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Products
AT5810
Mid-frequency output, suitable for solution providers with signal processing and algorithm capabilities.
AT58MP1T1RA (AT5810E)
Mid-frequency output, suitable for solution providers with signal processing and algorithm capabilities.
AT58MP1T1RD (AT5812)
Low power consumption (9mA), direct output of control signals, suitable for applications with specific power consumption requirements.
AT58MP1T1RDB (AT5812B)
Typical power consumption: 13mA; directly outputs control signals, suitable for applications with specific power-consumption requirements.
AT58MP1T1RDC (AT5812C)
Low power consumption (0.37mA to 14mA), with direct output of control signals, making it suitable for products with flexible power consumption adjustment requirements as well as those with higher performance needs.
AT58LP1T1RD (AT5815)
Ultra-low power consumption (40–115 µA), direct output of control signals, ideal for battery-powered products with high power-consumption requirements.
AT58LP1T1RDB (AT5815B)
Ultra-low power consumption (30–335 µA), direct output of control signals, ideal for battery-powered products with high power-consumption requirements.
AT58LP1T1RDC (AT5815C)
Ultra-low power consumption (13–188 µA), direct output of control signals, ideal for battery-powered products with higher demands on power efficiency and performance.
AT58MP1T1RS32A (AT5820)
Integrates a high-performance 32-bit MCU, directly outputs control signals, and can meet application requirements such as high-altitude operation, micro-motion detection, and presence sensing.
AT58MP1T1RS32B (AT5850)
Integrates a high-performance 32-bit MCU, directly outputs control signals, and can meet application requirements such as high-altitude operation, micro-motion detection, and presence sensing.
AT24MP1T2RS32A (AT2410)
Ultra-low-power, highly integrated 1T2R 24G SoC radar chip
AT24MP1T2RP32A (AT2410 1T2R AiP)
Ultra-low-power, highly integrated 1T2R 24G SoC radar chip with AiP
AT24MF3T3RS32A (AT2430)
3T3R 24G SoC radar chip features a 32-bit processor clocked up to 213 MHz, an integrated FFT accelerator, CFAR, super-resolution accelerator, and other signal-processing units. It also includes a CAN interface and supports ultra-low-power modes.
AT60MF1T2RS32A (AT6010)
Onboard antenna with flexible customization, SoC, 5G bandwidth, precise distance measurement, angle measurement, velocity measurement, multi-target tracking/region partitioning/feature detection, and more. Power consumption <1mW, battery-powered.
AT60MF1T1RP32A (AT6010 1T1R AiP)
SoC, compact size, AiP, 5G bandwidth, precise distance measurement, speed measurement, and motion/presence detection. Power consumption <1mW, battery-powered.
AT60MF1T2RP32A (AT6010 1T2R AiP)
SoC, compact size, AiP, 5G bandwidth, precise distance measurement, speed measurement, and motion/presence detection. Power consumption <1mW, battery-powered.
5.8GHz series chips
Ultra-low power consumption, highly integrated, widely used in smart lighting, home automation, and other fields.
10.525GHz series chips
Ultra-low power consumption, highly integrated, widely used in smart lighting, home automation, and other fields.
24GHz series chips
Ultra-low power consumption, highly integrated, and widely used in smart home, home appliances, security, healthcare, and other fields.
60GHz series chips
High integration, ultra-small size, and ultra-low power consumption—widely used in home appliances, household electronics, automotive, and other fields.
77GHz series chips
Ultra-low power consumption, highly integrated, widely used in smart lighting, home automation, and other fields.
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Smart Lighting
Precise sensing—say goodbye to “ineffective lighting.” At the heart of radar’s application in lighting is intelligent interconnection—a system that, by sensing the movement of people and objects, enables automatic control of lighting: lights turn on when someone enters the room and turn off when they leave. Essentially, this endows lighting with a “sensing brain.”
Smart Security
At the heart of radar’s application in camera-based security systems lies “precise triggering and range-based alerting.” It endows cameras with “long-distance sensing capabilities,” addressing the pain points of traditional cameras—such as “blind-spot imaging” and “post-event retrospective analysis”—and enabling proactive security through “preemptive warnings and precise capture during events.”
Smart Home Appliances
By using radar to detect the presence, distance, movement trajectories, and even subtle movements (such as breathing) of humans or objects, home appliances can “understand” the environmental conditions. For example, an air conditioner can sense prolonged absence of occupants and automatically reduce power consumption or shut down; a refrigerator can recognize when a user approaches and automatically light up the screen; and a range hood can be activated with a wave of the hand and adjust its fan speed accordingly. These features not only enhance the interaction experience but also make appliances more energy-efficient.
Smart Home
Without requiring image capture, radar can precisely detect the presence, location, and movements of people—and even subtle vital signs such as breathing and heart rate—while safeguarding privacy and penetrating non-metallic obstructions. It enables automated control that ensures devices start up when a person enters the room and automatically enter energy-saving mode when the person leaves. Additionally, it supports natural interactions like gesture-based controls and offers enhanced safety through features such as fall detection and alerts for unusual intrusions. Ultimately, this technology makes home environments more convenient, comfortable, secure, and low-carbon.
Automotive ADAS
In smart vehicle applications, radar serves as the “eyes” for environmental perception. By precisely detecting the position, speed, distance, and motion trajectories of surrounding objects—such as vehicles, pedestrians, and obstacles—it provides critical data support for autonomous driving decision-making and driving safety.
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2024-08-26
26
2024-03
New Product Release | World's First 5.8G Radar+Low Power Bluetooth Dual Mode SoC Chip AT5880
AirTouch Technology has innovatively developed the world's first 5.8G radar+low-power Bluetooth dual-mode SoC chip AT5880, which integrates high-performance 5.8G radar and ultra-low power Bluetooth on a single chip, aiming to bring unprecedented high performance, high integration, strong anti-interference ability, flexibility, miniaturization, and cost-effectiveness to smart homes and IoT devices.
30
2022-04
The 5820 breathing version chip of Airtouch Technology has excellent radio frequency performance and built-in high-performance MCU, which can effectively extract the weak signals of the human body such as breathing, chest expansion, and slight shaking. The advantage of the 5.8GHz FMCW presence detection scheme of Airtouch Technology over high-frequency radar is that it has a larger coverage area and fewer human sensors can be deployed in the same space. At the same time, compared with the traditional 5.8G CW (continuous wave) presence detection scheme, it provides distance information, which can better avoid false trigger interference outside the range.
14
2022-03
Airtouch Technology launched a hand-scanning radar sensing solution, a new experience of Air Touch!
With the full arrival of the Internet of Things era and the long-term impact of the epidemic, the demand for non-contact is increasing. Based on this, Airtouch Technology has launched a 5.8G microwave radar short-range hand scanning solution, giving you a safer, more convenient and cool interactive experience.
24
2022-02
Airtouch Technology launched 5812 radar sensing solution, the cost is comparable to infrared PIR!
Replace the infrared PIR, suitable for all kinds of structure and size, the best choice of intelligent sensing.
15
2021-12
The high-altitude radar sensing solution of Airtouch Technology is based on the highly integrated and high-performance SoC radar chip 5820 platform of Airtouch Technology, with built-in filtering algorithm, FFT function, and high-altitude algorithm optimization.
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