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TMS320F28035RSHT

C2000™ 32-bit MCU with 60 MHz, 128 KB Flash, CLA 56-VQFN -40 to 105

Manufacturer Texas Instruments
Price Range $7.7900

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Part Number Description Manufacturer Compare
TMS320F28035RSHS Microcontrollers and Processors C2000™ 32-bit MCU with 60 MHz, 128 KB Flash, CLA 56-VQFN -40 to 125 Texas Instruments TMS320F28035RSHT vs TMS320F28035RSHS
TMX320F28035RSHS Microcontrollers and Processors Piccolo Microcontroller 56-VQFN -40 to 125 Texas Instruments TMS320F28035RSHT vs TMX320F28035RSHS
Part Number Description Manufacturer Compare
TMS320F28035RSHS Microcontrollers and Processors C2000™ 32-bit MCU with 60 MHz, 128 KB Flash, CLA 56-VQFN -40 to 125 Texas Instruments TMS320F28035RSHT vs TMS320F28035RSHS
TMX320F28035RSHS Microcontrollers and Processors Piccolo Microcontroller 56-VQFN -40 to 125 Texas Instruments TMS320F28035RSHT vs TMX320F28035RSHS

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Datasheets & Reference Designs

Reference Designs

  • TIDM-THREEPHASE-BLDC-HC-SPI Three-Phase Brushless/PMSM High-Current Motor Control Solution with SPI | TI.com
    TIDM-THREEPHASE-BLDC-HC-SPI: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as permanent magnet synchronous (PMSM) - motors featuring the C2000™ Piccolo™ microcontroller and the DRV8301 three-phase motor driver. It provides three half bridge drivers, each capable of driving two N-type MOSFETs, one for the high-side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 6V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This is a high performance, power-efficient, cost-effective sensorless field - oriented control (FOC) and sensored/sensorless trapezoidal commutation platform that speeds development for quicker time to market. This reference design is based on the DRV8301 evaluation kit.
  • TIDM-SOMPLC-INDUSTRIAL-CENELEC System on Module for Industrial Power Line Communication (CENELEC Frequency Band) | TI.com
    TIDM-SOMPLC-INDUSTRIAL-CENELEC: This reference design is a single-board System on Module(SOM) for industrial PLC in the Cenelec frequency band. This TI implementation of Power Line Communications (PLC) is a new option for adding communications to industrial equipment such as solar arrays.PLC Lite™ offers higher data throughput than earlier forms of PLC and greater robustness for transmission across noisy electric lines by using OFDM PHY technology. The industrial PLC achieves up to 21 kbps data rates across AC or DC power lines compared to traditional SFSK PLC solutions (2-5 kbps) all while decreasing the overall BOM cost of a typical PLC modem. 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-BLPFC Bridgeless Power Factor Correction Converter | TI.com
    TIDM-BLPFC: This design is a digitally controlled, bridgeless, 300W, power factor correction (PFC) converter. The distinguishing characteristic of a bridgeless PFC converter is that it eliminates the need for a diode bridge at the input. This reduces power losses that normally occur in a diode bridge and, as a result, improves overall system efficiency. For this design, a C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the PFC converter, controlling the two boost power stages that comprise the bridgeless PFC converter. By operating the stages alternatively during the positive and negative half cycles of the AC mains voltage, the Piccolo MCU implements both the AC-to-DC rectification as well as power factor control. This design achieves full load efficiency greater than 93% and power factor of greater than 0.98 at 50% or greater load.
  • TIDM-BUCKBOOST-BIDIR Bi-Directional Non-Isolated Buck Boost Converter | TI.com
    TIDM-BUCKBOOST-BIDIR: This design implements a bi-directional, non-isolated buck boost power converter, ideal for solar microconverters, hybrid electric vehicles (HEV) including Regeneration (Regen or Recuperation), and battery charging applications.
  • Bi-Directional Non-Isolated Buck Boost Converter
    TIDM-BUCKBOOST-BIDIR: This design implements a bi-directional, non-isolated buck boost power converter, ideal for solar microconverters, hybrid electric vehicles (HEV) including Regeneration (Regen or Recuperation), and battery charging applications.
  • TIDA-00142 Automotive High Current Brushless DC (BLDC) Motor Drive Reference Design | TI.com
    TIDA-00142: This TIDA-00142 reference design implements a complete control and drive solution for 3-phase brushless DC motors up to about 3 kW in power rating. The design includes analog circuits, digital processor, and software to spin BLDC motors without the need for position feedback from Hall effect sensors or quadrature encoder. Operation is demonstrated with a 1 kW motor operating from a 12V supply, similar to many automotive applications. Test data shows the type of results which are easily measured at the board test points. References for the software and user documentation are provided to speed development time for similar BLDC motor applications. This design incorporates the DRV8301-HC-C2-KIT board to create the solution.
  • Multi-String LED Lighting Driver based on C2000™ MCU Reference Design
    TIDM-DCDC-LED: Ideal for automotive, outdoor, entertainment, retail, and decorative lighting applications, the Multi-String LED Lighting design implements independent multi-string LED lighting with high resolution dimming. The LED driver consists of a microcontroller-controlled DC/DC Sepic Power stage and eight independently dimmable LED strings complete with overcurrent and overvoltage protection.
  • H-Bridge brushed and stepper motor control solution
    TIDM-THREEPHASE-BSDC: This reference design demonstrates a motor control solution for spinning three-phase brushed DC or single stepper motor - featuring the C2000™ Piccolo™ microcontroller and the DRV8412 three-phase motor driver. This highly integrated, robust motor control and driver solution speeds development time for brushed and stepper motors running up to 6 A continuous / 12 A peak at 50 V. Typical applications include medical pumps, gate openers, stage lighting, textile manufacturing tools, and industrial or consumer robotics. This reference design is based on the DRV8412 evaluation kit.
  • Three-Phase Brushless/PMSM High-Current Motor Control Solution with SPI
    TIDM-THREEPHASE-BLDC-HC-SPI: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as permanent magnet synchronous (PMSM) - motors featuring the C2000™ Piccolo™ microcontroller and the DRV8301 three-phase motor driver. It provides three half bridge drivers, each capable of driving two N-type MOSFETs, one for the high-side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 6V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This is a high performance, power-efficient, cost-effective sensorless field - oriented control (FOC) and sensored/sensorless trapezoidal commutation platform that speeds development for quicker time to market. This reference design is based on the DRV8301 evaluation kit.
  • TIDM-SOLAR-DCDC C2000™ Solar DC/DC Converter with Maximum Power Point Tracking (MPPT) | TI.com
    TIDM-SOLAR-DCDC: This design is a digitally-controlled, solar DC/DC converter with maximum power point tracking (MPPT), for use in central or string solar inverters. It is a companion to the TI Design TIDM-SOLAR-ONEPHINV, a grid-tied, single phase, DC/AC inverter. Together, the TIDM-SOLAR-DCDC and the TIDM-SOLAR-ONEPHINV comprise a complete solar inverter for central or string topologies. This solar DC/DC converter consists of a two-phase interleaved boost converter for MPPT and a resonant LLC converter with isolation. A C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the complete DC/DC converter, executing high frequency control loops and maximum-power point tracking algorithms. This design achieves full-load efficiency of greater than 94 percent, which allows for more overall energy output from a solar installation and reduces detrimental heat generation in the converter.
  • Bidirectional 400V-12V DC/DC Converter Reference Design
    TIDM-BIDIR-400-12: The Bidirectional 400V-12V DC/DC Converter Reference Design is a microcontroller-based implementation of an isolated bi-directional DC-DC converter. A phase shifted full-bridge (PSFB) with synchronous rectification controls power flow from a 400V bus/battery to the 12V battery in step-down mode, while a push-pull stage controls the reverse power flow from the low voltage battery to the high voltage bus/battery in boost mode. In this implementation closed loop control for both directions of power flow is implemented using Texas Instruments 32-bit microcontroller TMS320F28035, which is placed on the LV side. This digitally-controller system can implement advanced control strategies to optimally control the power stage under different conditions and also provide system level intelligence to make safe and seamless transitions between operation modes and PWM switching patterns.
  • TIDM-THREEPHASE-BSDC H-Bridge brushed and stepper motor control solution | TI.com
    TIDM-THREEPHASE-BSDC: This reference design demonstrates a motor control solution for spinning three-phase brushed DC or single stepper motor - featuring the C2000™ Piccolo™ microcontroller and the DRV8412 three-phase motor driver. This highly integrated, robust motor control and driver solution speeds development time for brushed and stepper motors running up to 6 A continuous / 12 A peak at 50 V. Typical applications include medical pumps, gate openers, stage lighting, textile manufacturing tools, and industrial or consumer robotics. This reference design is based on the DRV8412 evaluation kit.
  • AC-mains LED Lighting with DALI DMX512 & Power Line Communications Reference Design
    TIDM-AC-LED-COM: Ideal for outdoor, entertainment, and industrial lighting applications, this LED Lighting design provides high power and high efficiency illumination with built-in communications networking. The lighting unit consists of a 250W universal AC-input LED driver power supply and a demonstrational six-string LED lamp. Driving the LED’s with great power efficiency and electrical utilization, the LED driver power supply operates at greater than 90% power efficiency with 0.99 power factor (PF). Furthermore, to support system-networked lighting and remote connectivity, this power supply includes support for common lighting communications standards including Digital Addressable Lighting Interface (DALI), DMX512, and Power Line Communications (PLC).
  • Three-Phase Brushless/PMSM (Permanent Magnet Synchronous Motor) High Current Motor Control Solution
    TIDM-THREEPHASE-BLDC-HC: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as “permanent magnet synchronous (PMSM)” - motors featuring the C2000™ Piccolo™ microcontroller and the DRV8302 three-phase motor driver. It provides three half-bridge drivers, each capable of driving two N-type MOSFETs, one for the high side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 8V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This reference design is a high-performance, power-efficient, cost-effective sensorless field-oriented control (FOC) and sensored/sensorless trapezoidal commutation platform that speeds development for quicker time to market. This reference design is based on the DRV8302 evaluation kit.
  • PLC Lite Communication Module for Smart Home
    TIDM-PLCLITE-PLUGMODULE: This design is a PLC communication module in minimum PCB size with PLC lite software. This module can be used for smart home appliances internal communications without separated communication cables, and also can avoid wall penetration issue of wireless solutions.
  • TIDM-INDUSTRIAL-PLC Power Line Communications (PLC) Lite™ Reference Design for Industrial Applications | TI.com
    TIDM-INDUSTRIAL-PLC: This TI implementation of Power Line Communications (PLC) is a new option for adding communications to industrial equipment such as solar arrays. PLC Lite™ offers higher data throughput than earlier forms of PLC and greater robustness for transmission across noisy electric lines by using OFDM PHY technology. This design is based upon a C2000 controlCARD and an analog front end for PLC. The C2000 MCU executes the entire PLC Lite software stack. TIDM-INDUSTRIAL-PLC achieves up to 21 kbps data rates across AC or DC power lines compared to traditional SFSK PLC solutions (2-5 kbps) all while decreasing the overall BOM cost of a typical PLC modem.
  • TIDA-00322 Automotive Ultrasonic Fluid Level/Quality Measurement Reference Design | TI.com
    TIDA-00322: TI reference design TIDA-00322 is an automotive liquid level and fluid identification measurement system. It is based on the dual-channel TDC1000-Q1 ultrasonic AFE and the real-time microcontroller C2000. This reference design can also be used with the TDC1000 for industrial/consumer applications. This solution supports 4.5-40V system capabilities with reverse battery protection. For prototyping and signal accessibility for product development, TI recommends using the TDC1000-C2000EVM as the hardware evaluation platform for automotive designs. For industrial or consumer designs, it is recommended to begin evaluation with the TDC1000-TDC7200EVM. This EVM has the ability of using the MSP430 or the TDC7200 as the stop-watch timer; usage of each depends on the time of flight accuracy requirement of the application.
  • Three-Phase Brushless/PMSM High-Current Motor Control Solution with InstaSPIN Software
    TIDM-THREEPHASE-BLDC-HC-SPI-INST: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as “permanent magnet synchronous (PMSM)” - motors featuring the C2000™ Piccolo™ microcontroller enabled with InstaSPIN-FOC and InstaSPIN-MOTION in ROM and the DRV8301 three-phase motor driver. It provides three half-bridge drivers, each capable of driving two N-type MOSFETs, one for the high side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 6V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This reference design is based on the DRV8301 evaluation kit.
  • Automotive High Current Brushless DC (BLDC) Motor Drive Reference Design
    TIDA-00142: This TIDA-00142 reference design implements a complete control and drive solution for 3-phase brushless DC motors up to about 3 kW in power rating. The design includes analog circuits, digital processor, and software to spin BLDC motors without the need for position feedback from Hall effect sensors or quadrature encoder. Operation is demonstrated with a 1 kW motor operating from a 12V supply, similar to many automotive applications. Test data shows the type of results which are easily measured at the board test points. References for the software and user documentation are provided to speed development time for similar BLDC motor applications. This design incorporates the DRV8301-HC-C2-KIT board to create the solution.
  • TIDM-SOLARUINV Grid-tied Solar Micro Inverter with MPPT | TI.com
    TIDM-SOLARUINV: This design is a digitally-controlled, grid-tied, solar micro inverter with maximum power point tracking (MPPT). Solar micro inverters are an emerging segment of the solar power industry. Rather than linking every solar panel in an installation to a central inverter, solar micro inverter-based installations link smaller, or “micro,” inverters individually to each solar panel. This configuration lends itself to many benefits, including elimination of partial shading conditions, increased system efficiency, improved reliability and greater modularity. For this design, a C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the complete inverter, including control of the power stages, MPPT, and grid-tie synchronization. The power conversion stages include 1) an active clamp fly-back DC/DC converter with secondary voltage multiplier and 2) a grid-tied, DC/AC inverter. The design achieves 93 percent peak efficiency and less than 4 percent total harmonic distortion, providing more power output per solar panel, reducing detrimental heat dissipation, and increasing system longevity.
  • Bridgeless Power Factor Correction Converter
    TIDM-BLPFC: This design is a digitally controlled, bridgeless, 300W, power factor correction (PFC) converter. The distinguishing characteristic of a bridgeless PFC converter is that it eliminates the need for a diode bridge at the input. This reduces power losses that normally occur in a diode bridge and, as a result, improves overall system efficiency. For this design, a C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the PFC converter, controlling the two boost power stages that comprise the bridgeless PFC converter. By operating the stages alternatively during the positive and negative half cycles of the AC mains voltage, the Piccolo MCU implements both the AC-to-DC rectification as well as power factor control. This design achieves full load efficiency greater than 93% and power factor of greater than 0.98 at 50% or greater load.
  • Three-Phase BLDC and PMSM Medium Voltage Motor Control Solution
    TIDM-THREEPHASE-BLDC-LC: Spin and control three-phase brushless DC (BLDC) and brushless AC (BLAC) motors—or permanent magnet synchronous motors (PMSM)—using sensorless field oriented control (FOC). This design provides high-performance, power-efficient, and cost-effective control for sub-50V, 7A motors, ideal for applications like medical pumps, gates, lifts, small pumps, robotics, and automation. Sensored and sensorless trapezoidal commutation motor control techniques are also supported with this design.
  • Grid-tied Solar Micro Inverter with MPPT
    TIDM-SOLARUINV: This design is a digitally-controlled, grid-tied, solar micro inverter with maximum power point tracking (MPPT). Solar micro inverters are an emerging segment of the solar power industry. Rather than linking every solar panel in an installation to a central inverter, solar micro inverter-based installations link smaller, or “micro,” inverters individually to each solar panel. This configuration lends itself to many benefits, including elimination of partial shading conditions, increased system efficiency, improved reliability and greater modularity. For this design, a C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the complete inverter, including control of the power stages, MPPT, and grid-tie synchronization. The power conversion stages include 1) an active clamp fly-back DC/DC converter with secondary voltage multiplier and 2) a grid-tied, DC/AC inverter. The design achieves 93 percent peak efficiency and less than 4 percent total harmonic distortion, providing more power output per solar panel, reducing detrimental heat dissipation, and increasing system longevity.
  • TIDM-DCDC-LED Multi-String LED Lighting Driver based on C2000™ MCU Reference Design | TI.com
    TIDM-DCDC-LED: Ideal for automotive, outdoor, entertainment, retail, and decorative lighting applications, the Multi-String LED Lighting design implements independent multi-string LED lighting with high resolution dimming. The LED driver consists of a microcontroller-controlled DC/DC Sepic Power stage and eight independently dimmable LED strings complete with overcurrent and overvoltage protection.
  • TIDM-THREEPHASE-BLDC-HC Three-Phase Brushless/PMSM (Permanent Magnet Synchronous Motor) High Current Motor Control Solution | TI.com
    TIDM-THREEPHASE-BLDC-HC: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as “permanent magnet synchronous (PMSM)” - motors featuring the C2000™ Piccolo™ microcontroller and the DRV8302 three-phase motor driver. It provides three half-bridge drivers, each capable of driving two N-type MOSFETs, one for the high side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 8V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This reference design is a high-performance, power-efficient, cost-effective sensorless field-oriented control (FOC) and sensored/sensorless trapezoidal commutation platform that speeds development for quicker time to market. This reference design is based on the DRV8302 evaluation kit.
  • 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-PLCLITE-PLUGMODULE PLC Lite Communication Module for Smart Home | TI.com
    TIDM-PLCLITE-PLUGMODULE: This design is a PLC communication module in minimum PCB size with PLC lite software. This module can be used for smart home appliances internal communications without separated communication cables, and also can avoid wall penetration issue of wireless solutions.
  • TIDM-BIDIR-400-12 Bidirectional 400V-12V DC/DC Converter Reference Design | TI.com
    TIDM-BIDIR-400-12: The Bidirectional 400V-12V DC/DC Converter Reference Design is a microcontroller-based implementation of an isolated bi-directional DC-DC converter. A phase shifted full-bridge (PSFB) with synchronous rectification controls power flow from a 400V bus/battery to the 12V battery in step-down mode, while a push-pull stage controls the reverse power flow from the low voltage battery to the high voltage bus/battery in boost mode. In this implementation closed loop control for both directions of power flow is implemented using Texas Instruments 32-bit microcontroller TMS320F28035, which is placed on the LV side. This digitally-controller system can implement advanced control strategies to optimally control the power stage under different conditions and also provide system level intelligence to make safe and seamless transitions between operation modes and PWM switching patterns.
  • Two-Phase Interleaved Power Factor Correction Converter with Power Metering
    TIDM-2PHILPFC: This design is a digitally controlled, two phase interleaved, 700W power factor correction converter with added power metering functionality. A C2000™ Piccolo™ microcontroller is the controller for the two 180° phase shifted boost power stages that comprise the power factor correction converter, and, additionally, it monitors the line and neutral voltage waveforms to implement power metering functions. This design is able to achieve 97% efficiency and 1.5% THD at full load with power factor greater than 0.98. By minimizing power loss in the power stage, reducing reliability impacts of harmonic distortion, and providing near unity power factor, this design is a great choice for off-line applications and AC/DC power supplies.
  • C2000™ Solar DC/DC Converter with Maximum Power Point Tracking (MPPT)
    TIDM-SOLAR-DCDC: This design is a digitally-controlled, solar DC/DC converter with maximum power point tracking (MPPT), for use in central or string solar inverters. It is a companion to the TI Design TIDM-SOLAR-ONEPHINV, a grid-tied, single phase, DC/AC inverter. Together, the TIDM-SOLAR-DCDC and the TIDM-SOLAR-ONEPHINV comprise a complete solar inverter for central or string topologies. This solar DC/DC converter consists of a two-phase interleaved boost converter for MPPT and a resonant LLC converter with isolation. A C2000™ Piccolo™ TMS320F28035 microcontroller (MCU) is the digital controller for the complete DC/DC converter, executing high frequency control loops and maximum-power point tracking algorithms. This design achieves full-load efficiency of greater than 94 percent, which allows for more overall energy output from a solar installation and reduces detrimental heat generation in the converter.
  • System on Module for Industrial Power Line Communication (CENELEC Frequency Band)
    TIDM-SOMPLC-INDUSTRIAL-CENELEC: This reference design is a single-board System on Module(SOM) for industrial PLC in the Cenelec frequency band. This TI implementation of Power Line Communications (PLC) is a new option for adding communications to industrial equipment such as solar arrays.PLC Lite™ offers higher data throughput than earlier forms of PLC and greater robustness for transmission across noisy electric lines by using OFDM PHY technology. The industrial PLC achieves up to 21 kbps data rates across AC or DC power lines compared to traditional SFSK PLC solutions (2-5 kbps) all while decreasing the overall BOM cost of a typical PLC modem. 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.
  • Automotive Ultrasonic Fluid Level/Quality Measurement Reference Design
    TIDA-00322: TI reference design TIDA-00322 is an automotive liquid level and fluid identification measurement system. It is based on the dual-channel TDC1000-Q1 ultrasonic AFE and the real-time microcontroller C2000. This reference design can also be used with the TDC1000 for industrial/consumer applications. This solution supports 4.5-40V system capabilities with reverse battery protection. For prototyping and signal accessibility for product development, TI recommends using the TDC1000-C2000EVM as the hardware evaluation platform for automotive designs. For industrial or consumer designs, it is recommended to begin evaluation with the TDC1000-TDC7200EVM. This EVM has the ability of using the MSP430 or the TDC7200 as the stop-watch timer; usage of each depends on the time of flight accuracy requirement of the application.
  • TIDM-AC-LED-COM AC-mains LED Lighting with DALI DMX512 & Power Line Communications Reference Design | TI.com
    TIDM-AC-LED-COM: Ideal for outdoor, entertainment, and industrial lighting applications, this LED Lighting design provides high power and high efficiency illumination with built-in communications networking. The lighting unit consists of a 250W universal AC-input LED driver power supply and a demonstrational six-string LED lamp. Driving the LED’s with great power efficiency and electrical utilization, the LED driver power supply operates at greater than 90% power efficiency with 0.99 power factor (PF). Furthermore, to support system-networked lighting and remote connectivity, this power supply includes support for common lighting communications standards including Digital Addressable Lighting Interface (DALI), DMX512, and Power Line Communications (PLC).
  • TIDM-THREEPHASE-BLDC-LC Three-Phase BLDC and PMSM Medium Voltage Motor Control Solution | TI.com
    TIDM-THREEPHASE-BLDC-LC: Spin and control three-phase brushless DC (BLDC) and brushless AC (BLAC) motors—or permanent magnet synchronous motors (PMSM)—using sensorless field oriented control (FOC). This design provides high-performance, power-efficient, and cost-effective control for sub-50V, 7A motors, ideal for applications like medical pumps, gates, lifts, small pumps, robotics, and automation. Sensored and sensorless trapezoidal commutation motor control techniques are also supported with this design.
  • TIDM-2PHILPFC Two-Phase Interleaved Power Factor Correction Converter with Power Metering | TI.com
    TIDM-2PHILPFC: This design is a digitally controlled, two phase interleaved, 700W power factor correction converter with added power metering functionality. A C2000™ Piccolo™ microcontroller is the controller for the two 180° phase shifted boost power stages that comprise the power factor correction converter, and, additionally, it monitors the line and neutral voltage waveforms to implement power metering functions. This design is able to achieve 97% efficiency and 1.5% THD at full load with power factor greater than 0.98. By minimizing power loss in the power stage, reducing reliability impacts of harmonic distortion, and providing near unity power factor, this design is a great choice for off-line applications and AC/DC power supplies.
  • TIDM-THREEPHASE-BLDC-HC-SPI-INST Three-Phase Brushless/PMSM High-Current Motor Control Solution with InstaSPIN Software | TI.com
    TIDM-THREEPHASE-BLDC-HC-SPI-INST: This reference design demonstrates a motor control solution for spinning three-phase brushless DC (BLDC) and brushless AC (BLAC) - often referred to as “permanent magnet synchronous (PMSM)” - motors featuring the C2000™ Piccolo™ microcontroller enabled with InstaSPIN-FOC and InstaSPIN-MOTION in ROM and the DRV8301 three-phase motor driver. It provides three half-bridge drivers, each capable of driving two N-type MOSFETs, one for the high side and one for the low side. It supports up to 2.3A sink and 1.7A source peak current capability and only needs a single power supply with a wide range from 6V to 60V. The reference design features a high-performance, power-efficient, cost-effective platform that speeds development for quicker time to market. Applications include CPAP and pumps, e-bikes, e-scooters, medical pumps and drills, power tools, and robotics. This reference design is based on the DRV8301 evaluation kit.
  • 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.
  • Power Line Communications (PLC) Lite™ Reference Design for Industrial Applications
    TIDM-INDUSTRIAL-PLC: This TI implementation of Power Line Communications (PLC) is a new option for adding communications to industrial equipment such as solar arrays. PLC Lite™ offers higher data throughput than earlier forms of PLC and greater robustness for transmission across noisy electric lines by using OFDM PHY technology. This design is based upon a C2000 controlCARD and an analog front end for PLC. The C2000 MCU executes the entire PLC Lite software stack. TIDM-INDUSTRIAL-PLC achieves up to 21 kbps data rates across AC or DC power lines compared to traditional SFSK PLC solutions (2-5 kbps) all while decreasing the overall BOM cost of a typical PLC modem.

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