| Written by Mark Buzinkay
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Real-time location System (RTLS) chips are key components in RTLS technology. They enable the tracking and location of assets, people, or objects in real time.
RTLS chips are small electronic devices that serve as tags or transponders in RTLS systems. Their primary function is to transmit signals that allow the system to determine the precise location of the tagged item or person.
RTLS tags find applications across various industries, such as manufacturing and warehousing. The business cases include tracking equipment, materials, and work orders to optimize production processes, enhance inventory management, and optimize picking routes.
RTLS chips can utilize various wireless technologies, such as Ultra-Wideband (UWB), Bluetooth Low Energy (BLE), Wi-Fi, active RFID, and GNSS. Each technology has advantages and strengths and optimally fits certain business cases:
Key features like accuracy, power consumption, update rates and size differentiate the above-mentioned technologies:
RTLS chips are sophisticated electronic components that form the core of Real-Time Location System devices. An RTLS chip typically consists of a microprocessor or microcontroller, a wireless communication module, an antenna, a power source (battery for active tags, or energy harvesting for passive tags), and sensors (optional, for additional data collection). Let's go a bit more into the details here to understand the performance parameters fully:
The specific components and their capabilities can vary depending on the intended application, the wireless technology used, and the level of integration required.
Besides the above-mentioned technologies, there is CHIRP. CHIRP (Chirp Spread Spectrum) is an advanced radio frequency technology used in RTLS and wireless communication. So, what is CHIRP chip technology? In brief, it uses spread spectrum technique where frequency increases or decreases over time, operates on the 2.45 GHz ISM band, provides long-range communication capabilities, and offers strong resistance to interference and multipath fading.
The advantages of CHIRP are a long transmission range compared to traditional modulation methods, high receiving sensitivity (up to -129 dBm), strong anti-interference capabilities, low power consumption, especially in receiving mode, adjustable bandwidth and spread spectrum factor.
In fact, CHIRP is not an unknown RTLS chip alternative. Besides RTLS, it is used in applications such as asset tracking and management, industrial automation and control, smart buildings and home automation, agricultural monitoring, underground mining operations, and even livestock tracking.
The key components are very similar to other RTLS chips (Microprocessor for signal processing, wireless communication module supporting CHIRP modulation, antenna system, and a power management unit).
How does CHIRP compare to traditional RF technologies?
CHIRP technology offers several key advantages over traditional RF technologies. Here is a short overview:
These characteristics make CHIRP particularly well-suited for applications requiring long-range, low-power communication and precise location tracking in challenging environments. However, for applications requiring very high data rates or extreme precision, other RF technologies might be more appropriate.
“Identec can provide the best possible location accuracy and reliability even in harsh environments full of metal installations. We could achieve this outstanding performance by combining our Identec Solutions’ Position Engine with Inpixon’s fantastic Chirp Radio Technology. With Asset Agent, factories become Smarter Factories. ”
Christian Aadal, Product Manager and VP Sales Smart Manufacturing at Identec Solutions
The RTLS market is expected to grow significantly, with advancements focusing on improved accuracy and range, lower power consumption for extended battery life, miniaturization of chips for more versatile applications, and integration with other IoT technologies for enhanced functionality. RTLS chips continually evolve, offering businesses powerful tools for real-time asset tracking and management across various industries. We can expect to see even more innovative applications and improved performance as technology advances.
What is an RTLS chip, and how does it work?
An RTLS (Real-Time Location System) chip is a small electronic device that enables the real-time tracking and location of assets, people, or objects. These chips serve as tags or transponders, transmitting signals that allow an RTLS system to determine the precise location of the tagged item or person. They are used across various industries, such as manufacturing, warehousing, and healthcare, to optimize processes like inventory management, equipment tracking, and workflow monitoring.
What technologies do RTLS chips use, and what are their benefits?
RTLS chips utilize various wireless technologies, including Ultra-Wideband (UWB), Bluetooth Low Energy (BLE), Wi-Fi, active RFID, and Global Navigation Satellite Systems (GNSS). Each technology offers unique benefits: UWB provides high accuracy and is robust in challenging environments, BLE is known for low power consumption, Wi-Fi leverages existing infrastructure, active RFID allows for long-range tracking, and GNSS is ideal for outdoor applications. CHIRP (Chirp Spread Spectrum) is an emerging alternative, offering long-range communication, strong resistance to interference, and low power consumption.
How does CHIRP technology compare to traditional RF technologies in RTLS applications?
CHIRP technology offers several advantages over traditional RF technologies. It provides a longer transmission range (up to 570 meters) and better penetration through obstacles, making it suitable for both indoor and outdoor applications. CHIRP is also resistant to interference and multipath fading, which is beneficial in complex environments, such as industrial settings. Additionally, it features low power consumption, ideal for battery-powered devices, and offers flexibility with adjustable bandwidth and spread spectrum factors, making it versatile for various use cases, including underground mining, livestock monitoring, and asset tracking.
RTLS chips, particularly those based on advanced technologies like CHIRP, offer significant advantages for real-time asset tracking, including long-range communication, low power consumption, and strong resistance to interference. As industries seek more efficient ways to manage assets and improve operational workflows, leveraging cutting-edge RTLS solutions becomes essential.
Discover how our RTLS solution, Asset Agent, powered by CHIRP technology, can transform your asset management with precise location tracking, enhanced performance, and adaptability to any environment. Contact us today to learn more and see how Asset Agent can elevate your operations to the next level.
Delve deeper into one of our core topics: Real time location systems
Sources:
(1) Jocelyn Edinio Zacko Gbadoubissa, Ado Adamou Abba Ari, Emanuel Radoi, Abdelhak Mourad Gueroui. M-Ary Direct Modulation Chirp Spread Spectrum for Spectrally Efficient Communications. Information, 2023, 14 (6), pp.323. 10.3390/info14060323 . https://hal.science/hal-04126099/document
Mark Buzinkay holds a PhD in Virtual Anthropology, a Master in Business Administration (Telecommunications Mgmt), a Master of Science in Information Management and a Master of Arts in History, Sociology and Philosophy. Mark spent most of his professional career developing and creating business ideas - from a marketing, organisational and process point of view. He is fascinated by the digital transformation of industries, especially manufacturing and logistics. Mark writes mainly about Industry 4.0, maritime logistics, process and change management, innovations onshore and offshore, and the digital transformation in general.