Small 1ch or 2ch NIRS for pediatric and neonatal research
The PortaLiteMK2 mini is a compact NIRS (Near-Infrared Spectroscopy) device adjusted for measuring infants, featuring either 1-channel or 2-channel measurement methods. Weighing approximately 188g, including the main unit and sensor, it is extremely lightweight and is among the smallest and lightest NIRS products currently sold by artinis, making it highly portable. Preparation for measurement is simple; you just need to attach the sensor, which is connected by a single cable from the battery unit. The measurement data is equipped with Bluetooth, allowing for real-time acquisition of brain activity during activities. Additionally, it has a logger function, making it suitable for measurements in outdoor environments where communication may be difficult.
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basic information
Measurement items: Oxyhemoglobin / Deoxyhemoglobin / Total Hemoglobin Sampling: 100Hz Wavelength: 760nm / 850nm Battery operating time: Up to 30 hours Weight: Approximately 155g
Price range
Delivery Time
Applications/Examples of results
Quantification/visualization of brain activity and muscle activity. Measurement of infants.
Company information
We handle high-precision measurement equipment that can be used for ergonomics, building structure, behavior, seismic analysis, fluid analysis, VR, and more, both domestically and internationally. In particular, Qualisys, which we represent, is a leading company in the industry that manufactures a three-dimensional optical motion capture system based in Sweden. The core technology of Qualisys has been developed since 1989, and based on years of accumulated experience, they develop everything in-house, from hardware such as cameras to software. Currently, motion capture systems are used in a wide variety of fields, including medical and industrial sectors. Among their products, there is a unique model that can measure underwater, enabling the acquisition of high-precision three-dimensional data in environments where motion analysis and validation of precision were previously impossible.