Ericsson G36, G32 manual Localization, User settings

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Localization

Allows you to change the language in which the web page will be dis- played. The options are:

English (default)

Spanish

User settings

This option will allow you to change the reception volume level from 0 to 3, the default is 1.

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Fixed Wireless Terminal: G32 & G36

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Contents Ericsson G32 / G36 EN/LZT 151 235 R1B Ericsson AB 2006 All Rights Reserved Table of Contents Welcome Disposal of the productWarranty CopyrightDeclaration of Conformity FCC StatementFixed Wireless Terminal Product DescriptionSupplied Parts List of ComponentsExternal Connector and Indicators Installation AssemblySIM Card Preparing Your FWTConnecting a telephone to the FWT Switch on the FWT Enter PINNetwork Search Installing the FWT on the Wall FWT LocationWall mounting Now the FWT is ready for connecting devices and making calls Connecting Devices to the FWT Connecting devices to the FWTChecking the quality of the calls Installing the FWT as a telephone lineChecking the connections Connecting the FWT to a PBX Generic requirementsG36 FWT connectivity to the analog trunk of the PBX Sending a fax Using telephonesUsing fax machines EDGE/GPRS data Connecting PCsReceiving a fax GSM data GSM data communication is establishedFixed Wireless Terminal G32 & G36 Call Divert Advanced FeaturesChanging Volume 03**OLDPASSWORD*NEWPASSWORD* NEWPASSWORD# Call Restriction / Call BarringMultiparty Calls Receiving a Second Call Call waiting serviceMaking a Second Call Explicit Call Transfer Conference CallsPhonebook / Abbreviated Dialing Voice MailMinute Minder Sending Tone SignalsAlternate Line Service ALS To Change your PIN SIM Card SecurityTo Manage your SIM Card To Unblock your SIM Card PINFixed Wireless Terminal G32 & G36 PC Data Configurations USB Driver InstallationFixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Windows XP EDGE/GPRS set-up Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Windows 2000 EDGE/GPRS set-up Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Windows 2003 EDGE/GPRS set-up Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Fixed Wireless Terminal G32 & G36 Web-based Configuration User settings LocalizationRinging Signals Data ringing signal defined sequence Calling Line Identification PresentationDial Speed Setup Call SetupAbbreviated Dialing Pre-defined B-number/bearer capabilitiesChange PIN IP AddressTroubleshooting LED indicatorsEnter PIN LED ind icators status If you see… It means… Do th is… Audible Tones Tone Name Nature It meansTechnical Data GSM Air InterfaceFWT Interfaces Basic KitTelephone Interfaces USB InterfaceEnvironmental Conditions Power SupplyGSM Antenna Accessories AntennasExternal dual band omni directional antenna Outdoor directional antennaBattery Battery CableDC/DC Power Converter USB CableMechanical Antitheft Key Product Care and Safety Product careAntenna care Radio wave exposure informationPower supply Personal medical devicesPotentially explosive atmospheres ChildrenMoving or Storing the FWT Battery informationAccessing the battery compartment Warranty Limited WarrantyEricsson Warranty What Ericsson will doConditions Fixed Wireless Terminal G32 & G36 Glossary NumberGprs Index Technical Data, 65 Telephone Interfaces Fixed Wireless Terminal G32 & G36

G32, G36 specifications

Ericsson has long been a leader in the telecommunications industry, providing innovative solutions that cater to the evolving needs of network operators around the globe. Among its impressive lineup, the Ericsson G36 and G32 models stand out as remarkable technologies, designed to enhance connectivity, efficiency, and performance in various environments.

The Ericsson G36 is positioned as a high-capacity macro radio, specifically engineered for dense urban areas and environments with significant traffic demands. One of the main features of the G36 is its advanced Massive MIMO (Multiple Input Multiple Output) technology. This allows the system to support multiple data streams simultaneously, improving overall throughput and network reliability. By maximizing spectral efficiency, Massive MIMO boosts capacity without requiring additional spectrum resources, which is a critical advantage in today’s data-driven landscape.

The G36 is also equipped with dynamic beamforming capabilities. This technology enhances signal quality by directing beams towards users, reducing interference, and improving coverage. With its ability to adapt to changing traffic patterns, the G36 ensures that users experience seamless connectivity, even during peak times. Supporting both 4G LTE and 5G NR, the G36 is a future-ready solution that allows operators to transition smoothly to next-generation networks.

On the other hand, the Ericsson G32 offers a more compact solution without compromising on performance. Designed for rural areas or small cell deployments, the G32 integrates advanced features in a smaller footprint. It is optimized for indoor and outdoor applications, making it versatile and suitable for a range of deployment scenarios. The G32 supports Ericsson's latest software and network functions, allowing operators to leverage features like network slicing and enhanced edge computing capabilities.

Another notable characteristic of the G32 is its energy efficiency. Built with sustainability in mind, this model minimizes power consumption while maintaining effective performance levels, aligning with industry goals for greener network solutions. This technology not only helps in reducing operational costs but also contributes to the overall reduction of carbon footprints.

Both the Ericsson G36 and G32 showcase the company's commitment to innovation, providing robust solutions that enable operators to meet the demands of modern telecommunications. With their advanced features, energy-efficient designs, and adaptability to various deployment scenarios, these models are set to play crucial roles in the evolution of connectivity worldwide.