03.03.2008 12:00 AM
Dielectric to Demonstrate Mobile, Broadcast Transmission Gear
At the 2008 NAB Show, Dielectric will demonstrate solutions for the rapidly growing mobile media market with antennas, filters, and other components designed specifically for broadcasters transmitting content to wireless handheld devices via the 700 MHz spectrum.

Dielectric’s new 700 MHz Stringent Mask band pass filter exhibits less than 0.6 dB of integrated insertion loss over the band. The 700 MHz DR filter provides up to an 800 W power capacity in a rackmountable, compact design.

Dielectric’s new 150 W repeater filter provides a compact, cost-effective component for broadcasters working in the 700 MHz spectrum. The filter supports up to 150 W of power with less than 1.5 dB of integrated insertion loss. The rackmountable unit integrates with existing components to create a complete RF system.

Dielectric’s full line of broadcast antenna offerings now includes a high-power, broadband UHF elliptically polarized panel antenna. This new product offers a variable polarization ratio from zero to 100 percent while maintaining its axial ratio.

A new addition to the TU Series of UHF antennas is a vertically polarized, high-power, broadband UHF panel antenna. The new panel boasts the same features as the proven Deltawing design, with the added benefit of vertical polarization.

The new RF Scout XLT monitoring system combines the features of the existing RF Scout with the added benefits of touchscreens, enhanced Web server applications, and networkability.

Dielectric’s Dual Switch Controller has been re-engineered to offer touchscreens, enhanced Web server applications, and networkability.

Dielectric will be at Booth C1918.

Post New Comment
If you are already a member, or would like to receive email alerts as new comments are
made, please login or register.

Enter the code shown above:

(Note: If you cannot read the numbers in the above
image, reload the page to generate a new one.)

No Comments Found

Thursday 11:07 AM
The Best Deconstruction of a 4K Shoot You'll Ever Read
With higher resolutions and larger HD screens, wide shots using very wide lenses can be a problem because they allow viewers to see that infinity doesn’t quite resolve into perfect sharpness.

Featured Articles
Exhibitions & Events
Discover TV Technology