MPN AVF-1101
Artikel-Nr. W128287124
Lagerbestand
The LevelOne AVF Video over Fiber Converter series is designed to transmit composite video signals over long distances via optical fibre. On the transmitting side, video signals are digitalized and converted to optical signals, then transmitted over the fibre link to the receiver. The receiver then converts the optical signal back to analogue and displays the transmitted images on a monitor. LevelOne’s AVF solutions provide analogue surveillance and signage systems with the high quality im...
Lesen Sie die vollständige BeschreibungTransmits analogue video signal over single fiber cable
Uncompressed high quality video transmission
Transmit up to 20 km without optical attenuation
No RF interference or signal degradation over optical fiber
No EMI and electromagnetic interference
LED indicator status for instance system monitoring
True Plug & Play design facilitates ease of installation
25°C to 75°C operating temperature range
6.5 MHz
1310/1470-1610 nm
75 Ohm
Yes
1.3%DG, 1.3°DP
20000 m
Y/Yes
Black
-26 dB
60 dB
AV transmitter
CE, FCC
11.5 kg
17 Stück(e)
-20 - 70 °C
0 - 95 %
6.2 cm
0.6 kg
27.5 cm
18.5 cm
Y/Yes
Y/Yes
1
FC
Wired
5 V
3 A
12 Watt
9 cm
0.46 kg
2.5 cm
7 cm
1 Jahre)
The LevelOne AVF Video over Fiber Converter series is designed to transmit composite video signals over long distances via optical fibre. On the transmitting side, video signals are digitalized and converted to optical signals, then transmitted over the fibre link to the receiver. The receiver then converts the optical signal back to analogue and displays the transmitted images on a monitor. LevelOne’s AVF solutions provide analogue surveillance and signage systems with the high quality images and long-distance transmission achievable through optical fibre, enhancing the capabilities of a traditional deployment or upgrading a legacy system. An ideal solution for analogue surveillance and Video Wall System applications.
*Die oben genannten Produktdaten werden von Icecat zur Verfügung gestellt. EET ist nicht verantwortlich für eventuelle Fehler in diesem Zusammenhang.