The 2408LT13-WP is an outdoor fiber optic transmitter for RF signals in the satellite L-Band or wider frequency range. It accepts a single RF input on coaxial cable and provides a single output for optical transmission. Packaged in a compact, standalone enclosure, the 2408LT is ideal for mounting on or near the satellite dish antenna structure. The -WP version features dust and water protection allowing outdoor mounting without a secondary enclosure. A full-power RF monitor output provides a convenient means of obtaining peak satellite signal strength, or additional signal distribution.
Directly mount to antenna structure or other outdoor locations
-WP Weatherproof version - does not require secondary enclosure
Wide frequency range for extended L-Band and over the air DTV signals
Protocol independent design - transports all modulation formats
DC pass through and 13VDC modes for LNB power
LNB current limit & short circuit protection
LNB current monitoring
Minimizes coaxial cable length for superior CNR performance
22kHz tone on/off for LNB local oscillator control
RF monitor output for signal peaking and signal distribution
Manually adjustable or AGC gain modes
Tri-color LED status indicators for Link RF drive strength, LNB voltage and DC input voltage level
SmartMON™ capability provides remote status monitoring via SNMP without a separate data connection
Fiber link provides electrical isolation between antenna and facility mitigating ground loop and lightning issues
Fiber Optic Connector Type - Other
Fiber Optic Signals Supported - Other
Spec Sheet available - Yes
Operating Temperature (Maximum):
158 F
Operating Temperature (Minimum):
-4 F
Maximum Frequency Response (Bandwidth):
850000 kHz
Maximum Frequency Response (Bandwidth):
850000000 Hz
Minimum Frequency Response (Bandwidth):
3000000 kHz
Minimum Frequency Response (Bandwidth):
3000000000 Hz
DC Voltage:
18 Volts
Height:
1.20 in
Width:
2.40 in
Regulatory Compliance:
Class 1 laser product, 24CFR 1040.10 and 1040.11, IEC 60825-1, FCC Part 15, Class A, EU EMC Directive (EMI/RFI)