Microchip Technology DV164139 Data Sheet
© 2009 Microchip Technology Inc.
DS41356B-page 7
1.5
PIC18F14K50 ICD DEBUG HEADER
The Low Pin Count USB Development Kit includes a debug header populated with a
PIC18F14K50 ICD MCU to enable for use with the PICkit™ 2 debugger/programmer.
PIC18F14K50 ICD MCU to enable for use with the PICkit™ 2 debugger/programmer.
FIGURE 1-3:
PIC18F14K50 POPULATED MPLAB ICD 2 DEBUG HEADER
To use the debug header, simply remove the PIC18F14K50 mounted in the MCU
socket (U2) on the Low Pin Count USB Development Board. Using a pin header (not
included), connect the debug header into the MCU socket and connect the PICkit™ 2
programmer/debugger to the provided connection header.
socket (U2) on the Low Pin Count USB Development Board. Using a pin header (not
included), connect the debug header into the MCU socket and connect the PICkit™ 2
programmer/debugger to the provided connection header.
1.6
“GETTING STARTED WITH MICROCHIP’S LOW PIN COUNT USB
SOLUTIONS” SELF-DIRECTED COURSE
SOLUTIONS” SELF-DIRECTED COURSE
The Low Pin Count USB Development Kit includes the self-directed course “Getting
Started with Microchip’s Low Pin Count USB Solutions”. This course provides an
introductory overview to the USB 2.0 protocol and implementation on the
PIC18F14K50 MCU. Microchip’s USB Device Firmware Framework is introduced as a
resource providing a library of firmware code for USB operation that handles “low-level”
tasks and a number of reference projects. The user is guided through a number of
“hands-on” labs to reinforce covered concepts.
Started with Microchip’s Low Pin Count USB Solutions”. This course provides an
introductory overview to the USB 2.0 protocol and implementation on the
PIC18F14K50 MCU. Microchip’s USB Device Firmware Framework is introduced as a
resource providing a library of firmware code for USB operation that handles “low-level”
tasks and a number of reference projects. The user is guided through a number of
“hands-on” labs to reinforce covered concepts.