All IPs > Analog & Mixed Signal > Power Management
In the realm of Analog & Mixed Signal technologies, Power Management semiconductor IPs are a crucial component. These IPs are designed to efficiently manage and regulate power across various electronic systems, ensuring stability and reliability in device performance. At Silicon Hub, our catalog of Power Management IPs encompasses a broad spectrum of solutions tailored to meet the diverse energy management needs of modern electronic devices.
Power Management IPs are integral to controlling power consumption, extending battery life in portable devices, and enhancing energy efficiency in high-performance systems. These IPs are used in a wide array of applications, from consumer electronics like smartphones and tablets to industrial equipment and automotive systems. They help in voltage regulation, current routing, power sequencing, and energy harvesting, ensuring that devices operate optimally under varying conditions.
The product range within this category includes voltage regulators, DC-DC converters, power switches, and battery management systems. Each of these solutions is designed to optimize power delivery and consumption, reducing heat generation and improving the overall lifespan of electronic components. As devices become increasingly power hungry with the adoption of more complex functionalities, efficient power management becomes essential. Our Power Management semiconductor IPs provide the necessary tools to tackle these challenges effectively.
By integrating our cutting-edge Power Management IPs, designers can achieve significant performance enhancements in their products. Whether designing for mobile devices that require sophisticated power management to maximize battery life or developing complex industrial systems that need robust voltage management, these semiconductor IPs offer reliable solutions. Explore the wide range of Power Management IPs available at Silicon Hub, your go-to source for innovative semiconductor solutions.
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 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.
This mmWave PLL is engineered to deliver exceptional performance in high-frequency applications, such as mmWave communications and advanced radar systems. The IP offers remarkable frequency synthesis capabilities, essential for the operation of modern communication networks and sensors, including the growing 5G infrastructure and automotive radar technologies. The design incorporates mechanisms to optimize phase noise and enhance frequency stability, which are critical in minimizing signal distortion in high-bandwidth transmissions. This PLL is compact yet powerful, making it an excellent choice for systems where space and performance are at a premium. Suitable for integration into a variety of RF and mmWave architectures, the mmWave PLL supports applications across telecommunications, automotive, and beyond. It helps designers achieve superior system performance while maintaining low latency and high data throughput.
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 SPIDER Power Management Platform is a state-of-the-art solution designed to enhance energy efficiency for System-on-Chip (SoC) designs. Available across various process nodes, SPIDER integrates voltage regulators, low-frequency oscillators, and voltage monitors to ensure reliable power supply for active and always-on domains. This platform is celebrated for its ability to extend battery life utilizing low quiescent currents ideal for deep-sleep modes and high efficiency for active modes. Additionally, its comprehensive offerings include adaptive body biasing (ABB) to unlock optimal performance, yielding exceptional energy savings and reliability. SPIDER's versatile nature allows for direct battery or USB connections, accommodating an input voltage up to 5.5V. This ability reduces cost by enabling a single DC/DC converter to support multiple domains with low-cost and compact components. The platform is meticulously designed with advanced features like automated regulator control, power/clock gating, and voltage scaling, facilitating effortless implementation of efficient power networks. One of the central highlights of the SPIDER platform is its capability to supply both always-on and active domains from a single DC/DC buck converter, supporting various input energy sources such as Lithium-ion or Alkaline batteries. Overall, SPIDER represents a comprehensive power management solution aimed at maximizing SoC performance through efficient energy utilization.
BCD technology uniquely combines the traits of Bipolar, CMOS, and DMOS transistors to deliver efficient power management solutions. This technology is engineered to handle a range of power requirements, making it a versatile choice for applications spanning from consumer electronics to industrial equipment. The blend of these transistor types offers both high voltage handling capabilities and precise digital control. Bipolar transistors contribute excellent analog performance, while CMOS transistors provide intricate digital logic benefits. DMOS transistors add high current and voltage tolerance, resulting in a robust technology that excels in power-driving applications. This combination allows devices to efficiently manage power dissipation, significantly reducing energy waste and enabling longer battery life for portable devices. The BCD process supports the implementation of complex circuits with enhanced reliability. It is well-suited for automotive industries and consumer products requiring solid state power control. With the integration of multiple transistor types, the technology advances superior power management solutions, offering improved efficiency, thermal performance, and scalability. Tower Semiconductor ensures this process is backed by comprehensive design resources, allowing customers to harness the full potential of BCD technology for diverse applications.
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.
The FCM1401 is a 14GHz CMOS Power Amplifier tailored for Ku-band applications, operating over a frequency range of 12.4 to 16 GHz. This amplifier exhibits a gain of 22 dB and a saturated output power (Psat) of 19.24 dBm, ensuring optimal performance with a power-added efficiency (PAE) of 47%. The architecture enables reduction in battery consumption and heat output, making it ideal for satellite and telecom applications. Its small silicon footprint facilitates integration in space-constrained environments.
The Voltage-mode Buck Converter is an integral power management solution designed to efficiently step down voltages while supplying current levels between 800mA to 1.5A. This converter integrates a high-efficiency switching mechanism, which allows it to manage power delivery from an input range of 2.7V to 5.5V to a well-regulated output between 0.6V and 2.5V. Built on Magna's 130nm and 180nm process nodes, the converter is optimized for both performance and energy efficiency, minimizing power losses during operation. This silicon-proven product is designed for applications that require stable power supply with high efficiency, such as portable electronics and embedded systems. The Buck Converter's ability to adapt across various input conditions, along with its robust performance characteristics, makes it suitable for complex power architectures, ensuring devices run smoothly with reliable voltage levels.
The RFicient chip is designed for the Internet of Things (IoT) applications, famously recognized for its ultra-low-power operations. It aims to innovate the IoT landscape by offering a highly efficient receiver technology that significantly reduces power consumption. This chip supports energy harvesting to ensure sustainable operation and contributes to green IoT development by lessening the dependency on traditional power sources. Functionally, the RFicient chip enhances IoT devices' performance by providing cutting-edge reception capabilities, which allow for the consistent and reliable transmission of data across varied environments. This robustness makes it ideal for applications in industrial IoT settings, including smart cities and agricultural monitoring, where data integrity and longevity are crucial. Technically advanced, the RFicient chip's architecture employs intelligent design strategies that leverage low-latency responses in data processing, making it responsive and adaptable to rapid changes in its operational environment. These characteristics position it as a versatile solution for businesses aiming to deploy IoT networks with minimal environmental footprint and extended operational lifespan.
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 Band-Gap Reference is a vital component in sustaining circuit stability by providing a precise voltage reference. It delivers adjustable output from 0.6V to 1.2V, optimized for generating stable voltage references critical in precision electronic applications. Leveraging process technologies from Magna, Samsung, and TSMC at various nodes including 130nm, 180nm, and 65nm, this component assures silicon-proven reliability under diverse operations. Its minimal operational current of 25 microamperes combined with 1% to 3% accuracy allows it to fit key roles in power-sensitive and precision-demanding components. Incorporated in numerous semiconductor designs, the Band-Gap Reference aids in achieving consistent circuit performance, underpinning the accuracy of analog-to-digital conversions and other signal processing tasks. It is fundamental for maintaining system stability across a range of conditions due to its resilient design characteristics.
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.
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.
This technology represents a significant innovation in the field of wireless energy transfer, allowing for the efficient transmission of power without physical connections or radiation. By leveraging magnetic resonance, this non-radiative energy transfer system can power devices over distances with high efficiency. It's designed to be safe and environmentally friendly, avoiding the pitfalls of electromagnetic radiation while maintaining a high level of power transfer efficiency. The technology finds its applications in various sectors, including consumer electronics, automotive, and industrial applications where it provides a seamless and reliable solution to power transfer needs. The system's capability to transfer power efficiently without contact makes it ideal for scenarios where traditional power connections might be impractical or inconvenient, enabling new levels of convenience and flexibility for users. Designed to integrate smoothly with existing infrastructure, this energy transfer system can significantly reduce reliance on traditional charging methods, paving the way for more innovative and sustainable energy solutions. Furthermore, the system's architecture is geared towards scalability and adaptability, making it suitable for a wide range of devices and use cases.
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 agileREF consists of a bandgap reference core together with a bandgap reference voltage generator (VREF), VREF replica current generators and bias current generators. The number of output bias currents can be specified up to a maximum of 16 configurable outputs. 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.
The High-Voltage ICs by Advanced Silicon are key components for driving various thin film technologies. Designed with a high pin count for multi-channel output, these drivers are adept at turning on and off thin film switching devices across technologies such as amorphous silicon, poly-silicon, and IGZO. They also provide precise analog driving of MEMs devices and ITO capacitive loads, essential for applications requiring high precision and resilience, like digital flat-panel X-ray detectors. With resolutions from 64 to 1024 output voltage levels, these ICs maintain performance across demanding environments and applications.
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.
Novatek's power management controllers are designed to efficiently regulate the power requirements of digital devices. By optimizing power distribution and consumption, these controllers ensure devices operate with heightened efficiency and performance.\n\nThe robust design of Novatek’s power management controllers emphasizes reliability and longevity, crucial for maintaining device integrity under varied conditions. They are pivotal in balancing energy efficiency with processing demands, allowing digital devices to perform optimally without excessive power loss.\n\nThese controllers are integral components in enhancing the sustainability of electronic devices, resulting in extended battery life and reduced power costs. Novatek's focus on dynamic power solutions reflects their dedication to evolving with technological advancements and environmentally conscious practices.
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.
Crafted for high-power applications, the Voltage-mode Buck Converter delivers a substantial output of up to 3A. It accommodates a wide input voltage range from 4.5V to 48V, making it versatile for various power supply needs, configuring outputs between 5V and 20V. With X-FAB's 180nm process guiding its development, this converter offers streamlined energy efficiency and robust voltage regulation, which are paramount for industrial and high-performance consumer applications. It positions itself as a formidable solution for intricate power management architectures that thrive on efficiency. Deploying this converter in projects leverages its capability to manage heavy loads with precision, reducing power waste and ensuring reliable device operation across diverse conditions. It's suited for environments where stability and power delivery are essential for delivering top-tier performance.
The PMU (Power Management Unit) from IPGoal Microelectronics is a sophisticated solution aimed at enhancing power efficiency across devices. It is designed to manage and distribute power effectively within integrated circuits, ensuring optimal power consumption without compromising performance. This IP is crucial in reducing energy costs and improving battery life in portable and battery-operated devices. By dynamically adjusting power according to real-time needs, the PMU improves system performance while maintaining energy efficiency, making it a significant asset for green technology initiatives. IPGoal's PMU is engineered with flexibility in mind, supporting various power management configurations to meet diverse application needs. Its architecture combines cutting-edge technology with advanced power regulation techniques, illustrating IPGoal’s dedication to pushing the boundaries of power management technology.
The agileLDO is a linear low drop-out (LDO) voltage regulator providing precision and programmable voltage regulation across a wide range of input and output voltages. The regulator architecture provides a high dynamic performance making it suitable for demanding digital applications. Whilst the low noise and high PSRR lends itself to powering noise-sensitive analog circuits. 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.
This General-purpose Power-on Reset (POR) component is vital in ensuring the orderly initialization of digital circuits upon power-up. Designed to assert reset signals on power-up, it provides critical logic systems with a reliable foundation for operation. Manufactured across Magna's process technology, the POR's silicon-proven design ensures robust behavior in a variety of semiconductor applications. It is integral for protecting circuits by securing known states before operations commence, thus preventing indeterminate states or erratic system behaviors on activation. Ideal for safeguarding contemporary electronic systems, the POR attains consistency in performance, ensuring systems start predictably and operate within expected parameters. This component is indispensable in upholding reliable system behavior across all types of digital circuits and devices.
This Current-mode Buck Converter provides precise voltage regulation for applications requiring a steady 2.5A output current. It operates from a flexible input voltage range of 2.7V to 5.5V, delivering a consistent output between 0.6V and 2.5V with 1.5% accuracy. Utilizing Samsung's 65nm process node, this converter ensures energy efficiency and reliability during operation. Its silicon-proven design makes it ideal for high-power applications that demand efficient DC-DC conversion. The current-mode control strategy aids in gaining rapid transient response and minimizing output ripple. Well-suited for power-conscious applications, such as consumer electronics and telecom devices, the converter offers a potent solution for extending battery life and fortifying power supply infrastructures. Its superior design supports consistent output even under varying load conditions, ensuring devices operate at their optimal performance levels.
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.
The FCM3801-BD is designed for those requiring 39GHz CMOS Power Amplification within the 5G mmWave range. It supports frequencies from 32 to 44 GHz, featuring a 19 dB gain and a Psat of 18.34 dBm. With a PAE of 45%, this amplifier is engineered for high-power applications where efficiency and thermal management are crucial. It's particularly suited for modern telecom environments requiring minimal energy use and weight savings.
The agilePOR is a power-on-reset circuit. Based on a traditional architecture, it allows for programmable thresholds for normal and low power modes, programmable delays and includes hysteresis to avoid false resets in noisy environments. 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.
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.
CoreHW's Power Management IC is engineered to deliver efficient voltage regulation and power distribution across a multitude of electronic systems. This IC is crafted to address the crucial need for power conservation and efficient power delivery in various technological applications. The Power Management IC integrates multiple power management features, including voltage regulation and power conversion, tailored for use in complex systems requiring precision power control. It is ideal for applications in automotive, consumer electronics, and industrial systems where efficient power management is critical to maintaining performance and reliability. Emphasizing energy efficiency, the Power Management IC minimizes power loss while maximizing output efficacy. Its flexible configuration suits a wide range of electronic devices, enhancing operational stability and extending battery life in portable applications.
VeriSyno's Analog Solutions feature a comprehensive array of analog IP offerings designed for precision and efficiency across a variety of applications. The portfolio includes essential components like ADCs, DACs, PLLs, and LDOs, each developed to provide exceptional analog performance. Analog IPs from VeriSyno span multiple process nodes ranging from 28nm to 180nm, reflecting their adaptability to both mature and advanced nodes. By leveraging these technologies, VeriSyno ensures that their analog solutions deliver high accuracy and low power consumption, making them ideal for diverse fields, from consumer electronics to industrial applications. The company emphasizes flexibility within its solutions, allowing customization to address specific design requirements. This approach ensures that the analog IPs can be seamlessly incorporated into broader circuits, enhancing both functionality and performance. Through continuous development, VeriSyno remains at the forefront of analog technology, offering solutions that cater to the evolving needs of the semiconductor industry.
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 FCM2801-BD is a 28GHz CMOS Power Amplifier, specifically designed for applications in the 5G mmWave spectrum. It operates across a frequency range of 23 to 36 GHz and delivers a gain of 22 dB with a Psat of 19.55 dBm. Boasting a PAE of 53%, this amplifier suits high-frequency telecommunications, offering improved range and reduced energy consumption. The design minimizes thermal output, which further aids in reducing system maintenance costs.
The CC-100IP RF offers on-chip RF and EMI reduction capabilities, crucial for diminishing RF emissions across IC PowerGrids. This design provides cybersecurity enhancements and significantly reduces digital dynamic currents by approximately 40%. It achieves maximum on-chip supply filtering, exhibiting an impressive improvement in reservoir capacitance by up to 600 times. Its efficient impedance control effectively aids in maintaining lower noise levels and ensuring optimal performance of integrated circuits.
The Analog IP offered by Key ASIC encompasses a broad range of components meant to satisfy the intricate needs of mixed-signal designs. Their audio codec IPs support 16, 18, and 24-bit sigma-delta architectures primarily for applications requiring high-fidelity audio processing. The voice codec supports both 14-bit ADC and 16-bit DAC at 48 KHz, ensuring crystal-clear audio for communication devices. For data conversion needs, their offerings include ADCs ranging from 6-bit to 12-bit, with various sampling rates that cater to different performance levels, from slow ADC tasks to high-speed functionality at 200 MHz. Their DACs, similarly spanning 8-bit to 12-bit, are engineered to handle a range of frequencies, making them ideal for applications in digital communications and signal processing. Other significant components include a programmable gain amplifier (PGA) with a 46 MHz bandwidth, bandgap references, DC-DC converters, voltage regulators, and power-on-reset elements. These IPs can be leveraged across consumer electronics and advanced data acquisition systems to enhance system efficiency and minimize power consumption.
The SiC Schottky Diodes are engineered for efficiency in low-loss systems. These silicon carbide devices provide high speed switching and minimal reverse recovery time, significantly reducing conduction losses. As a result, they are an excellent choice for applications such as power factor correction and power inverter circuits. Their unique structure also ensures high voltage operation capability, making them well-suited for both industrial and renewable energy sectors. The diodes’ robustness and efficiency contribute to the development of compact and efficient power management solutions.
The General-purpose LDO is an essential power regulation component that offers selectable load currents ranging from 150mA to 450mA. It is crafted to provide a stable voltage output from a varied input range of 1.7V to 5.5V, accommodating a wide array of power sources. With its design utilizing Magna's 130nm and 180nm process nodes, this LDO is silicon-proven, ensuring high reliability and performance. Its efficiency is marked by a low ground current (Ignd) of less than 20 microamperes and an output accuracy of 2%. This LDO is ideal for applications requiring consistent power delivery, such as in consumer electronics and sensor applications. Its flexibility and robust design make it a valuable asset for maintaining stable system performance across different operational conditions.
Specializing in ESD protections, Certus Semiconductor offers highly adaptive solutions that meet various operational demands. These circuits provide enduring defense against ESD threats, surpassing traditional HBM and CDM specifications. Capabilities include low capacitance solutions and customized protections tailored to endure voltages between -18V to +30V. These ESD circuits are integrated with specialized features like Rad-Hard technology, high-temperature resilience, and enhanced burst immunity, setting a standard for highly secure semiconductor solutions in harsh environments.
The 16mA 4V Voltage Regulator offers precise voltage control within a compact module, essential for maintaining stable power conditions in various electronic devices. It is expertly designed to cater to low-power applications, ensuring optimal performance and energy efficiency. This voltage regulator provides reliable voltage stabilization, crucial for sensitive electronic components and systems. Its ability to deliver consistent voltage output reduces the potential for power fluctuations, thereby protecting devices and extending their operational life. Compact and efficient, this regulator is suited for use in portable electronics, telecommunications, and embedded circuits where minimal space and power stability are critical. Its design ensures minimal heat dissipation, making it a preferred choice in applications prioritizing longevity and reliability.
The Fractal-DTM Amplifier by SiliconIntervention addresses the critical need for highly efficient Class-D drivers across diverse power levels. This architectural marvel boasts a self-adjusting capability that ensures peak efficiency, adapting seamlessly to various operational ranges. The innovative design underpins a wide array of applications, offering significant enhancements in power management without compromising on performance. Through SiliconIntervention’s proprietary technology, this amplifier redefines expectations in the amplifier market by delivering adaptive performance that sets a new standard for versatility in handling dynamic power requirements. It stands as an exemplary model of how intelligent design can revolutionize device efficiency, essential for future-forward consumer and industrial applications. The Fractal-DTM Amplifier not only elevates operational efficiency but also extends its capabilities to versatile applications, making it a valuable asset for developers seeking cutting-edge performance and environmental adaptability. Its implementation is a testament to SiliconIntervention’s commitment to pioneering innovative solutions within the analog domain, demonstrating an important leap in analog signal processing technologies.
The Intelligent Sensor and Power Management Platform (ISP) by IQonIC Works is engineered for sensor-driven and IoT applications that demand refined power management and efficient processing. This platform-centric solution aims to accelerate the design lifecycle, offering an integrated suite of pre-validated IP and design blocks that minimize time-to-market and development costs. ISP focuses on three core design challenges: power management, sensor interface, and software-programmable processing. It provides a comprehensive energy management framework supporting a variety of operational modes, from ultra-low power to active processing states. The platform's capability extends to harvesting and managing energy effectively, which is crucial for battery-operated or energy-scarce environments. The platform's versatility allows for scalable solutions, supporting a wide array of I/O components and processing cores such as RISC-V and ARM Cortex-M variants. It facilitates seamless expansion through industry-standard interfaces, allowing the integration of third-party components and enabling sophisticated communication and control features, ensuring adaptability and robustness in dynamically changing application environments.
Rezonent's Energy Recycling System is crafted to curtail the escalating power consumption within semiconductor chips, serving industries from consumer electronics to high-computation environments like AI and data centers. The technology captures energy, traditionally lost as heat, using integrated on-chip inductors, which recycle this energy back into the system, thereby reducing overall power needs. This innovative method weaves RF analog techniques with high-speed digital switching across vital circuits such as Clock, Data, and Memory. This recycling process significantly boosts efficiency, achieving over 30% power savings without a drop in performance, thus offering a cost-effective way to maintain system integrity while adapting to next-generation performance standards. Beyond power conservation, the Energy Recycling System also facilitates a seamless transition for companies aiming to minimize their carbon footprint. The system’s ability to integrate easily with new and existing semiconductor architectures makes it a versatile solution for those looking to comply with both immediate and future energy regulations. It stands not only as a technological advance but as a measure towards broader environmental objectives.
Incorporating advanced interference management techniques, this wireless energy transfer solution enhances the efficiency and reliability of power transmission over the air. By dynamically adjusting to environmental factors that typically cause interference, this technology ensures a stable power transfer even in challenging conditions. Employing sophisticated algorithms, the system manages power distribution to minimize interference, optimizing the performance and enabling it to power multiple devices simultaneously without conflicts. This advancement is particularly relevant in urban and industrial settings where electromagnetic interference is common, significantly improving energy transfer capabilities in such environments. The system’s ability to maintain high power transfer efficiency amidst potential sources of disruption expands its applicability in both consumer and industrial domains. It integrates seamlessly with existing wireless power infrastructure, offering a robust solution that can adapt to a multitude of environments and requirements. This technology provides distinct advantages for applications requiring high reliability and uninterrupted power delivery, positioning it as a vital component in the evolution of wireless power systems.
The SGC21412 presents itself as an advanced power controller, offering an array of functionalities including Power on Reset (POR), making it a foundational component within Power Management Units (PMUs). Designed for integration into SoC systems, it provides pivotal support functions such as Under Voltage Lock Out (UVLO), start-up sequencing, and efficient power monitoring. This controller excels in precision with a better than 1% voltage reference accuracy, attributed to its digital trimming capabilities that allow fine-tuning across line, temperature, and process variations. Engineered to function impressively even without external decoupling capacitors, it simplifies design while maintaining high-stability outputs across its input voltage range from 1.6V to 3.6V. Flexibility defines the SGC21412, allowing it to drive multiple regulated voltages and diverse reset signals essential for complex PMU environments. Its significant power rejection capability and compact build stand out, adding robust power management to modern integrated systems.
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The NSF030120 SiC MOSFET is designed to improve the efficiency and performance of power conversion systems. This silicon carbide-based MOSFET excels in high-temperature applications, boasting lower switching losses and higher efficiency compared to traditional silicon-based devices. Ideal for applications requiring high power density, it offers improved thermal conductivity, making it suitable for compact design implementations. This device ensures reliable operation in harsh environments, supporting advancements in automotive and industrial applications.
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Power Management IC (PMIC) is designed for DDR5 RDIMM, DDR5 LRDIMM, DDR5 NVDIMM application. PMIC is used for switching and LDO regulators. PMIC-I3C Interface used to select suitable power fit for various application environment. PMIC device is intended to operate up to 12.5MHz.
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