SPRUJC0
June 2024
1
Description
Get Started
Features
Applications
6
1
Evaluation Module Overview
1.1
Introduction
1.2
Kit Contents
1.3
Specifications
1.4
Device Information
2
Hardware
2.1
Hardware Description
2.1.1
Functional Description and Connections
2.1.1.1
Power Domains
2.1.1.2
LEDs
2.1.1.3
Encoder Connectors
2.1.1.4
FSI
2.1.1.5
PGA
2.1.1.6
CAN
2.1.1.7
CLB
2.1.1.8
Boot Modes
2.1.1.9
BoosterPack Sites
2.1.1.10
Analog Voltage Reference Header
2.1.1.11
Other Headers and Jumpers
2.1.1.11.1
USB Isolation Block
2.1.1.11.2
BoosterPack Site 2 Power Isolation
2.1.1.11.3
Alternate Power
2.1.2
Debug Interface
2.1.2.1
XDS110 Debug Probe
2.1.2.2
XDS110 Output
2.1.2.3
Virtual COM Port
2.1.3
Alternate Routing
2.1.3.1
Overview
2.1.3.2
UART Routing
2.1.3.3
EQEP Routing
2.1.3.4
CAN Routing
2.1.3.5
PGA Routing
2.1.3.6
FSI Routing
2.1.3.7
X1/X2 Routing
2.1.3.8
PWM DAC
2.2
Using the F28P55x LaunchPad
2.3
BoosterPacks
2.4
Hardware Revisions
2.4.1
Revision A
3
Software
3.1
Software Development
3.1.1
Software Tools and Packages
3.1.2
F28P55x LaunchPad Demo Program
3.1.3
Programming and Running Other Software on the F28P55x LaunchPad
4
Hardware Design Files
4.1
Schematic
4.2
PCB Layout
4.2.1
LAUNCHXL-F28P55X Board Dimensions
4.3
Bill of Materials (BOM)
5
Additional Information
5.1
Frequently Asked Questions
5.2
Trademarks
6
References
6.1
Reference Documents
6.2
Other TI Components Used in This Design
Features
C2000 Series F28P550SJ9PZ (100-pin) microcontroller:
With Configurable Logic Block (CLB) capability
Onboard XDS110 debug probe
Two user-controlled LEDs
One microcontroller reset switch
Selectable power domains:
USB (isolated)
BoosterPack
External power supply
CAN connector with on-board CAN transceiver
Supports CAN-FD (MCAN)
Two independent Enhanced Quadrature Encoder Pulse (QEP)-based encoder connectors
Three Programmable Gain Amplifier (PGA)-based connectors
FSI peripheral connector
Two independent BoosterPack XL standard connectors (80-pins) featuring stackable headers to maximize expansion through the BoosterPack ecosystem