
4G LTE Frame Structure: TDD and FDD Frame Types
Explore the 4G LTE frame structure, including Time Division Duplex (TDD) and Frequency Division Duplex (FDD) frame types and their configurations.
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Explore the 4G LTE frame structure, including Time Division Duplex (TDD) and Frequency Division Duplex (FDD) frame types and their configurations.
Explore the 5G frame structure, including radio frames, slots, and subframes. Learn about downlink and uplink subframe combinations, and channel/signal mapping within subframes.
Explore the 5G mmWave frame structure, focusing on the dynamic TDD frame used in 5G, its components, and its role in downlink and uplink communication.
Explore the 5G NR frame structure, including subframes, slots, symbol configurations, and uplink/downlink timing as per the 3GPP NR standard.
Explore 5G NR mini-slots: their function, benefits in reducing latency, and differences from regular slots in the 5G NR frame structure.
An overview of 5G NR numerology, covering frame structure, subcarrier spacing, slots, and essential terminology as defined in 3GPP Release 15.
An overview of the 5G NR SS Block, exploring its contents, positioning, function, and the distinction between an SS Burst and an SS Block within the 5G NR frame.
Learn the fundamentals of AMPS, including its frequency spectrum, system specifications, frame structure, and call setup procedure. Explore the 1G analog system developed by AT&T.
Explore ATSC 3.0 TV technology, covering its features, protocol stack, physical layer, frame structure, and advantages over older standards.
Explore the CPRI frame structure, line rates, and their importance in Remote Radio Heads (RRH) for efficient data transmission and wireless communication systems.
Learn the fundamentals of DECT (Digital Enhanced Cordless Telecommunications), its specifications, frame structure, protocol stack, and applications. Includes comparison with GSM.
Explore the fundamental differences between FDD and TDD in wireless communication. Learn about frequency allocation, synchronization, hardware complexity, and their suitability for various scenarios.
Explore the GSM frame structure, including hyperframes, superframes, multiframes, frames, and time slots. Understand the 26-frame and 51-frame multiframe structures.
Explore the IEEE 802.15.6 MAC layer for WBANs, covering frame structure, communication modes, and access mechanisms.
Explore the LDACS1 frame structure, detailing its components such as superframes, multiframes, and tiles, crucial for air traffic control communication.
Explore the LDACS2 frame structure used in aeronautical communication systems, including UP1, UP2, CoS1, CoS2, and LoG2 components.
Explore the fundamentals of the LiFi MAC layer, including frame structure, single, packed, burst and dimmed OOK modes. Understand how LiFi efficiently transmits data.
Explore the LoRaWAN MAC layer, its functions, commands, packet formats, and frame structures. Learn how it manages communication in LoRaWAN networks.
Explore LTE technology basics, frame structure (TDD/FDD), physical layer, throughput, VoLTE, carrier aggregation, and network entry procedures.
Explore the key differences in physical layer timing between LTE and 5G NR, including formulas for sampling time, frame duration, and subframe duration.
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