参考设计
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Digitally Controlled Non-Isolated DC/DC Buck Converter Reference Design
TIDM-DC-DC-BUCK: This design implements a non-isolated DC/DCbuck converter that is digitally controlled using a C2000(TM) 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 and 2) C2000 F28069M Launchpad or C2000 F28377S LaunchPad. All of the design files, software, and documentation are included in the C2000 MCU family's controlSUITE™ software suite in the Digital Power Buck Converter BoosterPack application kit folder.
System on Module for PRIME Power Line Communication (CENELEC Frequency Band)
TIDM-SOMPLC-F28PLC83: This reference design has been replaced by the newer version TIDM-SOMPLC-F28PLC84. The SOMPLC-F28PLC83 is a single-board System on Module(SOM) for PLC in the CENELEC frequency band. This single hardware design supports Prime PLC industry standards. TI's certified PLC software is available along with the SOMPLC-F28PLC83. Engineers can take the SOM design and integrate it into their overall system board or keep the design as an add-on board to their application. The only additional hardware required is the AC mains line coupling circuitry. The included hardware schematics and Gerber files simplify the task for engineers to add PLC to their end system. OEMs will benefit from having the ability to rapidly evaluate and prototype Power Line Communications technology in their application.
TIDM-DC-DC-BUCK Digitally Controlled Non-Isolated DC/DC Buck Converter Reference Design | TI.com
TIDM-DC-DC-BUCK: This design implements a non-isolated DC/DCbuck converter that is digitally controlled using a C2000(TM) 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 and 2) C2000 F28069M Launchpad or C2000 F28377S LaunchPad. All of the design files, software, and documentation are included in the C2000 MCU family's controlSUITE™ software suite in the Digital Power Buck Converter BoosterPack application kit folder.
672W Highly Integrated Reference Design for Automotive Bidirectional 48V-12V Converter
TIDA-00558: Today's automotive power consumtion is 3KW, which will increase to 10KW in next 5 years and 12V batttary is unable to provide that much power. 48-12V bi-directional convertor provides high power requirement solution with two phases each capable of running 28A. This solution allows bidirectional current control of both phases using a C2000 control stick and firmware OCP & OVP. The 48-12V bi-directional converter removes the voltage conditioner need and distributes loads more evenly. The 48V battary is used to power high torque motors and other high power components such as A/C compressors and EPS, while no change to 12V battery loads.
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.
TIDM-SOMPLC-F28PLC83 System on Module for PRIME Power Line Communication (CENELEC Frequency Band) | TI.com
TIDM-SOMPLC-F28PLC83: This reference design has been replaced by the newer version TIDM-SOMPLC-F28PLC84. The SOMPLC-F28PLC83 is a single-board System on Module(SOM) for PLC in the CENELEC frequency band. This single hardware design supports Prime PLC industry standards. TI's certified PLC software is available along with the SOMPLC-F28PLC83. Engineers can take the SOM design and integrate it into their overall system board or keep the design as an add-on board to their application. The only additional hardware required is the AC mains line coupling circuitry. The included hardware schematics and Gerber files simplify the task for engineers to add PLC to their end system. OEMs will benefit from having the ability to rapidly evaluate and prototype Power Line Communications technology in their application.
TIDA-00558 672W Highly Integrated Reference Design for Automotive Bidirectional 48V-12V Converter | TI.com
TIDA-00558: Today's automotive power consumtion is 3KW, which will increase to 10KW in next 5 years and 12V batttary is unable to provide that much power. 48-12V bi-directional convertor provides high power requirement solution with two phases each capable of running 28A. This solution allows bidirectional current control of both phases using a C2000 control stick and firmware OCP & OVP. The 48-12V bi-directional converter removes the voltage conditioner need and distributes loads more evenly. The 48V battary is used to power high torque motors and other high power components such as A/C compressors and EPS, while no change to 12V battery loads.
TIDA-00067 DC Power Line Communication (PLC) Reference Design | TI.com
TIDA-00067: The DC (24 V, nominal) Power-Line Communication (PLC) reference design is intended as an evaluation module that customers can use to develop end-products for industrial applications leveraging the capability to deliver both power and communications overs the same DC power line. The reference design provides a complete design guide for the hardware and firmware design of a master (PLC) node, slave (PLC) node in an extremely small (approximately 1-inch diameter) industrial form factor. The application layer handles the addressing of the slave (PLC) nodes as well as the communication from the host processor (PC or Sitara Arm MPU from Texas Instruments). The host processor communicates only to the master (PLC) node via a USB-UART interface and then master node communicates to the rest of the slave nodes over the Power Line Communication. The easy-to-use GUI is also included that can run on the host processor and provides address management as well as slave node(s) status monitoring and control to the user. At the heart of this reference design are the AFE from TI, AFE031, to interface with power lines as well as the TMS320F28035 Piccolo™ Microcontroller that runs the PLC-Lite protocol from TI. The AFE’s monolithic integrated circuit provides high reliability in demanding power-line communications applications. The F2803x Piccolo family of microcontrollers (C2000™) provides the power of the C28x core and Control Law Accelerator (CLA) coupled with highly integrated control peripherals in low pin-count devices. Based on TI’s powerful, C2000 microcontroller architecture and the AFE031, developers can select the correct blend of processing capacity and peripherals to either add power-line communications to an existing design or implement a complete application with PLC communications.
TIDM-TMDSPLCKIT-V3 Texas Instruments' Power Line Communication Developer's Kit - V3 | TI.com
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.
DC Power Line Communication (PLC) Reference Design
TIDA-00067: The DC (24 V, nominal) Power-Line Communication (PLC) reference design is intended as an evaluation module that customers can use to develop end-products for industrial applications leveraging the capability to deliver both power and communications overs the same DC power line. The reference design provides a complete design guide for the hardware and firmware design of a master (PLC) node, slave (PLC) node in an extremely small (approximately 1-inch diameter) industrial form factor. The application layer handles the addressing of the slave (PLC) nodes as well as the communication from the host processor (PC or Sitara Arm MPU from Texas Instruments). The host processor communicates only to the master (PLC) node via a USB-UART interface and then master node communicates to the rest of the slave nodes over the Power Line Communication. The easy-to-use GUI is also included that can run on the host processor and provides address management as well as slave node(s) status monitoring and control to the user. At the heart of this reference design are the AFE from TI, AFE031, to interface with power lines as well as the TMS320F28035 Piccolo™ Microcontroller that runs the PLC-Lite protocol from TI. The AFE’s monolithic integrated circuit provides high reliability in demanding power-line communications applications. The F2803x Piccolo family of microcontrollers (C2000™) provides the power of the C28x core and Control Law Accelerator (CLA) coupled with highly integrated control peripherals in low pin-count devices. Based on TI’s powerful, C2000 microcontroller architecture and the AFE031, developers can select the correct blend of processing capacity and peripherals to either add power-line communications to an existing design or implement a complete application with PLC communications.
