iScan VP50

DVDO iScan VP50 FAQs

1. What is the iScan VP50?
2. What is the difference between the iScan VP50 and VP30 and VP20?
3. What video inputs does the iScan VP50 have?
4. How does the iScan Vp50 handle different input signals and how can these signals be output from the iScan VP50?
5. What signal does the iScan VP50 output?
6. What audio formats can the iScan VP50 support?
7. Tell me more about the HDMI connections on the iScan VP50
8. What kind of aspect ratio control does the iScan VP50 offer?
9. What video processing technology does the iScan VP50 use?
10. Tell me more about the lipsync correction on the iScan VP50
11. Does the iScan VP50 have an On Screen Display (OSD)?
12. Tell me more about the frame rate conversion feature on the iScan VP50
13. What do the different frame rate options mean?
14. How does the iScan VP50 detect incoming signals?
15. What kind of power supply does the iScan VP50 come with?
16. I have an A/V receiver to handle the switching of my A/V sources. How should I hook up the iScan VP50 in my set-up?
17. Will the iScan VP50 improve the picture quality of standard definition channels from my satellite system (DSS)?
18. What does the color of the power LED on my VP50 mean?

1. What is the iScan VP50?

The DVDO® iScan™ VP50 is a high-definition video processor and A/V hub that converts standard definition, high definition (including 1080p) and PC signals from your DVD player, HD-DVD player, Blu-ray Disc player, HD DVR, game console or PC to any output resolution between VGA and 1080p, including popular HDTV resolutions such as 720p and 1080i.

The VP50 serves as your complete A/V hub, providing audio/video switching that simultaneously eliminates A/V lipsync and allows a one wire connection to display for all of your video needs.

The iScan VP50 brings 10-bit deinterlacing and scaling to the DVDO iScan product family, while adding HDMI switching, professional BNC connections, robust Digital/Analog Audio switching, routing, and 1080p processing technology. For the sophisticated home theater, and audio/video presentation systems, the iScan VP50 makes the perfect centralized control and processing hub.

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2. What are the differences between the iScan VP50 and the VP30 and VP20?

The iScan VP50 offers the same innovative deinterlacing algorithms as the Precision Deinterlacing Card (ABT102), which is available for the VP20 and the VP30, for both standard definition (480i/576i) and high definition deinterlacing (1080i). The ABT102 deinterlaces standard definition signals only. The iScan VP50 can also detect the cadence on a progressive input and provide a source-locked output, allowing a judder-free 24/48/72Hz output from film-based content. The iScan VP50 accepts a 1080p input signal from an HD-DVD or Blu-ray Disc player so that the 10-bit Precision Video Scaling in the VP50 can preserve the most amount of detail when this signal is scaled to a lower output resolution.

The iScan VP50 offers these additional features, above and beyond the iScan VP20 and VP30:

• 10-bit VRS Precision deinterlacing of Standard and High Definition sources
• Progressive Source Input Cadence Detection
• 1080p input processing capability
• The design of the iScan VP50 allows all processing algorithms to be updated using the serial port.

Please see the iScan Comparison table for a detailed list of differences between the iScan models.

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3. What video inputs does the iScan VP50 have?

The iScan VP50 has 2 Composite video inputs, 2 S-video (Y/C) inputs, 2 Component video (YPbPr) inputs, 1 RGBHV/Component video (BNCs) input, 4 HDMI inputs, and 1 optional SD-SDI input.

2 Composite video inputs
2 S-Video (Y/C) inputs

The composite and S-video inputs accept standard definition NTSC (480i) and PAL/SECAM (576i) signals. These standard definition signals are deinterlaced and scaled by the iScan VP50.

2 Component video (YPbPr) inputs

(The component inputs also have an additional sync connector to accept RGB/S signals, commonly found in Europe).

The component inputs accept YPbPr or RGB/S formats. 480i and 576i signals are deinterlaced and scaled, 480p, 576p, 720p, and 1080i inputs can be scaled. Any signal that is processed can be output from the iScan VP50 as either an analog (component or RGB) or digital signal (component or RGB).

For example, a video source device which can output standard definition interlaced (480i/576i), standard definition progressive (480p/576p) and/or high definition (720p/1080i) can be attached to just one component input and the iScan VP50 will adapt to the input signal with the correct behavior. This is called "AutoVFR™", for Automatic Video Format Routing.

1 RGBHV/ Component input

The RGBHV/Component input on the iScan VP50 will accept and process standard definition progressive (480p/576p), high definition (720p/1080i) and VGA/SVGA/XGA/SXGA computer signals at 60 Hz. Any signal that is processed can be output from the iScan VP50 as either an analog (component or RGB) or digital signal (component or RGB). All other input resolutions can be passed through to the analog output. Signals that are passed through will have exactly the same output resolution, color space and frame rate as the input signal.

4 HDMI inputs

The HDMI inputs on the iScan VP50 will accept and process standard definition interlaced (480i/576i), standard definition progressive (480p/576p), high definition (720p/1080i/1080p) and VGA/SVGA/XGA/SXGA computer signals at 60 Hz. The HDMI inputs can accept a signal with RGB 4:4:4, YCbCr 4:4:4, or YCbCr 4:2:2 colorspace. All other input resolutions can be passed through to the digital output.

The iScan VP50 does process an HDCP-encrypted signal and output the signal on the HDMI output with the HDCP encryption intact. If the input signal is HDCP-encrypted then the analog outputs of the iScan VP50 must be turned off for legal constraints.

If the incoming signal is not HDCP protected, and if it is at a resolution of 480i/p, 576i/p, 720p, 1080i, 1080p, or VGA/SVGA/XGA/SXGA computer signals at 60 Hz, then it can be scaled by the iScan VP50 and output as an analog (component or RGB) or digital signal (component or RGB).

If your source has a DVI output (and no HDMI output), a DVI-to-HDMI adapter or cable will be needed to connect this source to the VP50. The same is true, if your display does not have an HDMI input, but does have a DVI input. Typically, DVI sources and displays only use RGB 4:4:4 colorspace.

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4. How does the iScan VP50 handle different input signals and how can these signals be output from the iScan VP50 ?

The iScan VP50 can deinterlace standard definition interlaced (480i/576i) signals and high definition (1080i) signals and scale progressive (480p/576p/720p/1080p) signals. The iScan VP50 can also scale PC signals (VGA, SVGA, XGA, and SXGA @ 60Hz) on the RGBHV and HDMI inputs. Any signal that is processed can be output from the iScan VP50 as either an analog (component or RGB) or digital signal (component or RGB). Any digital input signal that has HDCP (High-bandwidth Digital Content Protection) can only be output as a digital signal.

Input Signal	What iScan VP50 does to the signal	Component Output	RGBHV Output	HDMI Output
Composite Video (480i/576i)	Deinterlaced /Scaled	Yes	Yes	Yes
S-Video (480i/576i)	Deinterlaced /Scaled	Yes	Yes	Yes
Component Video (480i/576i)	Deinterlaced /Scaled	Yes	Yes	Yes
Component Video (480p/576p)	Scaled	Yes	Yes	Yes
Component Video (720p)	Scaled	Yes	Yes	Yes
Component Video (1080i)	Deinterlaced /Scaled	Yes	Yes	Yes
Component Video (all other resolutions)	Passed Through	No	No	No
Component Video (480i/576i on RGBHV/Component Input)	Passed Through	No	No	No
Component Video (480p/576p, 720p on RGBHV/Component Input)	Scaled	Yes	Yes	Yes
Component Video (1080i on RGBHV/Component Input)	Deinterlaced /Scaled	Yes	Yes	Yes
Component Video (all other resolutions on RGBHV/Component Input)	Passed Through	Yes	No	No
RGBHV (VGA/SVGA/XGA/SXGA@60Hz on RGBHV/Component Input)	Scaled	Yes	Yes	Yes
RGBHV (all other resolutions on RGBHV/Component Input)	Passed Through	No	Yes	No
HDMI/DVI (480i with HDCP)	Deinterlaced / Scaled	No	No	Yes
HDMI/DVI (480i without HDCP)	Deinterlaced / Scaled	Yes	Yes	Yes
HDMI/DVI (480p/576p/720p with HDCP)	Scaled	No	No	Yes
HDMI/DVI (480p/576p/720p without HDCP)	Scaled	Yes	Yes	Yes
HDMI/DVI (1080i with HDCP)	Deinterlaced /Scaled	No	No	Yes
HDMI/DVI (1080i without HDCP)	Deinterlaced /Scaled	Yes	Yes	Yes
HDMI/DVI (1080p with HDCP)	Scaled	No	No	Yes
HDMI/DVI (1080p without HDCP)	Scaled	Yes	Yes	Yes
HDMI/DVI (VGA/SVGA/XGA/SXGA@60Hz)	Scaled	Yes	Yes	Yes
HDMI/DVI (all other resolutions)	Passed Through	No	No	Yes
SD-SDI (480i/576i)	Deinterlaced /Scaled	Yes	Yes	Yes

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5. What signals can the iScan VP50 output?

There is one analog output and one digital output. Only one output is active at a time.

The analog output colorspace can be either RGB or component, YPrPb. Sync options for the output video include separate H & V syncs, separate composite sync, or sync on the video. Sync on video can be either bi-level or tri-level sync. In addition, the separate sync signals’ polarity can be inverted if required. To use the iScan VP50 with a cable terminated with RCA connections, you will need RCA-to-BNC adapters.

The digital output colorspace can also be either RGB or component, YCbCr. Additionally, when component colorspace is selected, the sub-sampling can be either 4:4:4 or 4:2:2. These options may be limited by the display that you connect to. The sync on the H & V syncs can also be inverted. If your source has a DVI output (and no HDMI output), a DVI-to-HDMI adapter or cable will be needed to connect this source to the VP50. The same is true, if your display does not have an HDMI input, but does have a DVI input. Typically, DVI sources and displays only use RGB 4:4:4 colorspace.

The iScan VP50 is fully configurable with respect to output resolution and aspect ratio. There are 35 factory-defined presets. Predefined formats include 480p, 576p, 540p, 720p, 1080i, 1080p, VGA, SVGA, XGA, SXGA, various plasma resolutions (852x480, 1280x768, 1024x1024 ALiS, 1365x1024, etc.), DLP resolutions (1280x720, 1024x576), various LCoS resolutions (1400x1050, 1365x1024, etc.), and various CRT resolutions (1440x960, 1440x1152, etc.).

Alternatively, it is possible to easily define an output format. This can all be done from the front panel of the iScan VP50 or with the On Screen Display (OSD) using the remote control without the need to use any PC-based programming tools. Typically, you'd probably just start from one of the predefined formats and modify it to fit your needs. For instance, if you need 854x480 instead of 852x480, you can just increase the horizontal active video area by 2 pixels.

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6. What audio formats can the iScan VP50 support?

The audio section of the iScan VP50 supports S/PDIF formatted audio with sample rates ranging from 24kHz to 192kHz. It will likely handle sample rates beyond this range, but is only guaranteed to support sample rates within this range. The iScan VP50 will pass digital audio having any bit-depth resolution up to 24 bits, at all supported sample rates.

The iScan VP50 will also pass compressed digital audio (e.g. Dolby Digital or DTS) provided the audio bitstream has been properly formatted for S/PDIF (IEC60958 or EIAJ-CP1201 standard) transmission by the digital audio source (according to international standard IEC61937). The iScan VP50 does not alter the sample rate, format, or content of the digital audio whatsoever; it merely inserts a programmable delay into the transmission path.

Users should take care to use proper digital audio cables in order to guarantee valid audio reception and re-transmission. Both coax and optical cables should have high-quality, positive mating connectors at both ends. Coax cables should have a 75-ohm characteristic impedance. The use of couplers or other types of adapters to extend the digital audio cabling is not recommended.

The HDMI inputs will also accept audio, given that the video signal is on the same input. If the audio format is Dolby Digital, dts, or PCM then the audio available on the HDMI output from the source will be available at optical/coaxial digital outputs. Excluded formats include Dolby TrueHD, Dolby Digital Plus, dts-HD, MLP (DVD-Audio) and DSD (SACD) which SPDIF connections are incapable of carrying due to bandwidth limitations.

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7. Tell me more about the HDMI connections on the iScan VP50

The HDMI inputs on the iScan VP50 can process 480i/p, 576i/p, 720p, 1080i, 1080p and VGA/SVGA/XGA/SXGA@60Hz. The HDMI input and output connectors on the iScan VP50 are backwards compatible with DVI-D inputs and outputs when used with an HDMI-to-DVI adapter or cable.

Most sources that have an HDMI output also carry HDCP (High-bandwidth Digital Content Protection). If this is the case, the analog outputs on the iScan VP50 must be turned off. This is a legal constraint. If the incoming signal does not have HDCP and it is one of the resolutions that the iScan VP50 can process, this signal can be output as an analog signal with either RGB or component colorspace at any resolution between VGA and 1080p.

Note that if you have an HDCP source and a non-HDCP display, you will probably not get a picture, whether or not you use the iScan VP50.

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8. What kind of aspect ratio control does the iScan VP50 offer?

The iScan VP50 offers full control over the input and output aspect ratio.

Input aspect ratio

With respect to input aspect ratios, a full range of control is offered by the iScan VP50. There are 4 predefined input aspect ratio settings:

• 4:3 Full Frame: to watch 4:3 content while preserving the aspect ratio
• 4:3 Letterbox: to watch 4:3 Letterbox, non-anamorphic, content full screen with no geometric distortion on a 16:9 display.
• 4:3 Non-Linear Stretch (Panorama): to watch 4:3 content stretched to fill a 16:9 display. In this mode, the image is distorted such that most of the stretching occurs at the side of the image, not the center.
• 16:9 Full Frame: to watch 16:9 anamorphic content while preserving the aspect ratio. This mode can also be used to watch 4:3 content on a 16:9 screen, although the image will be stretched horizontally

You may also specify any other active aspect ratio for the input by manually zooming/panning the input image. This also allows the user to reformat the image in any way desired, so the iScan VP50 doesn't enforce a set of fixed aspect ratios.

If you would like to zoom in on the image to remove the small black letterbox bars found with a 1.85:1 source on a 16:9 display, then you can simply do so without having to guess at the numeric aspect ratio which would do this. The user can define and save up to ten input aspect ratio presets.

Output aspect ratio

The iScan VP50 supports 4:3, 5:4 and 16:9 and 2.35:1 output aspect ratios, which are the aspect ratios of the majority of displays today. Additionally, the user can define a screen aspect ratio between 1.01:1 and 3.00:1. The iScan VP also supports the use of both constant height and constant width configurations. The iScan VP50 is Panamorph™ Compatible.

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9. What video processing technology does the iScan VP50 use?

The iScan VP50 uses VRS Precision Deinterlacing™, VRS Precision Video Scaling II™, RightRate™, AutoCUE-C™, and Precision AV LipSync™

VRS Precision Deinterlacing™

Anchor Bay Technologies' Precision Deinterlacing delivers the image quality demanded by today's large-screen, high-resolution displays. It eliminates many of the artifacts found in common deinterlacers to produce a smooth image, free of artifacts such as jagged edges and combing. VRS Precision Deinterlacing features five-field motion-adaptive deinterlacing and edge-adaptive processing for video sources, along with advanced cadence detection for film and animation sources. All processing is performed at full 10-bit resolution to preserve all the detail and subtle nuances in the video source. Edge-adaptive processing uses an adaptive, continuous-angle detection algorithm to accurately identify and smooth image edges.

Unique, "any-cadence" processing automatically locks to the wide variety of film and animation cadences found in current video sources, including non-standard cadences, and will track right through many types of "bad edits" and cadence changes. VRS Precision Deinterlacing also features operating modes for special video applications, such as low-latency processing for video games.

VRS Precision Video Scaling™

Anchor Bay Technologies Precision Video Scaling technology is based on Anchor Bay's proprietary video scaling engine that can independently scale an image horizontally and vertically to achieve an outstanding picture quality for today's high resolution video displays. The scaling engine is completely flexible, accepting standard definition (480p, 576p) and high definition (720p, 1080i and 1080p) inputs and outputting any resolution from VGA (640x480) to 1080p (1920x1080) with multiple standard and custom aspect ratios. Since the scaling engine is completely flexible, other image manipulation features are also supported including zoom, pan and border controls.

The Precision Video Scaling technology was first deployed in Anchor Bay's DVDO® iScan™ HD. It has recently been designed into Denon's flagship DVD player, the DVD-5910 and is being designed into products that require exceptional video scaling performance available in the market.

RightRate™

Anchor Bay's RightRate technology converts the input frame rate to the optimal display frame rate without causing 'tearing' in the output frame. Anchor Bay's high performance frame rate conversion also supports converting film sources from 24 frames per second to 48, 60 or 72 frames per second for NTSC format and from 25 frames per second to 50 or 75 frames per second for PAL/SECAM format. The higher frame rates eliminate flicker in high-end displays such as CRT front projectors. In addition, driving displays at 48 or 72 frames per second (NTSC) and 75 frames per second (PAL) often results in smoother motion in panning scenes.

Anchor Bay's RightRate technology is extremely flexible, allowing the output frame rate of the video source to be changed to precisely match the frame rate requirement of today's high resolution displays.

AutoCUE-C™

Anchor Bay's AutoCUE-C technology automatically detects and removes chroma artifacts that are caused by incorrect upsampling of the chroma (color) signals by MPEG decoders in DVD players and satellite receivers. These artifacts are especially noticeable as horizontal streaks in images with highly saturated colors. When the artifacts are removed, the resulting picture quality is significantly improved, providing a much clearer and true-to-life image.

Precision AV Lipsync™

Anchor Bay's Precision AV LipSync technology is designed to automatically delay the audio signal to match the video processing delay in other Anchor Bay products. As a result, the AV Lipsync problem that is caused by video processing delay is eliminated. If required, the audio delay can also be further adjusted to correct any AV Lipsync problem that may be already be present in the AV source.

The iScan VP50 also uses Precision Gamma Correction™ which allows the user to get optimal performance from their display. Precision Gamma Correction™ allows individual adjustments to the gamma curves of the red, green, and blue elements that exist in all current display technologies.

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10. Tell me more about the lipsync correction on the iScan VP50

The iScan VP50 has 4 discrete digital audio inputs (2 optical and 2 coaxial) and 1 analog audio input (L/R) each of which can be assigned to any of the video inputs. The HDMI inputs can accept audio, if the video signal is on the same input. If the incoming HDMI signal has HDCP, then the iScan VP50 can not output this audio using the optical or coaxial digital outputs, only the HDMI output. When you switch to a particular video input, then the audio input which has been user-assigned to that video input will also be selected. For example, when you switch to Video 1, then the audio input which has been user-assigned to Video 1 will also be selected.

The digital audio outputs provide a delay which matches the video processing delay of the iScan VP50. Note that this delay will vary depending on the current configuration and processing mode of the iScan VP50. 50 Hz sources will require a different amount of delay than 60 Hz sources, and frame rate conversion requires more delay than no frame rate conversion.

The correct audio delay for all inputs is set automatically, so you need to do nothing extra to match audio and video delays. In addition, there is a user-adjustable delay which can be added or subtracted on top of the automatically set delay for problem sources.

Anchor Bay's digital audio technology is called "Precision AV Lipsync™".

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11. Does the iScan VP50 have an On Screen Display (OSD)?

Yes, there is an OSD that allows you to control all the major parameters: output resolution, input and output aspect ratio, frame rate conversion, picture controls, and audio delay

There's also a 2 line, 20 character display on the front panel, mainly for initial setup purposes when you may not have a picture on your display yet.

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12. Tell me more about the frame rate conversion feature on the iScan VP50

There are 3 basic operating modes for frame rate (or vertical frequency) conversion:

• Source-lock mode where the output frame rate exactly matches the input frame rate.
• Arbitrary output frame rate which is not locked to the input.
• Progressive source-lock mode with frame rate conversion to an even multiple of the source frame rate. 24 Hz film-source material using a 3:2 pulldown pattern can be output with 2:2 pulldown at 48 Hz or 3:3 pulldown at 72 Hz. 25 Hz film-source material using a 2:2 pattern can be output using 3:3 pulldown at 75 Hz. These output rates are fully locked to the original 24 or 25 Hz source rate and are not actually 'floating' as with several other scaler products which offer 72 or 48 Hz output frame rates without really locking to the original film source rate.

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13. What do the different frame rate options mean?

1. First of all, note that there are separate settings for 60 Hz sources and 50 Hz sources. This allows you, for instance, to configure the iScan's output to behave differently with NTSC and PAL sources. One potential advantage of this is that if you have a display which only works at a single frame rate - say, 60 Hz - that you can have the iScan run in locked mode (see below) for 60 Hz sources but convert all 50 Hz sources to the 60 Hz frame rate the display needs.
   
   
2. Locked mode (1:1). This means that the iScan's output frame rate tracks the input rate - i.e., the output rate is locked to the input rate. In the 1:1 mode - i.e., 60 Hz source-locked to 60 Hz, and 50 Hz source-locked to 50 Hz - there is always exactly one output frame for every input frame/field. This mode has the advantage that there are never any dropped or repeated frames (unless the source itself does this). One disadvantage of this mode is that when the video source is changed, the iScan has to re-lock to the new input signal timing. This causes a disruption in the iScan's output signal while the locking process occurs, and can cause many displays to loose sync to the iScan's signal and temporarily blank.
   
   
3. Unlocked mode. This means that the iScan's output frame rate is independent of the input rate. Regardless of any variations in the input, the output frame rate will be fixed at the specified value. This mode results in the most stable output signal as it's independent of any changes in the input signal. Unlike the locked mode(s), the iScan's output signal timing will not be disrupted when the input source is changed. However, it's guaranteed to cause dropped or repeated frames as the input and output frame rates are not the same. Note that regardless of what number the unlocked output frame rate is set to, it will never be identical to the input rate in this mode as the output signal timing is independent of the input timing. These dropped/repeated frames can result in visible irregularities in smooth motion, sometimes called motion judder or stutter.
   
   
4. Locked mode (2:2 or 3:3). For standard definition interlaced sources the iScan can detect 2:2 and 3:2 pulldown cadences and convert these to either a 2:2 or 3:3 frame repetition rate. The main advantage of this is for 60 Hz sources using 3:2 pulldown, as the irregular 3:2 pattern can be converted to 2:2 at 48 Hz or 3:3 at 72 Hz. In these modes, each original film frame is repeated exactly 2 or 3 times, respectively, and motion is therefore smoother. Note that these modes are only useful when the video source is film-based - i.e., 3:2 pulldown for 24 Hz film on 60 Hz sources, and 2:2 pulldown for 25 Hz film on 50 Hz sources. If the source is not film-based, then the end result is a lot like unlocked mode without that mode's stability advantages.
   
   
5. Motion-judder test pattern. The iScan has a built-in test pattern generator to help you determine which frame rates your display supports. This is the test pattern with the vertical bar which pans horizontally back and forth across the screen. Note that this test pattern is used to determine the capabilities of your display, and does not provide any indication of motion smoothness (or lack thereof) in the iScan's output. The test pattern is used with the unlocked output mode of the iScan. You set the (unlocked) output frame rate to be the one you're testing your display for, and observe if the back and forth panning motion of the test pattern is smooth or if it jerks or stutters. If the former, then the display supports that particular resolution and frame rate without performing any frame rate conversion of its own; if the latter, then the display is performing frame rate conversion on the signal.
   
   
6. Examples. These configuration options provide a lot of flexibility to deal with differing source and display characteristics. Let's look at a few examples:

   a) The display only supports 60 Hz input. In this case, the iScan must produce a (nominal) 60 Hz output. For 60 Hz sources you can run in either 1:1 source-locked mode, or in unlocked mode with the output frame rate set to approximately 60 Hz. You might choose unlocked mode if the display takes a long time to re-sync to new inputs and you channel-surf a lot. Locked mode will provide the smoothest motion and guarantee no dropped or repeated frames. For 50 Hz sources, you'd set the iScan's output to unlocked with a (nominal) 60 Hz frame rate. This will result in some motion irregularities as the iScan periodically repeats frames to convert the 50 Hz input to the 60 Hz output rate, but since the display only supports 60 Hz inputs there's not much you can do.
   
   b) The display only supports 50 Hz input. This is the opposite of case A, and the required configuration is also the opposite - i.e., the output frame rate for 60 Hz source should be set to 50 Hz unlocked, and the rate for 50 Hz sources can be set to either 1:1 locked or unlocked at 50 Hz (for all the same reasons noted in the first example).
   
   c) The display supports a wide range of frame rates (e.g., a CRT projector). In this case you can configure things most any way you like. If motion judder with 3:2 pulldown bothers you, then use the iScan's 48 Hz or 72 Hz source-locked output options for film-based 480i sources. If not, then 60 Hz locked is a good choice. For 50 Hz sources, unless you notice display flicker at 50 Hz, you'd probably want to run at 50 Hz locked to avoid repeated/dropped frames.
   
   d) A digital display supports a narrow range of frame rates, either around 50 Hz or 72/75 Hz. If the display supports both 50 Hz and 48 Hz, and the primary use of 60 Hz source is film-based material, then you would likely want to configure the iScan as 48 Hz source-locked for 60 Hz sources, and 50 Hz locked (or unlocked, if desired) for 50 Hz sources. If the higher frame rate (72/75) is desired or required, then both source types can be configured for the 3:3 source-locked output option. For non-film material you may find that there's too much motion stutter, although that tends to be a very personal thing as not everyone perceives this the same way (as with low frame rate display flicker).

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14. How does the iScan VP50 detect incoming signals?

The iScan VP50 has been designed to detect which of the twelve possible input devices is turned on and is generating an active signal, and then to automatically switch to that input. With this capability, you can switch inputs simply by turning one input device on or by turning another device off.

The iScan VP50 also includes an "Input Priority" option which specifies which of the inputs to use when they are multiple active inputs.

There is also automatic source detection, so you can let the iScan VP50 do the switching if you wish. When you select an input source, one of the selections is "Auto", which is the iScan's automatic source switching. When in auto mode, the iScan VP50 will consult an internal priority list for the inputs (the list is user-configurable) and will choose the highest priority input that has an active signal.

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15. What kind of power supply does the iScan VP50 come with?

The iScan VP50 comes with a universal 6VDC @ 7A AC to DC external power adapter, which accepts 100-240 VAC at 50/60Hz.

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16. I have an A/V receiver to handle the switching of my A/V sources. How should I hook up the iScan VP50 in my set-up?

It is not necessary to route all the video signals through your A/V receiver. While this can be convenient, the iScan VP50 can also handle all the video switching for you and will also maintain A/V synchronization for all audio signals you choose to feed through it. In general, it's a good idea to minimize the amount of video switching that you're doing and the number of components that a video signal is routed through - i.e., you may not want to route everything through the receiver.

If you run your video and audio sources to the iScan VP50 first, you can then use the switching capabilities of the iScan VP50 instead of the A/V receiver. The audio output of the iScan VP50 can feed the A/V receiver and it can then do the audio processing (outside of simple audio delay to match A/V sync).

An alternate method would be to use the A/V receiver as the audio switcher and run a single digital output to the iScan VP50. To do so, the receiver needs to have a digital processing loop - i.e., you can select a source with the preamp, send it out a digital output to an external processor of some sort (in this case, the iScan VP50), and then send it back into the preamp for audio processing. The iScan VP50 will provide an audio delay which exactly matches the video processing delay. The A/V receiver will do everything else. There are very few receivers with this kind of functionality.

If the A/V receiver has a global delay function, then you could use this to delay the audio to match the video. However, you'll have to match the delays yourself, and you won't make use of the iScan VP50's ability to change the delay based on the type of video processing being performed.

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17. Will the iScan VP50 improve the picture quality of standard definition channels from my satellite system (DSS)?

Picture improvement of standard definition satellite channels is often very subjective, and depends to a great deal on exactly which aspects of the image are objectionable.

If you have a standard definition satellite feed which is loaded with compression artifacts or is blurry because of bandwidth limitations, then the iScan VP50 (or most other video processors, for that matter) may not bring much improvement to the picture.

However, the iScan VP50 may react better to this type of problem than your display would, but that very much depends on the specific display you use. If your source is reasonably clean, then the iScan VP50 should do a good job of making it look good on the big screen.

If your complaints are in regards to the display's deinterlacing or scaling capabilities, then the iScan VP50 should be a noticeable improvement. The deinterlacing algorithms in the iScan VP50 will give the best possible image from a standard definition interlace source.

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18. What does the color of the power LED on my iScan VP50 mean?

iScan VP50 power LED color table:

LED	Description
	Standby Mode or Front Panel Brightness set to 0
	No Signal Received
	Unknown/Unsupported Signal Received
	The iScan VP50 is processing the input
	(Blinking) The iScan VP50 is processing the HDCP input signal but the display is not HDCP compliant (DVI or Analog)

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