156
TMS320F28069, TMS320F28068, TMS320F28067, TMS320F28066
TMS320F28065, TMS320F28064, TMS320F28063, TMS320F28062
SPRS698F – NOVEMBER 2010 – REVISED MARCH 2016
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TMS320F28064 TMS320F28063 TMS320F28062
Applications, Implementation, and Layout
Copyright © 2010–2016, Texas Instruments Incorporated
7
Applications, Implementation, and Layout
NOTE
Information in the following sections is not part of the TI component specification, and TI
does not warrant its accuracy or completeness. TI’s customers are responsible for
determining suitability of components for their purposes. Customers should validate and test
their design implementation to confirm system functionality.
View the
Important Notice for TI Designs
covering authorized use, intellectual property
matters and disclaimers.
7.1
TI Design or Reference Design
TI Designs Reference Design Library is a robust reference design library spanning analog, embedded
processor and connectivity. Created by TI experts to help you jump start your system design, all TI
Designs include schematic or block diagrams, BOMs and design files to speed your time to market.
Search and download designs at
ti.com/tidesigns
.
7.1.1
Digitally Controlled Non-Isolated DC/DC Buck Converter Reference Design
TIDM-DC-DC-BUCK
— This design implements a non-isolated DC/DC buck converter that is digitally
controlled using a C2000 microcontroller. The main purpose of this design is to evaluate the powerSUITE
Digital Power Software tools. The design consists of two separate boards: 1) Digital Power BoosterPack™
Plug-in Module and 2) C2000 F28069M LaunchPad™ Development Kit or C2000 F28377S LaunchPad
Development Kit.
7.1.2
672W Highly Integrated Reference Design for Automotive Bidirectional 48V-12V
Converter
TIDA-00558
— Today's automotive power consumption is 3KW, which will increase to 10KW in the next
5 years. A 12-V battery is unable to provide that much power. The 48-12V bidirectional convertor provides
a high-power requirement solution with two phases, each capable of running 28 A. This solution allows
bidirectional current control of both phases using a C2000 control stick and firmware OCP and OVP. The
48-12V bidirectional converter removes the voltage conditioner need and distributes loads more evenly.
The 48-V battery is used to power high-torque motors and other high-power components, such as A/C
compressors and EPS, with no change to 12-V battery loads.
7.1.3
System-on-Module for Power Line Communication Reference Design
TIDM-SOMPLC-F28PLC84
— The SOMPLC-F28PLC84 is a single-board System-on-Module (SOM) for
PLC in the CENELEC frequency band. This single hardware design supports several popular PLC industry
standards, including PRIME, G3-PLC, and IEEE-1901.2. The SOMPLC-F28PLC84 replaces the earlier
SOMPLC-F28PLC83 and is fully hardware- and software-compatible with the earlier design.
7.1.4
G3 Power Line Communications Data Concentrator on BeagleBone Black Platform
TIDEP0023
— This Power Line Communications (PLC) Data Concentrator design offers a simplified
approach for evaluating G3-PLC utilizing Beagle Bone Black powered by the AM335x Sitara™ processor.
Users can establish a G3-PLC network with one service node. Single-phase coupling is supported.
7.1.5
Texas Instruments' Power Line Communication Developer's Kit - V3
TIDM-TMDSPLCKIT-V3
— The TI PLC Developer’s Kit is the best way to evaluate TI’s PLC technology
for use in industrial applications such as Smart Grid AMI networks and solar inverters. Due to TI’s flexible
PLC architecture, this one kit can be used for evaluating several different PLC standards (PRIME, G3,
PLC Lite), allowing developers to choose the PLC technology that best fits their application. This
developer's kit enables users to perform PLC tests on live power networks quickly while making it easier
to write their own application software.
