All IPs > Wireless Communication > 3GPP-LTE
The 3GPP-LTE category of semiconductor IPs is a vital component for modern wireless communication systems. As the world continues to rely on mobile connectivity, Long Term Evolution (LTE), standardized by the 3rd Generation Partnership Project (3GPP), has become an essential technology. This category includes sophisticated IP cores that enable semiconductor manufacturers to design and implement LTE-compatible solutions efficiently, ensuring seamless and robust communication services.
3GPP-LTE semiconductor IPs offer a comprehensive suite of features facilitating high-speed data transfer, low latency, and increased capacity for wireless networks. These IPs are integral in supporting a wide array of services, from voice over LTE (VoLTE) to multimedia streaming and cloud computing. By providing the foundational technology for creating modems, transceivers, and base station components, these IPs are pivotal in enhancing the user experience in smartphones, tablets, and other mobile devices.
Moreover, the designs within this category allow for flexible and scalable deployments across various market segments. With the continuous evolution of LTE, including advancements such as LTE-Advanced and LTE-Advanced Pro, developers find these solutions invaluable for staying ahead in the competitive telecom industry. They enable the efficient integration of multiple input and output antennas (MIMO) and carrier aggregation, thereby maximizing spectral efficiency and network performance.
In this fast-evolving digital landscape, 3GPP-LTE semiconductor IPs are not just about maintaining connectivity; they are about transforming it. These IPs provide the tools necessary for the next wave of innovations in IoT, automotive connectivity, and beyond, ensuring that manufacturers can develop the cutting-edge products required by the demands of today's consumers and industries. Whether for infrastructure or consumer applications, the IPs in this category support the progression and globalization of wireless communication technologies.
eSi-Comms represents EnSilica’s suite of communication IP blocks, designed to enhance modern communication systems through flexible, parameterized IP. These IPs are optimized for a range of air interface standards, including 4G, 5G, Wi-Fi, and DVB, providing a robust framework for both custom and standardized wireless designs.\n\nThe flexibility of eSi-Comms IP allows it to be configured for various interfacing standards, supporting high-level synchronization, equalization, and modulation techniques. The suite includes advanced DSP algorithms and control loops that ensure reliable communication links, vital for applications like wireless sensors and cellular networks.\n\nEnSilica also supports software-defined radio (SDR) applications by offering hardware accelerators compatible with processor cores like ARM, enhancing processing power while maintaining flexibility. This adaptability makes eSi-Comms IP a valuable asset in developing efficient, high-performance communication solutions that can quickly adapt to changing technological demands.
The Polar encoding and decoding IP, compliant with 3GPP standards, offers comprehensive support for various uplink and downlink channels in 5G NR. Utilizing advanced decoding techniques, it provides unparalleled error correction with scalable parameters for parallelism and latency optimization. The Polar solution by AccelerComm is a versatile and powerful option for deploying efficient communication systems, supporting FPGA and ASIC processes, and offering flexibility in system design and implementation, significantly contributing to high error correction performance.
The software-defined High PHY from AccelerComm is tailored for ARM processor architectures, offering flexibility to accommodate a wide array of platforms. This configurable solution can operate independently or, if needed, with hardware acceleration, depending on the application's specific power and performance needs. It's suitable for use in situations where adaptability is paramount and is optimized to minimize latency and maximize efficiency across different platforms, adhering to O-RAN standards, and enhancing system capability by integrating with other IP offerings such as accelerators.
The RWM6050 Baseband Modem from Blu Wireless is a high-performance component designed for mmWave communications. It supports gigabit-level data rates through its advanced modulation and channelization technologies, making it ideal for various access and backhaul applications. The modem's substantial flexibility is attributed to its compatibility with multiple RF chipsets and its design which is influenced by Renesas collaboration, ensuring robust, scalable wireless connectivity. This modem features dual integrated modems and an adaptable digital front end, including PHY, MAC, and ADC/DAC functionalities. It supports beamforming with phased array antennas, facilitating efficient signal processing and network synchronization for enhanced performance. These attributes make the RWM6050 a key enabler for deploying next-generation wireless communication systems. Built to optimize cost efficiency and power consumption, the RWM6050 offers versatile options in channelization and modulation coding, effectively scaling bandwidth to match multi-gigabit requirements. It provides a powerful solution to meet the growing demands of modern data networks, effectively balancing performance, adaptability, and integration ease.
The 60GHz Wireless Solution by CLOP Technologies employs the IEEE 802.11ad WiFi standard, also known as the Wireless Gigabit Alliance MAC/PHY specification, to deliver high-speed data transfer. With peak data rates reaching up to 4.6Gbps, it is perfect for complex applications like real-time, uncompressed HD video streaming and high-speed file transfer, improving today’s WiFi speeds tenfold. A key feature of this technology is its support for 802.11ad IP networking, facilitating IP-based tasks such as peer-to-peer communication and router/access point functionalities. It also includes a USB 3.0 host interface for easy connection to hosts and compensates for RF impairments, ensuring robust performance even at high data operations. This product is engineered to handle the substantial data demands of modern IoT devices and provide a competitive advantage through its enhanced wireless data technology. Functioning in the 57GHz to 66GHz frequency band, it uses modulation modes like BPSK, QPSK, and 16QAM. Its FEC coding rates include LDPC 1/2, 5/8, 3/4, and 13/16, with AES-128 hardware security and IEEE 802.11e Real Time QoS to ensure a quality, secured wireless experience.
AccelerComm's High PHY Accelerators are a set of scalable IP cores for ASIC, FPGA, and SoC platforms, employing patented signal processing algorithms to boost throughput while lowering latency and power consumption. These accelerators are essential for enhancing the overall performance of 5G NR networks. They support diverse architectures with flexibility in integration, catering to specific deployment capacities across platforms. These accelerators showcase AccelerComm's dedication to efficiency and performance, providing adaptable and robust designs suited for cutting-edge technological applications.
The LTE Lite from Wasiela offers a light yet powerful solution for User Equipment (UE) LTE applications, specifically designed to support CAT 0/1 PHY. It is compatible with intermediate frequency inputs and offers flexible channel bandwidths ranging from 1.4 MHz to 20 MHz, supporting a variety of modulation schemes including QPSK, 16QAM, and 64QAM.<br><br>This product is ideally suited for integrating into systems requiring flexible and scalable LTE solutions. Its design leverages a synthesizable Verilog-2001 framework, making it highly portable and adaptable for various applications. The operation is automated through a master finite state machine, optimizing the interaction between the LTE Lite and other system components.<br><br>Noteworthy is its ability to correct significant frequency and timing mismatches, ensuring reliable data transmission across extended network environments. Overall, LTE Lite by Wasiela offers a compelling blend of performance, flexibility, and ease-of-integration for a wide range of telecommunications and consumer electronics applications.
AccelerComm's LDPC solution brings in innovative designs that balance performance with efficiency for 5G NR data channels. Featuring robust error correction capabilities, this IP uses state-of-the-art architectural design to achieve superior throughput without error floors, essential for high-demand communication systems. It's adaptable and can be integrated seamlessly into existing systems, supporting various platform configurations and ensuring high hardware efficiency and low latency—all while complying with 3GPP standards for optimal integration.
The PUSCH Equalizer from AccelerComm targets the enhancement of spectral efficiency in environments with multiple antennas, effectively reducing noise and interference. Designed with advanced equalization algorithms and configurable for various 5G applications, this Equalizer integrates traditional PUSCH Decoding capabilities with additional features to improve performance dramatically. The product supports FPGA and ASIC implementations, showcasing AccelerComm’s emphasis on high performance and precise functionality for top-tier 5G NR applications, which are compliant with the latest 3GPP standards.
The ASPER radar sensor by NOVELIC is a high-frequency, 79GHz short-range device designed to excel in automotive environments. This innovative sensor delivers a 180-degree field of view, significantly improving upon traditional ultrasonic park assist systems. With its capacity to replace ultrasonic setups, ASPER provides comprehensive vehicle awareness, enabling 360-degree coverage with just four modules. This radar’s robustness allows it to function flawlessly across diverse conditions, including challenging weather and varying light environments. Engineered for both front and rear collision avoidance, as well as urban blind spot detection, ASPER is versatile in its applications. It features advanced functionalities such as kick-to-open and tailgate protection, enhancing the convenience and safety aspects of both passenger and commercial vehicles. Furthermore, this radar sensor supports adaptive cruise control, employing cutting-edge edge processing capabilities for effective domain processing. Notably, ASPER’s forward-thinking design is apt for transportation vehicles, offering seamless integration and lateral monitoring. It provides improved resolution and detection accuracy, unaffected by common obstacles like fog or dirt. Through integrating these capabilities, ASPER sets a new standard for automotive radar technology, promising enhanced security and operational efficiency across sectors.
The hellaPHY Positioning Solution is renowned for its exceptional capabilities in cellular positioning, particularly within massive IoT environments. It leverages the strength of 5G networks to provide scalable, low-cost, positioning services with high precision. PHY Wireless has engineered it to require significantly less data than other solutions, thanks to its unique algorithmic approaches. This reduces network interactions and enhances spectral efficiency, making it an enticing option for operators and developers alike. One of the key components of this solution is its ability to function indoors and outdoors with near GNSS accuracy. By employing edge computing, the position calculations are done locally on devices, protecting user privacy and maintaining tight security on location data. The software’s minimal footprint allows for integration into existing infrastructure, offering backward compatibility and ensuring future readiness. hellaPHY stands out in the realm of positioning technology by achieving unparalleled accuracy, thanks to its efficient data utilization. It supports efficient location tracking in challenging environments, such as urban areas, where traditional GPS might falter. Furthermore, the technology offers the flexibility of over-the-air updates, keeping network utility optimal and guardband costs low through advanced spectral efficiency.
This module caters to the demands of contemporary wireless communication, enhancing connectivity and performance for devices operating on WiFi6, LTE, and 5G networks. It features a front-end module that combines a switch, LNA, and PA, operating in the 2.4 and 5-7 GHz frequency ranges. This integration is designed to optimize the RF front-end path in mobile and communication devices, ensuring seamless data transfer and robust connection strength in advanced wireless systems.
The 3GPP LTE Turbo Decoder is engineered to enhance data processing in high-performance mobile networks. With an 8 state configuration and options for 1, 2, 4, or 8 parallel MAP decoders, it is designed to significantly improve error correction, ensuring reliable and high-speed data transmission in LTE environments. This decoder is optimized for networks where bandwidth efficiency is crucial, achieving peak performance while effectively handling the noise and interference prevalent in mobile networks. The option to integrate multiple parallel decoders allows for customized implementations, aligning with specific mobile network demands and optimizing overall system throughput and reliability. Deploying this decoder can vastly improve application responsiveness and network resource management. It plays a pivotal role in the tech infrastructure necessary to support 4G LTE services, meeting the high expectations for connectivity and data integrity demanded by users and service providers alike.
Designed for multi-standard networks, the 3GPP LTE and 3GPP2 1xEV-DO Turbo Decoder excels in environments requiring flexibility and advanced error correction. It features an 8 state turbo decoding system, utilizing ping-pong input and output memories for enhanced data processing and throughput. This decoder ensures consistency in data communication, a necessity for networks that support LTE and 1xEV-DO standards. It is engineered for efficient operation across different network types, supporting varied communication protocols and improving signal integrity and data correctness. Optimizing both data transfer speeds and network reliability, this decoder supports robust implementations for telecom operators, facilitating smoother transitions and reduced error rates within network infrastructure. It significantly contributes to improved user experiences and reliable data exchanges, even under heavy network demands.
The 5G Remote Radio Unit (RRU) by Saankhya Labs is a cutting-edge offering designed to amalgamate the vast possibilities of fifth-generation wireless technology with robust and adaptable hardware. With its compliance to the ORAN 7.2x standard, this multiband RRU is engineered to cater to the dynamic requirements of modern telecommunications service providers, addressing both current needs and future expansions. Equipped with advanced analytics capabilities, the Saankhya RRU delivers a unique advantage by providing network operators with tools to optimize their spectrum usage. This optimization capability translates into a reduced Total Cost of Ownership (TCO) for operators, allowing for significant savings while enhancing service quality and reliability. The RRU is part of Saankhya's comprehensive 5G RAN solution portfolio which includes RAN Intelligent Analytics. The inherent flexibility of the 5G RRU allows it to support numerous frequency bands, ensuring seamless integration into existing infrastructure and offering a scalable solution for network growth. Its smart design ensures that it can be employed across various geographic and population density landscapes, making it suitable for both urban centres and rural zones.
The NB-IoT (LTE Cat NB1) Transceiver provides a cost-effective solution for low-bandwidth wide-area network IoT applications. With compliance to the 3GPP Release 13 and 14 standards, this transceiver is tailored for efficient communication across cellular networks. It offers a robust receiver and transmitter performance with a diverse range of bandwidths and modulation options, ensuring high data reliability and low latency. The receiver features internal DC offset and IQ mismatch correction capabilities, while the programmable interface facilitates easy integration into existing systems. Optimized for low power consumption without compromising performance, this transceiver is suitable for applications ranging from smart metering to environmental sensors. Its extensive documentation and support resources further simplify the integration process, ensuring a smooth transition during deployment.
The PCS1100 Wi-Fi 6E 4x4:4 transceiver is designed to support the next generation of wireless communications. It offers enhanced range, improved speed, and reduced latency over previous Wi-Fi standards, making it ideal for high-demand environments such as enterprise and industrial IoT. By utilizing the newly opened 6 GHz band, this transceiver provides less congestion and interference, leading to a more reliable connection. The transceiver supports multiple modulation and coding schemes, ensuring efficient data transfer across various devices. It is equipped with advanced RF capabilities to maintain strong connectivity even in dense environments. Furthermore, the PCS1100 is compatible with existing Wi-Fi infrastructure, enabling easy upgrades and expansions. Built with a focus on energy efficiency, the PCS1100 prioritizes battery preservation without compromising on performance. This makes it suitable for a wide range of portable and stationary applications, from consumer electronics to professional equipment. As part of Palma Ceia's cutting-edge lineup, it embodies the company's commitment to high-quality and innovative solutions.
The LightningBlu solution from Blu Wireless is a groundbreaking mmWave technology platform specifically designed for high-speed rail connectivity. It offers a seamless, multi-gigabit track-to-train communication system, enhancing both passenger experience and operational efficiencies. The deployment includes trackside nodes set at regular intervals to ensure uninterrupted, high-speed data transfer between the train and trackside fiber networks. With capabilities extending up to 3.5 Gbps throughput, the system is qualified for harsh rail environments, providing reliable service over extensive ranges and supporting communication needs at speeds exceeding traditional mobile networks. The on-board train equipment is compact and works in conjunction with internal distribution networks, making it ideal for delivering internet access and entertainment services throughout the journey. The LightningBlu system operates within the 57-71 GHz spectrum, surpassing mobile 4G and even 5G speeds, ensuring continual high-speed data availability. This innovative system is a cornerstone for modernizing rail systems into the next generation of connected transport solutions, setting a new standard for rail communication infrastructure.
AccelerComm offers a comprehensive 5G NR physical layer solution designed for high-demand applications such as satellite and private networks. This complete physical layer solution optimizes performance by implementing innovative signal processing methods, providing a high degree of flexibility and configurability. Delivered as licensable IP across ARM software, FPGA, and ASIC-ready platforms, it ensures reduced project risk through reference systems on COTS development boards for early integration and testing. The solution focuses on maximizing link performance by using cutting-edge technologies for efficient power and area trade-offs, making it ideal for specialized O-RAN and small-cell solutions.
The 4G/LTE Software Stack offered by Lekha Wireless is designed to empower OEMs in developing advanced 4G telecom network products. Compliant with 3GPP Release 10, these stacks are critical for creating robust radio network solutions across various market segments. The software is rich in features and supports various SoC based platforms, optimized especially for Texas Instruments’ Keystone II architecture. Lekha’s LTE stack is particularly beneficial for those looking to innovate within existing or new network deployments, offering modular code that aligns well with different platform architectures. This flexibility ensures that customers can tailor solutions to their specific network needs while extending coverage and reducing total costs for operators. Furthermore, the LTE WaveGuru Tool Box offers a comprehensive suite for signal generation and analysis, enhancing the capability to develop secure LTE networks. The stack encompasses a detailed plan for upgrades to newer releases, ensuring future-ready technology that can scale with evolving industry standards. This makes Lekha's LTE Solution a strategic asset for those looking to lead in LTE network deployments.
Specialized for dual-standard networks, the 3GPP UMTS/LTE and 3GPP2 Turbo Decoder accommodates systems requiring heightened flexibility and error correction capabilities. It operates using an 8 state design, with optional configurations of 16, 32, 64, or even 256 state Viterbi decoders. This wide range supports extensive error correction and aligns with various protocol demands. The decoder facilitates seamless transitions and data exchanges between UMTS and LTE networks, ensuring stability and continuity in service provision. Its adaptable design enables integration across varying network architectures, promoting improved data throughput and network efficiency for telecom providers looking to enhance their service quality. This decoder's sophisticated error correction capabilities make it suitable for advanced telecom applications, reducing error rates and enhancing signal integrity across different channels and frequencies. It is instrumental in ensuring strong connectivity and robust performance essential in today's complex mobile network environments.
Vyapi LTE eNodeB is an indigenous 4G solution developed by Lekha Wireless, reflecting the company's commitment to India's self-reliance vision. This product integrates locally developed software stacks with innovative hardware design to deliver secure and expansive LTE network coverage. Vyapi provides comprehensive LTE network infrastructure optimized to reduce total cost of ownership while expanding network reach over large areas. Vyapi is capable of supporting both TDD and FDD bands, with RF power up to 40W, making it adaptable for small cell and macro cell applications. Its integration with various EPC vendors ensures that it can serve commercial telecom networks as well as specialized deployments like private networks and defense communications. Developed to enable both green and brown field deployments, Vyapi assures robust performance across diverse operating conditions with its strong element management system. It represents a turnkey solution for enterprise-level applications, offering enhanced network management capabilities suited to complex use cases.
The 3GPP LTE Turbo Encoder is constructed to support fast and reliable data encoding for LTE infrastructure, providing an 8 state turbo encoding solution for mobile network applications. It's developed to enhance data rates and protocol efficiencies across LTE platforms, ensuring superior quality and performance. This encoder is essential for maintaining high throughput and low error rates, pivotal in today's high-demand mobile communication environments. It supports seamless deployment in varying LTE architectures, enhancing connectivity across diverse operational scenarios. With its focus on advanced data encoding, the 3GPP LTE Turbo Encoder is designed to facilitate optimized network performance, aligning with the ever-evolving demands of global LTE networks. It backs mobile operators in delivering enhanced user experiences while supporting expansive coverage and reliability.
The 3GPP UMTS/LTE and 3GPP2 Turbo Encoder caters to dual-standard networks, offering versatile encoding capabilities to accommodate both UMTS and LTE standards. Utilizing an 8 state framework, it enhances data processing and integrity to ensure seamless communication across different network protocols. This encoder enables smooth transitions between network types, facilitating improved data encoding and signal strength across disparate service environments. Its flexible architecture supports integration in complex telecom infrastructures, providing performance enhancements and reliability improvements for service providers. Key to supporting modern telecommunication requirements, the 3GPP UMTS/LTE and 3GPP2 Turbo Encoder expands operational capabilities, ensuring that network operators can maintain high-quality service deliverables while managing increased traffic and protocol complexities.