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C2000Ware Digital Power SDK
5.03.00.00
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C2000Ware Digital Power SDK
5.03.00.00
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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) |
| 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-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) |
| 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 | 3kW 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)
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)
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 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 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™ TMS320F280039C 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) using a C2000™ F28003x or F28004x microcontroller. (More)
This reference design demonstrates a method to control a continuous conduction mode Totem pole power factor correction converter (PFC). 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)
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