO port, digital out |
mjr | 35:e959ffba78fd | 60 | const int PortTypeTLC5940 = 3; // TLC5940 port |
mjr | 35:e959ffba78fd | 61 | const int PortType74HC595 = 4; // 74HC595 port |
mjr | 35:e959ffba78fd | 62 | const int PortTypeVirtual = 5; // Virtual port - visible to host software, but not connected to a physical output |
mjr | 17:ab3cec0c8bf4 | 63 | |
mjr | 35:e959ffba78fd | 64 | // LedWiz output port flag bits |
mjr | 35:e959ffba78fd | 65 | const uint8_t PortFlagActiveLow = 0x01; // physical output is active-low |
mjr | 35:e959ffba78fd | 66 | |
mjr | 35:e959ffba78fd | 67 | // maximum number of output ports |
mjr | 35:e959ffba78fd | 68 | const int MAX_OUT_PORTS = 203; |
mjr | 33:d832bcab089e | 69 | |
mjr | 35:e959ffba78fd | 70 | struct Config |
mjr | 35:e959ffba78fd | 71 | { |
mjr | 35:e959ffba78fd | 72 | // set all values to factory defaults |
mjr | 35:e959ffba78fd | 73 | void setFactoryDefaults() |
mjr | 35:e959ffba78fd | 74 | { |
mjr | 35:e959ffba78fd | 75 | // By default, pretend to be LedWiz unit #8. This can be from 1 to 16. Real |
mjr | 35:e959ffba78fd | 76 | // LedWiz units have their unit number set at the factory, and the vast majority |
mjr | 35:e959ffba78fd | 77 | // are set up as unit #1, since that's the default for anyone who doesn't ask |
mjr | 35:e959ffba78fd | 78 | // for a different setting. It seems rare for anyone to use more than one unit |
mjr | 35:e959ffba78fd | 79 | // in a pin cab, but for the few who do, the others will probably be numbered |
mjr | 35:e959ffba78fd | 80 | // sequentially as #2, #3, etc. It seems safe to assume that no one out there |
mjr | 35:e959ffba78fd | 81 | // has a unit #8, so we'll use that as our default starting number. This can |
mjr | 35:e959ffba78fd | 82 | // be changed from the config tool, but for the sake of convenience we want the |
mjr | 35:e959ffba78fd | 83 | // default to be a value that most people won't have to change. |
mjr | 35:e959ffba78fd | 84 | usbVendorID = 0xFAFA; // LedWiz vendor code |
mjr | 35:e959ffba78fd | 85 | usbProductID = 0x00F7; // LedWiz product code for unit #8 |
mjr | 35:e959ffba78fd | 86 | psUnitNo = 8; |
mjr | 35:e959ffba78fd | 87 | |
mjr | 35:e959ffba78fd | 88 | // enable joystick reports |
mjr | 35:e959ffba78fd | 89 | joystickEnabled = true; |
mjr | 35:e959ffba78fd | 90 | |
mjr | 35:e959ffba78fd | 91 | // assume standard orientation, with USB ports toward front of cabinet |
mjr | 35:e959ffba78fd | 92 | orientation = OrientationFront; |
mjr | 25:e22b88bd783a | 93 | |
mjr | 35:e959ffba78fd | 94 | // assume no plunger is attached |
mjr | 35:e959ffba78fd | 95 | plunger.enabled = false; |
mjr | 35:e959ffba78fd | 96 | plunger.sensorType = PlungerType_None; |
mjr | 35:e959ffba78fd | 97 | |
mjr | 35:e959ffba78fd | 98 | // assume that there's no calibration button |
mjr | 35:e959ffba78fd | 99 | plunger.cal.btn = NC; |
mjr | 35:e959ffba78fd | 100 | plunger.cal.led = NC; |
mjr | 35:e959ffba78fd | 101 | |
mjr | 35:e959ffba78fd | 102 | // clear the plunger calibration |
mjr | 35:e959ffba78fd | 103 | plunger.cal.reset(4096); |
mjr | 35:e959ffba78fd | 104 | |
mjr | 35:e959ffba78fd | 105 | // disable the ZB Launch Ball by default |
mjr | 35:e959ffba78fd | 106 | plunger.zbLaunchBall.port = 0; |
mjr | 35:e959ffba78fd | 107 | plunger.zbLaunchBall.btn = 0; |
mjr | 35:e959ffba78fd | 108 | |
mjr | 35:e959ffba78fd | 109 | // assume no TV ON switch |
mjr | 35:e959ffba78fd | 110 | TVON.statusPin = NC; |
mjr | 35:e959ffba78fd | 111 | TVON.latchPin = NC; |
mjr | 35:e959ffba78fd | 112 | TVON.relayPin = NC; |
mjr | 35:e959ffba78fd | 113 | TVON.delayTime = 0; |
mjr | 35:e959ffba78fd | 114 | |
mjr | 35:e959ffba78fd | 115 | // assume no TLC5940 chips |
mjr | 35:e959ffba78fd | 116 | tlc5940.nchips = 0; |
mjr | 35:e959ffba78fd | 117 | |
mjr | 35:e959ffba78fd | 118 | // assume no 74HC595 chips |
mjr | 35:e959ffba78fd | 119 | hc595.nchips = 0; |
mjr | 35:e959ffba78fd | 120 | |
mjr | 35:e959ffba78fd | 121 | // initially configure with no LedWiz output ports |
mjr | 35:e959ffba78fd | 122 | outPort[0].typ = PortTypeDisabled; |
mjr | 35:e959ffba78fd | 123 | |
mjr | 35:e959ffba78fd | 124 | // initially configure with no input buttons |
mjr | 35:e959ffba78fd | 125 | for (int i = 0 ; i < MAX_BUTTONS ; ++i) |
mjr | 35:e959ffba78fd | 126 | button[i].pin = 0; // 0 == index of NC in USB-to-PinName mapping |
mjr | 35:e959ffba78fd | 127 | |
mjr | 35:e959ffba78fd | 128 | button[0].pin = 6; // PTA13 |
mjr | 35:e959ffba78fd | 129 | button[0].typ = BtnTypeKey; |
mjr | 35:e959ffba78fd | 130 | button[0].val = 4; // A |
mjr | 35:e959ffba78fd | 131 | button[1].pin = 38; // PTD5 |
mjr | 35:e959ffba78fd | 132 | button[1].typ = BtnTypeJoystick; |
mjr | 35:e959ffba78fd | 133 | button[1].val = 5; // B |
mjr | 35:e959ffba78fd | 134 | button[2].pin = 37; // PTD4 |
mjr | 35:e959ffba78fd | 135 | button[2].typ = BtnTypeModKey; |
mjr | 35:e959ffba78fd | 136 | button[2].val = 0x02; // left shift |
mjr | 35:e959ffba78fd | 137 | button[3].pin = 5; // PTA12 |
mjr | 35:e959ffba78fd | 138 | button[3].typ = BtnTypeMedia; |
mjr | 35:e959ffba78fd | 139 | button[3].val = 0x01; // volume up |
mjr | 35:e959ffba78fd | 140 | button[4].pin = 3; // PTA4 |
mjr | 35:e959ffba78fd | 141 | button[4].typ = BtnTypeMedia; |
mjr | 35:e959ffba78fd | 142 | button[4].val = 0x02; // volume down |
mjr | 35:e959ffba78fd | 143 | } |
mjr | 35:e959ffba78fd | 144 | |
mjr | 35:e959ffba78fd | 145 | // --- USB DEVICE CONFIGURATION --- |
mjr | 35:e959ffba78fd | 146 | |
mjr | 35:e959ffba78fd | 147 | // USB device identification - vendor ID and product ID. For LedLWiz |
mjr | 35:e959ffba78fd | 148 | // emulation, use vendor ID 0xFAFA and product ID 0x00EF + unit#, where |
mjr | 35:e959ffba78fd | 149 | // unit# is the nominal LedWiz unit number from 1 to 16. Alternatively, |
mjr | 35:e959ffba78fd | 150 | // if LedWiz emulation isn't desired or causes any driver conflicts on |
mjr | 35:e959ffba78fd | 151 | // the host, we have a private Pinscape assignment as vendor ID 0x1209 |
mjr | 35:e959ffba78fd | 152 | // and product ID 0xEAEA (registered with http://pid.codes, a registry |
mjr | 35:e959ffba78fd | 153 | // for open-source USB projects). |
mjr | 35:e959ffba78fd | 154 | uint16_t usbVendorID; |
mjr | 35:e959ffba78fd | 155 | uint16_t usbProductID; |
mjr | 35:e959ffba78fd | 156 | |
mjr | 35:e959ffba78fd | 157 | // Pinscape Controller unit number. This is the nominal unit number, |
mjr | 35:e959ffba78fd | 158 | // from 1 to 16. We report this in the status query; DOF uses it to |
mjr | 35:e959ffba78fd | 159 | // distinguish multiple Pinscape units. Note that this doesn't affect |
mjr | 35:e959ffba78fd | 160 | // the LedWiz unit numbering, which is implied by the USB Product ID. |
mjr | 35:e959ffba78fd | 161 | uint8_t psUnitNo; |
mjr | 35:e959ffba78fd | 162 | |
mjr | 35:e959ffba78fd | 163 | // Are joystick reports enabled? Joystick reports can be turned off, to |
mjr | 35:e959ffba78fd | 164 | // use the device as purely an output controller. |
mjr | 35:e959ffba78fd | 165 | char joystickEnabled; |
mjr | 35:e959ffba78fd | 166 | |
mjr | 35:e959ffba78fd | 167 | |
mjr | 35:e959ffba78fd | 168 | // --- ACCELEROMETER --- |
mjr | 35:e959ffba78fd | 169 | |
mjr | 35:e959ffba78fd | 170 | // accelerometer orientation (ORIENTATION_xxx value) |
mjr | 35:e959ffba78fd | 171 | char orientation; |
mjr | 35:e959ffba78fd | 172 | |
mjr | 35:e959ffba78fd | 173 | |
mjr | 35:e959ffba78fd | 174 | // --- PLUNGER CONFIGURATION --- |
mjr | 35:e959ffba78fd | 175 | struct |
mjr | 35:e959ffba78fd | 176 | { |
mjr | 35:e959ffba78fd | 177 | // plunger enabled/disabled |
mjr | 35:e959ffba78fd | 178 | char enabled; |
mjr | 33:d832bcab089e | 179 | |
mjr | 35:e959ffba78fd | 180 | // plunger sensor type |
mjr | 35:e959ffba78fd | 181 | char sensorType; |
mjr | 35:e959ffba78fd | 182 | |
mjr | 35:e959ffba78fd | 183 | // Plunger sensor pins. To accommodate a wide range of sensor types, |
mjr | 35:e959ffba78fd | 184 | // we keep a generic list of 4 pin assignments. The use of each pin |
mjr | 35:e959ffba78fd | 185 | // varies by sensor. The lists below are in order of the generic |
mjr | 35:e959ffba78fd | 186 | // pins; NC means that the pin isn't used by the sensor. Each pin's |
mjr | 35:e959ffba78fd | 187 | // GPIO usage is also listed. Certain usages limit which physical |
mjr | 35:e959ffba78fd | 188 | // pins can be assigned (e.g., AnalogIn or PwmOut). |
mjr | 35:e959ffba78fd | 189 | // |
mjr | 35:e959ffba78fd | 190 | // TSL1410R/1412R, serial: SI (DigitalOut), CLK (DigitalOut), AO (AnalogIn), NC |
mjr | 35:e959ffba78fd | 191 | // TSL1410R/1412R, parallel: SI (DigitalOut), CLK (DigitalOut), AO1 (AnalogIn), AO2 (AnalogIn) |
mjr | 35:e959ffba78fd | 192 | // Potentiometer: AO (AnalogIn), NC, NC, NC |
mjr | 35:e959ffba78fd | 193 | // AEDR8300: A (InterruptIn), B (InterruptIn), NC, NC |
mjr | 35:e959ffba78fd | 194 | // AS5304: A (InterruptIn), B (InterruptIn), NC, NC |
mjr | 35:e959ffba78fd | 195 | PinName sensorPin[4]; |
mjr | 35:e959ffba78fd | 196 | |
mjr | 35:e959ffba78fd | 197 | // Pseudo LAUNCH BALL button. |
mjr | 35:e959ffba78fd | 198 | // |
mjr | 35:e959ffba78fd | 199 | // This configures the "ZB Launch Ball" feature in DOF, based on Zeb's (of |
mjr | 35:e959ffba78fd | 200 | // zebsboards.com) scheme for using a mechanical plunger as a Launch button. |
mjr | 35:e959ffba78fd | 201 | // Set the port to 0 to disable the feature. |
mjr | 35:e959ffba78fd | 202 | // |
mjr | 35:e959ffba78fd | 203 | // The port number is an LedWiz port number that we monitor for activation. |
mjr | 35:e959ffba78fd | 204 | // This port isn't connected to a physical device; rather, the host turns it |
mjr | 35:e959ffba78fd | 205 | // on to indicate that the pseudo Launch button mode is in effect. |
mjr | 35:e959ffba78fd | 206 | // |
mjr | 35:e959ffba78fd | 207 | // The button number gives the button that we "press" when a launch occurs. |
mjr | 35:e959ffba78fd | 208 | // This can be connected to the physical Launch button, or can simply be |
mjr | 35:e959ffba78fd | 209 | // an otherwise unused button. |
mjr | 35:e959ffba78fd | 210 | // |
mjr | 35:e959ffba78fd | 211 | // The "push distance" is the distance, in inches, for registering a push |
mjr | 35:e959ffba78fd | 212 | // on the plunger as a button push. If the player pushes the plunger forward |
mjr | 35:e959ffba78fd | 213 | // of the rest position by this amount, we'll treat it as pushing the button, |
mjr | 35:e959ffba78fd | 214 | // even if the player didn't pull back the plunger first. This lets the |
mjr | 35:e959ffba78fd | 215 | // player treat the plunger knob as a button for games where it's meaningful |
mjr | 35:e959ffba78fd | 216 | // to hold down the Launch button for specific intervals (e.g., "Championship |
mjr | 35:e959ffba78fd | 217 | // Pub"). |
mjr | 35:e959ffba78fd | 218 | struct |
mjr | 35:e959ffba78fd | 219 | { |
mjr | 35:e959ffba78fd | 220 | int port; |
mjr | 35:e959ffba78fd | 221 | int btn; |
mjr | 35:e959ffba78fd | 222 | float pushDistance; |
mjr | 35:e959ffba78fd | 223 | |
mjr | 35:e959ffba78fd | 224 | } zbLaunchBall; |
mjr | 35:e959ffba78fd | 225 | |
mjr | 35:e959ffba78fd | 226 | // --- PLUNGER CALIBRATION --- |
mjr | 35:e959ffba78fd | 227 | struct |
mjr | 35:e959ffba78fd | 228 | { |
mjr | 35:e959ffba78fd | 229 | // has the plunger been calibrated? |
mjr | 35:e959ffba78fd | 230 | int calibrated; |
mjr | 35:e959ffba78fd | 231 | |
mjr | 35:e959ffba78fd | 232 | // calibration button switch pin |
mjr | 35:e959ffba78fd | 233 | PinName btn; |
mjr | 35:e959ffba78fd | 234 | |
mjr | 35:e959ffba78fd | 235 | // calibration button indicator light pin |
mjr | 35:e959ffba78fd | 236 | PinName led; |
mjr | 35:e959ffba78fd | 237 | |
mjr | 35:e959ffba78fd | 238 | // Plunger calibration min, zero, and max. The zero point is the |
mjr | 35:e959ffba78fd | 239 | // rest position (aka park position), where it's in equilibrium between |
mjr | 35:e959ffba78fd | 240 | // the main spring and the barrel spring. It can travel a small distance |
mjr | 35:e959ffba78fd | 241 | // forward of the rest position, because the barrel spring can be |
mjr | 35:e959ffba78fd | 242 | // compressed by the user pushing on the plunger or by the momentum |
mjr | 35:e959ffba78fd | 243 | // of a release motion. The minimum is the maximum forward point where |
mjr | 35:e959ffba78fd | 244 | // the barrel spring can't be compressed any further. |
mjr | 35:e959ffba78fd | 245 | int min; |
mjr | 35:e959ffba78fd | 246 | int zero; |
mjr | 35:e959ffba78fd | 247 | int max; |
mjr | 35:e959ffba78fd | 248 | |
mjr | 35:e959ffba78fd | 249 | // reset the plunger calibration |
mjr | 35:e959ffba78fd | 250 | void reset(int npix) |
mjr | 35:e959ffba78fd | 251 | { |
mjr | 35:e959ffba78fd | 252 | calibrated = 0; // not calibrated |
mjr | 35:e959ffba78fd | 253 | min = 0; // assume we can go all the way forward... |
mjr | 35:e959ffba78fd | 254 | max = npix; // ...and all the way back |
mjr | 35:e959ffba78fd | 255 | zero = npix/6; // the rest position is usually around 1/2" back = 1/6 of total travel |
mjr | 35:e959ffba78fd | 256 | } |
mjr | 17:ab3cec0c8bf4 | 257 | |
mjr | 35:e959ffba78fd | 258 | } cal; |
mjr | 18:5e890ebd0023 | 259 | |
mjr | 35:e959ffba78fd | 260 | } plunger; |
mjr | 29:582472d0bc57 | 261 | |
mjr | 35:e959ffba78fd | 262 | |
mjr | 35:e959ffba78fd | 263 | // --- TV ON SWITCH --- |
mjr | 35:e959ffba78fd | 264 | // |
mjr | 35:e959ffba78fd | 265 | // To use the TV ON switch feature, the special power sensing circuitry |
mjr | 35:e959ffba78fd | 266 | // implemented on the Expansion Board must be attached (or an equivalent |
mjr | 35:e959ffba78fd | 267 | // circuit, as described in the Build Guide). The circuitry lets us |
mjr | 35:e959ffba78fd | 268 | // detect power state changes on the secondary power supply. |
mjr | 35:e959ffba78fd | 269 | struct |
mjr | 35:e959ffba78fd | 270 | { |
mjr | 35:e959ffba78fd | 271 | // PSU2 power status sense (DigitalIn pin). This pin goes LOW when the |
mjr | 35:e959ffba78fd | 272 | // secondary power supply is turned off, and remains LOW until the LATCH |
mjr | 35:e959ffba78fd | 273 | // pin is raised high AND the secondary PSU is turned on. Once HIGH, |
mjr | 35:e959ffba78fd | 274 | // it remains HIGH as long as the secondary PSU is on. |
mjr | 35:e959ffba78fd | 275 | PinName statusPin; |
mjr | 35:e959ffba78fd | 276 | |
mjr | 35:e959ffba78fd | 277 | // PSU2 power status latch (DigitalOut pin) |
mjr | 35:e959ffba78fd | 278 | PinName latchPin; |
mjr | 35:e959ffba78fd | 279 | |
mjr | 35:e959ffba78fd | 280 | // TV ON relay pin (DigitalOut pin). This pin controls the TV switch |
mjr | 35:e959ffba78fd | 281 | // relay. Raising the pin HIGH turns the relay ON (energizes the coil). |
mjr | 35:e959ffba78fd | 282 | PinName relayPin; |
mjr | 35:e959ffba78fd | 283 | |
mjr | 35:e959ffba78fd | 284 | // TV ON delay time, in seconds. This is the interval between sensing |
mjr | 35:e959ffba78fd | 285 | // that the secondary power supply has turned on and pulsing the TV ON |
mjr | 35:e959ffba78fd | 286 | // switch relay. |
mjr | 35:e959ffba78fd | 287 | float delayTime; |
mjr | 35:e959ffba78fd | 288 | |
mjr | 35:e959ffba78fd | 289 | } TVON; |
mjr | 35:e959ffba78fd | 290 | |
mjr | 29:582472d0bc57 | 291 | |
mjr | 35:e959ffba78fd | 292 | // --- TLC5940NT PWM Controller Chip Setup --- |
mjr | 35:e959ffba78fd | 293 | struct |
mjr | 35:e959ffba78fd | 294 | { |
mjr | 35:e959ffba78fd | 295 | // number of TLC5940NT chips connected in daisy chain |
mjr | 35:e959ffba78fd | 296 | int nchips; |
mjr | 35:e959ffba78fd | 297 | |
mjr | 35:e959ffba78fd | 298 | // pin connections |
mjr | 35:e959ffba78fd | 299 | PinName sin; // Serial data - must connect to SPIO MOSI -> PTC6 or PTD2 |
mjr | 35:e959ffba78fd | 300 | PinName sclk; // Serial clock - must connect to SPIO SCLK -> PTC5 or PTD1 |
mjr | 35:e959ffba78fd | 301 | // (but don't use PTD1, since it's hard-wired to the on-board blue LED) |
mjr | 35:e959ffba78fd | 302 | PinName xlat; // XLAT (latch) signal - connect to any GPIO pin |
mjr | 35:e959ffba78fd | 303 | PinName blank; // BLANK signal - connect to any GPIO pin |
mjr | 35:e959ffba78fd | 304 | PinName gsclk; // Grayscale clock - must connect to a PWM-out capable pin |
mjr | 29:582472d0bc57 | 305 | |
mjr | 35:e959ffba78fd | 306 | } tlc5940; |
mjr | 35:e959ffba78fd | 307 | |
mjr | 35:e959ffba78fd | 308 | |
mjr | 35:e959ffba78fd | 309 | // --- 74HC595 Shift Register Setup --- |
mjr | 35:e959ffba78fd | 310 | struct |
mjr | 35:e959ffba78fd | 311 | { |
mjr | 35:e959ffba78fd | 312 | // number of 74HC595 chips attached in daisy chain |
mjr | 35:e959ffba78fd | 313 | int nchips; |
mjr | 35:e959ffba78fd | 314 | |
mjr | 35:e959ffba78fd | 315 | // pin connections |
mjr | 35:e959ffba78fd | 316 | PinName sin; // Serial data - use any GPIO pin |
mjr | 35:e959ffba78fd | 317 | PinName sclk; // Serial clock - use any GPIO pin |
mjr | 35:e959ffba78fd | 318 | PinName latch; // Latch - use any GPIO pin |
mjr | 35:e959ffba78fd | 319 | PinName ena; // Enable signal - use any GPIO pin |
mjr | 35:e959ffba78fd | 320 | |
mjr | 35:e959ffba78fd | 321 | } hc595; |
mjr | 34:6b981a2afab7 | 322 | |
mjr | 25:e22b88bd783a | 323 | |
mjr | 35:e959ffba78fd | 324 | // --- Button Input Setup --- |
mjr | 35:e959ffba78fd | 325 | struct |
mjr | 35:e959ffba78fd | 326 | { |
mjr | 35:e959ffba78fd | 327 | uint8_t pin; // physical input GPIO pin - a USB-to-PinName mapping index |
mjr | 35:e959ffba78fd | 328 | uint8_t typ; // key type reported to PC - a BtnTypeXxx value |
mjr | 35:e959ffba78fd | 329 | uint8_t val; // key value reported - meaning depends on 'typ' value |
mjr | 35:e959ffba78fd | 330 | |
mjr | 35:e959ffba78fd | 331 | } button[MAX_BUTTONS]; |
mjr | 35:e959ffba78fd | 332 | |
mjr | 17:ab3cec0c8bf4 | 333 | |
mjr | 35:e959ffba78fd | 334 | // --- LedWiz Output Port Setup --- |
mjr | 35:e959ffba78fd | 335 | struct |
mjr | 35:e959ffba78fd | 336 | { |
mjr | 35:e959ffba78fd | 337 | uint8_t typ; // port type: a PortTypeXxx value |
mjr | 35:e959ffba78fd | 338 | uint8_t pin; // physical output pin: for a GPIO port, this is an index in the |
mjr | 35:e959ffba78fd | 339 | // USB-to-PinName mapping list; for a TLC5940 or 74HC595 port, it's |
mjr | 35:e959ffba78fd | 340 | // the output number, starting from 0 for OUT0 on the first chip in |
mjr | 35:e959ffba78fd | 341 | // the daisy chain. For inactive and virtual ports, it's unused. |
mjr | 35:e959ffba78fd | 342 | uint8_t flags; // flags: a combination of PortFlagXxx values |
mjr | 35:e959ffba78fd | 343 | } outPort[MAX_OUT_PORTS]; |
mjr | 17:ab3cec0c8bf4 | 344 | }; |
mjr | 17:ab3cec0c8bf4 | 345 | |
mjr | 35:e959ffba78fd | 346 | #endif |