Select premium solutions designed for global medical assistance, active aging tracking, and high-performance continuous vital monitoring.
Why precise step tracking, remote vitals monitoring, and multi-GNSS tracking configurations represent the cornerstone of contemporary global senior care infrastructures.
Step-tracking devices are no longer mere lifestyle accessories. In remote patient monitoring (RPM) landscapes, changes in daily walking patterns (gait velocity, step frequency, and activity duration) serve as critical digital biomarkers for neurodegenerative degradation, cardiovascular decline, and physical fragility. Our systems sync natively with hospital cloud terminals via standardized FHIR protocols.
By blending GPS, GLONASS, Galileo, and LBS base-station telemetry, our B2B OEM smartwatches prevent critical wander-related injuries in patients diagnosed with dementia or Alzheimer's. Features include dynamic geo-fencing, real-time tracking during SOS panics, and ultra-precise fallback beacons that ensure localization in deep-indoor or urban-canyon scenarios.
Whether for governmental quarantine monitoring, nursing home deployments, or independent living setups, our hardware ecosystem leverages robust dynamic fall detection algorithms powered by 6-axis IMU sensors, delivering real-time alerts to central nursing dashboards to optimize emergency response times.
Shenzhen TC Health Co., Ltd.: Seamlessly transitioning high-fidelity concepts into world-class, certified medical and elderly care electronics.
Founded in 2015, Shenzhen TC Health Co., Ltd. has become a leading manufacturer specializing in smart wearable devices. With over a decade of expertise in research and development, production, and management, we focus on delivering innovative solutions in senior health management, disease monitoring, and personal safety.
Our state-of-the-art production facility located in Shenzhen, Guangdong, China is equipped with advanced production lines and precision equipment, ensuring high-quality manufacturing standards. As an ISO9001-certified company, we maintain stringent quality control throughout the production process.
Inside our ISO9001-certified precision assembly and micro-soldering labs in Shenzhen.
Mapping the rise of active IoT wearables in public healthcare frameworks and commercial distribution networks.
By 2050, the global population over the age of 60 will surpass 2.1 billion. Governments and private insurance syndicates are migrating away from highly reactive, hospital-based models toward continuous, proactive, home-based telemetry. B2B smart wearables serve as the physical nodes of this structural healthcare transition, reducing long-term clinical expenditure by up to 34% through automated early interventions.
Traditional personal emergency response systems (PERS) relied on standard in-home RF buttons with highly restrictive, localized operating ranges. Modern telecare operators require ubiquitous 4G LTE/5G cloud-connected devices that integrate localized physical sensing (pedometers, dynamic heart rate sensors, and pulse oximetry) with geo-navigation nodes to safeguard users both inside their residences and during community integration.
For major healthcare distributors, scalability relies heavily on device interoperability. Proprietary systems are giving way to open-source architectures. TC Health bridges this operational gap by engineering devices with deep API capabilities, allowing seamless ingestion into standard platforms such as Amazon Care, Google Fit, and specialized regional enterprise EHR (Electronic Health Record) databases.
Decoupling the hardware architecture and advanced signal processing loops that distinguish professional telehealth monitors from commercial toys.
Standard physical activity trackers rely on basic 3-axis motion sensors that easily misclassify trivial movements (such as typing or hand gestures) as valid steps. Our OEM/ODM smartwatches incorporate advanced Tri-Axial Accelerometers combined with Gyroscopic IMUs, executing raw signal filtering through optimized FIR (Finite Impulse Response) algorithms directly at the MCU (Microcontroller Unit) layer.
For fall detection pipelines, our algorithms isolate real impact events by cross-referencing instantaneous acceleration thresholds (typically >6G vectors) with immediate secondary posture changes, post-fall inactivity windows, and PPG blood flow modulations. This dual-validation logic cuts false alarm metrics down to less than 1.5%, sparing call centers from unnecessary dispatch surges.
"By monitoring historical gait variance trends over 30-day windows, our algorithms can alert caregivers to elevated neurological and skeletal fall risks before an accident occurs."
Navigating complex global telecommunication landscapes, personal medical data regulations, and carrier approval processes.
Health telemetry belongs to the most strictly protected category of personal data. TC Health products ensure end-to-end data encryption using AES-256 protocols at rest and TLS 1.3 tunnels during transmission. Our system firmware is designed to run seamlessly with zero-trust APIs, ensuring full compliance with HIPAA rules in the United States and GDPR regulations across Europe.
Our OEM/ODM manufacturing pipeline integrates regional RF transceivers tuned to specific global LTE frequency profiles. We design boards optimized for North American carrier frequencies (AT&T, T-Mobile, Verizon B2/B4/B12/B13), European telecommunication allocations (B1/B3/B7/B8/B20), and custom APAC frequencies, guaranteeing reliable outdoor tracking.
We streamline the custom hardware export process by maintaining robust compliance frameworks. Our smartwatches hold complete CE, FCC, RoHS, and WEEE system certifications, minimizing customs delays. By handling the complex local certification processes at the source, we enable direct B2B market entry and rapid product rollouts.
From conceptualization to industrial production, we turn technical specifications into scalable market successes.
We craft custom housing molds, select skin-friendly surgical-grade silicones or hypoallergenic plastics, and configure physical SOS buttons optimized for arthritic hands. We then execute 3D prototype modeling and structural drop tests to ensure durable physical builds.
Our engineering team develops customized multi-layer PCB boards, optimizes dynamic low-power MCU states to maximize standby battery cycles (extending field life to 7-10 days per charge), and writes custom embedded OS scripts tailored to your specific application requirements.
We build customizable companion apps (iOS and Android) branded with your company's corporate identity. In addition, we establish direct server-to-server webhook endpoints and robust REST APIs, enabling frictionless connection with your existing enterprise dashboard management tools.
Leveraging our Shenzhen facility's 100,000+ unit monthly capacity, products undergo advanced automated testing cycles. We verify signal calibrations, waterproof sealing integrity, and drop ratings, ensuring reliable performance in demanding, real-world senior care environments.
A visual tour of our production floor, showing our high-speed automated placement lines, calibration chambers, and dedicated quality assurance hubs.
Discover more specialized hardware solutions designed to empower and protect senior communities around the world.
Direct answers to the most common questions raised by telecom carriers, hospital directors, and international hardware importers.
Our standard manufacturing MOQ for custom B2B projects is 1,000 units. This threshold allows us to efficiently retool production equipment, configure custom PCB layouts, run dedicated firmware flashing pipelines, and print bespoke packaging. However, we also provide smaller initial runs to support validation processes and pilot programs for health systems.
Traditional accelerometers often fail to accurately track steps for individuals who walk slowly or use mobility aids like walkers. To solve this, our hardware uses high-performance 6-axis IMU sensors coupled with intelligent digital filtering. Our firmware processes motion signals through adaptive gait-modeling filters, ensuring highly accurate tracking even for users with slower or asymmetric walking paces.
Yes, all of our network-connected tracking devices support standardized API architectures. We provide fully documented APIs and SDKs to support direct connection with external systems. Telemetry and alert data can be configured to transmit via secure HTTPS POST or MQTT connections, making it simple to integrate our hardware with your existing healthcare dashboards.
We minimize false alarms by utilizing a dual-stage verification pipeline. First, the 3-axis accelerometer and gyroscopic IMU detect the high-impact force vector of a fall. Second, the device monitors the wearer's immediate post-impact movement. If normal walking or movement is detected within a 30-second window, the system registers a self-corrected event, dramatically reducing false alarm dispatches.
Our hardware supports both physical Nano-SIM slots and modern eSIM configurations. For international clients, we can integrate pre-installed, roaming-capable eSIM profiles during assembly, or design the devices to accept your preferred regional carrier's SIM cards, ensuring reliable connection right out of the box.
TC Health
