Extron electronic MTPT 15HD A AP Switch User Manual


 
MTP 15HD a SERIES RECEIvER MODElS
MTP RL 15HD A SEQ
MTP - Mini Twisted Pair Receiver for RGBHV and Audio with
Loop Through and Skew Delay Equalizer
UNIQUE FEATURES:
n Continuously variable level and peaking controls
n Buffered UTP output for daisy-chaining up to eight receivers
n Independent skew delay compensation adjustments
for each color
MTP R 15HD A
MTP - Mini Twisted Pair Receiver for RGBHV and Audio
UNIQUE FEATURES:
n Continuously variable level and peaking controls
MTP RL 15HD A
MTP - Mini Twisted Pair Receiver for RGBHV and Audio with
Loop Through
UNIQUE FEATURES:
n Continuously variable level and peaking controls
n Buffered UTP output for daisy-chaining up to eight receivers
Extron MTP 15HD A Series receivers accept proprietary high
resolution RGBHV video and audio signals from any MTP 15HD
A Series transmitter. MTP 15HD A Series receivers are compact so
they can fit just about anywhere: in equipment racks, or under
tables and desktops.
Continuously Variable Level and Peaking Adjustments
All three MTP 15HD A receiver models offer separate continuously
variable level and peaking adjustments that precisely optimize
image quality for various UTP cable lengths, allowing users to
dial in the exact amount of gain and peaking required for each
unique cable run.
Buffered Loop Through
The MTP RL 15HD A Mini Twisted Pair Receiver with Loop
Through features an added female RJ-45 buffered output,
enabling up to eight receivers to be connected in series, reducing
the number of parallel cable runs required.
Integrated Skew Delay Equalizer
The MTP RL 15HD A SEQ includes the loop through capabilities,
and also features an integrated skew delay equalizer. Skew delay is
the color misalignment present in twisted pair A/V systems using
Category 5, 5e or 6 cable in which the red, green, and blue video
signals arrive to the display at different times. Using Extron’s skew
delay equalizer technology, the arrival of color signals is synchronized,
improving image quality while maintaining full signal integrity.