/********************************************************************
FileName: HardwareProfile - Low Pin Count USB Development Kit.h
Dependencies: See INCLUDES section
Processor: PIC18 or PIC24 USB Microcontrollers
Hardware: Low Pin Count USB Development Kit
Compiler: Microchip C18
Company: Microchip Technology, Inc.
Software License Agreement:
The software supplied herewith by Microchip Technology Incorporated
(the Company) for its PIC® Microcontroller is intended and
supplied to you, the Companys customer, for use solely and
exclusively on Microchip PIC Microcontroller products. The
software is owned by the Company and/or its supplier, and is
protected under applicable copyright laws. All rights are reserved.
Any use in violation of the foregoing restrictions may subject the
user to criminal sanctions under applicable laws, as well as to
civil liability for the breach of the terms and conditions of this
license.
THIS SOFTWARE IS PROVIDED IN AN AS IS CONDITION. NO WARRANTIES,
WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED
TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. THE COMPANY SHALL NOT,
IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL OR
CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
********************************************************************
File Description:
Change History:
Rev Date Description
1.0 11/19/2004 Initial release
2.1 02/26/2007 Updated for simplicity and to use common
coding style
2.3 09/15/2008 Broke out each hardware platform into its own
"HardwareProfile - xxx.h" file
********************************************************************/
#ifndef HARDWARE_PROFILE_LOW_PIN_COUNT_USB_DEVELOPMENT_KIT_H
#define HARDWARE_PROFILE_LOW_PIN_COUNT_USB_DEVELOPMENT_KIT_H
/*******************************************************************/
/******** USB stack hardware selection options *********************/
/*******************************************************************/
//This section is the set of definitions required by the MCHPFSUSB
// framework. These definitions tell the firmware what mode it is
// running in, and where it can find the results to some information
// that the stack needs.
//These definitions are required by every application developed with
// this revision of the MCHPFSUSB framework. Please review each
// option carefully and determine which options are desired/required
// for your application.
//#define USE_SELF_POWER_SENSE_IO
#define tris_self_power TRISAbits.TRISA2 // Input
#if defined(USE_SELF_POWER_SENSE_IO)
#define self_power PORTAbits.RA2
#else
#define self_power 1
#endif
//#define USE_USB_BUS_SENSE_IO
#define tris_usb_bus_sense TRISAbits.TRISA1 // Input
#if defined(USE_USB_BUS_SENSE_IO)
#define USB_BUS_SENSE PORTAbits.RA1
#else
#define USB_BUS_SENSE 1
#endif
/*******************************************************************/
/*******************************************************************/
/*******************************************************************/
/******** Application specific definitions *************************/
/*******************************************************************/
/*******************************************************************/
/*******************************************************************/
//Uncomment the following line to make the output HEX of this
// project work with the HID Bootloader
#define PROGRAMMABLE_WITH_USB_HID_BOOTLOADER
/** Board definition ***********************************************/
//These defintions will tell the main() function which board is
// currently selected. This will allow the application to add
// the correct configuration bits as wells use the correct
// initialization functions for the board. These defitions are only
// required in the stack provided demos. They are not required in
// final application design.
#define DEMO_BOARD LOW_PIN_COUNT_USB_DEVELOPMENT_KIT
#define LOW_PIN_COUNT_USB_DEVELOPMENT_KIT
#define CLOCK_FREQ 48000000
/** LED ************************************************************/
#define mInitAllLEDs() LATC &= 0xF0; TRISC &= 0xF0;
#define mLED_1 LATCbits.LATC0
#define mLED_2 LATCbits.LATC1
#define mLED_3 LATCbits.LATC2
#define mLED_4 LATCbits.LATC3
#define mGetLED_1() mLED_1
#define mGetLED_2() mLED_2
#define mGetLED_3() mLED_3
#define mGetLED_4() mLED_4
#define mLED_1_On() mLED_1 = 1;
#define mLED_2_On() mLED_2 = 1;
#define mLED_3_On() mLED_3 = 1;
#define mLED_4_On() mLED_4 = 1;
#define mLED_1_Off() mLED_1 = 0;
#define mLED_2_Off() mLED_2 = 0;
#define mLED_3_Off() mLED_3 = 0;
#define mLED_4_Off() mLED_4 = 0;
#define mLED_1_Toggle() mLED_1 = !mLED_1;
#define mLED_2_Toggle() mLED_2 = !mLED_2;
#define mLED_3_Toggle() mLED_3 = !mLED_3;
#define mLED_4_Toggle() mLED_4 = !mLED_4;
/** SWITCH *********************************************************/
#define mInitSwitch2() //TRISAbits.TRISA3=1
//only one switch available so double duty
#define mInitSwitch3() //TRISAbits.TRISA3=1
#define sw2 PORTAbits.RA3
#define sw3 PORTAbits.RA3
#define mInitAllSwitches() mInitSwitch2();
/** POT ************************************************************/
#define mInitPOT() {TRISBbits.TRISB4=1;ADCON0=0x29;ADCON1=0;ADCON2=0x3E;ADCON2bits.ADFM = 1;}
#endif //HARDWARE_PROFILE_LOW_PIN_COUNT_USB_DEVELOPMENT_KIT_H