5g

Explore 5G’s Common API Framework (CAPIF) — a standardized architecture enabling secure, unified, and efficient API exposure and management across telecom networks.

Discover how 5G NR’s flexible transmission numerologies enable diverse deployment scenarios—from enhanced broadband to ultra-low latency applications.

Explore 5G NR slot options — Downlink, Uplink, and Mixed UL-DL — and learn how they enable dynamic TDD, flexible scheduling, and ultra-efficient resource allocation in 5G networks.

Discover the essential 3GPP 5G NR physical layer specifications (38.211–38.215) that define modulation, coding, measurements, and physical layer procedures in next-generation networks.

Explore how FR2 maximum transmission bandwidth configurations define 5G mmWave performance, covering SCS values, RB allocations, and capacity implications in high-frequency 5G NR systems.

Explore 5G NR FR2 maximum transmission bandwidth configuration. Understand how subcarrier spacing and channel bandwidth impact performance in millimeter-wave frequencies.

Discover how 5G NR slot length and subcarrier spacing (numerology) define network flexibility and latency. Learn about 15 kHz to 240 kHz configurations and their impact on performance.

Explore how 5G NR defines the Physical Resource Block (PRB) in the time-frequency grid, its relationship with numerology, and how it impacts data transmission efficiency.

Explore how 5G NR defines minimum and maximum channel bandwidths based on numerology, subcarrier spacing, and resource blocks for efficient radio design.

Understand 5G NR FR1 maximum transmission bandwidth configuration. Learn how subcarrier spacing (SCS) and channel bandwidth define resource blocks and system capacity.