改訂履歴
Changes from F Revision (November 2019) to G Revision
- Changed main.cfg to main.syscfg throughout documentGo
- Changed Figure17: powerSUITE Page for Vienne Rectifier SolutionGo
- Added The changes will only happen after rebuilding the entire project Go
- Changed Kit.xml to Kit.jsonGo
- Changed powerSUITE CFG to powerSUITE SYSCFGGo
- Changed CFG page to SYSCFG pageGo
- Changed vienna_settings.h to vienna_user_settings.hGo
- Changed powerSUITE main.cfg to powerSUITE main.syscfgGo
Changes from E Revision (June 2019) to F Revision
- Changed F2804x を F28004x にGo
Changes from D Revision (May 2018) to E Revision
- Added 「また、HTTP GUI ページとイーサネットのサポートにより、Vienna 整流器を監視・制御することもできます (F2838X のみ)。」をGo
- Deleted UCC21620DWGo
- Added UCC21520DWGo
- Added 2838x、FGo
- Added 「HTTP GUI ページとイーサネットのサポートにより、Vienna 整流器を監視・制御 (F2838X のみ)」をGo
- Changed TMS320F280049M to TMS320F280049CGo
- Added text and bulleted list items.Go
- Changed TMS320F280049M to TMS320F280049CGo
- Changed TMDSCNCD280049M to TMDSCNCD280049CGo
- Changed TMS320F280049M to TMS320F280049C Go
- Deleted text To route them to the corrent control card pins for the SDFMGo
- Changed down to upGo
- Changed TMS320F280049M to TMS320F280049CGo
- Changed version 7.4 to 9.0.1Go
- Changed pfc3phvienna to viennaGo
- Added /F2838xDGo
- Added /F2838xDGo
- Added noteGo
- Added (VIENNA_guiVbus_Volts in the expression window)Go
- Deleted guiVbus will be close to 320 V, and the guiVbusPM/MN will be close to 160 V each. The code runs a sine analyzer module, which computes the RMS value of the voltage and current. Notice the value ofGo
- Added Monitoring and Control of Vienna Rectifier Based on the HTTP GUI Page and Ethernet Support (F2838x_only)Go
- Deleted sentence: The three-phase current, voltage, and power factors are monitord and shown in HTTP GUI page. The output voltage reference and command signal (Start PFC - cleartrip) can be set in the GUI page and control the Vienna rectifier.Go
- Changed sentence from The ethernet based control and monitoring can be applied to all four incremental builds, but the test in this section is based on INCR_BUILD 3 to The ethernet based monitoring can be applied to all four Incremental builds and the ethernet based control can be applied to INCR_BUILD 3 and INCR_BUILD 4. Test in this section is based on INCR_BUILD 4. Go
- Added paragraphGo
- Changed INCR_BUILD_3 to INCR_BUILD_4Go
- Changed the step from 1~2 in section 6.4.3.1 to the step from 1~3 in section 6.4.4.1Go
- Added list itemGo
- Changed Follow the step from 1~2 in section 6.4.3.3 to Follow the step from 1~2 in section 6.4.4.2Go
- Added linkGo
- Added linkGo
- Added which is the per unit valueGo
- Changed F2804x to F28004x and F2838xGo
- Added VIENNA_Go
- Added VIENNA_Go
- Added VIENNAGo
- Added additional authorGo
Changes from C Revision (July 2017) to D Revision
- Added F28004x to Highlighted Products section and updated textGo
- Updated equation definition list in Current Loop Model sectionGo
- Added equation definition list to Equation 5 in DC Bus Regulation Loop sectionGo
- Added note to Bus Capacitor Selection sectionGo
- Added TMS320F280049M to Protection (CMPSS) sectionGo
- Changed 700-800Ω to 500Ω in Base Board Settings sectionGo
- Corrected duplicate J2 in Key Connectors and Function tableGo
- Changed F283779D to F28379D in Step 3 of Control Card Settings sectionGo
- Changed F283779D to F28379D in Step 3 of Control Card Settings sectionGo
- Changed controlSUITE to C2000Ware_DigitalPower_SDK in Getting Started Firmware sectionGo
- Added note in Firmware: powerSUITE and Incremental Build SoftwareGo
- Changed Steps in Opening the Project Inside Code Composer Studio sectionGo
- Added Using CLA on C2000 MCU to Alleviate CPU Burden sectionGo
- Changed iLRef = 1.65 to 0.165 in Step 10 of Running Code (Build 2) sectionGo
- Changed F28377D to F28379D in Step 13 of Running Code (Build 2) sectionGo
- Changed DC bus to input ACGo
- Changed 1.34 to 1.32 in Running Code (Build 4)Go
- Changed F28377D to F28379D in Step 8 of Running Code (Build 4) sectionGo
- Added Running on CLA sectionGo
- Added Power Analyzer Capture of Harmonics at 208-V AC Input, 600-V DC Output, 1.2-kW Load imageGo
- Added Thermal Camera Image of Vienna Rectifier Operating at 2.4-kW, 230-Vrms VL-N Input, 700-V DC OutputGo
- Changed Design Files sectionGo
- Changed Related Documentation sectionGo
Changes from B Revision (June 2017) to C Revision
- Changed Figure 4.Go
- Changed Figure 5Go
- Changed Figure 27.Go
- Changed Figure 36.Go
- Added the TMS320F28004x Piccolo™ Microcontrollers Data Sheet to Section 6: Related DocumentationGo
Changes from A Revision (February 2017) to B Revision
- Changed location of Section 1 from Section 1.1.Go
- Changed location of Section 1.1 from Section 1.2.Go
- Added warning symbol to Warning note.Go
- Added warning symbols to Caution note.Go
- Added High voltage! There are accessible high voltages present on the board. Electric shock is possible. The board operates at voltages and currents that may cause shock, fire, or injury if not properly handled. Use the equipment with necessary caution and appropriate safeguards to avoid injuring yourself or damaging property. For safety, use of isolated test equipment with overvoltage and overcurrent protection is highly recommended. Go
- Added Hot surface! Contact may cause burns. Do not touch!Go
- Changed title of Section 2 from System Specifications to System Overview.Go
Changes from * Revision (November 2016) to A Revision
- Changed TMS320F28377DからTMS320F28379DにGo
- Added 「リソース」セクションにTMS320F280049MをGo
- Added 「リソース」セクションに TMS320F280049M をGo
- Added 2838x, F to title and textGo
- Added For version 1.3 of the F283779D control card, this means SW3 and SW2 are moved to the end with "." that is, to the left, which puts 3.3-V VDDA as the reference for the ADC.Go
- Added For version 1.3 of the F283779D control card, this means SW3 and SW2 are moved to the end with "." that is, to the left, which puts 3.3-V VDDA as the reference for the ADC.Go
- Added If there is no change in the value then make sure the real-time mode is enabled, and the HW is setup correctly. Do not proceed further unless the update is verified.Go
- Added For example, when Vac is 30 Vrms without switching enabled, the guiVbus will be ~84 V; with switching, the guiVbus will rise up to 140 V.Go
- Added Make sure all the variables are accurate, that is, guiVrms1/2/3, guiIrms1/2/3, guiPF1/2/3. If any variable is not in line with as shown in Figure 25, it points to a hardware issue with the sensing circuit.Go
- Changed Figure 27Go
- Changed 2.7 to 2.0.Go
- Changed Figure 1Go
- Added and THD will be around 2.5%.Go