Two new Narrow Band-IoT modules to the Telit portfolio, the NE310H2-W1 and NL865H2-W1.

Written by Mike Benson

January 13, 2020

Highly efficient power usage and enhanced coverage makes the NE310H2-W1 and NL865H2-W1 ideal for 2G to 4G NB-IoT transition. The miniature xE310 form factor allows for integration in the most compact devices, the xL865 family guarantees smooth evolution for devices based on legacy Telit modules.

Telit recently announced two new Narrow Band-IoT modules to the Telit portfolio, the NE310H2-W1 and NL865H2-W1. With a global set of bands from Telit unified family form factors, the modules are ideal for 2G to 4G NB-IoT transition and offer the lowest power consumption for battery-driven applications that will help optimize cost. In addition to extending coverage for ubiquitous connectivity, use cases include smart metering for electricity, gas and water, smart city applications, smart agriculture and almost any type of industrial sensor or mass-deployment application—all of which benefit from low power and enhanced coverage without high data rate requirements.

NE310H2-W1, with its 15x18mm LGA form factor, is perfect for size-constrained applications with low power consumption, pin-to-pin compatible with 2G and LTE-M modules of the miniature Telit xE310 Family. Optimized for ease-of-design, high yield and low-cost manufacturing, this module is compliant to 3GPP Release 14 Cat NB2. The NE310H2 is also backward compatible with 3GPP Release 13 and LTE Cat NB1 standard.

NL865H2-W1, with its well-known and widely deployed 24.4×24.4mm VQFN form factor, guarantees a smooth evolution for all those customers that want to upgrade and future proof their devices based on Telit 2G and 3G xL865 module, with limited redesign effort and optional built-in eSIM available for the NL865H2-W1 for connectivity integrated in the module. It is also LTE UE Category NB2 compliant to the latest 3GPP Release 14.

‘’The launch of NE310H2-W1 and NL865H2-W1 will address some of the major challenges OEMs, integrators and device designers have been facing,” said, Manish Watwani, chief marketing and product officer, Telit. “Particularly for connectivity and battery life, our new modules dramatically increase the number of data points they can collect from their operations and customers via IoT devices. With IoT now possible at scale and cost, it makes many previously unviable deployments ROI positive.’’

    PRODUCT FEATURES

    • LTE UE Category NB2 (200 KHz)
    • 3GPP release 14 compliant
    • Half Duplex FDD
    • Single Rx, single antenna
    • 3GPP Rel. 12 Power Saving Mode
      (PSM)
    • 3GPP Rel. 13 Extended Discontinuous
      Reception (eDRX)
    • 3GPP Rel. 13 Extended coverage
    • 3GPP Rel.13 Release Assistance
      feature
    • Control via AT commands according to
      3GPP TS27.005, 27.007
    • SMS over NB-IoT
    • IPv4/IPv6 stack with TCP and UDP
      protocol
    • TLS / DTLS
    • OMA Lightweight M2M (LWM2M)
    • Over-the-Air firmware update

    NL865H2  INTERFACES

    • Dimensions: 24.4 x 24.4 x 2.3mm
    • 8 I/O ports
    • 8V SIM Interface
    • USB 1.1 (debug only)
    • 2 x UARTs
    • I2C

    NE310H2 INTERFACES

    • Dimensions: 15 x 18 x 2.3 mm
    • 6 I/O ports
    • 1.8V SIM Interface
    • USB 1.1 (debug only)
    • 3 x UARTs
    • SPI
    • I2C

    Related Articles

    ISP2053 series – Dual-core Bluetooth 5.2 Modules

    Based on nRF5340 Nordic Semiconductor wireless SoC with two Arm® Cortex®-M33 processors and advanced feature set, the ISP2053 module is ideally suited for LE Audio, professional lighting, advanced wearables, industrial, medical, and other complex IoT applications. Low...

    SmartPressure™ ICP-10125 TDK Barometric Pressure Sensor

    SmartPressure™ ICP-10125 TDK Barometric Pressure Sensor

    TDK InvenSense’s barometric pressure sensors use an innovative capacitive MEMS architecture to deliver lower power consumption and lower noise than competing technologies. The SmartPressure products can measure height change as small as 5 cm, less than the height of a...

    The World’s First High Performance Mass Flow Controller by Sensirion

    SFC5500 mass flow controller series represent the culmination of Sensirion’s excellent 20-year track record in precision control of gas flow. The sensor is based on the microthermal measurement principle and makes use of Sensirion’s proven CMOSens® MEMS Technology....

    Stay Up to Date With The Latest News & Updates

    Join Our Newsletter

    Join our monthly newsletter for the latest updates in the electronics industry