5g

Mixing mini-slot and normal-slot transmissions in 5G can cause resource fragmentation, reducing spectral efficiency. Learn how this issue occurs and how 5G NR addresses it.

Explore NR CA band notation in 5G NR — from intra-band contiguous to inter-band carrier aggregation — and understand how these configurations boost network speed and efficiency.

Mini-slot transmission in 5G NR uplink allows immediate data transfer without waiting for slot boundaries, ensuring ultra-low latency for URLLC and real-time applications.

Mini-slot transmission in 5G NR downlink enables ultra-low latency and flexible scheduling by allowing PDSCH to be transmitted without waiting for slot boundaries.

Explore how mini-slot transmission in 5G NR revolutionizes downlink scheduling, reducing latency and improving spectrum efficiency for real-time communication.

Learn how Intra-Band Non-Contiguous Carrier Aggregation enables LTE and 5G networks to combine separated frequency blocks within the same band for higher data speeds.

Discover how Intra-Band Contiguous Carrier Aggregation enhances LTE and 5G data rates by combining adjacent carriers within the same frequency band for improved spectral efficiency.

Discover how Inter-Band Carrier Aggregation in 5G and LTE combines multiple frequency bands to boost data rates, improve spectral efficiency, and deliver faster mobile broadband.

Discover how 5G NR dynamically selects the PUCCH carrier across TDD configurations to optimize uplink feedback and enhance flexibility in multi-carrier environments.

Learn how 5G NR Release 15 handles downlink preemption between eMBB and URLLC users, ensuring ultra-reliable low-latency communications without sacrificing overall network efficiency.