0,0 → 1,202 |
|
|
|
// Power supply must be 5V for proper operation of the board! |
|
#define ADDRESS_EEPROM 0x50 |
|
// BTN1 = RG6, BTN2 = RG7, BTN3 = RD13 |
// Note: Write to PORTx is effectively the same as write to LATx |
#define BTN1_TRIS TRISGbits.TRISG6 |
#define BTN1_PORT PORTGbits.RG6 |
#define BTN2_TRIS TRISGbits.TRISG7 |
#define BTN2_PORT PORTGbits.RG7 |
#define BTN3_TRIS TRISDbits.TRISD13 |
#define BTN3_PORT PORTDbits.RD13 |
|
// LED1 = G12, LED2 = G13, LED3 = G14, LED4 = G15 |
#define LED1_TRIS TRISGbits.TRISG12 |
#define LED1_PORT PORTGbits.RG12 |
#define LED2_TRIS TRISGbits.TRISG13 |
#define LED2_PORT PORTGbits.RG13 |
#define LED3_TRIS TRISGbits.TRISG14 |
#define LED3_PORT PORTGbits.RG14 |
#define LED4_TRIS TRISGbits.TRISG15 |
#define LED4_PORT PORTGbits.RG15 |
|
// <editor-fold defaultstate="collapsed" desc="PMOD to MCU Pinouts"> |
/* |
JA-01 AN2/C2IN-/CN4/RB2 RB02 |
JA-02 AN3/C2IN+/CN5/RB3 RB03 |
JA-03 AN4/C1IN-/CN6/RB4 RB04 |
JA-04 PGEC2/AN6/OCFA/RB6 RB06 |
JA-07 PGED2/AN7/RB7 RB07 |
JA-08 AN8/C1OUT/RB8 RB08 |
JA-09 AN9/C2OUT/RB9 RB09 |
JA-10 CVrefout/PMA13/AN10/RB10 RB10 |
* |
JB-01 PMD0/RE0 RE00 |
JB-02 PMD1/RE1 RE01 |
JB-03 PMD2/RE2 RE02 |
JB-04 PMD3/RE3 RE03 |
JB-07 PMD4/RE4 RE04 |
JB-08 PMD5/RE5 RE05 |
JB-09 PMD6/RE6 RE06 |
JB-10 PMD7/RE7 RE07 |
* |
JC-01 T2CK/RC1 RC01 |
JC-02 C2RX/PMD8/RG0 RG00 |
JC-03 C2TX/ETXERR/PMD9/RG1 RG01 |
JC-04 ETXCLK/PMD15/CN16/RD7 RD07 |
JC-07 AN15/?/OCFB/PMALL/PMA0/CN12/RB15 RB15 |
JC-08 PMRD/CN14/RD5 RD05 |
JC-09 OC5/PMWR/CN13/RD4 RD04 |
JC-10 AN14/ERXD2/AETXD3/PMALH/PMA1/RB14 RB14 |
* |
JD-01 SS1/IC2/RD9 RD09 |
JD-02 SDO1/OC1/INT0/RD0 RD00 |
JD-03 T5CK/SDI1/RC4 RC04 |
JD-04 SCK1/IC3/PMCS2/PMA15/RD10 RD10 |
JD-07 OC2/RD1 RD01 |
JD-08 OC3/RD2 RD02 |
JD-09 OC4/RD3 RD03 |
JD-10 ETXD2/IC5/PMD12/RD12 RD12 |
* |
JE-01 AETXD0/SS1A/U1BRX/U1ACTS/CN20/RD14 RD14 |
JE-02 SCL1A/SDO1A/U1ATX/RF8 RF08 |
JE-03 SDA1A/SDI1A/U1ARX/RF2 RF02 |
JE-04 AETXD1/SCK1A/U1BTX/U1ARTS/CN21/RD15 RD15 |
JE-07 TRCLK/RA6 RA06 |
JE-08 TRD3/RA7 RA07 |
JE-09 Vref-/CVref-/AERXD2/PMA7/RA9 RA09 |
JE-10 Vref+/CVref+/AERXD3/PMA6/RA10 RA10 |
* |
JF-01 AC1RX/SS3A/U3BRX/U3ACTS/RF12 RF12 shared with CAN1 Transceiver (JP-1) |
JF-02 SCL3A/SDO3A/U3ATX/PMA8/CN18/RF5 RF05 |
JF-03 SDA3A/SDI3A/U3ARX/PMA9/CN17/RF4 RF04 |
JF-04 AC1TX/SCK3A/U3BTX/U3ARTS/RF13 RF13 shared with CAN1 Transceiver (JP-2) |
JF-07 TMS/RA0 RA00 |
JF-08 TCK/RA1 RA01 |
JF-09 TDI/RA4 RA04 |
JF-10 TDO/RA5 RA05 |
|
N/A SCL2/RA2 RA02 I2C bus #2, not shared with Pmod connector |
N/A SDA2/RA3 RA03 I2C bus #2, not shared with Pmod connector |
N/A AETXCLK/SCL1/INT3/RA14 RA14 I2C Bus #1, not shared with Pmod connector |
N/A AETXEN/SDA1/INT4/RA15 RA15 I2C Bus #1, not shared with Pmod connector |
N/A PGED1/AN0/CN2/RB0 RB00 Used by debug circuit, PGC |
N/A PGEC1/AN1/CN3/RB1 RB01 Used by debug circuit, PGD |
N/A AN5/C1IN+/VBUSON/CN7/RB5 RB05 USB VBUSON |
N/A AN11/ERXERR/AETXERR/PMA12/RB11 RB11 Ethernet PHY |
N/A AN12/ERXD0/AECRS/PMA11/RB12 RB12 Ethernet PHY |
N/A AN13/ERXD1/AECOL/PMA10/RB13 RB13 Ethernet PHY |
N/A OSC1/CLKI/RC12 RC12 Primary Oscillator Crystal |
N/A SOSCI/CN1/RC13 RC13 Secondary Oscillator Crystal |
N/A SOSCO/T1CK/CN0/RC14 RC14 Secondary Oscillator Crystal |
N/A OSC2/CLKO/RC15 RC15 Primary Oscillator Crystal |
N/A ETXEN/PMD14/CN15/RD6 RD06 Ethernet PHY |
N/A RTCC/EMDIO/AEMDIO/IC1/RD8 RD08 Ethernet PHY |
N/A EMDC/AEMDC/IC4/PMCS1/PMA14/RD11 RD11 Ethernet PHY |
N/A ETXD3/PMD13/CN19/RD13 RD13 BTN3 |
N/A AERXD0/INT1/RE8 RE08 USB Overcurrent detect |
N/A AERXD1/INT2/RE9 RE09 Ethernet PHY Reset |
N/A C1RX/ETXD1/PMD11/RF0 RF00 Ethernet PHY |
N/A C1TX/ETXD0/PMD10/RF1 RF01 Ethernet PHY |
N/A USBID/RF3 RF03 USBID (USB-4) |
N/A D+/RG2 RG02 D+ (USB-3) |
N/A D-/RG3 RG03 D- (USB-2) |
N/A ECOL/SCK2A/U2BTX/U2ARTS/PMA5/CN8/RG6 RG06 BTN1 |
N/A ECRS/SDA2A/SDI2A/U2ARX/PMA4/CN9/RG7 RG07 BTN2 |
N/A ?/SCL2A/SDO2A/U2ATX/PMA3/CN10/RG8 RG08 Ethernet PHY |
N/A ?/SS2A/U2BRX/U2ACTS/PMA2/CN11/RG9 RG09 Ethernet PHY |
N/A TRD1/RG12 RG12 LED1 |
N/A TRD0/RG13 RG13 LED2 |
N/A TRD2/RG14 RG14 LED3 |
N/A AERXERR/RG15 RG15 LED4 |
*/ |
// </editor-fold> |
|
// <editor-fold defaultstate="collapsed" desc="Connectors"> |
/* |
J7 - I2C port #2 daisy chain connector |
* This connector provides access to the I2C signals, power and ground for I2C port #2. |
J8 - I2C port #1 daisy chain connector |
* This connector provides access to the I2C signals, power and ground for I2C port #1. |
J9 - CAN #1 Connector |
* This connector is used to access the signals for CAN #1. |
J10 - CAN #2 Connector |
* This connector is used to access the signals for CAN #2. |
J11 - Ethernet Connector |
* This connector provides access to the 10/100 Ethernet port. |
J12-J14 |
* Do Not Use. |
J15 - Debug USB Connector |
* This connector is used to connect the on-board programming and |
debug circuit to the PC for use with the MPLAB IDE. |
J16 - Power supply source select |
* This jumper is used to select the source of main board power. |
Place a shorting block in the upper, ?USB? position to have the |
board powered from the USB device connector, J19. |
Place a shorting block in the center, ?EXT? position to have the |
board powered from one of the external power connectors, J17 or J18. |
Place a shorting block in the lower, ?DBG? position to have the |
board powered from the debug USB connector, J15. |
J17 - External Power Connector |
* This is a 2.5mm x 5.5mm, center positive, coax power connector used to |
provide external power to the board. The optional Digilent 5V Switching |
Power Supply is connected here. |
J18 - External Power Connector |
* This is a screw terminal connector used to provide external power to |
the board. Be sure to observe proper polarity (marked near the connector) |
when providing power via this connector, or damage to the board and/or |
connected devices may result. |
J19 - USB Device / OTG Connector |
* This is a USB micro-AB connector. It is used when using the PIC32MX795 |
microcontroller to implement a USB device or OTG Host/Device. |
J20 - USB Host Connector |
* This is a standard sized USB type A connector. This connector is used to |
connect USB devices to the board when using the PIC32MX795 microcontroller |
to implement an embedded USB host. |
*/ |
// </editor-fold> |
|
// <editor-fold defaultstate="collapsed" desc="Jumpers"> |
/* |
J20 - USB Host Connector |
* This is a standard sized USB type A connector. This connector is used to |
connect USB devices to the board when using the PIC32MX795 microcontroller |
to implement an embedded USB host. |
JP1 & JP2 - CAN or Pmod Select |
* These jumpers select microcontroller signals RF12 and RF13 for use with CAN |
#1 or Pmod connector JF. Place these jumpers in the CAN position to use CAN |
#1. Place the jumpers in the PMOD position to use then with Pmod connector JF. |
JP3 & JP4 - Pull-up enable for I2C port #2 |
* These two jumpers are used to enable/disable the pull-up resistors on I2C |
port #2. Insert shorting blocks on these two jumpers to enable the pull-up |
resistors. Remove the shorting blocks to disable the pull-up resistors. Only |
a single device on the I2C bus should have the pull-up resistors enabled. |
JP5 - CAN #1 Termination |
* This jumper is used to enable/disable the 120 ohm termination resistor for |
CAN #1. Insert the shorting block to enable the termination resistor, remove |
it to disable the termination resistor. |
JP6 - CAN #1 5V0 Enable |
* This jumper is used to enable/disable providing 5V to the CAN #1 connector. |
Insert the shorting block to connect the board 5V0 supply to pins 9 & 10 of |
CAN #1 connector. Remove the shorting block to disconnect the 5V0 supply. |
JP7 - CAN #2 Termination |
* This jumper is used to enable/disable the 120 ohm termination resistor for |
CAN #2. Insert the shorting block to enable the termination resistor, remove |
it to disable the termination resistor. |
JP8 - CAN #1 5V0 Enable |
* This jumper is used to enable/disable providing 5V to the CAN #1 connector. |
Insert the shorting block to connect the board 5V0 supply to pins 9 & 10 of |
CAN #1 connector. Remove the shorting block to disconnect the 5V0 supply. |
JP9 - Do Not Use |
JP10 - USB host power select |
* This jumper is used to select which host connector is powered when host power |
is enabled. Place the shorting block in the ?MICRO? position to supply power |
to the USB micro-AB OTG Connector, J19. Place the shorting block in the ?A? |
position to supply power to the USB type A Host Connector, J20. |
JP17 - Do Not Use |
*/ |
// </editor-fold> |