The LTE modem supports 3GPP Internet of Things Non-Terrestrial Network (IoT NTN) based on Cat-NB1/NB2. This feature is available after installing firmware that implements the modified Cat-NB1/NB2 physical layer (PHY) and layer 2 and 3 level operation of the NTN radio protocol stack according to 3GPP specifications.
The IoT NTN radio layer extends cellular radio capabilities. The following are key features of IoT NTN:
- Supports major global Mobile Satellite Service (MSS) bands, including B249 in TDD mode
- Built-in coexistence of terrestrial networks in the same location
- Full integration into 3GPP network architectures and ecosystem
- Cat-NB1 and Cat-NB2 support
- Single-tone and multi-tone transmission
- UE location from an external GNSS source
- Support for different satellite deployment models, with simultaneous UE support
- UE ability to pre-compensate its Timing Advance and the frequency Doppler shift relative to the satellite position and satellite velocity through the network provided satellite ephemeris and a valid UE GNSS position
- Skylo proprietary optimisations
See 3GPP TS 36.300 and 3GPP TS 36.306 for more information.
IoT NTN operates on the global MSS bands, which are distinct from terrestrial bands. A satellite cell may cover a large geographical area up to hundreds of kilometres in diameter. The large earth fixed cells, and specifically moving cells, can cross country borders or cover areas with no territorial claims. Therefore, regulatory aspects also need to be carefully considered (see 3GPP TR 22.926).
IoT NTN is based on Cat-NB1/NB2 cellular radio standard that is included as part of the 3GPP R17 and later, with a priority on non-terrestrial (satellite) access. The standard covers both the transparent payload (non-regenerative) and the non-transparent (regenerative) payload deployment cases.
- LEO – 500 km to 2000 km
- MEO – 8000 km to 20,000 km
- GSO – 35,786 km
Depending on the satellite system and the constellation that is used, the following three types of service links between the UE and the satellite are supported:
- Earth fixed – provisioned by beam(s) continuously covering the same geographical areas all the time (for example, GSO satellites)
- Quasi Earth fixed – provisioned by beam(s) covering one geographic area for a limited period and a different geographic area during another period (for example, NGSO satellites generating steerable beams)
- Earth moving – provisioned by beam(s) whose coverage area slides over the Earth's surface (for example, NGSO satellites generating fixed or non-steerable beams)
IoT NTN on nRF9151
Nordic Semiconductor provides 3GPP IoT NTN enabled firmware that implements a modified Cat-NB1/NB2 PHY, Layer 2, and Layer 3 level operation of the NTN radio protocol stack for Cat-NB1/NB2 according to 3GPP R17 and later specifications. The stack provides support for all GSO and NGSO satellite systems operating above an altitude of 500 km.
Supported IoT NTN bands
| E UTRA operating band | Duplex mode | Common name | Uplink (MHz) | Downlink (MHz) | Duplex spacing (MHz) |
|---|---|---|---|---|---|
| 249 | TDD | 1616 to 1626.5 | 1616 to 1626.5 | - | |
| 23/252 | FDD | S-BAND NTN | 2000 to 2020 | 2180 to 2200 | 160 |
| 255 | FDD | L-Band (global) NTN | 1626.5 to 1660.5 | 1525 to 1559 | -101.5 |
| 256 | FDD | S-band (Europe) NTN | 1980 to 2010 | 2170 to 2200 | 190 |
See 3GPP TS 36.102 for more information.
Supported 3GPP IoT NTN Satellite Systems
| Satellite System | Notes |
|---|---|
| GSO |
3GPP R17 support Skylo specific features |
| NGSO |
3GPP R17 LEO/MEO 3GPP R19 LEO in TDD Mode |