5G NR GSCN: Global Synchronization Channel Number Explained
Learn about the 5G NR GSCN (Global Synchronization Channel Number), its parameters, and its role in identifying the center frequency for SS/PBCH blocks.
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Learn about the 5G NR GSCN (Global Synchronization Channel Number), its parameters, and its role in identifying the center frequency for SS/PBCH blocks.
Understand the 5G NR initial access (random access) procedure between UE and gNB, including beam management, messages exchanged, and key steps.
An overview of the 5G NR MAC layer, including its architecture, channel mapping, procedures, and header/subheader formats.
Explore 5G NR MCS (Modulation and Coding Scheme) and TBS (Transport Block Size) tables as defined in 3GPP TS 38.214 for 5G New Radio technology.
Explore 5G NR mini-slots: their function, benefits in reducing latency, and differences from regular slots in the 5G NR frame structure.
Explore the hardware components of a 5G NR mobile phone, including the block diagram, RF front end, processors, memory, filters, and other crucial elements.
An overview of 5G NR numerology, covering frame structure, subcarrier spacing, slots, and essential terminology as defined in 3GPP Release 15.
Explore the 5G NR PDCCH, its function, contents, resource mapping within CORESETs, and the physical layer processing involved in its transmission.
Explore the 5G NR PDCP layer, covering its functions, architecture, procedures for data transfer, and PDU formats, as defined in 3GPP TS 38.323.
An overview of the 5G NR physical layer based on 3GPP standards, detailing PDSCH and PUSCH channel processing.
Explore the 5G NR PRACH, covering its role in uplink timing adjustment, preamble formats, and physical layer processing using Zadoff-Chu sequences.
Explore the 5G NR PUCCH, covering its function, contents, physical layer processing, and mapping within the 5G NR wireless system.
Explanation of 5G NR Quasi Co-Location (QCL) types including Type-A, Type-B, Type-C, and Type-D, and their associated channel parameters like Doppler shift, delay spread, and spatial Rx parameters.
Explore 5G NR QoS, its architecture as per the 3GPP standard, and the advantages it offers for mission-critical communication, including prioritization and emergency service availability.
An overview of 5G NR reference signals, including DMRS, PT-RS, CSI-RS, and SRS, covering their functions, contents, and mapping in downlink and uplink communication.
An overview of the 5G NR RLC layer, detailing its functions, modes (TM, UM, AM), data structures (TMD, UMD, AMD), data transfer, and related RRC parameters.
Learn about 5G NR RNTI, its usage as UE and network identifiers, and its roles within the 5G NR system for radio resource management and device identification.
A comprehensive list of 5G NR RRC Information Elements (IEs) as per 3GPP TS 38.331, including system IEs and UE capability IEs, for Radio Resource Control.
A comprehensive explanation of 5G NR RSRP, RSRQ, and SINR measurements, including SS-RSRP, CSI-RSRP, SS-RSRQ, CSI-RSRQ, SS-SINR, and CSI-SINR definitions.
Explains the 5G NR Scheduling Request procedure, detailing the exchange of SR messages and Uplink Grants between UE and gNB as per 3GPP specifications.
Explore the 5G NR SLIV (Start and Length Indicator Value) definition, its formula, and its usage in PDSCH and PUSCH time domain resource allocation as per 3GPP specifications.
Explanation of 5G NR slot formats, defining downlink, uplink, and flexible symbol allocation within a slot as per 3GPP TS 38.200.
Understand 5G NR split bearer functionality in dual connectivity (DC) mode. Learn key concepts like master node, secondary node, and data splitting for enhanced throughput.
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.
Explore the 5G NR SSB, covering its function, mapping, and physical layer processing. Learn about SS, PBCH channels, and the synchronization process.
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