Accurate Monitoring, Instant Feedback - Nanochap Reinvents Health Monitoring Capabilities of Wearable Devices

Wearable devices are portable smart devices that are worn directly on the body or integrated into the user's clothes or accessories. They realize the functions of user information interaction, human health monitoring, health relaxation and life entertainment through built-in sensors, wireless communication, integrated chips, multimedia technology and so on.

Wearable device industry contains multiple stages, from key components manufacturing to equipment production, and then to the final application, forming a complete ecological chain. Among them, the chip link is extremely critical, especially the biosignal detection chip, which can accurately monitor health data in real time, help users monitor the health status of the body, prevent diseases in advance, and improve the standard of life and health. Nanochap Biotechnology has demonstrated its core competitiveness in the wearable device market due to its outstanding achievements in bio-signal detection chip technology.

Nanochap's biomolecular signaling chips, such as the BMS002 and BMS003 chips, are known for their high accuracy, high sensitivity, low power consumption, and broad biomolecular signaling capabilities. These chips are able to accurately capture and analyze tiny biomolecular signals such as glucose, lactic acid, uric acid, cholesterol, etc. in body fluids such as sweat, saliva, urine, etc., which provides powerful technical support for clinical medicine, health management and wearable devices.

- High-precision detection: Nanochap's biomolecule signal detection chip adopts advanced signal processing technology, such as 16bits ADC and supports 40-2048 oversampling configuration, which ensures the accuracy and stability of the detection results.

- Wide range of detection types: The chip supports the detection of a wide range of biomolecular signals, including but not limited to lactate, uric acid, glucose, electrolytes, bilirubin, creatinine, ketone bodies, etc.

- Low-power design: Nanochap has incorporated low-power technology into the chip design, ensuring ultra-low power consumption while ensuring high-precision data acquisition.

- Highly integrated: The chip integrates a variety of functional modules, such as an embedded ARM Cortex-M0 MCU, and an impedance measurement module that connects directly to a coin cell battery, making the device more compact and easier to carry and wear.

The working principle of Nanochap's biomolecule signal detection chip can be roughly divided into the three core aspects of data acquisition, signal processing and data transmission, and the following are the applications of biomolecule signal detection chips in different wearable products:

1. Smart sports bracelets/watches

In smart sports bracelets/watches, Nanochap chips are mainly used to monitor the user's exercise status and physiological parameters. When the user wears the bracelet for exercise, the chip collects the signals of lactic acid, glucose and other biomolecules in sweat through the sensors close to the skin, and assesses the user's exercise intensity and physical exertion in real time.

2. Continuous Blood Glucose Monitor

For diabetic patients, Nanochap chips are used in continuous glucose monitors. The device collects glucose signals from the user's subcutaneous interstitial fluid in a non-invasive way (e.g., microneedle sensor) and analyzes them in real time using the Nanochap chip's high-precision detection capability.

3. Health monitoring chest strap/vest

In the field of medical-grade wearable devices, Nanochap chips are integrated into health monitoring chest straps or undershirts to monitor key vital signs such as respiration, heart rate, blood pressure and oxygen saturation of patients. The chip collects biological signals from the chest patch or fabric sensors and combines them with advanced algorithms for comprehensive analysis.

With its excellent performance and wide application potential, Nanochap's biomolecule signal detection chip has demonstrated strong competitiveness and broad market prospects in the field of wearable devices. With the continuous progress of technology and the expansion of application scenarios, this chip will continue to lead the innovative development of wearable health monitoring technology.