We see a significant and smart shift towards fully digital utility solutions through the deployment of connected and intelligent metering systems for electricity, water, and gas. The objective of this digitalisation is to improve operational efficiency, streamline billing processes, and improve resource management to embrace a more sustainable era and to be prepared for new net-zero challenges.
These smart meter solutions require high-quality and reliable utility measurement and sensing devices. Additionally, these smart meter devices embed low power RF solutions such as NB-IOT and its related iSIM connectivity, advanced security as well as smart features such as edge computing capability to handle AI algorithms at the device level, bringing more intelligence to the system at a low power cost.
However, we know very well that utilities companies and device makers need to cope with existing architectures and business models. To address this, our System-on-Chip has been designed to enable seamless integration with existing technologies, while also providing the flexibility to unlock advanced features independently. Our API, based on the Open ID standard, simplifies the process of working with the blockchain network. By using our API, you will be able to integrate your service easily and quickly within our authentication network, enhancing the security, privacy, and convenience for your end-users.
Based on Open ID standard, our API takes the complexity out of working with the blockchain network. With our API you will be able to quickly and easily integrate your service within our authentication network, and thus, improve the security, privacy and convenience for your end-users.


Get your metering device designed and connected in record time with TRASNA NB-IOT SOC solution that was designed for the smart metering industry and with the most competitive bill of materials in the world.


With one of the smallest footprints in the industry, our SOC gives smart meters a lifespan of 10+ years and uses advanced technics as shared embed flash to make each subsystem using the least flash memory to reduce energy consumption.


A full set of advanced technologies  ensure that your investment is utilized for years to come. The Application processor subsystem has a RISC-V CPU core @250MHz to control the sensor and can execute algorithms based on sensor data. The NB-IOT/Weightless subsystem can be accessed through the API used for cellular communication or geolocation, and the iSE/Secure subsystem can also be accessed through another API to perform encryption operations or secure storage. Embedded FPU and DSP functions allow edge computing in the SOC.


The security subsystem of our SOC provides advanced encryption algorithms at home and abroad to directly provide encryption services or secure storage for the Application Processor subsystem within the chip. When the chip receives the sensor signal, it can encrypt the received information in real time. A key and unique identification can be generated to ensure the security of the data on the transmission chain. Supports integrated sim service provides reliable and secure identity authentication for terminal equipment, and can flexibly change network operators. Your smart sensors will have the required resources to be protected.


The application processor, radio subsystem, security components and GNSS (Chip Geographical Location) are integrated on a single chip, as well as the embedded software and services required by operators. Compared with the current 2-4 chips combination scheme in the industry, it significantly reduces the cost and power consumption, and is conducive to the miniaturization of module products.

Learn More About our NB-IOT SoC platform


Fully flexible 3-core architecture than can be used for many different applications with possible reuse of developments between applications and can connect to any kind of Radio (Analog) Companion Chip (LORA, BT, WIFI, CATM, LTE, ZIGBEE, DASH7 & other sub-GHz Radios, GNSS …).

Learn More About our Secure Multicore SOC platform