Description
NOffs-DL is a key parameter in LTE Frequency Division Duplex (FDD) systems that defines the relationship between uplink and downlink radio frequencies. It is used in the mathematical formula that converts an E-UTRA Absolute Radio Frequency Channel Number (EARFCN) for the uplink into the corresponding EARFCN for the downlink. The EARFCN is an index that points to a specific center frequency, and the formula incorporating NOffs-DL ensures the correct paired spectrum is identified for FDD operation.
The calculation is defined as: Downlink EARFCN (N_DL) = Uplink EARFCN (N_UL) + NOffs-DL. The value of NOffs-DL is a constant defined in the 3GPP specifications (TS 36.101). Its primary purpose is to account for the fixed duplex spacing—the frequency gap between the uplink and downlink carrier centers—that is characteristic of FDD paired spectrum. By using this offset, the network and user equipment (UE) can derive one channel number from the other, simplifying configuration and cell search procedures.
In practice, when a network broadcasts its downlink EARFCN on the Broadcast Channel (BCH), a UE configured for FDD mode can calculate the corresponding uplink EARFCN by subtracting NOffs-DL. This informs the UE which uplink frequency to use for transmission. The parameter is fundamental to the LTE channel raster and is critical for UE initial access, handover, and carrier aggregation configurations. It works in conjunction with other channel numbering parameters but is specifically tied to the FDD duplex mode.
Purpose & Motivation
NOffs-DL was introduced to provide a standardized, unambiguous method for mapping between uplink and downlink channel numbers in LTE FDD. It solves the problem of efficiently managing paired spectrum allocation. Prior to LTE, different technologies might have used ad-hoc methods or tables to associate uplink and downlink frequencies. The offset-based formula provides a simple, scalable, and implementation-friendly approach.
It addresses the need for a clear procedural relationship between the two directions of an FDD carrier, which is essential for UE operation. During cell search, a UE detects a downlink carrier. To communicate, it must know the paired uplink frequency. Hardcoding all possible pairs would be inefficient. The NOffs-DL formula elegantly solves this by defining a single offset for the entire band, or in some cases per operating band, as specified in the standards. This simplifies network planning, UE design, and ensures global interoperability for FDD LTE devices roaming across different operator networks using the same frequency bands.
Detected Changes Across Releases
from 3GPP Change RequestsSpecific changes extracted from the „Change history“ tables of 3GPP specifications (6 CRs across 3 releases). Complements the general historical overview above with the evidence-based evolution of this function.
Studied in Rel-13, normative work from Rel-15.
In Release 15, the NOffs-DL function was newly introduced to define a downlink offset for TDD NB-IoT, specifically implementing an uplink PRB to downlink PRB center offset. This technical addition, detailed in the RF requirements for base stations and repeaters, involves parameters like the frequency offset (f_offset) from the carrier frequency to manage spectrum emission masks and coexistence requirements. The implementation ensures proper alignment and operation within the defined channel bandwidth and timing accuracy frameworks for TDD systems.
In Release 16, the NOffs-DL function was newly specified to define the frequency offset between anchor and non-anchor carriers for TDD NB-IoT standalone operation. This was detailed for both base station conformance testing and minimum performance requirements. The technical specifications, including parameters like `f_offset`, were established to regulate this downlink carrier separation.
In Release 18, the new NOffs-DL (Downlink Offset) function is detailed through specific out-of-band gain limits and spectrum emission mask values, which define permissible signal levels based on the frequency offset from the carrier. The specification establishes concrete requirements for the downlink signal path, including parameters for timing accuracy and the downlink gain versus time mask. These provisions govern the repeater's synchronization and transmission characteristics to ensure co-existence and proper operation.
Explore further
Broader topics and technologies where NOffs-DL plays a role.
Defining Specifications
3GPP specifications that define or reference NOffs-DL, with the latest known release. Sourced from the 3GPP document catalog — see methodology.
| Specification | Title | Release |
|---|---|---|
| TS 25.116 vj00 | LCR TDD Repeater RF Characteristics | Rel-19 |
| TS 25.153 vj00 | LCR TDD Repeater RF Requirements & Testing | Rel-19 |
| TS 36.102 vj10 | E-UTRA UE Satellite Access RF Requirements | Rel-19 |
| TS 36.104 vj10 | Base Station (BS) radio transmission and reception | Rel-19 |
| TS 36.106 vj00 | E-UTRA FDD Repeater RF Requirements | Rel-19 |
| TS 36.141 vj00 | E-UTRA BS Conformance Testing | Rel-19 |
| TS 36.143 vj00 | E-UTRA FDD Repeater RF Testing | Rel-19 |
| TS 36.521 vj00 | E-UTRA UE Conformance ICS Proforma | Rel-19 |
| TR 38.892 vi00 | Technical Report | Rel-18 |