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C2000Ware Digital Power SDK
5.04.00.00
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C2000Ware Digital Power SDK
5.04.00.00
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This page lists all the reference design solutions supported in this SDK, categorized by each power domains:
| TI Designs | Reference Design Description |
|---|---|
| DC-DC | |
| PMP23126 | 3kW Phase-shifted Full Bridge with Active Clamp (More) |
| PMP23340 | 1.1kW 48V to 12V 1/8th GaN Brick Power Module (More) |
| PMP41017 | 3kW GaN-based Two Phase Interleaved Half-Bridge LLC (More) |
| PMP41037 | 1kW, 800V to 12V Serial Half-Bridge Bidirectional DCX with GaN (More) |
| PMP41042 | 3.6kW Bi-directional CLLLC Resonant Converter (More) |
| PMP41081 | 1kW 12V Hybrid-hysteretic control (HHC) LLC (More) |
| TIDA-010054 | 10kW Bi-directional Dual Active Bridge (DAB) DC-DC Converter (More) |
| TIDA-010086 | 10A Battery Formation and Test (More) |
| TIDA-010087 | 100A Dual-Phase Digital Control Battery Tester (More) |
| TIDA-010090 | 50A GaN-based Battery Tester (More) |
| TIDM-02000 | Peak Current-mode Controlled Phase-shifted Full-bridge (PSFB) (More) |
| TIDM-02002 | Bi-Directional CLLLC Resonant Dual Active Bridge (DAB) (More) |
| TIDM-02011 | Live Firmware Update (LFU) Reference Design (More) |
| TIDM-DC-DC-BUCK | Digitally Controlled Non-Isolated DC-DC Synchronous Buck Converter (More) |
| Solar | |
| TIDA-010955 | AI-based Arc Fault Detection (More) |
| TIDA-010231 | Arc Fault Detection in Photovoltaic Applications Reference Design (More) |
| TIDA-010933 | 1.6kW GaN-based Solar Microinverter (More) |
| TIDA-010938 | 10kW GaN-based Single-phase String Inverter with Battery Energy Storage System (More) |
| TIDA-010949 | 600W GaN-based Solar Power Optimizer with Wired and Wireless Communication (More) |
| TIDM-SOLAR-DCDC | Two-phase Interleaved MPPT DC-DC Boost and Half-Bridge LLC DC-DC Converter (More) |
| AC-DC | |
| PMP23069 | 3kW Single-phase CCM Totem-pole Bridgeless PFC (More) |
| PMP23338 | 3.6kW Single-phase CCM Totem-pole Bridgeless PFC (More) |
| PMP40988 | 5kW Two-phase Variable Switching Frequency Totem-Pole PFC (More) |
| TIDM-1000 | Three-phase PFC: Vienna Rectifier (More) |
| DC-AC | |
| TIDM-HV-1PH-DCAC | Single Phase Inverter: Voltage Source (More) |
| TIDM-HV-1PH-DCAC | Single Phase Inverter: Grid Connected (More) |
| AC-DC / DC-AC | |
| TIDA-010210 | 11kW Bi-directional 3-phase 3-level ANPC-type Active Front End (More) |
| TIDA-01606 TIDA-010039 | 10kW Bi-directional 3-phase 3-level T-type Active Front End (More) |
| AC-DC + DC-DC | |
| TIDA-010062 | 1kW GaN CCM Totem-pole Bridgeless PFC and Half-Bridge LLC (More) |
| PMP41006 | 1kW GaN CCM Totem-pole Bridgeless PFC and Current Mode LLC (More) |
| TIDM-02013 | 7.4kW GaN-based On-board Charger (More) |
This reference design implements a GaN-based 3kW, phase shifted full bridge (PSFB) targeting high-power density of 279 W/in³ using a C2000™ TMS320F280049 MCU. (More)
This reference design is a 1.1kW, high-density, 48V to 12V open-loop bus converter. This provides a reference for a power brick module in standard eighth brick footprint using C2000™ TMS320F2800157 MCU. (More)
This reference design demonstrates a two-phase interleaved half-bridge inductor-inductor-capacitor (LLC) resonant converter implemented on C2000™ TMS320F280039C MCU, with an ultra-compact design featuring high power density of 313 W / in³. The design employs capabilities for phase shedding, current balancing, and hybrid duty mode control, whichs allows for peak efficiency of 98.1% with use of GaN power switches. (More)
This reference design is a 1kW bidirectional DC transformer (DCX), converting 800V DC bus into 12V with isolation. The design is controlled by C2000™ TMS320F280039C MCU, and is constantly operated at the resonant frequency of the resonant tank. (More)
This reference design is a digital controlled 3.6kW power supply for energy storage applications with bidirectional power flow capability and soft switching. This design illustrates control of this power topology using a C2000™ TMS320F280049 MCU in closed voltage and closed current-loop mode. (More)
This reference design is a 1kW, 400V to 12V half-bridge resonant DC-DC platform, used to evaluate the load transient performance of hybrid-hysteretic control (HHC) with a C2000™ TMS320F280039C MCU. (More)
This reference design provides an overview on the implementation of a single-phase Dual Active Bridge (DAB) DC/DC converter with a C2000™ TMS320F280039C MCU. (More)
The reference design illustrates a method to precisely control the current and voltage of a bidirectional interleaved buck converter power stage using a C2000™ TMS320F280039C MCU and a precision ADC ADS131M08. (More)
The reference design illustrates a method to precisely control the current and voltage of a bidirectional interleaved buck converter power stage using a C2000™ TMS320F280039C MCU and a precision ADC ADS131M08. (More)
The reference design illustrates a method to precisely control the current and voltage of a bidirectional buck converter power stage using a C2000™ TMS320F28P65x MCU and a precision ADC ADS8588S. (More)
This design illustrates peak current mode control method to PSFB power stage using a C2000™ TMS320F280049 MCU. (More)
This design implements a DC-DC CLLLC resonant dual active bridge with directional power flow capability and soft switching characteristics using a C2000™ TMS320F280049 MCU. (More)
This reference design illustrates live firmware update (LFU) without device reset on a C2000™ real-time MCU, on both the C28x CPU and the control law accelerator (CLA). (More)
The Digital Power Buck Converter BoosterPack (BOOSTXL-BUCKCONV) provides an introductory platform for learning the basics of digital power control. When paired with a C2000™ F280049C Launchpad, this BoosterPack demonstrates a full buck converter control system. (More)
This reference design is a solar power optimizer, which can support up to 80V input voltage and 80V output voltage, providing upwards of 18A output current and input current. This reference design includes power line communication (PLC) and also features wireless communication. (More)
This reference design implements a four-channel analog front end for DC arc detection in photovoltaic systems, supports DC voltages up to 1000 V and currents up to 10 A. (More)
This reference design implements a four-channel analog front end for DC arc detection in photovoltaic systems, supports DC voltages up to 1500 V and currents up to 16 A. (More)
This reference design shows a four-input bidirectional 1.6kW GaN-based microinverter with energy storage capability. (More)
This reference design implements a GaN-based single-phase string inverter with bidirectional power conversion system for Battery Energy Storage Systems (BESS), using a C2000™ F28003X or F28P55X MCU. (More)
This reference design demonstrates full digital control of MPPT DC/DC stage of a Solar Inverter system. The system is controlled by a single, C2000™ TMS320F280049 MCU. (More)
This reference design demonstrates a method to control a continuous conduction mode Totem pole power factor correction converter (PFC).The system is controlled by a single C2000™ TMS320F280039C or TMS320F280049, which generates PWM waveforms for all power electronic switching devices under all operating modes. (More)
This reference design demonstrates a method to control a continuous conduction mode Totem pole power factor correction converter (PFC). The system is controlled by a single C2000™ TMS320F280039C or TMS320F2800137, which generates PWM waveforms for all power electronic switching devices under all operating modes. Compared with PMP23069, the board features a AMC1306 alongside of hall sensor for better current sensing. (More)
This design implements an improved triangular conduction mode (iTCM) control of Totem pole power factor correction converter (PFC) using a C2000™ F28003x or F28004x microcontroller. (More)
This design implements a digitally controlled 2.4KW power factor correction for three phase input based on the vienna rectifier topology. (More)
This reference design implements control scheme of a voltage source inverter with an LC output filter, using a C2000™ TMS320F28377D or TMS320F280039C MCU. (More)
This reference design implements control scheme of a grid connected inverter with an LCL output filter, using a C2000™ TMS320F28377D or TMS320F280039C MCU. (More)
This reference design implements a bidirectional three-phase, three-level, active neutral point clamped (ANPC) inverter and PFC stage. The design demonstrates a complete implementation of three phase ANPC Inverter/PFC control in the DQ domain using a C2000™ TMS320F280049 MCU. (More)
This reference design implements a bidirectional three-phase, three-level, T-type inverter and PFC which enables high efficiency and reduced size of the power stage. The design illustrates the power stage control in either C2000™ F2837xD, F28P65x, or F28003x MCU. (More)
This reference design is a digitally controlled, compact 1kW AC/DC power supply design. The highly efficient design supports two main power stages, including a front-end continuous conduction mode (CCM) totem-pole bridgeless power factor correction (PFC) stage, or a half-bridge voltage mode control (VMC) / hybrid-hysteretic control (HHC) LLC stage. Both available in either C2000™ F28P55x, F28004x, F80003x, F28002x MCU. In addintion, an example demonstrating Live Firmware Update (LFU) is also provided. (More)
This reference design demonstrates a hybrid hysteresis control (HHC) method, a kind of current-mode control method, on half-bridge LLC stage with a C2000™ MCU and based on TIDA-010062. (More)
This reference design illustrates CCM PFC control as well as frequency and phase modulation control of the CLLLC resonant converter on a C2000™ F28P65x or F28003x MCU. (More)
1.8.17