J. Behrschmidt

Thanks for your answer, but this belongs to the start of the topic and the example there. I posted another configuration. In this I payed attention that the sub-fields have a multiple of the inverter mpp. Why doesn't this configuration work?

one remark: I ask myself, if it is realy necessary to pay attention that in each subfield the total number of MPP is a multiple of that of the inverter. In my opinion this criteria should be for the sum of MPPs of the sub-fields involved in power sharing. For the subfield it is more important, that the number of strings is a multiple of the MPP used in this subfield

I have the same problem an the number of MPP is a multiple of that of the inverter.

I want to use power sharing between MPPT, because different numbers of strings are connected to the MPPT. I payed attention, that all MPPTs are used. Also I copied the additional configuration fromt the first to get sure, that I always use the same .ond file. Now I get the message, that the number of MPPT inputs is not a multiple of the number of inverters. Who could help? The configuration is: Compatibility between System defintions Full system orientation tilt/azim = 17° / 0° 3 sub-arrays PNom = 1163 kWp, modules area = 5280 m² No shading field defined in the 3D scene ! System parameters 3 sub-arrays defined Sub-array #1 430-30-1 PV modules: 4 strings of 30 modules in series, 120 total Pnom = 430 Wp PNom array = 52 kWp, area = 234 m² Inverters (300 kWac) 1 MPPT inputs, Total 50 kWac, Pnom ratio = 1.03 Sub-array #2 430-34-4 PV modules: 36 strings of 34 modules in series, 1224 total Pnom = 430 Wp PNom array = 526 kWp, area = 2390 m² Inverters (300 kWac) 9 MPPT inputs, Total 450 kWac, Pnom ratio = 1.17 Sub-array #3 430-34-5 PV modules: 40 strings of 34 modules in series, 1360 total Pnom = 430 Wp PNom array = 585 kWp, area = 2656 m² Inverters (300 kWac) 8 MPPT inputs, Total 400 kWac, Pnom ratio = 1.46 3D shadings parameter No shading scene defined

Thank you all for your support.

Thank you for the explanation. The problem with the zone is, that then I am not able to work with bifacial modules, which should be used.

Thank you for your help. Performing the simulation helps.

When I want to print the horizon file I got the picture below. How can I solve this problem?

We have a surface that slopes 1.6° to the north. Single-axis trackers with a north-south axis should be installed on this surface. The arrangement of the trackers has a misalign. To map the field we use several tracker arrays. To align the trackers in the correct height we have defined a ground object that gets a tilt of -1.6°. We align the height of the trackers with Set auto. altitude. We now have some trackers in the field that are optically lower than the others, although mathematically the height in the coordinates was calculated correctly by PVSyst. Can someone help here?

We want to simulate a plant with modules oriented east-west (dome) and south. Our customer want to use bifacial modules. Now we had the problem to guess, if we have a bifacial gain for the modules of the east-west (dome) part. We tryed to simulate it separately with modules in rows first for west. To consider the shadings of the east oriented modules we exchanged it with quaders as shading objects. Now we see a bifacial gain of 5%. For us this is not plausibel, especially we compare it to the south oriented part, where we have a gain of 2%. It seems for us that the shading objects are not considered for the calculation of the bifacial gain, even when shadow casting is enabled. Because the results are not trustable we will set the bifacial gain to zero, even we belief that a small gain should be possible, because the rows are short and the gable are not shaded. Does someone have experience with bifacial modules in east west configurations?

Hello André, in my opinion the values are correct. I attached the .ond. Maybe you see what's wrong. Huawei_Sun2000_36k-8p2-haller.zip

Hello, I face problems with the results for inverter loss over nominal inv. power, which seems to be to high. I see the cause in the system defintion, see picture attached. I have a 36KW inverter with four inputs, but the Global inverter power is shown with 65 instead of expected 72. When I reduce to four inputs the Global inverter power is shown with 32.5. The Inverter loss over nominal inverter power is calcluated with 1%, which seems to be to high in my opinion. When I do not use the multi-MPPT feature, the global inverter power shows the correct value with 72kW, but as result for the inverter loss over nominal inv. power I get 11%. I did the calculation with V6.63 and V6.64 its always the same.

Thank you for the answer. I tested 6.64 with a simple configuration PV tables as sheds. All is fine, when I create the 3D shading the first time. The correct tilt and azimuth is shown in the column Shadings, when I leave the Construction/Perspective. But, if I modify an existing 3D scene and change for exampel the azimuth this change of the azimuth is not shown, when I leave the construction/perspective. Only after updating the Orientations Parameters with the button Update Orientation Parameters, the values beneath Shadings has been refreshed and shows the correct values.

Hello, it seems to me, that the azimuth calculated by PVsyst and shown in the window "Near Shadings definitions, Variant" is faulty, when I use baseline slope for sheds. When I set the module tilt to 90° and the azimuth, for example to 15° the calculated azimuth is 15°. But when I change the base line slope to 1° for example the azimutz is given with 30°. The problem occurs in 6.62 and 6.63 as well. Joerg

Hello, I updated the display driver, sadly with no success. The latest version of the driver is 19.02.2013. Below information about Processor, RAM and Display driver. Operating System: Windows 7 Professional 64-bit (6.1, Build 7601) Service Pack 1 (7601.win7sp1_ldr.170512-0600) Language: German (Regional Setting: German) System Manufacturer: Dell Inc. System Model: Vostro 3500 BIOS: BIOS Date: 01/09/10 15:17:22 Ver: 08.00.10 Processor: Intel® Core i5 CPU M 460 @ 2.53GHz (4 CPUs), ~2.5GHz Memory: 8192MB RAM Available OS Memory: 7990MB RAM Page File: 2150MB used, 13829MB available Display Devices --------------- Card name: Intel® HD Graphics Manufacturer: Intel Corporation Chip type: Intel® HD Graphics (Core i5) DAC type: Internal Device Key: Enum\PCI\VEN_8086&DEV_0046&SUBSYS_04411028&REV_18 Display Memory: 1696 MB Dedicated Memory: 64 MB Shared Memory: 1632 MB Current Mode: 1920 x 1080 (32 bit) (60Hz) Monitor Name: PnP-Monitor (Standard) Monitor Model: S22B350 Monitor Id: SAM08D4 Native Mode: 1920 x 1080(p) (60.000Hz) Output Type: HDMI Driver Name: igdumd64.dll,igd10umd64.dll,igdumdx32,igd10umd32 Driver File Version: 8.15.0010.2993 (English) Driver Version: 8.15.10.2993 DDI Version: 10 Driver Model: WDDM 1.1 Driver Attributes: Final Retail Driver Date/Size: 2/19/2013 14:44:10, 8314368 bytes WHQL Logo'd: Yes WHQL Date Stamp: Device Identifier: {D7B78E66-4306-11CF-2978-4B24B8C2C535} Vendor ID: 0x8086 Device ID: 0x0046 SubSys ID: 0x04411028 Revision ID: 0x0018 Driver Strong Name: oem53.inf:IntelGfx.NTamd64.6.0:iILKM0:8.15.10.2993:pci\ven_8086&dev_0046 Rank Of Driver: 00E62001 Video Accel: ModeMPEG2_A ModeMPEG2_C ModeWMV9_B ModeWMV9_C ModeVC1_B ModeVC1_C Deinterlace Caps: {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend D3D9 Overlay: Supported DXVA-HD: Supported DDraw Status: Enabled D3D Status: Enabled AGP Status: Enabled Card name: Intel® HD Graphics Manufacturer: Intel Corporation Chip type: Intel® HD Graphics (Core i5) DAC type: Internal Device Key: Enum\PCI\VEN_8086&DEV_0046&SUBSYS_04411028&REV_18 Display Memory: 1696 MB Dedicated Memory: 64 MB Shared Memory: 1632 MB Current Mode: 1920 x 1080 (32 bit) (60Hz) Monitor Name: SyncMaster P2250(G)/P22500(G),Magic P2250G(Analog) Monitor Model: SyncMaster Monitor Id: SAM0523 Native Mode: 1920 x 1080(p) (60.000Hz) Output Type: HD15 Driver Name: igdumd64.dll,igd10umd64.dll,igdumdx32,igd10umd32 Driver File Version: 8.15.0010.2993 (English) Driver Version: 8.15.10.2993 DDI Version: 10 Driver Model: WDDM 1.1 Driver Attributes: Final Retail Driver Date/Size: 2/19/2013 14:44:10, 8314368 bytes WHQL Logo'd: Yes WHQL Date Stamp: Device Identifier: {D7B78E66-4306-11CF-2978-4B24B8C2C535} Vendor ID: 0x8086 Device ID: 0x0046 SubSys ID: 0x04411028 Revision ID: 0x0018 Driver Strong Name: oem53.inf:IntelGfx.NTamd64.6.0:iILKM0:8.15.10.2993:pci\ven_8086&dev_0046 Rank Of Driver: 00E62001 Video Accel: ModeMPEG2_A ModeMPEG2_C ModeWMV9_B ModeWMV9_C ModeVC1_B ModeVC1_C Deinterlace Caps: {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(YUY2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(UYVY,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(YV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(NV12,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC1,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC2,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC3,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend {BF752EF6-8CC4-457A-BE1B-08BD1CAEEE9F}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,1) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_EdgeFiltering {335AA36E-7884-43A4-9C91-7F87FAF3E37E}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend DeinterlaceTech_BOBVerticalStretch {5A54A0C9-C7EC-4BD9-8EDE-F3C75DC4393B}: Format(In/Out)=(IMC4,YUY2) Frames(Prev/Fwd/Back)=(0,0,0) Caps=VideoProcess_YUV2RGB VideoProcess_StretchX VideoProcess_StretchY VideoProcess_AlphaBlend D3D9 Overlay: Supported DXVA-HD: Supported DDraw Status: Enabled D3D Status: Enabled AGP Status: Enabled