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nRF9160 System-in-Package (SiP)

低電力のシステムオンチップ(SoC)でLTE-M/NB-IoTモデムとGPSを統合

The nRF9160 is a compact, highly-integrated System-in-Package (SiP) that makes the latest low power LTE technology and advanced processing and security accessible, and easy to use, for a wide range of single device low power cellular IoT (cIoT) designs.

Incorporating an Arm Cortex-M33 application processor solely for applications, a full LTE modem, RF Front End (RFFE) and power management system. The nRF9160 is the most compact, complete and energy-efficient cellular IoT solution on the market.

The integrated modem supports both LTE-M and NB-IoT and can operate globally removing any need for regional variants. All power saving features including eDRX and PSM are supported as is with IPv4/IPv6 support up to transport and security (TCP/TLS) level. The modem firmware is upgradable via secure, encrypted Firmware Over The Air (FOTA) updates.

The Arm Cortex-M33 application processor is supported by 1 MB of flash and 256 KB RAM making advanced application development possible in a single device solution. 

A GPS receiver is integrated into the radio offering various modes of operation to suit a wide selection of applications that employ location-tracking functionality

A broad selection of general interfaces and peripherals and are included on nRF9160 including 12-bit ADC, RTC, SPI, I²C, I²S, UARTE, PDM and PWM.

Security is best-in-class with Arm TrustZone technology for isolation and protection of normal and secure zones for firmware and elements of hardware including memory and peripherals. Arm TrustZone helps build solid and secure ioT applications that feature secure boot, trusted firmware updates and root of trust implementations without performance compromise.

Arm CryptoCell enhances security still further by offering cryptographic and security resources to help to protect your IoT applications from various attack threats. CryptoCell is designed for high performance cryptography solutions optimized for energy-constrained devices.

The nRF9160 supports both SIM and eSIM for connection and authentication with mobile network operators.

The nRF9160 hardware and development kits are now in production and is suitable for full end-to-end sensor to cloud development. We’re still developing features and optimizing performance. This blog keeps you updated on our latest developments and plans.

LTE bands B1, B2, B3, B4, B5, B8, B12, B13, B14, B17, B18, B19, B20, B25, B26, B28 and B66 have been certified so far. See this for more details.

NB! Updated band support with modem firmware Version 1.0.0, see downloads section.

Download PDFDownload nRF9160 SiP product brief (PDF)

Key features

Fully integrated SiP for cellular IoT

Multimode LTE-M/NB-IoT modem with GNSS

700-2200 MHz LTE band support

Certified for global operation

Dedicated application processor and memory

64 MHz Arm Cortex-M33

1 MB flash + 256 KB RAM

Arm TrustZone + Arm CryptoCell

nRF9160 DK

Affordable, pre-certified cellular IoT development kit for LTE-M, NB-IoT, GNSS and Bluetooth LE. Perfect for evaluation and development on the nRF9160 SiP

Nordic Thingy:91

The Nordic Thingy:91 is an easy-to-use cellular IoT prototyping platform, designed to help building prototypes and demos, without the need to build hardware or even write firmware.

Power Profiler Kit II

The Power Profiler Kit II is an easy-to-use tool for measuring and optimizing power consumption for embedded solutions.

nPM1300 PMIC

Power Management IC (PMIC) with unique system management features

The nPM1300 is designed to provide highly efficient power regulation for Nordic’s nRF52® and nRF53® Series, as well as the nRF54H20 advanced wireless multiprotocol Systems-on-Chip (SoC). The PMIC is also suitable for battery charging for applications based on the nRF91 Series systems-in-package (SiPs) for cellular IoT, by using the PMIC’s unregulated output to power the SiP's internal buck regulators.

Devices using the nPM1300 and a compatible SoC or SiP also get access to the Nordic Fuel Gauge, a highly accurate, ultra-low-power way of estimating state-of-charge of rechargeable batteries.