AG-HPX370 Series P2 HD Camcorder
Full F10*1 Sensitivity from a Newly Developed MOS Image Sensor. High-Quality Images in a Lightweight, Mobile, Compact Body.
With a new, advanced 1/3" 2.2-megapixel 3-chip imager featuring Ultra Luminance Technology (U.L.T.), the HPX370 delivers exceptional video performance for master-quality HD production. The shoulder-mount camcorder offers 10-bit, 4:2:2, full 1920 x 1080-resolution AVC-Intra recording with impressive levels of sensitivity and an interchangeable lens. The AVC-Intra codec is unrivaled for its full-raster, 10-bit, 4:2:2 sampling with none of the inherent compromises of 8-bit, long GOP and 4:2:0 recording.
The AG-HPX370 provides the ultra reliability of a solid-state design and the faster speed of a file-based workflow. The HPX370 utilizes a 20-bit digital signal processor and high-resolution 3-MOS imagers, enhanced with U.L.T., which boosts the sensors' performance to rival the image quality and sensitive of ½" imagers. The new U.L.T. sensor results in marked improvements in sensitivity, measured at F10. These high levels of sensitivity and image quality have been achieved with a new high-sensitivity photodiode and low-noise pixel transistor, both based on low-noise analog process technology. The same levels of sensitivity and image production that characterize the interlace mode are now possible in the progressive mode courtesy of Progressive Advanced Processing (P.A.P.), a 3D adaptive processing technology.
With the flexibility of an interchangeable lens, the HPX370 can be used with 1/3" to 2/3" lens adapters for use with existing 2/3" zoom and prime lenses. The camera offers a broad range of creative features including variable frame rates, advanced gamma functions including a new Cine film-like gamma, Chromatic Aberration Compensation (CAC), built-in scan reverse, Dynamic Range Stretch (DRS) function, waveform and vector scope display and focus assist tools. The HPX370 also comes equipped with flash band detection and compensation software built-in for improved CMOS performance.