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.
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.
SkyeChip's Bandgap reference IP provides a stable reference voltage, crucial for analog and mixed-signal circuits. This IP delivers an output voltage of 0.9V with a precision of +/- 1%, making it a reliable choice for maintaining steady voltage levels across varying conditions. It supports an output current of 50uA with buffer strength up to 100uA sink load, showcasing its ability to operate effectively under different load conditions. Engineered for robustness, it performs efficiently within a broad temperature range of -40C to 125C, ensuring stability and reliability in various environments. The low power nature of this Bandgap reference, with consumption under 500uW, aligns it well with power-sensitive applications. Its precision and reliability make it particularly suited for integration into systems where maintaining constant voltage levels is imperative to ensure circuit stability and performance. The Bandgap reference IP by SkyeChip is thus a vital component for projects prioritizing high reliability and minimal power usage.
The Aeonic Power family offers scalable on-die voltage regulation tailored to the power delivery needs of high-performance ICs and chiplets. Featuring a flexible architecture, Aeonic Power solutions enable energy optimization through per-core DVFS, static IR drop mitigation, and the creation of virtual power islands. These products provide observability and noise suppression capabilities, simplifying power distribution for die-to-die interfaces and facilitating enhanced PDN robustness. By integrating sophisticated telemetry, Aeonic Power empowers design teams with unparalleled insights into power behavior and optimizes the power distribution network for energy-efficient operations.
This current reference solution offers stability and precision with its band-gap and PTAT configurations. It can achieve multiple outputs, leveraging internal and external resistors for accurate current referencing. The design is programmable within a ±30% range, accommodating diverse analog and mixed-signal IC applications, particularly within RF systems needing reliable reference points.
ISELED represents a breakthrough in automotive lighting with its integration of RGB LED control and communication in a single, smart LED component. This innovative system simplifies lighting design by enabling digital color value input for immediate autonomous color mixing and temperature adjustments, reducing both complexity and cost in vehicles. ISELED operates by implementing a manufacturer-calibrated RGB LED setup suitable for diverse applications, from ambient to functional lighting systems within vehicles. Utilizing a bidirectional communication protocol, ISELED manages up to 4,079 addressable LEDs, offering easy installation and high precision control over individual light characteristics, ideal for creating dynamic and at times synchronized lighting across the automotive interior. This technology ultimately enhances network resilience with features like DC/DC conversion from a standard 12V battery, consistent communication despite power variations, and compatibility with software-free Ethernet bridge systems for streamlined connectivity. This strong focus on reducing production and operational costs, while simultaneously broadening lighting functionality, positions ISELED as a modern solution for smart automotive lighting architectures.
The MVPM100 series encapsulates the precision of traditional particulate measurement in a miniaturized form factor. It uses cutting-edge microsystem technology to bring gravimetric sensor precision to compact devices, directly measuring the weight of particles versus relying on optical methods. This innovative approach offers more accurate particle mass readings, ideal for diverse applications, from air quality monitoring to industrial processes. The sensors cover a measurement range of 0 to 1000 µg/m3 with an impressive accuracy of 10 µg/m3. They operate over a broad temperature spectrum from -10°C to 65°C, accommodating various environmental challenges. Power needs are efficiently managed with an idle current of 200 µA and active consumption reaching 40 mA for one measurement per second. With a versatile interface supporting both I2C and UART protocols, the MVPM100 sensors are highly suitable for electronic systems that demand high precision and low power. Their small size (25 x 25 x 15 mm) makes them highly integrable into existing systems without requiring substantial real estate on PCBs.
The mmWave PLL offers precise high-frequency synthesis capabilities, ideal for mmWave communication applications. Designed to support the demanding requirements of modern telecommunications, this phase-locked loop circuit excels in providing stable and low phase noise performance at extremely high frequencies. This product is tailored for next-generation wireless systems, including 5G networks and beyond, where high data rates and low latency are critical. Its robust architecture allows it to deliver exceptional performance in bandwidth-intensive environments, making it a critical component in advanced RF front-end solutions. mmWave PLL's ability to maintain frequency stability while handling various interference and environmental variables highlights its importance in the seamless operation of high-speed communication infrastructures.
Tower Semiconductor's BCD technology is engineered to provide superior power management solutions by integrating Bipolar, CMOS, and DMOS processes on a single chip. This integration facilitates the development of power devices with high voltage withstand capabilities and efficient power handling properties. BCD technology is key in designing power ICs that support a range of applications from DC-DC converters to motor drivers. These integrated circuits benefit from the low on-resistance of DMOS, the digital control capabilities of CMOS, and the high gain of Bipolar components, making them versatile for various high-performance electronic devices. Furthermore, BCD technology's robustness and reliability are matched by its capacity to function at higher voltages and temperatures, which are critical in driving performance in automotive and industrial power applications. Its deployment in next-generation power management solutions underscores the commitment to efficiency and innovation in power electronics.
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 MVDP2000 series represents MEMS Vision's advanced offering in differential pressure sensing, employing a proprietary capacitive sensing technology. These sensors are digitally calibrated across both pressure and temperature ranges, making them ideal for applications demanding high sensitivity, speed, and efficiency, such as medical, HVAC, and filter monitoring systems. The sensors are characterized by a quick response time of down to 1.0 ms and a substantial measurement range of ±5 kPa to ±10 kPa. They ensure precise readings with a total error band of less than 1.0 %FS and permit integration in a wide array of environmental conditions, from -40°C to 85°C. The compact 7 x 7 mm DFN package ensures easy deployment in constrained spaces. With digital I2C as well as analog output modes, the MVDP2000 sensors are highly adaptable to various system requirements. Despite their advanced capabilities, these sensors maintain a low power profile with a current consumption of just 2.85 µA at one measurement per second, making them suitable for battery-powered applications.
The Voltage-mode Buck Converter from TechwidU offers superior power conversion capability, tailored for applications demanding efficient step-down voltage conversion. With an operating input voltage spectrum from 2.7 to 5.5V and output providing finely tuned control from 0.6 to 2.5V, it maintains an output current range between 800mA and 1.5A. Its efficiency is underscored by a ground current below 30uA, optimized for dynamic power-sensitive applications. Fabricated using Magna’s 180nm process technology, this converter is meticulously verified to be silicon proven, endorsing its credibility across numerous consumer, industrial, and electronics sectors where source-to-load integrity remains paramount. Providing excellent regulation and conversion efficiency, it accommodates a vast array of operational settings demanding reliability. Ideally applied within consumer electronics, telecommunications, and portable device systems, this converter brings technical prowess and reliability. Its performance ensures devices are powered with precise voltage levels, supporting extended battery life and operational capacity, essential for modern technological frameworks.
The MVUM1000 represents MEMS Vision's leading-edge innovation in ultrasound technology for medical imaging. This compact 256-element linear ultrasound array is designed using state-of-the-art capacitive micromachined ultrasound transducers (CMUTs), allowing for exceptional integration with interface electronics. Known for its energy efficiency and high sensitivity, the MVUM1000 delivers precise acoustic pressure detection, crucial for advanced imaging techniques. Supporting multiple imaging modes such as time-of-flight and Doppler, it is highly suited for applications ranging from point-of-care to cart-based ultrasound systems. The MVUM1000 array, with its 4.5 MHz center frequency and up to 256 elements, strikes a balance between fine resolution and powerful imaging capabilities, critical for medical diagnostics. The array's flexible design includes features like integrated front-end electronics and adjustable voltage inputs, enhancing its versatility in various contexts. Such capabilities not only improve imaging clarity but also support quick deployment in medical devices, further solidifying MEMS Vision's role in medical sensor innovation.
The SERDES12G module integrates serialization and deserialization functionalities within fiber optic transceivers operating at data rates between 8.5 and 11.3Gb/s. Utilizing CML logic for enhanced noise immunity, it features line rate output data retiming, making it indispensable in high-speed networking applications where precise data modulation is crucial.
The MVH4000 series from MEMS Vision provides high-precision, fully calibrated sensors specifically designed for humidity and temperature measurements. These sensors are crafted using advanced Silicon Carbide MEMS technology, which ensures robust performance and excellent long-term stability. Their rapid response time and minimal power consumption make them ideal for applications where space is at a premium. MEMS Vision has equipped these sensors with on-chip calibration, facilitating easy integration and plug-and-play operation in industrial, consumer, medical, and automotive fields. One of the standout features of the MVH4000 series is its low power consumption, with current use as low as 0.62 µA. This extends battery life significantly, making the sensors suited for portable devices. Their compact size (2.5 x 2.5 x 0.9 mm) makes them ideal where PCB space is critical. The sensors maintain high accuracy, with RH precision of ±1.5% and temperature accuracy of ±0.2°C, alongside a fast RH response time of less than 4 seconds. The sensors are available in both digital and analog outputs, catering to various design requirements. Evaluation kits and modules can also be procured for testing and integration purposes. With a broad operating temperature range from -40°C to 125°C, these sensors prove to be exceptionally versatile for myriad applications.
eSi-Analog offers a collection of silicon-proven analog IP blocks integral to the performance of systems requiring sophisticated analog functions. This diverse selection includes components such as oscillators, SMPSs, LDOs, temperature sensors, PLLs, and sensor interfaces, all optimized for low power consumption. These analog solutions boast a high degree of customizability to meet specific SoC requirements, aiding rapid integration and reducing time-to-market.
This high-performance cross-correlator module integrates 128 channels of 1GSps ADCs. Each channel features a VGA front end, optimizing it for synthetic radar receivers and spectrometer systems. It excels in low power consumption, critical in space-limited applications like satellite-based remote sensing or data-intensive spectrometers, making it invaluable in advanced research operations.
The CC-100 Power Optimizer is pivotal to CurrentRF's energy recycling technology, central to the PowerStic and Exodus devices. These devices are designed to capture and return system energy that was previously lost, hence reducing the overall power consumption of digital platforms. The technology targets both individual ICs and broader system applications, allowing for substantial energy savings. Implemented in a sophisticated IC format, the CC-100 involves dynamic power reduction strategies and is available as a standalone IC or an IP import for other chips. This flexibility makes it suitable for a wide array of applications ranging from cloud computing infrastructure to compact mobile devices. By optimizing power usage, the CC-100 helps in extending battery life and improving the environmental footprint of high-tech systems. The technology, which operates through high-frequency energy coupling, enables devices to function optimally at lower energy costs. The PowerStic and Exodus platforms, utilizing the CC-100, deliver verifiable energy savings, making the return on investment swift and appealing for enterprises committed to sustainability.
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.
Hermes X3D, developed by Xpeedic, is tailored for professionals working with power, package, and touch panel modeling. The tool is designed to handle the intricacies associated with the simulation and modeling of multi-component systems in high-tech industries. This tool's primary focus is to refine and optimize the design models that are crucial for the efficient functioning of various electronics. Hermes X3D provides users with the capability to accurately simulate power distributions and package interactions, which in turn ensures that designs meet required specifications for functionality and reliability. Its utility extends to touch panels, where the tool helps in perfecting the electronic responses and overall performance, crucial for consumer electronics thriving on touch interfaces. Moreover, the tool's flexible modeling environment aids in tackling complex thermomechanical challenges, thus enhancing electronic package reliability and longevity. Hermes X3D's integration with the Xpeedic ecosystem further solidifies its position as a go-to solution for power and package simulation professionals looking to innovate within the electronic design space.
The PLL12G offers a comprehensive Clock Multiplication Unit (CMU) X32 for generating output clocks in the range of 8.5 to 11.3GHz. It supports various clocking modes essential for maintaining synchronization in complex data environments like 10GbE and OC-192 transceivers. Built with energy efficiency in mind, this component is perfect for accelerating network throughput without compromising on power demands.
TechwidU’s Band-Gap Reference serves as a critical solution for devices requiring stable voltage reference, irrespective of fluctuations in temperature, supply voltage, or load conditions. The reference voltage spans between 0.6 and 1.2V, accommodating power-efficient operations while the operational current remains at 25uA consummately optimized for low-power applications. This solution is born from processes involving Magna, Samsung, and is built on 180nm, 130nm, and 65nm nodes, ensuring comprehensive reliability and efficiency that is silicon-proven for deployment in diverse fields necessitating uncompromised voltage stability. With high accuracy rated between 1% and 3% at standard conditions, the Band-Gap Reference itself becomes an ally for precision-driven applications. Applicable to environments like portable devices, precision instrumentation, and ADC/DAC reference designs, this unit fortifies pathways to achieving inherent consistency in power-sensitive applications. By enabling seamless adaptability, it ensures electronic designs retain functionality far beyond basic performance metrics.
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.
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 XCM_64X64 is a complete cross-correlator designed for synthetic radar receivers. With 64 channels arranged in a sophisticated configuration, it processes vast amounts of data efficiently at low power consumption rates. Ideal for radiometers and spectrometer applications, this module is tailored for environments where bandwidth and speed are pivotal, supporting precise remote sensing operations.
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 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.
Specially designed for robust data serialization of 8.5 to 11.3Gb/s signals, the SER12G incorporates state-of-the-art CML logic for high noise immunity and low power functionality. Used in fiber optic transceivers, this IP block facilitates efficient signal transmission with output data retiming features, guaranteeing high performance in data-intensive environments like SONET/SDH.
The RFicient chip stands out for its ultra-low power consumption and remarkable efficiency, making it particularly suitable for Internet of Things (IoT) applications. This chip is designed to operate in energy-constrained environments, delivering high performance while maintaining minimal energy usage. It is engineered to facilitate long-term, maintenance-free operations in IoT devices, which are often deployed in remote or hard-to-reach locations. With a focus on sustainability, the RFicient chip significantly reduces energy consumption, extending the battery life of IoT devices. Its compact and robust design allows for seamless integration into various IoT systems, from smart homes to industrial IoT networks, providing reliable connectivity and data transmission under diverse environmental conditions. This chip not only supports the efficient gathering and processing of IoT data but also furthers ecological goals by reducing the carbon footprint associated with IoT deployments.
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.
TechwidU’s General-purpose Power-on Reset (POR) is designed to ensure reliable system boot processes by maintaining a reset until the power supply reaches a stable voltage level. As a critical power management component, it provides the necessary signals for orderly initialization and shutdown of electronic devices. Produced using technology from Magna on 180nm and 130nm nodes, this POR is silicon proven, assuring robustness and practical functionality across various systems. It’s a quintessential component in any design where precise power management is crucial in avoiding malfunctions and ensuring reliable system startup in a controlled sequence. Applicable in a spectrum of electronics, from consumer gadgets to industrial systems, this POR facilitates the safe powering on of circuits and contributes to the longevity and reliability of sensitive applications. Its integration helps designers maintain system integrity and reliability, ensuring that devices perform to specification every time they are powered up.
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.
The Bandgap Voltage Reference offers a practical solution for maintaining a stable output voltage despite variations in temperature and power supply. With an output voltage of 1.2V and a current output of 1uA, it proves essential for applications needing reliable voltage references. Crafted on the robust 180nm process, this component is designed for efficiency and longevity, supporting various industries that demand precision. Its resilience against climatic changes makes it a prime candidate for use in environments where reliability is critical. The Bandgap Voltage Reference stands as a cornerstone for analog design, contributing significantly to power management and low-noise analog circuit operations. Its steady performance empowers device designers to achieve consistency and accuracy within their electric systems.
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 Cap-less LDO offered by TechwidU is a specialized voltage regulator designed for flexibility and reliability in environments where minimal footprint and reduced component count are critical. Operating over a voltage range from 1.7 to 5.5V with an output variant from 0.8 to 4V, this LDO supports a load current of up to 100mA, characterized by its ground current efficiency under 150uA. Deploying its design over the 180nm and 130nm nodes at Magna further assures its performance as a silicon-proven component. By employing advanced packaging techniques, TechwidU has minimized the need for external capacitors, providing advantages in applications where space is at a premium or in highly integrated design environments. Applicable in a range of scenarios such as in portable devices, mobile systems, and compact consumer electronics, this Cap-less LDO provides both a streamlined and efficient pathway to effective power regulation. It offers solutions to challenges posed by space constraints while maintaining unerring operational reliability and steady voltage output.
The Current-mode Buck Converter by TechwidU symbolizes power conversion finesse, encompassed in a design meant for vigorous, yet precise load demands. Functioning with an input range from 2.7 to 5.5V, it supplies an adjustable output between 0.6 and 2.5V while capable of accommodating output currents up to 2.5A. Its optimized design, ensuring ground current below 30uA, maintains efficiency in power consumption that is crucial in modern electronics. This converter utilizes Samsung’s advanced 65nm process technology, and its proven silicon verification stands as a guarantee for its role in diverse applications necessitating efficient power conversion. Its architecture brings forth solutions tailored towards maintaining operational fidelity and control under differing load conditions. Widely applicable in high-performance electronics, telecom equipment, and portable gear, this product plays a pivotal role in bridging power efficiency with precision needs. It delivers the flexibility and control manufacturers require in supporting devices that demand a balanced mix of power integrity and innovation.
The VR-3V3-1V2-1-55-U is a specialized voltage regulator designed to efficiently downscale a 3.3V input to a 1.2V output, with impressive power conservation features marked by a minimal quiescent current of only 1.8μA. This regulator exemplifies a balance between performance and energy efficiency, making it ideal for applications with stringent power requirements. Prominent in its design is its capacity to sustain operations with minimal power wastage, a trait crucial in devices where power efficiency directly correlates to battery life. Its ability to regulate voltage with precision makes it essential in maintaining system stability and performance, especially in environments where reliability is paramount. This voltage regulator accommodates varied electronic setups by providing a consistent power supply that adheres to strict voltage mandates. Its deployment facilitates the optimization of power distribution across circuits, ultimately aiding in extending device longevity and operational efficiency.
The Voltage-mode Buck Converter (3A) stands as a testament of power regulation innovation by TechwidU, designed to support heavy-duty applications with an increased current demand. It features an input range from 4.5 to 48V, showcasing substantial utility across varied industrial applications and robust settings requiring stable conversion. Manufactured with X-FAB's 180nm process capability, this component reaches a high operational standard, demonstrating that it can manage considerable power translation while ensuring voltage load integrity. The 3A output current capacity is an added advantage for scenarios necessitating substantial power flow while maintaining preciseness. This converter excels in sectors like industrial automation, scientific equipment, and high-end computing where power management plays a critical role. Its ability to handle broad voltage ranges makes it indispensable in frameworks where variability and reliability are synonymous with system needs. With sustained power delivery and conversion accuracy, this voltage mode converter positions itself as a vital element in achieving optimized power utilization.
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.
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 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 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 General-purpose Power-on Reset (POR) by TechwidU delivers adept reliability for device initialization processes, especially during transitions of power states. This component perseveres until the power supply attains a stable threshold, fostering safe power-up procedures. Crafted using Samsung's 65nm technological finesse, this POR remains silicon proven for deployment in a multitude of systems necessitating foolproof power sequencing. Serving as a critical safety valance for startup processes, it supports the consistent startup operations integral to device continuity. Devices such as consumer products, industrial machinery, and any system striving for enhanced power control can integrate this POR to ensure sustained operational capabilities. By enabling structured startup conditions, it helps curb the risks posed by sudden power fluctuations, securing operating environments from mishandled power transitions.
The CC-100IP RF is a derivatives of the CC-100 series, designed to optimize RF signal processing through innovative recycling techniques. Highlighting CurrentRF's expertise in RF technology, this product efficiently reduces power consumption by capturing unutilized energy in RF systems, thus enhancing operational efficacy. This IP component targets RF platforms requiring exceptional energy efficiency, employing methodologies that phase shift and recycle RF noise currents. By transforming waste energy into productive power, CC-100IP RF facilitates an extended battery life and reduced environmental impact for diverse telecommunications and electronics applications. Adaptive to various RF infrastructures, the CC-100IP RF is poised to revolutionize energy usage in systems ranging from mobile communications to sensor networks. Its forward-thinking approach to energy conservation ensures operational excellence with minimal power draw, aligning with the demands for greener technology solutions.
Notus by Xpeedic is a versatile tool engineered for signal integrity (SI), power integrity (PI), thermal, and stress analysis. It's specifically crafted for advanced electronic design applications requiring comprehensive multi-physics simulations. Notus integrates these crucial analyses, enabling engineers to solve complex interaction challenges within high-density and high-speed digital systems. Engineers using Notus benefit from an all-inclusive environment where SI, PI, thermal, and stress factors are considered, providing insights that help mitigate risks and enhance design quality. The tool's intuitive interface facilitates the rapid configuration of simulations, which is vital for maintaining the pace of today's fast-moving tech development cycles. With its robust simulation framework, Notus supports the development of products that are both high-performing and reliable, meeting industry standards and customer expectations. Its compatibility with other Xpeedic offerings enables a comprehensive project lifecycle approach, encompassing everything from initial design through to final validation and optimization, ensuring robust systems that can withstand operational stresses.
CoreHW's Power Management IC is an essential component designed for optimizing power consumption across digital and analog circuits. It intelligently manages power distribution to enhance efficiency and performance of electronic devices. The IC is engineered for adaptability, capable of supporting diverse voltage levels and power demands, and provides solutions for energy-sensitive applications such as mobile devices and IoT products. By integrating advanced control techniques, it ensures stable power supply while minimizing loss, even under varying load conditions. This versatile power management solution exemplifies CoreHW's commitment to energy efficiency and technological advancement, supporting longer battery life and robust performance in modern electronic devices.
TechwidU's General-purpose LDO regulator accentuates efficiency and adaptability in power management. Designed to operate with an input voltage ranging from 1.7 to 5.5V and output adjustable between 0.8 to 4V, this LDO supports load currents extending from 150mA to 450mA. It’s recognized for its high accuracy with a ground current under 20uA, ensuring minimal power loss while maintaining precision. Produced using 180nm and 130nm process nodes from Magna, this LDO is verified as silicon proven, ensuring its readiness for deployment in diverse applications that necessitate robust and precise voltage regulation. Particularly advantageous in battery-powered and portable devices, it provides reliability and operational integrity under continuous load variation. Utilized across consumer electronics, mobile devices, and various gadgets requiring steady voltage output, the General-purpose LDO represents an ideal choice for engineers seeking to maximize efficiency and minimize power concerns, particularly in areas sealed for high energy efficiency and size constraints.
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 16mA 4V Voltage Regulator from TES is designed to deliver reliable voltage regulation in compact electronic configurations. This component ensures stable power supply by effectively managing voltage fluctuations and providing consistent 4V output. With a current capacity of 16mA, it is tailored for applications that require steady voltages under variable load conditions. Its compact design makes it suitable for space-constrained environments, and its high efficiencies ensure minimal power loss. The regulator is particularly suited for use in portable devices and low-power applications where maintaining a stable voltage is critical. Its adaptability to various circuit designs enhances its utility in diverse electronic systems, ensuring optimal component performance.
Key ASIC's Analog IP offerings are designed to provide high-quality signal processing solutions for a wide array of electronic systems. The portfolio includes a variety of audio codecs and data converters that cater to different resolution and frequency needs. This includes 16/18/24-bit audio codecs and Sigma Delta voice codecs, tailored for high-definition audio applications. Their analog IPs extend to DACs and ADCs with varying resolutions and bandwidths, from the standard 14-bit ADCs to the more advanced 12-bit 100 MHz and 10-bit 200 MHz channels. These high-speed converters are complemented by analog front ends (AFE) to ensure consistent and accurate signal conversion. They also offer power management solutions, including DC-DC converters and voltage regulators, which ensure efficient power handling in electronic devices. This suite of Analog IP is expertly crafted to meet the needs of modern multimedia and communication devices where precision and power efficiency are crucial. By leveraging these IP components, manufacturers are able to design systems that deliver superior performance in audio-visual and data transmission applications.
The SiC Schottky Diode offered by Nexperia is crafted for high-efficiency and reduced reverse recovery losses, making it a significant addition to modern power electronics. Tailored for automotive and industrial applications, this diode utilizes silicon carbide to deliver zero reverse recovery charge and minimal forward voltage drop, optimizing energy conversion processes. Its robust construction ensures reliability, even in harsh operational environments.
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