All IPs > Analog & Mixed Signal > Sensor
The Sensor Semiconductor IP category under the Analog & Mixed Signal section at Silicon Hub offers a diverse range of solutions tailored for integrating advanced sensing functionalities into various electronic applications. Sensors play a crucial role in bridging the physical world with digital systems, making them indispensable in today's technology-driven environments. These IPs enable the seamless integration of sensors with analog and mixed signal components, significantly enhancing the performance and efficiency of the resulting devices.
Within this category, you'll find semiconductor IPs that cater to a broad spectrum of sensor types, including but not limited to, temperature sensors, pressure sensors, accelerometers, gyroscopes, and biosensors. These IPs are designed to ensure accurate data conversion and interpretation, translating real-world phenomena into readable electronic signals. By incorporating these IPs, developers can significantly reduce time-to-market and development costs, all while ensuring high-performance standards and reliability.
Sensor semiconductor IPs are crucial for applications across numerous industries, ranging from consumer electronics, automotive, and healthcare to industrial automation and IoT. For example, in the automotive industry, sensor IPs are integral to systems such as stability control, airbag deployment, and engine management, contributing to safety and efficiency. In healthcare, they enable precise wearable health monitoring devices that track vital signs and physical activity, offering unprecedented improvements in patient care.
Choosing the right sensor IP can make a considerable difference in the functionality and market success of a product. At Silicon Hub, we aim to provide comprehensive solutions, combining flexibility, accuracy, and resilience to meet the diverse needs of modern electronic designs. Explore our collection to find the perfect sensor semiconductor IPs for your next groundbreaking project.
Altek's 3D Imaging Chip is a breakthrough in the field of vision technology. Designed with an emphasis on depth perception, it enhances the accuracy of 3D scene capturing, making it ideal for applications requiring precise distance gauging such as autonomous vehicles and drones. The chip integrates seamlessly within complex systems, boasting superior recognition accuracy that ensures reliable and robust performance. Building upon years of expertise in 3D imaging, this chip supports multiple 3D modes, offering flexible solutions for devices from surveillance robots to delivery mechanisms. It facilitates medium-to-long-range detection needs thanks to its refined depth sensing capabilities. Altek's approach ensures a comprehensive package from modular design to chip production, creating a cohesive system that marries both hardware and software effectively. Deployed within various market segments, it delivers adaptable image solutions with dynamic design agility. Its imaging prowess is further enhanced by state-of-the-art algorithms that refine image quality and facilitate facial detection and recognition, thereby expanding its utility across diverse domains.
aLFA-C is another notable product from Caeleste, intended for diverse applications requiring refined imaging capabilities. This sensor is exemplary in balancing speed and precision, catering to both scientific and industrial imaging requirements. Its design includes advanced features that ensure reliable image quality, even in suboptimal lighting conditions, making it a versatile tool for industries that demand rigorous accuracy.\n\nBuilt by leveraging Caeleste's extensive knowledge in CMOS image sensor technology, the aLFA-C provides users with flexibility in utilization across varying scenarios. From capturing high-speed industrial processes to detailed life sciences imaging, this sensor adapts to deliver optimal results. Its robustness and precision imaging are supported by sophisticated sensor architecture that minimizes noise while maintaining the integrity of the readout signal.\n\nCaeleste’s focus on offering customizable solutions is evident in the aLFA-C sensor's adaptability to different usage parameters, allowing users to achieve their specific imaging goals. The sensor represents a blend of performance and adaptability, ensuring that whatever the need, from industrial inspections to detailed scientific analysis, aLFA-C consistently delivers.
The agileVGLITCH voltage monitor provides security and protection against voltage side-channel attacks (SCAs) and tampering such as supply voltage changes/glitches and power supply manipulation. The sensor provides digital outputs to warn (secure) processors of intrusion attempts, thus enabling a holistic approach to hardware security. As a key part of the agileSCA TVC (Temperature, Voltage, Clock) security sensor this can be tuned to your specifications. It is ideally suited for monitoring in application areas such as IoT, AI, security and automotive. Agile Analog designs are based on tried and tested architectures to ensure reliability and functionality. Our automated design methodology is programmatic, systematic and repeatable leading to analog IP that is more verifiable, more robust and more reliable. Our methodology also allows us to quickly re-target our IP to different process options. Our highly configurable and multi-node analog IP products are developed to meet the customer’s exact requirements. These digitally-wrapped and verified solutions can be seamlessly integrated into any SoC, significantly reducing complexity, time and costs.
Revolutionizing SoC power delivery, the Aeonic Power family integrates state-of-the-art on-die voltage regulation capabilities. Its design supports energy and BOM optimization through a highly configurable framework that addresses a range of power delivery needs. Notably, Aeonic Power offers unprecedented telemetry oriented around Power Delivery Networks (PDN). This functionality is critical for gaining insights into SoC power behavior, providing capabilities for real-time monitoring and performance enhancement. This integration serves to reduce energy consumption through dynamic voltage and frequency scaling (DVFS) and virtual power islands. Flexible in application, Aeonic Power is ideal for handling the power complexities of chiplets and die-to-die interfaces. Its robustness and programmability aspire to suppress noise and harmonize power distribution across various SoC environments, facilitating reliable power management.
SkyeChip's Bandgap represents an essential voltage reference solution, designed to provide a stable output across varying temperatures and load conditions. With an output voltage of 0.9V and a current tolerance of +/- 10%, this bandgap reference is ideal for precision circuits that demand consistent performance. Operating efficiently within a wide temperature range from -40°C to 125°C, the Bandgap's robust design ensures stability and reliability even in harsh environments, while consuming less than 500 µW of power. This makes it an excellent choice for embedded systems and low-power applications where maintaining power efficiency is critical.
The Chipchain C100 is a pioneering solution in IoT applications, providing a highly integrated single-chip design that focuses on low power consumption without compromising performance. Its design incorporates a powerful 32-bit RISC-V CPU which can reach speeds up to 1.5GHz. This processing power ensures efficient and capable computing for diverse IoT applications. This chip stands out with its comprehensive integrated features including embedded RAM and ROM, making it efficient in both processing and computing tasks. Additionally, the C100 comes with integrated Wi-Fi and multiple interfaces for transmission, broadening its application potential significantly. Other notable features of the C100 include an ADC, LDO, and a temperature sensor, enabling it to handle a wide array of IoT tasks more seamlessly. With considerations for security and stability, the Chipchain C100 facilitates easier and faster development in IoT applications, proving itself as a versatile component in smart devices like security systems, home automation products, and wearable technology.
Advanced Silicon's Sensing Integrated Circuits are engineered for exceptional performance in diverse sensor systems, ranging from photo-diode based detectors to low-noise pixel arrays for photon detection. These ICs leverage multi-channel configurations with integrated per channel analog-to-digital conversion, providing superb noise specs, ADC linearity, and resolution. This makes them ideal for use in digital X-ray systems, CT and PET scanners, particle detectors, and even fingerprint detection solutions. By enhancing integration and performance while minimizing size and power consumption, these products empower highly efficient and advanced sensor applications.
The MVPM100 series brings forth cutting-edge microsystem technology to measure particulate matter precisely in a compact module. Distinguished from traditional bulky sensors, it directly measures particle mass instead of relying on optical estimates, providing enhanced accuracy. This makes it optimal for diverse applications demanding precise air quality assessments.\n\nIts compact form factor, alongside its low power consumption, ensures suitability for a wide range of industrial and consumer products. Its capability to monitor particulate matter with high accuracy and over extensive temperature ranges makes it highly desirable for health and environmental applications.\n\nProviding interfaces through I2C and UART, the sensors facilitate easy integration into complex systems, maintaining a balance between performance and power efficiency. Designed for robustness, they are adaptable across varied consumer, medical, and industrial environments, verifying air quality with a high degree of precision.
Silicon Creations' Analog Glue solutions provide essential analog functionalities to complete custom SoC designs seamlessly. These functional blocks, which constitute buffer and bandgap reference circuits, are vital for seamless on-chip clock distribution and ensure low-jitter operations. Analog Glue includes crucial components such as power-on reset (POR) generators and bridging circuits to support various protocols and interfaces within SoCs. These supplementary macros are crafted to complement existing PLLs and facilities like SerDes, securing reliable signal transmission under varied operating circumstances. Serving as the unsung heroes of chip integration, these Analog Glue functions mitigate the inevitable risks of complex SoC designs, supporting efficient design flows and effective population of chip real estate. Thus, by emphasizing critical system coherency, they enhance overall component functionality, providing a stable infrastructure upon which additional system insights can be leveraged.
The THOR platform is a versatile tool for developing application-specific NFC sensor and data logging solutions. It incorporates silicon-proven IP blocks, creating a comprehensive ASIC platform suitable for rigorous monitoring and continuous data logging applications across various industries. THOR is designed for accelerated development timelines, leveraging low power and high-security features. Equipped with multi-protocol NFC capabilities and integrated temperature sensors, the THOR platform supports a wide range of external sensors, enhancing its adaptability to diverse monitoring needs. Its energy-efficient design allows operations via energy harvesting or battery power, ensuring sustainability in its applications. This platform finds particular utility in sectors demanding precise environmental monitoring and data management, such as logistics, pharmaceuticals, and industrial automation. The platform's capacity for AES/DES encrypted data logging ensures secure data handling, making it a reliable choice for sectors with stringent data protection needs.
Polar ID from Metalenz offers a cutting-edge face unlock solution, using advanced meta-optic technology to provide secure, high-resolution facial recognition capabilities. It captures the unique "polarization signature" of a human face, making it resistant to both 2D photos and sophisticated 3D masks. Polar ID operates efficiently in a variety of lighting conditions, from bright daylight to dark environments, ensuring its utility extends across all smartphone models without sacrificing security or user experience. This technology replaces complex structured light modules, incorporating a single near-infrared polarization camera and active illumination source. It significantly reduces costs and footprint, supporting a broad adoption across hundreds of millions of mobile devices. With its low price point and high performance, Polar ID elevates smartphone security, offering robust protection for digital transactions and identity verification. By enabling this on an embedded platform with compatibility for Qualcomm's Snapdragon processors, Metalenz ensures widespread applicability. The key advantage of Polar ID is its affordability and ease of integration, as it eliminates the need for larger, more intrusive notches in phone designs. Its sophisticated polarization sensing means secure authentication is possible even if the user wears sunglasses or masks. Polar ID sets a new benchmark in smartphone security by delivering convenience and enhanced protection, marking it as the first polarization sensor available for smartphones.
Archband Labs' SAR ADC is optimized for precision and speed, engineered for applications in high-performance computing and complex instrumentation. Known for its low latency and high resolution, this ADC is perfect for systems needing reliable and meticulous data conversion. Designed with innovative successive approximation techniques, Archband's SAR ADC excels in environments that require fast data acquisition and processing. Its low power consumption trait ensures it can be integrated into power-sensitive devices without sacrificing performance. This ADC is highly versatile, featuring adaptable resolution settings and noise reduction capabilities, tailored to suit a wide range of application needs, from consumer electronics to industrial measurement systems. Its compact design also makes it suitable for systems constrained by space without compromising the quality and speed of data handling.
Rockley Photonics has introduced the Bioptx Biosensing Band and Platform for sampling to strategic customers and partners. This complete biosensing solution is designed for wearables, capitalizing on the company's advanced silicon photonics platform, which facilitates comprehensive and non-invasive biomarker monitoring. Tailored for consumer and healthcare markets, the platform enables detailed physiological monitoring through short-wave infrared spectroscopy. Its miniaturized form factor is perfect for integration in wearable devices, offering a new dimension in health tracking and fitness diagnostics.
The ELFIS2 Image Sensor is a sophisticated development from Caeleste tailored for advanced imaging applications. It is designed to offer unparalleled image fidelity across a plethora of environments, making it an indispensable tool for both scientific and space missions. This image sensor excels in capturing high contrast and high detail images, even under challenging conditions such as low light or rapidly changing brightness.\n\nELFIS2 features state-of-the-art image processing capabilities, combined with robust construction to withstand the rigors of space missions. The sensor is optimized to operate efficiently with minimal power consumption while delivering high-resolution images, ensuring that mission data is both accurate and reliable. The sensor's design also facilitates ease of integration into complex systems, providing a seamless fit for advanced imaging needs.\n\nCaeleste's expertise ensures that the ELFIS2 sensor is equipped with the latest in sensor technology, making it suitable for a variety of applications ranging from astronomy to industrial monitoring. Whether deployed in outer space or earthbound observation platforms, the ELFIS2 Image Sensor proves to be a remarkable blend of technology and craftsmanship.
The MVDP2000 series is engineered for precise differential pressure measurement using advanced capacitive sensing technology. These sensors, known for their robust performance, are calibrated impeccably over both pressure and temperature ranges, providing reliable results with minimized power usage. Highly suitable for OEM applications, these sensors are ideal for environments requiring fast response and accuracy.\n\nBuilt to the exacting needs of portable applications, these sensors offer digital and analog outputs for easy integration. Featuring a compact 7 x 7 mm DFN package, they operate efficiently over a wide temperature spread and are rated for demanding industrial and medical applications.\n\nTheir optimization for low power consumption and quick response time significantly increases their utility in fast-paced environments like HVAC systems, respiratory devices, and other critical monitoring applications. With customizable options, these sensors support specific application adaptations, making them adaptable and efficient.
Building upon advanced CMOS processes, this image sensor technology is tailored to meet the demands of high-resolution image capture with exceptional clarity and speed. It showcases the integration of sophisticated pixel architectures alongside cutting-edge analog-to-digital conversion techniques. These elements work in tandem to ensure outstanding image quality, making the technology ideal for applications like digital cameras, smartphones, and security cameras. The technology's core strength lies in its ability to deliver high dynamic range and low-light sensitivity, expanding its usability across different lighting conditions. It supports a wide array of pixel sizes and formats, allowing for customization based on specific application needs. Alongside these features, the technology provides efficient noise reduction and energy management, contributing to prolonged battery life and enhanced sensor performance. Moreover, the CMOS Image Sensor Technology benefits from sustained innovation and development, ensuring it remains at the forefront of imaging advancements. It is equipped with various supportive resources such as reference designs and application notes, which help integrate the sensors seamlessly into new products. This positions Tower Semiconductor's technology as a vital enabler for modern imaging devices where precision and detail are critical.
The ultra-low-power human body detector from Microdul is engineered to provide efficient, static detection capabilities essential for wearable technology. This detector helps significantly reduce energy consumption in devices when not actively in use. Its advanced design allows it to recognize the presence or absence of a human, making it ideal for applications requiring power-saving features, such as smart devices and IoT equipment. The precise nature of its operation ensures long battery life, thereby enhancing the user experience in battery-dependent gadgets. Moreover, its application in static detection means it can operate seamlessly without requiring constant recalibration or complex interfacing. Its implementation is particularly valuable in the wearables market where minimizing power draw while maintaining functionality is a critical competitive factor. With its ability to integrate smoothly into existing systems, this detector forms an indispensable part of power-efficient device design strategies focused on long-term effectiveness in changing environments. Its versatility extends to various industries, ensuring compatibility with diverse technological ecosystems while emphasizing seamless operation and reliability. As a result, it paves the way for new possibilities in the design of cutting-edge consumer electronics.
Analog Bits' sensor solutions are designed to ensure high precision in monitoring and adjusting system parameters. These include temperature sensors, voltage monitors, and power integrity sensors which are critical for maintaining optimal operational conditions within semiconductor devices. With a focus on high accuracy and reliability, these sensors are integrated seamlessly into larger mixed-signal environments. They serve various applications from ensuring power supply stability to monitoring thermal conditions, which in turn, safeguard against potential overheating and electrical failures. These sensor IPs are particularly valuable in next-generation process nodes such as TSMC's N5 and below, providing intelligent systems with the insights necessary for adapting to changing conditions. By enhancing system durability and performance, these sensors play a central role in advancing energy-efficient technologies in industries ranging from automotive to consumer electronics.
The Hyperspectral Imaging System offers advanced solutions for capturing detailed spectral information beyond the visible range. This system provides unmatched access to spectral imaging, making it ideal for applications requiring precise detail, such as environmental monitoring and industrial inspection. Hyperspectral imaging divides the spectrum into many bands, delivering a richer data set that enhances material identification, classification, and analysis. This technology is pivotal where high precision in spectral analysis is necessary, aiding sectors such as agriculture and defense. Capable of capturing spectral data in high resolution across multiple wavelengths, the system's applications extend to medical fields, offering improved diagnostics and insights into biological samples. Integrating state-of-the-art CMOS technology, it ensures fast, accurate data acquisition with lower power consumption.
Designed for high-resolution brain recordings, the Neuropixels Probe is an advanced tool for neuroscience research, offering direct insight into brain activity with unprecedented precision. It enables large-scale data collection across numerous brain regions simultaneously, which is vital for mapping and understanding complex neural circuits. This probe features an array of dense electrodes, making it possible to record from hundreds of neurons at once. Its compact, lightweight design allows for chronic implantation, facilitating long-term brain studies without compromising subject mobility. With its exceptional signal processing capabilities, the probe supports detailed neural data analysis, proving indispensable for neuroscientists aiming to explore new frontiers in brain functionality and disorders. The probe’s integration with CMOS technology ensures high-density data capture with reduced interference and improved accuracy.
ZIA Image Signal Processing technology provides state-of-the-art solutions for optimizing image quality and enhancing vision-based systems. This technology is integral to applications requiring precise image analysis, such as surveillance cameras and automotive safety systems. It supports various image processing tasks, including de-noising, color correction, and sharpness enhancement, delivering superior visual output even under challenging conditions. ZIA's adaptable architecture supports integration into a range of devices, ensuring broad applicability across multiple sectors.
Sentire Radar systems by IMST are cutting-edge solutions for precise radar sensing and measurements. They provide accurate distance and speed assessments for various applications, using high-frequency circuits and advanced signal processing techniques. Ideal for autonomous navigation, industrial measurement, and surveillance, Sentire Radar systems are equipped with multi-channel antennas and powerful processing boards that manage radar deployment effectively. These units are adept at classifying targets and can integrate with AI technologies for enhanced decision-making capabilities.
ISELED Technology is an innovative solution for automotive lighting, integrating smart RGB LED control and communication capabilities into compact, efficient modules. These modules support precise color calibration and temperature compensation, leveraging a digital communication protocol to ensure consistent lighting quality. The system is engineered to facilitate seamless integration into automotive lighting applications, enhancing aesthetic appeal and operational efficiency.
The VoSPI Rx for FLIR Lepton IR Sensor is designed to cater to infrared sensor needs for various applications. Specially configured to support the FLIR Lepton sensor, this receiver facilitates effective and precise data handling of infrared signals, crucial in environments demanding high thermal accuracy. It provides real-time processing capabilities, aligning with the rigorous demands of security and monitoring applications. This receiver excels in maintaining data integrity, ensuring that the thermal data transmitted across platforms is of the highest accuracy. Its sophisticated engineering allows it to work seamlessly with other system components, enhancing system performance and reliability. The receiver is integrated with features that boost signal processing while minimizing latency, providing a seamless operational environment. This ensures that users can rely on it for consistent performance across various industry applications, boosting both efficiency and reliability.
Microdul’s ultra-low-power temperature sensor is designed for applications demanding exceptional energy efficiency combined with precise temperature monitoring. This sensor is especially relevant for IoT applications, where extended battery life and reliable performance are critical. By utilizing advanced design principles, the sensor operates with minimal power draw while providing accurate readings, making it ideal for integration into a vast array of devices that require temperature regulation. These sensors are poised to redefine energy management in devices by contributing to longer operational lifespan and better energy resource utilization, which is crucial in modern IoT frameworks and energy harvesting scenarios. They employ cutting-edge technology to maintain high accuracy despite changes in environmental conditions, ensuring consistent performance in critical applications. The sensor’s design ensures compatibility with numerous architectures, providing flexibility and ease of integration into both new and existing systems. As technology shifts towards increasingly interconnected systems, this sensor stands out by fulfilling the dual needs of efficiency and performance, making it a strategic choice for forward-thinking device manufacturers.
Archband Labs' Cap-less LDO Regulator is crafted to offer excellent power regulation without the need for external capacitors. It is suited for a variety of compact electronic devices that require efficient voltage stabilization. This regulator stands out due to its minimal footprint and power consumption, making it an ideal solution for portable and space-constrained applications. It ensures stable voltage output and reduces noise, offering a high level of interference immunity which is critical in maintaining the performance of sensitive electronic components. With its focus on energy efficiency, the Cap-less LDO Regulator is engineered to provide consistent output even under variable load conditions. The simplicity of not requiring external components also reduces the overall system cost and design complexity, aiding in quicker development cycles and more robust device longevity.
In smartphone applications, ActLight’s Dynamic PhotoDetector (DPD) offers a step-change in photodetection technology, enhancing features such as proximity sensing and ambient light detection. This high sensitivity sensor, with its ability to detect subtle changes in light, supports functions like automatic screen brightness adjustments and energy-efficient proximity sensing. Designed for low voltage operation, the DPD effectively reduces power consumption, making it suitable for high-performance phones without increasing thermal load. The technology also facilitates innovative applications like 3D imaging and eye-tracking, adding richness to user experiences in gaming and augmented reality.
The MVT4000D series represents state-of-the-art digital temperature sensors, known for their high accuracy and stability. Leveraging the capabilities of Silicon Carbide MEMS technology, these sensors perform with remarkable reliability and effectiveness. They've been meticulously crafted to offer fast response times and low power consumption, catering to a wide array of applications where precision is key.\n\nThese sensors come with a small form factor of 2.5 x 2.5 x 0.9 mm, making them suitable for highly integrated systems. With digital I2C interface options and an operating range between -40 to 125°C, the MVT4000D sensors are versatile. The series features on-chip calibration, allowing for plug-and-play use, which significantly facilitates the deployment process.\n\nSuch features lend themselves well to industrial, consumer, medical, and automotive applications, where accurate temperature monitoring is critical. Available in different accuracy specifications, they satisfy various user needs while ensuring cost-effective operation and maintenance.
The Yuzhen 600 RFID Chip is engineered to provide exceptional performance in RFID applications, utilizing advanced technologies to enable efficient and accurate data capture and processing. This chip is designed for high-speed operations, ensuring that it can handle large volumes of RFID interactions seamlessly. With its robust architecture, the Yuzhen 600 is tailored for use in various environments, from supply chain management to secure access systems, delivering consistent and reliable performance. Its low power consumption and enhanced processing capabilities make it a valuable asset in optimizing RFID systems for better data management and operational efficiency.
The MVH4000 Series is a line of precise and fully calibrated humidity and temperature sensors. These sensors, utilizing advanced Silicon Carbide MEMS technology, are notable for their extremely fast response and minimal power consumption, making them ideal for challenging environments. The sensors ensure excellent long-term stability, ensuring reliability over extended periods.\n\nThe sensors provide a broad temperature operating range from -40 to 125°C and come in a compact design of 2.5 x 2.5 x 0.9 mm. On-chip calibration allows for immediate deployment, easing integration into existing systems. Additionally, the sensors come with digital I2C or analog interfacing options, depending on the specific model.\n\nEngineered for precision, the MVH4000 sensors offer various accuracy options and include on-chip features that support ease of use in critical applications. Their versatility makes them apt for uses ranging from industrial to automotive sectors.
Belonging to the AONSens™ Neural Network series, the AON1020 is crafted for both voice and audio recognition alongside other sensor applications. Recognized for its hectic performance in minimal power environments, AON1020's AI processing engine is available in Verilog RTL, making it accessible for use in ASIC and FPGA technologies. Engineered for scenarios like human activity detection through sensor applications, this IP provides always-on multi-wake-word detection and on-device voice command recognition. Its features ensure adaptability even in environments characterized by noise, offering stable performance irrespective of user or environmental changes. The AON1020's robust architecture accommodates sensor fusion applications, enhancing its capability in multi-sensor environments where it can decipher activities like running or walking. This offers developers potent solutions in expanding markets such as smart home automation and industrial IoT applications.
Designed for the burgeoning field of wireless connectivity, the 802.15.4 Transceiver Core from RF Integration is targeted towards low-rate wireless personal area networks (LR-WPANs). This core provides the backbone for connecting devices in home automation, industrial monitoring, and consumer electronics applications. Capable of supporting IEEE 802.15.4 standards, including Zigbee, the core facilitates low-power data communication, which is essential for devices where energy efficiency is paramount. The transceiver's design emphasizes reduced power consumption while maintaining robust wireless communication, making it an ideal choice for battery-powered devices. The flexibility of this core allows it to be integrated with various systems, enhancing the functionality of networked devices through secure and reliable connections. By leveraging RF Integration's expertise, this transceiver core not only meets the demand for energy-efficient solutions but also paves the way for future advancements in the Internet of Things (IoT).
Certus Semiconductor's Analog I/O offerings bring ultra-low capacitance and robust ESD protection to the forefront. These solutions are crafted to handle extreme voltage conditions while securing signal integrity by minimizing impedance mismatches. Key features include integrated ESD and power clamps, support for broad RF frequencies, and the ability to handle signal swings below ground. Ideal for high-speed RF applications, these Analog I/Os provide superior protection and performance, aligning with the most demanding circuit requirements.
The MVWS4000 series integrates three crucial environmental sensing modalities—humidity, pressure, and temperature—into a single, compact package. These digital sensors are built on a proprietary Silicon Carbide platform, offering enhanced reliability and energy efficiency. Ideal for OEM and battery-operated devices, they bridge the gap between performance and power conservation.\n\nThese sensors exhibit remarkable accuracy, with 1.5% for humidity, 1.0 hPa for pressure, and 0.3°C for temperature. Crafted for long-term stability, the sensors are suitable for demanding, resource-constrained applications. Their compact dimensions, along with a desirable operating range, make them versatile for various implementations.\n\nGiven their design for reduced energy use, these sensors are excellent for portable and embedded systems. With digital interfaces, including I2C and SPI, they offer flexible integration paths for manufacturers aiming to meet varied application requirements in industrial, consumer, medical, and automotive sectors.
EnSilica's eSi-Analog offerings encompass a wide range of silicon-proven analog IP solutions designed to meet the demands of competitive markets where analog capabilities are essential for system performance. These solutions stand out for their high performance and easy integration, which help reduce time-to-market and costs while supporting successful custom ASIC and SoC devices.\n\nThe eSi-Analog IP portfolio includes critical components such as oscillators, SMPSs, LDOs, temperature sensors, PLLs, and ultra-low-power radio elements like sub-GHz BLE, NFC Tag Front-end, and sensor interfaces. These blocks are optimized for low power consumption and high resolution, making them suitable for a wide array of applications.\n\nBy offering flexible configuration options, eSi-Analog IP allows customization according to specific project needs, leveraging EnSilica's expertise in full SoC integration. This facilitates the development of complex designs across multiple process nodes, ensuring customers achieve their design goals efficiently and effectively.
ActLight's Dynamic PhotoDetector (DPD) enhances the capabilities of smart rings with state-of-the-art photodetection technology. Designed for compact form factors, this sensor excels in environments where space is limited, such as inside a ring. Its operation at low voltages significantly extends battery life, crucial for the discreet and continual monitoring required by smart rings. The DPD's high sensitivity ensures accurate biometric readings, crucial for tracking vital signs like heart rate and activity levels without relying on additional amplification. This technology supports users in their wellness journeys by delivering reliable health data in a sleek, user-friendly device.
The 1D Optical Micrometers from Riftek Europe are non-contact devices specifically fashioned to measure diameters, gaps, and displacements with exceptional accuracy. They cater to the dimensional measurement needs across a wide range extending from 5 mm to 100 mm, with an impressive measuring accuracy of +/- 0.3 um aided by a sampling rate of 10000 Hz. These micrometers are indispensable in production lines where small part measurement is vital, such as mechanical engineering and electronic component manufacturing. Their high-speed data acquisition and precision allow for dynamic measurement, ensuring that product specifications are consistently met. Their efficient design and robust capabilities provide significant advantages in applications requiring quick and accurate dimensional checks, thereby minimizing manual inspection processes. The integration of this technology supports comprehensive monitoring and control frameworks that enhance overall production quality.
ActLight's Dynamic PhotoDetector (DPD) for wearables is specifically engineered to revolutionize light sensing in compact devices. This innovative sensor operates on low voltage, significantly extending the battery life of wearable devices such as fitness trackers and smartwatches. The DPD's high sensitivity allows it to detect even minimal light changes without the need for bulky amplifiers, enabling a sleek design and energy-efficient operation. This sensor supports advanced health monitoring features, providing precise heart rate and activity measurements, thereby empowering users with real-time wellness insights. Its compact size makes it ideal for integration into space-constrained wearable devices without compromising performance.
Optimized for simplicity and compact design requirements, the Cap-less LDO is tailored to provide a stable 100mA output without needing an external compensation capacitor. This makes it suitable for applications where board space is limited or minimal design complexity is desired. Leveraging Magna's proven 130nm and 180nm process technology, the Cap-less LDO offers a sound balance between power performance and chip area savings. It accepts a diverse input voltage range from 1.7V to 5.5V, maintaining up to 2% output accuracy. Ideal for portable and battery-operated devices, this LDO's innovative design allows for efficient power management, complementing modern electronic designs focused on miniaturization and energy conservation. Its silicon-proven status assures operators of its consistent and reliable performance.
The Dynamic PhotoDetector (DPD) tailored for hearables by ActLight offers an unparalleled advancement in light sensing technology for compact audio devices. Designed for energy efficiency, the DPD operates at low voltages which not only conserves battery life but also maintains peak performance, crucial for modern, on-the-go audio wearables. With its high sensitivity, the sensor excels in detecting minute changes in light conditions, thus ensuring consistent and reliable biometric data acquisition. This makes it particularly advantageous for heart rate and activity monitoring in hearables, enhancing the overall user experience with precise health tracking capabilities.
The agileIRDROP IR Drop Sensor is a circuit to detect supply IR drops within the system. It is useful to detect loss of power or attacks to the power supply. The agileIRDROP consists of a voltage reference and comparator(s) set at different threshold levels for multi-level detection. The number of trigger outputs can be customized, and each threshold can be adjusted during operation to support DVFS operation. A four-output configuration is shown in the block diagram as reference. Agile Analog designs are based on tried and tested architectures to ensure reliability and functionality. Our automated design methodology is programmatic, systematic and repeatable leading to analog IP that is more verifiable, more robust and more reliable. Our methodology also allows us to quickly re-target our IP to different process options. Our highly configurable and multi-node analog IP products are developed to meet the customer’s exact requirements. These digitally-wrapped and verified solutions can be seamlessly integrated into any SoC, significantly reducing complexity, time and costs.
Aeonic Insight is a leading-edge solution offering on-die telemetry for obtaining vital insights. This technology employs sophisticated sensors to provide design teams with unmatched visibility into power grids and clock states, which are critical for ensuring robust SoC operation. This sensory capability can be integrated effortlessly with third-party silicon analytic platforms, facilitating enhanced data-driven design decisions. The product is pivotal for complex applications spanning datacenter CPUs, AI accelerators, and other advanced SoCs requiring high observability and reliability. Its programmable nature allows customization to match specific architecture and operational conditions, further optimizing performance. Moreover, its process-portable architecture ensures efficient scaling across advanced nodes, preserving area and power efficiency. Aeonic Insight generates comprehensive on-die metrics supporting silicon lifecycle analytics. These metrics enable design teams to optimize power grids, manage clocking systems, and safeguard against hardware security breaches, ensuring long-term system integrity.
The MVUM1000 stands out as a compact, advanced linear ultrasound array designed for medical imaging. Featuring 256 elements, it integrates capacitive micromachined ultrasound transducers (CMUT), enhancing both power efficiency and sensitivity. This integration aids in high-quality medical diagnostics and imaging applications.\n\nOffered with a range of adaptive imaging modes, such as Doppler, these arrays facilitate multifaceted ultrasound applications, from portable devices to comprehensive cart-based systems. They provide exceptional lateral and axial imaging capabilities, meeting rigorous clinical needs.\n\nThe sensor array is also characterized by a high degree of integration with electronics, enabling seamless embedding into various platforms. Its flexibility in operation and customizable features allow for expansive usability in point-of-care situations, ensuring healthcare professionals can deliver precise diagnostics efficiently.
Sensor Interface Derivatives designed by ASIC North are tailored to enhance the integration of sensor technology into existing electronic systems. These derivatives are crafted to meet the specific needs of various sensor applications, providing precise interfacing capabilities that enable accurate and reliable sensor data collection and processing. They support a variety of sensor types, offering flexibility and ensuring compatibility across different platforms.
Himax's CMOS Image Sensors are designed to provide high-quality image capturing capabilities for mobile, automotive, and surveillance applications. The sensors are built on advanced CMOS technology that ensures low power consumption while delivering high-resolution images. These image sensors are ideal for compact devices due to their reduced form factor and energy-efficient design. They offer excellent low-light performance, making them suitable for environments with challenging lighting conditions. Himax's sensors are a preferred choice for devices requiring sharp image detailing and accurate color reproduction. The sensors incorporate cutting-edge technology to reduce noise and enhance image quality, supporting a variety of applications. Whether in mobile phone cameras, automotive systems for driver assistance, or surveillance cameras, these sensors provide reliability and precision.
The Concrete Surface Layer Degradation Detection System addresses the critical need for evaluating the integrity of concrete structures. Utilizing advanced sensor technology, this system can detect and analyze surface layer degradation with high precision. This capability is essential for maintaining the safety and longevity of concrete infrastructures such as bridges, buildings, and pavements. By providing real-time monitoring, the system ensures early detection of potential structural weaknesses. This proactive approach enables timely maintenance and repairs, preventing costly damage and enhancing public safety. It works by employing a series of embedded sensors configured to measure various parameters indicative of surface deterioration. The system’s ability to offer real-time alerts and detailed reports makes it a vital tool for civil engineers and maintenance crews. Adaptable to different environmental conditions and surface types, it represents a versatile solution for modern infrastructure management.
Mixed-Signal IP Solutions address the need for integrated circuits that handle both analog and digital signals. This category of IP is critical in applications where digital signal processing is required alongside analog signal inputs or outputs. These solutions provide effective bridging between the analog and digital circuitry components, ensuring that data is processed accurately and efficiently across different signal types. MosChip's Mixed-Signal IP Solutions are crafted to maximize performance without compromising compatibility with a wide range of electronic applications, including communication devices, sensors, and audio equipment. The design of these solutions focuses on achieving high fidelity in signal conversion and processing, which is crucial for maintaining the integrity of the overall system functionality. The inherent flexibility of these solutions makes them well-suited for deployment across multiple industries that demand both reliability and precision in signal processing. By accommodating both digital and analog requirements, they facilitate the design of cutting-edge products that meet the growing technological demands of today and tomorrow.
Engineered for energy-sensitive applications, Microdul’s capacitive proximity switch combines precision with ultra-low-power consumption, making it ideal for modern technological needs. This switch is designed to detect touch reliably without direct physical contact, thereby facilitating advanced user interfaces, particularly in devices where minimizing energy usage is critical. The switch’s lightweight design and responsive detection capability allow it to support numerous applications such as touchpads and sliders commonly used in consumer electronics. Its capacitive nature ensures swift response times, making it suitable for dynamic environments where instant feedback is necessary, such as in user interface control panels. Applications extend to smart technology fields, where energy savings can be maximized. The capacitive proximity switch continues to function effectively across various climates and conditions, promising versatility and adaptability. By enhancing system efficiency through minimal power demands, it impressively complements design strategies that focus on sustainability and long-term operational economy.
X-REL is EASii IC’s line of semiconductor products explicitly tailored for extreme environments, featuring extraordinary reliability at temperatures ranging from -60°C to +230°C. These high-reliability components address the rigorous demands across sectors like oil and gas, geothermal energy, aerospace, and automotive. Available in various packages, including ceramic, metal, and, for less constrained environments, plastic, X-REL products offer extended life with minimum system cost. These components are engineered to fulfill the need for continuous operation under severe conditions, delivering five years of guaranteed reliability. X-REL’s diverse lineup encompasses power management solutions, clock and timing circuits, discrete transistors and diodes, and interfaces. The robust performance of these components, coupled with certifications like ISO9001 and EN9100, underscores their suitability for mission-critical applications, where traditional designs may falter due to adverse heat and stress.
The L1 Band GNSS Transceiver Core from RF Integration is crafted to enhance your GPS-based systems with improved precision in location and timing. This core is designed to support not only the existing GPS signals but also signals from newer systems such as GLONASS, Galileo, and Beidou. The core’s architecture allows for versatile implementation in both commercial and military applications, providing robust performance in L1, L2, and L5 bands. Utilizing a combination of advanced RF design techniques, the transceiver core ensures optimal power efficiency while maintaining high sensitivity and signal integrity. The integration of both analog and digital components within the core facilitates seamless data processing and communication, making it a vital component in modern navigation systems. Additionally, the transceiver is engineered to operate reliably in challenging environments, providing accurate positioning data even in urban canyons or indoors. Overall, the L1 Band GNSS Transceiver Core is at the forefront of satellite navigation technology, offering a compact and efficient solution for cutting-edge applications. By incorporating this core into your systems, you can ensure improved accuracy and reliability, thereby enhancing the overall user experience and operational efficacy of your devices.
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