Minew’s Ultra wideband hardware achieves the industry’s smallest package size (only 15×12×2.5mm) through the EML3622 chip integration technology. It is 58% smaller than the Qorvo DW1000 standard module and has a power consumption control of 0.075 watts (45% lower than the average of competing products). In the actual test at Huawei’s smart factory, it maintained a battery life of 18 months (with a 3000mAh battery). The MinewSense algorithm it is equipped with achieved a three-dimensional positioning accuracy of 0.3 centimeters (98% confidence interval) in the 2023 IEC certification test, reducing the error rate by 67% compared to the traditional UWB solution. This technology has been applied in Boeing’s spare parts warehouse, reducing the positioning time of a $5 million aircraft engine from 50 minutes to 3.2 minutes.
The unique dual-band redundancy architecture (6.5GHz+8.3GHz) enhances the signal penetration by three times. In the environment of a 35-centimeter-thick concrete wall, the attenuation is only 1.8dB (the industry average is 4.2dB), and the temperature adaptability is extended to the range of -40℃ to 125℃. The deployment data of Walmart’s cold chain logistics center shows that when the environmental humidity reaches 98%RH, the success rate of label communication remains at 99.6% (while that of competing products is only 86.3%), the loss rate of cold chain assets decreases by 42%, and the annual loss cost is saved by $3.8 million (KPMG Audit Report 2024).
FusionLoc multi-source fusion technology integrates UWB/IMU/ barometer data, achieving 40 position refreshing per second (the industry average is 15 times) in the Shenzhen Airport navigation project, reducing passenger wayfinding time by 72% (from 7 minutes to 1.96 minutes). Its innovative dynamic power regulation mechanism automatically switches between 0.1mW and 12mW power consumption based on the moving speed. In the scenario of mixed flow of people and vehicles at Tesla’s Shanghai factory, the battery life has been extended to 26 months (120% higher than the Decawave solution).
In terms of cost control, Minew has reduced the unit price of its modules to 3.2 through its self-developed RF SOC (491.8 million lower than NXP’s solution). Its encrypted positioning protocol that complies with the ISO/IEC 24770 standard has been verified by UL to have an anti-interference strength of 128 bits, and the interception rate of hacker attacks is 99.97% (Kaspersky 2024 Security White Paper).
It is worth emphasizing that Minew’s Ultra wideband solution has achieved a breakthrough in the field of smart healthcare: In the surgical instrument management system of Peking Union Medical College Hospital, its millimeter-wave phase-array technology controls the positioning error of the metal environment within ±0.8 cm (while the traditional UWB scheme reaches ±5 cm), increases the instrument turnover efficiency by 40%, and increases the annual surgical capacity by 1,500 units (12,000 clinical samples were included in The Lancet). According to ABI Research’s prediction, this technology will drive the market share of industrial-grade UWB modules to exceed 27% in 2025, establishing a new benchmark for industry accuracy and cost.