Prepare the upstream for the future.
- Fully DOCSIS 3.1 compatible amplifier with 1.2 GHz downstream and 204 MHz upstream
- Switchable diplex-filters from 65/85 to 204/258 MHz
- Attractive design and optional cover enable deployment in living areas
The introduction of DOCSIS 3.1 has extended the downstream frequency band to 1.2 GHz, as well as elevating the upstream band to 204 MHz high split. 1.2 GHz in-home amplifiers are currently deployed with a fixed band-split at 42/54 or 65/85 MHz depending on the region of operation. When a home is upgraded from DOCSIS 3.0 to DOCSIS 3.1, the in-home amplifier to split ratio has to be elevated to the 204/258 MHz split. This will require an expensive truck-roll to change the amplifier in the customer’s home or a complex and expensive universal upgrade program with all customers. All current customer premise amplifiers with a low-split need to be replaced as soon as the diplex filter exchange happens in access networks.
A solution to amplify the CPE
Technetix has overcome this challenge by introducing the EZ-Amp series of amplifiers, featuring automatically switchable diplex filters that enable a ‘no touch’ upstream upgrade in the home. When upgrading legacy 862 MHz or 1 GHz networks to 1.2 GHz today, Technetix prepares the upstream for the future.
The EZ-Amp basic series incorporates Technetix patented technology containing automatically switchable diplex filters. When the remote upgrade to a new split is activated, home modems will start to transmit RF signals above 65 MHz. The EZ-Amp will detect these signals and switch the diplex filters automatically to pass these new DOCSIS 3.1 upstream RF signals.
The RF detection in the EZ-Amp automatically identifies modems ranging in the higher upstream band and immediately adjusts its internal circuitry, allowing these higher upstream frequency signals to pass in the full new 204 MHz upstream band. This means that no data is lost for the customer and no further intervention is required from the operator to allow DOCSIS 3.1 upgrades in the home.
This patented switching technology has been tested and verified in real life network environments.