Connect with us


LTE Infrastructure



Exclusive Features

Cisco Systems

Cisco ASR 5000 Series

Designed for the evolution from 3G to 4G, the platform uses a simple, flexible distributed architecture that supports multiple access technologies, subscriber mobility management, and call-control capabilities, as well as inline services. With its leading-edge throughput, signaling, and capacity, the Cisco ASR 5000 Series can readily support all Evolved Packet Core network functions

4G LTE Wireless WAN

The solution reduces cost, complexity, and time to deployment by securely extending wireless mobility to any location covered by a 4G LTE tower


LTE RAN (Radio Access Network)

Supporting operators with download speeds of up to 1.2 Gbps, Ericsson offers an advanced mixed mode (2G/3G/LTE) solution that offers an efficient means for operators to migrate their networks to LTE and to 5G over time. The solution enables operators to more efficiently support existing 2G and 3G traffic with current resources, thereby clearing spectrum to provide high speed LTE data services. Ericsson LTE solution in combination with IP RAN, Evolved Packet Core, and mobile backhaul provides the capacity and flexibility to cope with network evolution challenges


Gives operators the possibility to develop their communication business, while consumers and enterprise users can benefit from richer IP-based communication services available on any devices, anywhere


LTE Solutions

Provides network operators with end-to-end LTE solutions for network infrastructure and mobile terminals in a variety of applications and services. In the mobile field, It offers everything from mobile terminals, radio access networks, and core networks, to engineering and applications, with an extensive range of leading-edge technologies to drive LTE services



Software-based networking solutions that enable mobile service providers to deliver high-quality internet protocol (IP)-based voice, video, rich communications and enhanced messaging services to their subscribers. Mavenir’s focus and competence is not limited to a single, vertical services domain, but rather stretches more broadly across all SIP-based IMS applications and services, as well as IMS session control functions. Mavenir has proven expertise and a complete portfolio of IMS products across several key segments including Converged Telephony, Converged Messaging, Rich Communications and IMS Multimedia Session Control. Provides Converged TAS (Telephony Application Server). IMC (IP Multimedia Core), SBC (Access/Interconnect-Session Border Controller), application gateway for Ut interface


The VoWiFi Calling Solution is utilizing standard IMS compliant components which provide the benefits of utilizing the same solution for VoLTE and VoWiFi. VoWiFi Calling can be therefore seen as a natural step of the network transformation for the next generation, IMS-based services and allows operators to implement this service at any time, irrespective of the introduction of VoLTE services


Mavenir® vEPC is an innovative Evolved Packet Core (EPC) specifically designed from the ground up for virtualized environments. Organized in independent slices of the control, user, and management planes, Mavenir vEPC is free of the architectural restrictions posed by traditional, physical node-based packet cores. Running on Intel x86 servers, it can efficiently support networks of any size and scale. As a result, operators can experience the benefits of a fully virtualized EPC implementation. Lower total cost of ownership; Greater business agility; Adaptiveness to multiple deployment use cases (fixed LTE, private LTE, public safety LTE, NB-IoT DCNs); Stateless control plane architecture; Carrier-grade high availability; Linear scaling; Stateless control plane architecture; Intel DPDK-enabled data plane; Full duplex line-rate performance; Cloud-ready innovative design; Multiple hypervisor support: VMware ESXi, KVM; Integration with cloud tools: OpenStack, VMware vCenter, VMware vCloud Director, Cloudify TOSCA-based orchestration; Commercial cloud-ready: AWS, GCE, Microsoft Azure; Supported on Intel x86-based general purpose servers


Mavenir vRAN extends functional element virtualization to the edge of the network, and provides strategic differentiation by enabling remote radio units (RRUs) to interwork with the virtualized base band unit (vBBU) over ethernet fronthaul at a tenth of the bandwidth proprietary solutions require. The vBBU is designed to support multiple fronthaul architectures simultaneously and opens the door to previously excluded fronthaul transmission solutions. Centralized baseband processing enables advanced capabilities such as coordinated multipoint (CoMP), centralized scheduling, and interference management without the need to exchange information among many access nodes. This enables resource pooling and coordination of radio resources. Mavenir’s vRAN approach centralizes the baseband processing in a cloud native vBBU with optimized fronthaul transmission between the RRU and the vBBU over ethernet in a standardized interface based on O-RAN (OpenRAN). The solution was developed to be 5G-ready from day 1 for a disaggregated RAN solution supporting various use cases and a standardized OAM interface based on NetConf/Yang data models. The vRAN solution provides carrier aggregation (CA) to combine the fragmented spectrum of LTE (both FDD and TDD) in licensed and unlicensed bands (0.7 – 6 GHz), and supports the shared spectrum initiatives of CBRS and LAA to address increased capacity demands at hotspots and areas with high smartphone data usage. The highly modular software platform brings the benefits of cloud-based virtualization to 4G networks and paves the way for 5G non-standalone (NSA) and standalone (SA) implementations based on NR


Shared Unlicensed Access

Stay a step ahead of escalating data traffic by using unlicensed or shared spectrum to bring more capacity and speed to  LTE network. LTE-A Pro-capable small cells let use LTE-WLAN aggregation (LWA/LWIP) and Licensed Assisted Access (LAA) to integrate unlicensed spectrum into your licensed spectrum portfolio. They also support MulteFire and OnGo, which allow to seize new opportunities by running LTE in unlicensed or shared spectrum

Single RAN Advanced

Nokia Single RAN Advanced enables to cut network complexity, cost and energy use by consolidating network technologies on one multi-purpose platform. Offering hardware and software suitable for GSM, WCDMA, and LTE, Nokia platform makes it easier to re-farm, share resources, and upgrade legacy equipment. It can also help modernize network by deploying technologies such as LTE-Advanced, Carrier Aggregation, 4x4MIMO, CoMP, and Centralized RAN

Small Cells and Femtocells

Address new demands with small cells that improve capacity and coverage in urban and rural areas, indoors and outdoors. Comprehensive small cell portfolio lets users deploy scalable solutions that meet growing performance expectations in public spaces, enterprises and homes. It can help reach business goals by preparing for the heterogeneous network of the future, supporting innovative new applications, and providing the right service for every customer and environment


Tower Mounted Amplifier- Diplexers, Triplexers

Designed to enable feeder sharing of several systems on the same site

Savitri Telecom Services

Signaling Analyzer (SART) – Wireless Protocol Test (J7830A)

Signaling Analyzer Real Time (SART) is a high-performance wireless test solution for 2, 2.5, 3, and 4G system verification, troubleshooting, and RAN optimization

Spirent Wireless Test Station

Designed for multiple radio access technology device-to-device testing in one unit. It is a key component of Spirent Elevate, a comprehensive approach to wireless device application test solutions, and enables realistic interoperability testing of mobile devices to uncover issues in a lab environment, before deployment in the field can compromise user experience

Spirent Elevate Framework IMS, VoLTE, and RCS Test Solution

Provides IMS, VoLTE, and RCS Test Solution, which allows wireless chipset vendors, device manufacturers, and service providers to measure and improve the wireless user Quality of Experience (QoE), and addresses the complex interoperability challenges of IMS-based services. The Spirent IMS, VoLTE, and RCS Test Solution provides cost effective and comprehensive testing support for applications across the industry and throughout all stages of device development life cycle

Carrier grade, packet-based timing, and synchronization

The TimeProvider 5000 is a carrier grade IEEE 1588 Precision Time Protocol (PTP) Grandmaster with additional capabilities, including NTP and SyncE, that provide a flexible technology suite to match the synchronization needs of evolving networks

PTP IEEE 1588v2 Grandmaster Clock

Optimized to enable economic deployment of small cells and meet the stringent timing and synchronization requirements of 4G/LTE networks following the approach anticipated in the proposed ITU-T G.8275.2 standard for partial on-path support

TimeProvider 2300

Edge Grandmaster Clock and Edge Boundary Clock designed to support small cells and meet the stringent timing requirements of 4G/LTE networks

Sterlite Technologies

Neox Softswitch

Next-gen Communication Platform for TSPs


SkyFlux Series packet optical platform for LTE backhaul

The SkyFlux is a next generation communications platform designed for performance, flexibility and efficiently. Leveraging Flex Ethernet (FlexE), SR MPLS (SR-TP and SR-BE) technologies (SkyFlux SPN platform), SRv6 (SkyFlux UAR platform) and centralized intelligence of SDN, the SkyFlux platform provides and efficient and reliable transport for 4/5G mobile traffic midhaul/ backhaul. The platform includes full range of products from compact access devices to modular chassis up to 28.8Tbps, and meets a complex mix of 4G/5G requirements including capacity, scalability, highly accurate time synchronization, low latency, network slicing

NetRing Series packet optical platform for mobile backhaul

The NetRing solution is a converged multi-service aggregation platform based on MPLS-TP/Carrier Ethernet standards designed to meet network operator’s metro networking requirements through support of wide range of protocols, standards and interfaces for new and legacy services provisioning over highly bandwidth-efficient packet transport coupled with highest reliability and carrier-class set of features. With the NetRing solution a mobile operator can provide complete end-to-end backhaul connectivity while maintaining the connectivity to existing IP/MPLS core and TDM/SDH/Microwave backhaul network

SyncRing Series time synchronization over packet network

The SyncRing is a complete solution for precise frequency and time synchronization over packet networks that implements the distributed clustered architecture. This solution supports flexible deployment scenarios and offers excellent performance that easily meets synchronization requirements of LTE/LTE-A and 5G mobile network while helping operators to keep costs in check. The SyncRing XGM series includes highly accurate outdoor PTP Grand Masters. The SyncRing XBC series products are PTP Boundary Clocks with optional POE support that provide an excellent all-in-one solution for small cell deployment for data, sync and power



High-capacity multimode Base Band Unit (BBU) based on the Software Defined Radio (SDR) platform, which supports multiple systems including TD-SCDMA, GSM, and LTE


A large-capacity compact Base Band Unit (BBU) with separate baseband and RF based on the mature and stable Software Defined Radio (SDR) platform


A new compact dual-path TD-LTE Radio Remote Unit (RRU), which supports 2.3 GHz (Band E) or 2.6 GHz (Band D) band


Compact Micro eNodeB ZXSDR BS8912; 4T4R Remote Radio ZXSDR R8884; 2T4R Multimode RRU ZXSDR R8882; Large Capacity Multimode BBU ZXSDR B8200; LTE Small Cell Products


Datang Telecom, FiberHome, NEC, and Samsung

Click to comment

You must be logged in to post a comment Login

Leave a Reply

Copyright © 2022 Communications Today

error: Content is protected !!