Markets
Target Market
AUTO
The era of electric vehicles is coming, and the future vehicle trend will integrate automotive electronics and components, semiconductors, information and communication industries. Currently, under the impact of the Covid-19 epidemic, digital transformation has re-established the future development direction of the automotive electronics industry.
Attopsemi has deployed for automotive electronics and provides high-quality OTP that meets strict requirement of automotive electronics.
IOT
A variety of networked devices of Internet of Things, IoT, is changing the way we interact with our surroundings, bringing more advanced applications to real life, such as connected homes, smart meters, and health monitoring.
While we admire the potential of IoT and embrace the convenience, we may overlook the challenges that come with it, many of which involve privacy and information security. Attopsemi can help provide ultra-low power and high reliability OTP storage authentication function keys.
PMICS
Power management IC plays an important role in controlling the power supply of the system, and its function has a great influence on the stability and efficiency of electronic products. Under the trend of high digitalization, digital IC technology is increasingly important for voltage changes, current tolerance and protection especially after process scaling.
Attopsemi provides customized and flexible OTP solutions for PMIC, facing the arising need that requires different supply voltages.
MCU
MCU integrates several of elements such as central processing unit, memories, I/O interface, and does simple data operations and processing. supporting simple operation and meeting the requirement of effency at the same time has become a normal challenage for designer.
While Low power consumption is one of the most important goal, Attosemi provides ultra-low power OTP, allowing MCU designers to only trade off little consumption for any storage function.
CIS/Sensor
Image sensors converts optical signals into analog electrical signals. The analog signal output by the image sensor is transmitted to image signal processor for analog/digital conversion, creating digital image info. For developing sensors, OTPs are a ideal solution providing storage function.
Attopsemi can customize different densities of OTP for code storage, parameter comparison and other usages with advantages of high read speed and low energy consumption.
LCD Driver
LCD driver is mainly used to receive the command from control IC and output the voltage required by each pixel to control the twist degree of the liquid crystal molecules, so that each pixel can appear in different colors and gray scales, and form a full-color picture. However, variations happen during manufacturing and packaging may make display differ from the expected range. OTPs can be used to trim data, keeping display generating the lights with the standard brightness. For designers to easily control the quality of display panel, I-fuse OTPs with high reliability is absolutely a smart choice.
MEMS
Micro Electro-Mechanical Systems, MEMS, is a micro-component with both electronic and mechanical properties. That is to say, MEMS is a series of micro-processing steps to perform electronic signal processing and mechanically movable structural blocks. MEMS components have long been brought and used in our daily life such as automotive, mobiles, cameras and other devices. To integrate in an efficient way, extreme compact and low power consuming I-fuse sould be a good solution.
Biometric Sensor
A biometric sensor is an analytical device combines biological, physical, chemical and other elements to detect substances in or out of a living organism. It’s often used in fingerprints, facial images, and voice recognition…
The detection element, the converted signal can be amplified and processed into meaningful parameters, and then displayed. I-fuse OTP is an ideal solution providing a place to store the reference parameters with high speed read, high reliability, enabling the product high quality of perforance.