Exposed Bath And Shower Faucets Exposed Bath And Shower Faucets,Single Handle Bath Shower Faucet,Wall Mounted Brass Shower Faucet,Single Handle Bath & Shower Faucets Kaiping Jenor Sanitary Ware Co., Ltd , https://www.jenorsanitary.com
Infrared sensor future market forecast
In recent years, the advancement of science and technology has significantly contributed to the rapid development of infrared sensor technology. Innovations in computer microprocessor design, modern digital signal processing, and the introduction of new semiconductor materials and manufacturing techniques have all played a key role. According to forecasts from a foreign research institute, global sales of infrared sensors grew from $152 million in 2010 to $286 million by 2016. Another report from ASD Reports predicts that the global EO/IR sensor market will reach $10 billion by 2024, up from $7.3 billion in 2014, with a growth rate of 3.22%.
Infrared sensors are now among the fastest-growing technologies, finding applications in aerospace, astronomy, meteorology, military, and both industrial and consumer sectors. Infrared radiation is an electromagnetic wave with wavelengths ranging from approximately 0.78 micrometers to 1000 micrometers. Since it lies just beyond the red end of the visible spectrum, it's called "infrared." All objects above absolute zero emit energy in the form of infrared radiation, making it a valuable tool for sensing and measurement.
The development trends of infrared sensors in recent years include:
1. **Advancements in Materials and Manufacturing**: New materials and processing technologies have improved detection efficiency, extended response wavelengths, reduced response time, increased pixel sensitivity and density, enhanced anti-interference capabilities, and lowered production costs. For example, companies like Pyreos and Irisys have introduced pyroelectric sensor technologies that combine thin films and ceramics to create more efficient arrays.
2. **Larger and More Functional Sensors**: As microelectronics advance and application fields expand, infrared sensors are evolving from small-scale, single-function devices to large-scale, multi-functional systems. For instance, 16×16 to 64×64 pixel sensors can measure temperature fields and detect human presence, even when individuals are not moving. These sensors are ideal for home automation, medical care, and security systems.
3. **Intelligent Sensor Design**: Modern infrared sensors often integrate multiple microprocessors and advanced signal processing functions such as Fourier transforms, wavelet analysis, self-diagnosis, and two-way communication, greatly improving stability, reliability, and noise performance.
4. **Miniaturization and Integration**: With on-chip integration and MEMS/NEMS technologies, infrared sensors are becoming smaller, more energy-efficient, and highly integrated. This trend is driving innovation in areas like smart homes and wearable devices.
In terms of applications, infrared sensors are being used in emerging markets such as smart building automation and mobile device temperature sensing. Small-sized sensors in phones and tablets now offer internal temperature sensing, while larger arrays are entering HVAC systems in homes and vehicles. The future market for large infrared arrays looks promising, especially for smart home devices, though affordability remains a key factor.
As technology continues to evolve, the infrared sensor market is expected to grow further, driven by innovation, cost reduction, and expanding use cases across industries.