Operating instructions
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■ Pixel-to-Pixel Mode
Use this setting to enable Pixel-to-Pixel mode.
This mode bypasses the monitor’s internal scaling function and displays images in their native resolution and aspect ratio, with a
one-to-one mapping of incoming image pixels to screen pixels:
• For incoming formats smaller than the native resolution of the screen (or selected aspect ratio), the image will be
displayed in the center of the screen using only the necessary LCD pixels. For example, 720p images will occupy exactly 1280x720
pixels in the center of the screen. The surrounding screen area will be black.
■ Aspect Ratio Settings
Use this menu option to switch between several aspect ratio settings.
As the V-R653-IMD-3GTE monitor has a native resolution of 1366x768 RGB pixels, incoming images are automatically scaled to fit
the screen:
• In 4:3 mode, images are scaled up or down to fill the maximum 4:3 portion of the screen. IMD text and time code are
superimposed on the lower portion of the image. The audio presence indicator and on-screen tally are displayed at the bottom
of the screen, outside the image.
• In Scaled 4:3 mode, images are scaled to a smaller 4:3 portion of the screen, leaving space for IMD text, tally, and audio
presence indicator to be displayed below or around the image. Time code is superimposed on the lower portion of the image.
• In Scaled16:9 mode, images are scaled to fill the maximum 16:9 portion at the top of the screen. In this mode, IMD text
and on-screen tally are displayed below the image. Time code and the audio presence indicator are superimposed on the lower
portion of the image.
• In 16:9 mode, images are scaled to fill the entire 16:9 screen. In this mode, all OSD features are superimposed on the
image. Note that when using a 16:9 input image in this mode, the image will be vertically stretched by approximately 10%.
The diagrams on the following page show how IMD text, timecode, and the audio monitor icon are simultaneously displayed on
the screen in each aspect ratio setting. The white area represents the video image.