HyperPulse™

Future-proof your solutions with affordable hybrid cellular and 5G satellite IoT connectivity, engineered for IoT.

A new era of global IoT connectivity

HyperPulse is a flexible, resilient hybrid network combining Terrestrial and 5G Non-Terrestrial Network connectivity, engineered to be cost-effective in the field.

Our unique smart infrastructure layer enables agile network management, reducing overheads and eliminating wasted coverage – delivering the most affordable TN + 5G NTN option built for IoT.

Standards based and low-power by design, HyperPulse enables scalable sensing, tracking and monitoring of unattended assets, even in the world’s harshest environments.

Build scalable, profitable satellite IoT solutions at the edge

Line illustration drawing showing remote IoT applications and satellites

Engineered for IoT scale

With low-power operation and hybrid cellular and satellite connectivity, HyperPulse supports up to 20 kB daily data and rich IoT sensing across a wide variety of use cases.

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Lower your total cost of ownership

Highly efficient network management and IoT optimised data pricing – with some use cases from as low as USD $1 a month, per device.

One accountable partner

With one accountable partner from constellation to endpoint – managing both cellular and satellite connectivity – reduce risk and eliminate complexity with direct engineering support and streamlined processes.

Seamless Integration. Global Compliance. No Complexity.

  • Standards-based interoperability

    Take advantage of 3GPP Release 17 standards compliance across both cellular and satellite, global hardware, and standardised security

  • Rapid regional enablement

    Currently in General Availability for the USA, Mexico, Brazil, Argentina, Australia, and Saudi Arabia, with rapid expansion across EMEA and APAC.

  • Secure cloud integration

    Route data via private, trusted paths and REST APIs for seamless, secure platform integration.

Built for real-world IoT applications

hyperpulse asset tracking application

Asset Tracking

Report location, condition and status on heavy equipment, containers and rail cars across their entire journey – in coverage and beyond – to cut losses, boost utilisation and drive efficiencies.

hyperpulse environmental monitoring application

Environmental monitoring

Sensors deliver water, air and soil data from urban, exurban and remote areas, helping communities and regulators detect issues early.

hyperpulse smart monitoring application

Smart metering

Automatically monitor water, energy, and infrastructure everywhere it exists, to support compliance, reduce losses and improve resource management.

hyperpulse animal management application

Animal management

Track animal movement, health and grazing patterns to reduce losses, meet regulatory requirements and enable data-driven livestock management.

hyperpulse oil and gas application

Oil & Gas

Monitor the integrity and pressure of pipelines across the globe, to enable early leak detection and safer, more accountable operations.

hyperpulse weather station monitoring application

Weather station monitoring

Low-power stations transmit richer, more frequent observations from the world’s data deserts – improving forecasts, emergency planning and global climate models.

Fishing vessel monitoring using IoT

Fishing vessel monitoring

Monitor the location and activity of fishing vessels in and beyond cellular coverage, supporting safer operations, effective search and rescue, and stronger compliance with quotas and protected areas.

Build with HyperPulse

HyperPulse supports multiple ways to get to market – fast. Whether you’re starting from scratch or building on existing Nordic hardware. Select the path that best fits your development workflow.

HyperPulse™ Developer Kit

Myriota-HyperPulse-Dev-Kit


Start building and validating TN and 5G NTN IoT solutions fast with the HyperPulse Developer Kit. A ready-to-deploy platform built on the Nordic nRF9151, it includes a HyperPulse NTN SIM, integrated GNSS and NTN antennas, and rugged IP67 enclosure.

With USB-C programming, multiple sensor interfaces, pre-loaded example firmware, and access to the HyperPulse Firmware Library, it’s ideal for real-world proof-of-concept testing and seamless integration into your edge devices.

Nordic’s nRF9151 SMA DK


For developers using the
nRF9151 SMA DK, simply purchase a HyperPulse SIM pack and bring your own NTN and GNSS antennas for direct HyperPulse 5G NTN connectivity. Get in touch for full details about what’s provided by Myriota, including access to the HyperPulse Zephyr Library.

Advanced makers with an existing nRF9151 prototype can also connect to the HyperPulse network using our SIM pack and patch antenna. Reach out for more information on how to get started.  

Get Started with HyperPulse Now

Ready to deploy TN & 5G NTN IoT solutions? HyperPulse is available in the United States, Brazil, Mexico, Australia, and Saudi Arabia, with additional markets coming soon.

Access technical documentation here, or start your journey today by filling out the enquiry form to receive expert guidance.

FAQs

This section highlights some frequently asked questions. Click here for the full FAQs.

Who is Myriota?

Myriota is a global leader in satellite IoT connectivity. Over the past decade, the company has built an expanding satellite constellation, secured a substantial patent portfolio of over 170 patents, and raised more than $100 million in funding. It now delivers the IoT foundations that underpin critical operations across agriculture, utilities, logistics, mining, environmental monitoring and defence.

Myriota enables systems integrators, solution providers and OEMs to easily develop and deploy connected products that sense, track, and monitor assets even in the most remote environments. With teams across 19 global locations and deep partnerships in key markets, Myriota remains focussed on its mission to connect the physical world for impact.

What makes Myriota HyperPulse unique?

Myriota HyperPulse is the world’s first commercial hybrid network combining LTE-M, NBIoT cellular and 5G satellite connectivity, engineered specifically for IoT and its unique cost and performance constraints. Unlike satellite-only or cellular-only networks, HyperPulse enables partners to build solutions that operate everywhere their customers’ assets go – whether in urban centers with cellular coverage, remote sites without it, or crossing between them.

Designed and operated by Myriota, the HyperPulse network combines the company’s hybrid architecture with L-band capacity leased from Viasat. Its unique optimisation layer dynamically adjusts connectivity performance – latency, data volumes, and network selection – in response to asset location, customer demand, and environmental conditions. This means device manufacturers can build once and deploy across any geography without managing separate satellite and cellular solutions.

HyperPulse is designed to affordably deliver the latency and data rates needed for IoT applications where frequent updates and richer sensing are critical – asset tracking and monitoring for heavy equipment, containers, rail cars and trailers; smart metering for utilities; environmental sensing for weather stations and water quality monitoring; and animal management. 

The result is a global, unified connectivity platform that makes it simple and affordable for industry partners to build and deploy IoT solutions at scale for any asset, anywhere on Earth.

Where is Myriota HyperPulse commercially available now?

HyperPulse satellite connectivity is commercially available in the United States, Brazil, Mexico, Argentina, Australia, New Zealand and Saudi Arabia. HyperPulse cellular connectivity is available across 190+ countries globally, with support expanding rapidly into additional regions. Please submit this form if you’re interested in being notified when Myriota HyperPulse becomes available in your country.

Which hardware manufacturers are working with Myriota?

Myriota has partnered with Nordic Semiconductor to deliver the Myriota HyperPulse network on their low-power wireless 5G chipset solutions. By using the Nordic Semiconductor nRF9151, the smallest and lowest power System-in-Package (SiP) module for IoT deployments, device makers can upgrade their connectivity to Myriota HyperPulse quickly and easily.

Myriota HyperPulse will be compatible with other silicon platforms in the near future, including Quectel 5G Modules.

What makes Myriota's network solutions the most secure connectivity available?

Myriota’s network solutions leverage enhanced cryptographic security, integrity and privacy features in addition to the standard security best practices.

What is the expected message latency over the satellite link?

Message delivery latency is up to 35 minutes on satellite. Message Delivery latency is the timelag from the time the message is submitted for transmission on the device to the time when it is received on the customer configured cloud back-end. 

How much data can be sent in a single message?

HyperPulse network can support message sizes of up to 250 bytes. 

Can a device queue messages for transmission through the satellite network?

Yes. A device can queue up to 20 messages for transmission. When the queue is full, new messages overwrite the oldest queued messages, so a queued message could be lost before it reaches a transmission window. The queue is stored in RAM and will be lost after a device reset or reboot.

Does HyperPulse support downlink messages?

Yes. HyperPulse supports downlink messages, also called Control Messages, from the cloud to the device. The maximum downlink message size is 250 bytes. 

In what ways does the HyperPulse service streamline data transmission across the satellite network?

By utilising Non-IP Data Delivery (NIDD), HyperPulse streamlines the data transmitted via satellite. This approach removes unnecessary overhead, ensuring that only essential data is sent over the air and providing a billing model where customers pay exclusively for the data they transmit.

What is the typical message latency for transmissions made over a cellular link?

Transmitting through a cellular connection results in a maximum latency ranging from 10 to 60 seconds, which is subject to regional and country-specific variations.