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Overlight optical transmitter DWDM, Indoor use, DAB/UHF/SAT, Ch31, Po 9dBm

Overlight optical transmitter DWDM, Indoor use, DAB/UHF/SAT, Ch31, Po 9dBm

Overlight optical transmitter DWDM, Indoor use, DAB/UHF/SAT, Ch33, Po 9dBm

Overlight optical transmitter DWDM, Indoor use, DAB/UHF/SAT, Ch33, Po 9dBm

Overlight optical transmitter DWDM, Indoor use, DAB/UHF/SAT, Ch32, Po 9dBm

Enhanced electronics and optical engineering to light up your TV

DWDM WideBand satellite and terrestrial optical transmitter specifically designed for indoor installation. Intended for four-satellite transmission solutions to more than 64 users with the use of amplification, this device receives a satellite signal from a RF Wideband LNB and terrestrial band, and distributes it over a fiber output in the Channel 32 (1551.72 nm) with 9dBm optical power.

Thanks to its optimized electronics and low losses, it allows reducing the number of amplifiers required and simplifies deployment in the design of collective installations, preserving the signal quality throughout the process. Furthermore, it is fully indicated for use in GPON installations and adapts to different solutions.

This device is part of the Overlight system, that distributes satellite and terrestrial signals to multiple users through a single optical fiber.

Ref. 237572
Product Sheet
EAN13: 8424450315378
SKU
237572
Highlights
  • High output level that makes it ideal for collective installations
  • Specially designed for use in 4-satellite transmission to up to more than 64 users in combination with amplification modules
  • DWDM based transmission (Dense Wavelength Division Multiplexing)
  • ITU-T G.694.1 DWDM compliant
  • Compatible with GPON/RFoG deployments
  • Low losses
  • Optimized electronic behavior
  • Very compact in dimensions and weight
  • Designed for indoor installation
  • Powering from an external power supply, via power input (F connector)
  • 100% European design, quality, and manufacturing
  • SC/APC optical connector
  • F-type RF connectors
  • High-screening Zamak chassis
  • Wall and mast mounting
  • Power supply and adapter cable included
  • LED signal status indicator

Discover

WideBand technology

WideBand (also known as FullBand) refers to broadband transmission technology that uses a wide range of frequencies. In WideBand TV systems, a substantial portion or the whole of the frequency spectrum is available to users. It can be used in fiber deployments where long cable runs are demanded, or coaxial scenarios in combination with multiswitches adapted to this technology.

In WideBand technology, an LNB captures a complete satellite signal and distributes it through 2 universal outputs (vertical -V- and horizontal -H-), each of them with the combination of high (H) and low (L) bands, in a frequency range between 290 and 2340 MHz.

Despite the fact that Quattro technology is the most widely deployed technology in TV systems nowadays, WideBand technology brings significant advantages to the installation:

  • Simpler, faster and cleaner installation: In WideBand technology the number of coaxial cables connecting the LNB to the multiswitches is half as in traditional Quattro deployments, so the installation is done quicker and easier. The installation will also be tidier with fewer cables.
  • Wider bandwidth than other technologies: WideBand channels can carry more information thanks to their wide bandwidth (290-2340 MHz). This powerful feature allows a greater number of services to be delivered to the end users of the installation.
  • Reusable deployment: WideBand technology allows signal distribution by reusing a Quattro installation. It can be distributed through the old 4 cables coming down from the roof to capture signals from up to 2 satellites, changing only LNBs and MSWs to be WideBand compatible.


Inputs/Bands
TERRVH
Frequency rangeMHz
47 ... 694290 ... 2340290 ... 2340
Input leveldBµV
83 ... 9570 ... 8570 ... 85
Number of MUX for Input level
25 52 52
MUX bandwidth for Input levelMHz
8 40 40
Powering per inputsVdc
11.7 ... 17.711.7 ... 17.7--
Max. current passmA
500 500 --
Max. current pass total inputsmA720
ImpedanceΩ75
LaserMQW-DFB cooled
Wavelengthnm1551.72
Optical output powerdBm9
RF connectors"F" female
Optical connectorsSC/APC
PoweringVdc 12 ... 18
Max. power consumptionW5.88
Current consumptionmA < 490
Operating temperature°C -5 ... 45
PSU input voltageVac 100 ... 240
Max PSU current inputmA600
PSU output voltageVdc12
Max PSU output currentA1.5

Physical data

Net weight: 400 g

Gross weight: 641 g

Width: 137 mm

Height: 123 mm

Depth: 45 mm

Main product weight: 400 g

Packing

Box 1 Units

More Information
tlv_tags

WideBand technology

WideBand (also known as FullBand) refers to broadband transmission technology that uses a wide range of frequencies. In WideBand TV systems, a substantial portion or the whole of the frequency spectrum is available to users. It can be used in fiber deployments where long cable runs are demanded, or coaxial scenarios in combination with multiswitches adapted to this technology.

In WideBand technology, an LNB captures a complete satellite signal and distributes it through 2 universal outputs (vertical -V- and horizontal -H-), each of them with the combination of high (H) and low (L) bands, in a frequency range between 290 and 2340 MHz.

Despite the fact that Quattro technology is the most widely deployed technology in TV systems nowadays, WideBand technology brings significant advantages to the installation:

  • Simpler, faster and cleaner installation: In WideBand technology the number of coaxial cables connecting the LNB to the multiswitches is half as in traditional Quattro deployments, so the installation is done quicker and easier. The installation will also be tidier with fewer cables.
  • Wider bandwidth than other technologies: WideBand channels can carry more information thanks to their wide bandwidth (290-2340 MHz). This powerful feature allows a greater number of services to be delivered to the end users of the installation.
  • Reusable deployment: WideBand technology allows signal distribution by reusing a Quattro installation. It can be distributed through the old 4 cables coming down from the roof to capture signals from up to 2 satellites, changing only LNBs and MSWs to be WideBand compatible.

tlv_slogan Enhanced electronics and optical engineering to light up your TV
tlv_reflog OLTCH32K
tlv_tabla_especificaciones
Inputs/Bands
TERRVH
Frequency rangeMHz
47 ... 694290 ... 2340290 ... 2340
Input leveldBµV
83 ... 9570 ... 8570 ... 85
Number of MUX for Input level
25 52 52
MUX bandwidth for Input levelMHz
8 40 40
Powering per inputsVdc
11.7 ... 17.711.7 ... 17.7--
Max. current passmA
500 500 --
Max. current pass total inputsmA720
ImpedanceΩ75
LaserMQW-DFB cooled
Wavelengthnm1551.72
Optical output powerdBm9
RF connectors"F" female
Optical connectorsSC/APC
PoweringVdc 12 ... 18
Max. power consumptionW5.88
Current consumptionmA < 490
Operating temperature°C -5 ... 45
PSU input voltageVac 100 ... 240
Max PSU current inputmA600
PSU output voltageVdc12
Max PSU output currentA1.5
tlv_ean 8424450315378
tlv_dim_product_x 137
tlv_dim_product_x_label Width
tlv_dim_product_x_unit mm
tlv_dim_product_y 123
tlv_dim_product_y_label Height
tlv_dim_product_y_unit mm
tlv_dim_product_z 45
tlv_dim_product_z_label Depth
tlv_dim_product_z_unit mm
tlv_weight_product_label Main product weight
tlv_weight_product 400
tlv_weight_product_unit g
tlv_gross_weight_label Gross weight
tlv_gross_weight 641
tlv_gross_weight_unit g
tlv_net_weight_label Net weight
tlv_net_weight_unit g
tlv_net_weight 400
tlv_1_type_pack Box
tlv_1_type_pcs_pack Units
tlv_1_pcs_pack 1