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SystematIC provides a comprehensive collection of analog converters and amplifiers designed for sensor array applications. Capable of converting and amplifying signals from diverse sensors, these components are integral for precision measurement systems. These converters employ techniques such as Sigma-Delta modulation to achieve high-resolution data conversion, necessary for sophisticated sensor applications. These components are a part of intricate systems where precise analog-to-digital conversion and signal amplification are necessary, catering to varied measurement tasks including temperature, pressure, and ambient light assessments. Tailored for high accuracy and low noise, the converters and amplifiers assist in capturing and interpreting fine signal details essential in scientific and industrial applications. They support different integration levels, including photodiode and temperature sensor readouts, proving essential in applications requiring exact measurements. Their ability to support multiple sensor inputs with accurate analog amplification makes them a go-to choice in complex electronic assemblies that demand reliable performance under various conditions.
This product integrates an Ambient Light Sensing (ALS) element with an Infra-Red Proximity Sensing function in a unified System on Chip (SoC). The sensor is adept at detecting light from various sources, such as sunlight and artificial lighting. It incorporates an ambient light rejection algorithm to maintain proximity sensing accuracy regardless of surrounding light conditions. Engineered for versatility, the sensor is suitable for mobile and industrial applications, providing real-time data for interfacing features like screen brightness adjustment in smartphones. The sensor also caters to ambient lighting variations with a sensitivity range from as low as 1 mLux to a maximum of 67108 Lux, and operates effectively within a proximity measurement range of up to 10 cm. Robust and temperature-resistant, it functions well in environments ranging from -40°C to 85°C. The compact chip size (0.98 mm²) and efficient energy use, with a supply voltage between 1.7 V to 3.6 V, make it a cost-effective integration for multiple electronic systems.
SystematIC's Magnetic Hall Sensor is engineered for isolated current sensing in DC and low-frequency applications. Utilizing Hall effect technology, this sensor fully integrates sensor elements with readout electronics within standard CMOS technology. The sensor is notable for its accuracy and high bandwidth, catering to rigorous industrial standards. It features a wide operational temperature range from -40°C to 110°C, accommodating variations in environmental conditions. This sensor operates with a single supply of 5.0 V and offers a typical bandwidth of 80 kHz, making it highly efficient for diverse applications. The design is particularly commendable for its low offset, low thermal coefficient, and minimal magnetic hysteresis. With rigorous isolation properties, this sensor is UL and CSA certified, boasting a high common-mode transient immunity of greater than 25 kV/μs and an isolation voltage of 3 kVRMS for one minute. These features ensure that the sensor can reliably operate in high-voltage and electromagnetically noisy environments.
Power Conversion and Management Systems offered by SystematIC are designed to handle various power regulation tasks. This includes linear regulators, DC-DC converters, and LDOs, which optimize power usage within electronic devices. These systems also incorporate elements like class-D amplifiers and charge pumps which are fundamental in maintaining power efficiency across different load conditions. They provide solutions for energy-sensitive applications where low quiescent current and noise are crucial. These power systems are embedded in consumer electronics, enhancing battery life and performance under diverse operational scenarios. Their modular nature allows for flexible integration, catering to the demands of rapidly evolving power supply designs. Embedded with advanced features like HV switching and 3kV regulation, they are suited for high-stakes applications in competitive markets like automotive and industrial sectors. These systems are built with compliance in mind, ensuring they adhere to rigorous standards while delivering enhanced energy modulation across applications.
The AC LED Driver IC by SystematIC is tailored for controlling multiple LED strings efficiently directly from AC mains. This highly configurable IC caters to varied LED applications and is compatible with TRIAC dimmers, ensuring broad usage potential. It requires minimal additional components, making it a cost-effective solution for LED lamp systems. Delivering a streamlined development process, this IC supports direct mains operation, handling up to 400 V, and is capable of driving up to 6 LED branches with dual IC. Programmable features include analog dimming and temperature control, which suppliers integrated lighting solutions tailored to consumer and industrial needs. This driver is designed within a high-voltage CMOS process, highlighting its robust design for high-performance requirements. It supports both bare-die and packaged versions, establishing its versatility in end-user applications. The customer-centric development process ensures this IC meets specific criteria for optimal performance and flexibility.
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