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.
The Cap-less LDO Regulator by Archband Labs eliminates the need for bulky external capacitors, offering a streamlined solution for voltage regulation in electronic devices. The removal of capacitors results in a simplified design and reduced component costs, making this LDO regulator an attractive choice for compact applications. Despite its minimalist design, it maintains excellent performance in regulating voltage, ensuring stable power supply across different components. This functionality is vital for precision electronics used in portable devices, IoT systems, and embedded applications, where space and power efficiency are key considerations. By providing reliable voltage regulation without the added footprint of capacitors, this LDO regulator helps engineers tackle challenges related to size constraints and power management. As a result, it supports the development of smaller, more efficient electronic devices that align with modern consumer electronic trends.
Aeonic Power provides scalable on-die voltage regulation for power delivery in SOCs and chiplets. It features an architecture designed for energy optimization, offering functionalities like static IR drop mitigation and virtual power islands. This IP family is pivotal for meeting stringent power distribution requirements, particularly beneficial in the dynamic environments of digital cores and interface solutions, enabling simplification of power delivery structures.
The Bandgap offering from SkyeChip is a precise voltage reference circuit aimed at maintaining stability across variations in temperature and power supply. This analog IP delivers a consistent output voltage of about 0.9V with minimal deviation, making it crucial for applications requiring stability across a wide temperature range from -40C to 125C. Its low power consumption and robust design suit a variety of circuits where voltage stability is critical. The Bandgap circuit ensures effective performance in diverse conditions, contributing to the reliability and accuracy of the systems it supports.
The MVPM100 series represents a breakthrough in microsystem technologies by miniaturizing the precision of traditional gravimetric particle measurement into a compact form. Unlike optical sensors, it directly measures particle mass, cutting down on size while maintaining accuracy. This series is designed for applications requiring precision in air quality measurement, from industrial to commercial use, offering low power consumption and high accuracy in particle weight detection, making it ideal for modern air monitoring systems.
The ABX Platform by Racyics utilizes Adaptive Body Biasing (ABB) technology to drive performance in ultra-low voltage scenarios. This platform is tailored for extensive applications requiring ultra-low power as well as high performance. The ABB generator, along with the standard cells and SRAM IP, form the core of the ABX Platform, providing efficient compensation for process variations, supply voltage fluctuations, and temperature changes.\n\nFor automotive applications, the ABX Platform delivers notable improvements in leakage power, achieving up to 76% reduction for automotive-grade applications with temperatures reaching 150°C. The platform's RBB feature substantially enhances leakage control, making it ideal for automotive uses. Beyond automotive, the ABX Platform's FBB functionality significantly boosts performance, offering up to 10.3 times the output at 0.5V operation compared to non-bias implementations.\n\nExtensively tested and silicon-proven, the ABX Platform ensures reliability and power efficiency with easy integration into standard design flows. The solution also provides tight cornering and ABB-aware implementations for improved Power-Performance-Area (PPA) metrics. As a turnkey solution, it is designed for seamless integration into existing systems and comes with a free evaluation kit for potential customers to explore its capabilities before committing.
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 MVH4000 series is a line of highly precise and fully calibrated humidity and temperature sensors. Utilizing a unique Silicon Carbide MEMS technology, these sensors boast outstanding long-term stability, quick response times, and low power usage. Their compact size makes them ideal for applications where space is at a premium, offering significant advantages in battery-powered and time-sensitive environments. Long-term reliability, minimal power draw, and robustness are key features of the MVH4000 sensors, making them a top choice for demanding applications with critical process controls.
The mmWave PLL by CoreHW is a sophisticated frequency synthesizer designed to meet the demands of modern wireless communication networks and radar systems. It features a high-accuracy fractional-N PLL frequency synthesizer with a very low noise voltage-controlled oscillator (VCO). This design supports efficient generation of low phase noise carriers and rapid chirp frequency modulations required for fast-frequency modulated continuous wave (FMCW) radar. Operating initially in the frequency range of 19.00-20.15 GHz, the mmWave PLL is engineered to extend to radar frequency bands from 38-40.5 GHz and even further to 76-81 GHz through frequency multipliers. Its scalable frequency configuration makes it suitable for diverse applications including 5G networks and various mmWave communication devices, providing flexibility for adaptation to specific needs. Key features include integrated bandgap references, low-dropout regulators (LDOs), and integrated frequency multipliers. The PLL supports fractionally precise chirp modulation capabilities, making it ideal for automotive radar applications like collision avoidance and distance measurement. The device is robust, maintaining optimal performance across a wide temperature range, and includes comprehensive built-in self-test and calibration features to facilitate reliable deployment in high-demand environments.
The Voltage-mode Buck Converter delivers regulated voltage with an output current ranging from 800mA to 1.5A, suitable for various power-intensive applications. This converter operates with an input voltage of 2.7V to 5.5V, and can deliver an output voltage between 0.6V and 2.5V, ensuring versatility across multiple electronic architectures. The converter maintains energy efficiency with a ground current below 30uA, supporting applications where power efficiency is paramount. This capability makes it well-suited for high-performance computing systems and portable devices. Manufactured with high reliability on Magna's 180nm process, this silicon-proven converter provides the necessary power management functions needed for modern electronics, facilitating optimal operation through efficient power conversion and regulation.
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 product is designed with an architectural approach focused on maximizing efficiency in Class-D driver applications across a variety of power levels. It incorporates self-determining technology to optimize operation, ensuring that the energy consumption is minimized while maintaining high performance. This innovation is crucial for applications needing efficient power management, particularly in power-sensitive environments where maximized efficiency is essential for performance and longevity.
Hermes X3D is engineered to expedite the process of RLGC extraction, which is critical for power, package, and touch panel modeling. The tool is particularly useful in scenarios demanding quick and accurate results to optimize circuit behavior, allowing designers to refine and improve system performance by addressing the nuances of resistance, inductance, capacitance, and conductance (RLGC). Its high-speed computation abilities make Hermes X3D an ideal solution for environments where time-efficient modeling is crucial. The tool's detailed extraction processes enable precise prediction of circuit parameters, supporting engineers in achieving balanced designs that optimize function and durability. Hermes X3D is indispensable for developers looking to enhance power and package design as well as those engaged in intricate touch panel circuit design. Its focused approach to simulation offers critical insights that help streamline the development process and elevate the quality and performance of electronic products.
The MVDP2000 series is engineered to deliver high sensitivity in differential pressure measurement using proprietary capacitive technology. This series is specifically designed for applications that demand precision and low power use, excelling in environments such as healthcare, HVAC, and industrial settings. It provides fast and accurate pressure readings while maintaining low energy consumption, making it suitable for portable and OEM devices where efficiency and quick response are essential.
CoreHW's Power Management IC (PMIC) lineup provides innovative solutions for power supply management across various electronic systems. These PMICs consist of advanced DC-DC converters and low-dropout regulators (LDOs) designed to minimize power consumption and enhance system reliability. They are well-suited for use in applications requiring efficient voltage conversion and stable power delivery. Their compact design integrates multiple functionalities, enabling straightforward selection of power management configurations. This versatility facilitates reduced time-to-market for products incorporating these devices. CoreHW PMICs ensure minimal noise and optimized power delivery, ideal for precision-dependent environments. These power management solutions support a wide range of input and output voltages, which makes them adaptable to different system requirements. Their high efficiency and integrated design provide significant benefits in terms of energy usage, size, and overall system cost.
The Bandgap Reference Block provided by VivEng is a crucial component in many analog and digital circuits, known for its stability and precision. This block generates a stable voltage reference, which is vital for the consistent operation of other circuit elements such as ADCs and DACs. The block is equipped with features like trimmable reference voltage, bias currents, and alerts for over and under temperature conditions. Additionally, it includes a power-on reset feature, ensuring that it operates reliably under various environmental conditions and power supply fluctuations.
The FCM1401 is part of Falcomm's innovative Dual-Drive™ series, designed to offer exceptional efficiency in power amplification. This model, operating at a center frequency of 14.5 GHz, harnesses advanced dual-drive technology to achieve milestones in power efficiency, outperforming traditional power amplifier solutions. With a meticulous design focusing on minimal silicon area usage and high efficiency, it presents a compelling option for enhancing battery life and reducing energy consumption in wireless communications. Falcomm's FCM1401 achieves impressive benchmarks, such as world-class efficiencies validated in commercial CMOS SOI platforms. The power amplifier is notable for its substantial reduction in silicon area, evidenced by the significant power-added efficiency (PAE) results of 34% using a 64QAM signal, averaged at 14.1dBm while maintaining a drain efficiency of 70% at device output. Such enhancements are crucial for applications requiring sustained high efficiency without the downside of increased power draw. This power amplifier caters to high-demand sectors like space communications and modern telecommunications where efficient power use is vital. Operating without efficiency degradation at supply voltages ranging from 1.6V to 2.0V, it offers substantial improvements in signal strength while reducing the operational costs for network operators.
This Low Dropout (LDO) regulator is designed for a 5V input and is a standout product in VivEng's power management solutions. It provides a stable 1.8V output while handling a 20mA load without the need for an external capacitor, which simplifies design and reduces board space usage. Known for its efficient operation, this LDO assures safe functioning even when the input voltage drops to 1.6V, making it ideal for battery-operated devices and low-power applications.
Certus Semiconductor's Analog I/O solutions focus on delivering ultra-low capacitance and extreme ESD protection, making them ideal for sophisticated applications that demand high reliability. These solutions are adept for high-speed SerDes and RF communications thanks to their ability to manage impedance matching and maintain strong signal integrity. The analog libraries include comprehensive solutions that accommodate ESD and power clamps within macro cells, optimizing performance while minimizing impact on overall chip design. Advanced tolerance levels for signal swings including those below ground are supported, ensuring robust performance in a variety of operational conditions. Specialized macro cells cater to frequency ranges above 30 GHz and data rates surpassing 112 Gbps, demonstrating their capability to handle demanding technical requirements. Certus's expertise in analog design translates into solutions adept at withstanding levels of stress far beyond industry standard HBM and CDM requirements. This resilience, coupled with high-temperature tolerance and radiation-hardening, provides a safety net against diverse environmental challenges.
The CC-100 Power Optimizer is a pivotal technology in the Current RF portfolio, central to their energy harvesting systems found in products like the PowerStic and Exodus devices. It works by intercepting and recycling digital noise currents that were previously considered unusable, thus reducing operating power and extending system battery life by up to 40%. The IC can be integrated into various electronic systems, providing significant power savings.
The Bioptx Biosensing Band and Platform are sophisticated wearable devices designed for continuous, non-invasive health monitoring. Utilizing Rockley's proprietary short-wave infrared (SWIR) laser-based spectroscopy, the band delivers real-time streaming of various physiological markers. It integrates multiple sensing modalities including SWIR and LED-based photoplethysmography to measure hydration, heart rate, respiratory rate, blood oxygen saturation, and body temperature. This innovative platform provides a seamless experience in tracking vital signs, supporting both health enthusiasts and medical professionals in gaining deeper insights into personal well-being. The Bioptx platform also offers extensive connectivity options through a recently released developer API, allowing for cloud integration and further customization.
The VR-3V3-1V2-1-55-U voltage regulator is an ultra-low-power design, adeptly converting a 3.3V input to a stable 1.2V output. Utilizing UMC's advanced 0.06 μm technology, this regulator can handle up to 1mA of output current, making it optimal for applications requiring stringent power efficiency and stability. With its high precision and efficiency, the VR-3V3-1V2-1-55-U caters to a variety of power-sensitive applications, ensuring consistent performance even under dynamic conditions. The regulator's Power Supply Rejection Ratio (PSRR) of 40 dB ensures minimal output voltage noise, making it especially valuable in noise-sensitive environments. The compact form factor of this voltage regulator, combined with its robust performance features, makes it ideal for integration into portable and miniaturized electronic systems. Its low quiescent current guarantees prolonged battery life, thus supporting the longevity and reliability of the electronic systems it powers.
The eSi-Analog IP by EnSilica features an extensive portfolio of analog IP blocks optimized for integration into custom ASIC and SoC solutions. These IPs cover a diverse range of functionalities essential for high-performance analog circuit design, contributing significantly to a system's overall capability.\n\nFocusing on high-resolution performance and low power usage, these analog IP blocks enable efficient integration across multiple process nodes. Notably, EnSilica's selection includes oscillators, power management modules such as SMPS and LDOs, and various sensor interfaces, which are silicon proven in leading foundry processes to meet specific application requirements.\n\nThe adaptability of these IPs ensures that they can be customized to meet precise specifications, facilitating seamless SoC integration. This flexibility not only reduces time-to-market but also enhances design efficiency, making them suitable for a wide array of applications including wireless communication, medical devices, and consumer electronics.
Notus provides a comprehensive platform for SI/PI, thermal, and stress analysis, crucial for engineers striving to optimize electronic circuit performance under various environmental conditions. Integrating signal integrity, power integrity, and multi-physics simulation within a single tool, Notus offers unmatched analytical capabilities that ensure designs meet rigorous operational standards. Designed to tackle complex simulations, Notus helps in identifying potential problems before they become costly failures. Its detailed analyses encompass a range of scenarios, aiding in the prediction and enhancement of circuit reliability and longevity. This integrated approach supports forward-thinking design strategies that are essential in today's competitive electronics marketplace. Notus enhances productivity by simplifying the design process and reducing the need for multiple software tools, thereby accelerating time-to-market. The powerful simulations it provides are indispensable for engineers working on high-stakes projects where precision and reliability are non-negotiable.
The pPOR01 empowers power management through vigilant supply monitoring, delivering a precise power-on reset (POR) solution. It's a compact, three-pin cell construct engineered to prevent system malfunctions by controlling reset signals during voltage thresholds crossing. Utilizing clever hysteresis design, pPOR01 provides stability through calibrated corner optimization that ensures logic cells operate accurately. It boasts minimal quiescent current draw, making it energy efficient while providing a robust reset signal delaying functionality via internal 35-microsecond sequencing. Integrating easily into diverse circuits, the macrocell supports CMOS outputs necessary for operating within specified threshold ranges, optimizing systems for resilience especially in challenging environments. This solution maximizes reliability through variations like migrating or customizing process-specific adaptations.
The Voltage-mode Buck Converter is capable of supplying a significant output current of 3A, optimized for high-power applications requiring efficient energy conversion. With an input voltage span of 4.5V to 48V, and an adjustable output from 5V to 20V, it caters to a wide variety of power supply designs. Deserving attention for its power density and efficiency, this converter is tailored to support high-load applications like industrial systems and automotive electronics, where dependable power regulation is necessary. Delivering consistent performance under demanding conditions, this product is ideal for engineers designing robust power architecture. It operates using X-FAB's 180nm process technology, a testament to its durability and reliability. Silicon-proven, this converter ensures seamless integration and operation in high-power requirement scenarios.
The 5G Remote Radio Unit (RRU) by Saankhya Labs is a cutting-edge offering designed to amalgamate the vast possibilities of fifth-generation wireless technology with robust and adaptable hardware. With its compliance to the ORAN 7.2x standard, this multiband RRU is engineered to cater to the dynamic requirements of modern telecommunications service providers, addressing both current needs and future expansions. Equipped with advanced analytics capabilities, the Saankhya RRU delivers a unique advantage by providing network operators with tools to optimize their spectrum usage. This optimization capability translates into a reduced Total Cost of Ownership (TCO) for operators, allowing for significant savings while enhancing service quality and reliability. The RRU is part of Saankhya's comprehensive 5G RAN solution portfolio which includes RAN Intelligent Analytics. The inherent flexibility of the 5G RRU allows it to support numerous frequency bands, ensuring seamless integration into existing infrastructure and offering a scalable solution for network growth. Its smart design ensures that it can be employed across various geographic and population density landscapes, making it suitable for both urban centres and rural zones.
The Band-Gap Reference offers precise voltage references ranging from 0.6V to 1.2V, critical for stable system performance. It features an operating current of 25uA and maintains high accuracy between 1% to 3% across its operating range of 2.2V to 5.5V, making it suitable for a variety of analog circuits. This versatile reference is engineered for integration into applications requiring stable voltage signals despite temperature variations, such as in sensor interfacing and analog data processing. Its design ensures minimal drift and robust performance across variable environmental conditions. Manufactured utilizing Magna, Samsung, and TSMC's process nodes down to 65nm, this band-gap reference is silicon-proven to offer reliability and high precision for critical electronics where voltage stability is pivotal.
The Bipolar-CMOS-DMOS (BCD) Technology from Tower Semiconductor is tailored for power management applications, providing an expansive toolkit for designing integrated circuits with unparalleled efficiency and reliability. This technology stands out in its ability to integrate both analog and digital functions along with power devices on a single chip, thereby reducing costs and enhancing performance. With its 700V capabilities, BCD technology supports various power management needs, including those in automotive and industrial applications, where durability and high-voltage operation are essential. It combines the advantages of bipolar transistors for analog performance with the benefits of CMOS for logic functions, and DMOS for power handling, resulting in comprehensive support for a wide range of power control solutions. This technology is crucial for the development of systems that demand robust power delivery mechanisms with optimized energy consumption rates. By facilitating high-density power applications, BCD technology allows the development of modules that are not only performance-oriented but also adhere to the compact size demands of modern electronics. As power management becomes ever more critical in consumer electronics, industrial equipment, and automotive components, Tower Semiconductor’s BCD technology delivers ideal solutions that ensure high performance, scalable integration, and cost-effectiveness.
The Current-mode Buck Converter is designed for applications requiring a stable power supply with an output current of 2.5A. Featuring an input voltage range from 2.7V to 5.5V, this converter efficiently steps down voltage to an output range of 0.6V to 2.5V, with a tight accuracy of 1.5%. This robust power converter is optimized for high-performance applications, such as telecommunications and computing devices, where consistent power delivery and efficiency are critical. Its architecture supports dynamic load changes, maintaining stable operation under varying conditions. Developed on Samsung's 65nm process, this silicon-proven product ensures reliability and high efficiency, making it suitable for integration into cutting-edge electronic systems requiring reliable power conversion solutions.
Operating at 28 GHz, the FCM2801-BD is another flagship model within Falcomm's Dual-Drive™ lineup, exemplifying the company's leadership in power amplifier technology. This two-stage amplifier features unmatched efficiency and performance metrics, setting new standards in the industry for wireless communications. Suitable for both commercial and cutting-edge applications, it stands as a testament to Falcomm's innovative spirit and technical prowess. The FCM2801-BD is constructed to deliver record-setting power-added efficiency and drain efficiency, validated within a robust CMOS SOI framework. The dual-drive core achieves up to 62% drain efficiency at device output levels, cementing its capability to handle high-data throughput scenarios while conserving energy. Such impressive efficiencies directly contribute to lowering battery consumption and enhancing the operational lifespan of connected devices. Moreover, this PA is a strategic choice in telecommunications and space communications fields, where power efficiency and signal quality are paramount. Its versatile design supports operations over the required frequency band without efficiency losses, emphasizing adaptability in various network environments. By incorporating this PA, service providers and satellite operators can advance their operational goals with reduced power expenditure, aligning with sustainable energy practices.
The FCM3801-BD further expands Falcomm's Dual-Drive™ series, addressing the high-frequency demands of 38 GHz applications. This power amplifier is meticulously engineered to optimize energy efficiency without compromising on power output, making it an ideal choice for modern, power-constrained environments. As a testament to Falcomm's innovative strides, it blends cutting-edge technology with practicality, meeting diverse needs across various sectors. Engineered within a CMOS SOI platform, the FCM3801-BD achieves a balance between power conservation and performance. It embodies the apex of power amplifier design, showcasing drain efficiencies up to 70% at device output. Such performance metrics offer sizable reductions in operational costs, enhancing the environmental sustainability of wireless communication networks. Furthermore, the core design benefits from minimized silicon area footprint, further enhancing its appeal in compact device architectures. Targeting crucial industry areas like space and telecommunications, the FCM3801-BD provides the needed functionality to extend signal reach significantly while boosting power savings. It operates efficiently across varied voltage ranges without sacrificing its adept energy performance. These characteristics highlight its exceptional capabilities for stakeholders prioritizing efficiency, reliability, and technological advancement in their service delivery models.
The Cap-less LDO offers a streamlined solution for delivering a regulated current output of up to 100mA, advantageous for applications requiring minimized space and component overhead. This device supports an input voltage range from 1.7V to 5.5V and maintains a precise output with an accuracy of 2%, even with an impressively low ground current requirement under 150uA. Due to its cap-less architecture, it eliminates the need for external capacitors, which simplifies board design while saving on material costs. The suitability for battery-powered and space-limited applications makes it ideal for use in wearable technology. This LDO is available in Magna's 180nm and 130nm process nodes, with silicon-proven reliability, ensuring high-performance power regulation in a compact format. It's a perfect fit for developers looking for reliable power solutions in miniaturized electronic devices.
ISELED is a breakthrough technology redefining automotive interior and ambient lighting by integrating a smart RGB LED driver within the LED package. This technology enables precise color calibration from the point of manufacture, as well as internal temperature compensation, thereby reducing the dependency on external control systems. The ISELED network is robust to environmental variations and compact enough to fit seamlessly within existing automotive designs. Furthermore, the protocol's enhancement includes a wide address range for individual LED control and advanced communication capabilities, making this system ideal for creating consistent and vibrant interior lighting experiences seamlessly.
VivEng’s 3.3V LDO offerings are highly adaptable power management solutions catering to diverse powering needs. Designed to function without requiring external capacitors, this feature enhances their application range and saves cost and space. With options providing varied output currents, these regulators maintain consistent output levels even under fluctuating input conditions. They are instrumental in providing clean, controlled power to sensitive electronic components, thereby ensuring stable device performance across different operating conditions.
Designed to meet the rigorous demands of modern electronics, Advanced Silicon's High-Voltage Integrated Circuits are pivotal in applications involving complex switching devices. These ICs include versatile drivers and DACs that are essential for interfacing with thin-film technologies such as TFT and MEMS devices. They ensure precise voltage control over various capacitive loads, making them indispensable for applications such as flat-panel displays and complex X-ray detectors. The high-voltage line drivers are known for their adaptability across a multitude of display technologies, including LCD, OLED, and micro-LED systems, while maintaining robust radiation-hardness qualities crucial for specific industrial applications. Available in high pin counts, these ICs can support up to hundreds of output channels, a necessary feature for advanced display and detection systems. By providing DACs with extensive resolution options, these ICs facilitate the digital-to-analog conversion crucial for handling large and delicate pixel arrays, ensuring exact voltage application across panels. These capabilities establish Advanced Silicon’s High-Voltage ICs as an integral component of cutting-edge display and detection technology, contributing significantly to the efficiency and accuracy of electronic systems.
The Power Conversion and Management Systems designed by SystematIC provide a comprehensive range of power control solutions, engineered to meet the needs of various utility and industrial applications. This portfolio includes linear regulators, low-dropout regulators (LDOs), and DC-DC converters. These systems are designed to optimize power delivery and improve the efficiency of electronic devices. By employing innovative engineering techniques, SystematIC delivers solutions that reduce power loss and maximize operational performance, making these systems a reliable choice for advanced power management in both consumer and industrial electronics.
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.
The ARKT28HPCP_LDO100 Voltage Regulator is designed for applications requiring a stable and precise power source for digital and analog circuits. Operating within a narrow input voltage range of 1.62V to 1.98V, this LDO regulator delivers a fixed output of 0.9V with an impressive accuracy of 3%. It can support load currents up to 100mA, making it suitable for low-power applications where efficiency is crucial. Manufactured using TSMC's 28nm process technology, this regulator is currently under development, promising advanced integration for modern electronic designs. The compact design and high performance of the ARKT28HPCP_LDO100 ensure that it meets the stringent voltage regulation needs of different system architectures. Ideal for use in battery-powered devices, communication systems, and portable electronics, the ARKT28HPCP_LDO100 offers reliable power management solutions. As part of Arkchips' innovative product lineup, it represents a significant step forward in low dropout regulation technology.
Digital Pre-Distortion (DPD) technology is essential for enhancing the linearity and efficiency of RF power amplifiers in modern wireless systems. This process addresses the distortion issues linked with broadband signals, mitigating spectral regrowth which typically occurs with wide signal transmissions like WCDMA. Faststream's DPD utilizes the Memory Polynomial Algorithm, optimizing PA performance for various test conditions and ensuring minimal non-linear distortion. Through advanced signal processing, DPD supports enhancements in amplifier efficiency while safeguarding signal integrity. By converting non-linear amplifier characteristics into closer linear representation, DPD significantly improves transmission efficacy and reduces operational costs by optimizing power usage in RF systems. Moreover, Faststream’s approach suits modern communication challenges, with optimized DSP core integration allowing DPD functionalities to be housed efficiently within FPGAs. This setup decreases footprint and cost, presenting a viable option for companies aiming to adhere to stringent spectral masks and error vector magnitude criteria.
The AC LED Driver IC from SystematIC is designed for direct mains operation, providing an efficient solution for driving multiple LED strings with minimal external components. Compatible with traditional TRIAC dimmers, this IC simplifies LED module designs while offering programmability and robust control features. The development of this IC involved close interaction with customers to optimize LED performance, showcasing SystematIC’s capability in delivering tailored, application-specific integrated circuits. This device supports driving three strings on a single IC, expandable to six when using a dual IC system, featuring high-voltage operation suitable for versatile lighting systems.
This General-purpose LDO is designed to supply a regulated output current ranging from 150mA to 450mA, maintaining high precision with an output voltage accuracy of up to 2%. It offers broad input voltage ranges from 1.7V to 5.5V, suitable for a variety of systems requiring stability and low output noise in their power supplies. Engineered for efficiency, the LDO's ground current is kept under 20uA, making it an excellent choice for battery-powered devices where power conservation is critical. The potential applications include consumer electronics, where reliability and precision in voltage regulation are necessary to ensure device performance and longevity. Developed on Magna's 180nm and 130nm process nodes, this silicon-proven LDO offers a trusted solution for numerous electronic circuit designs, catering to different operational requirements while ensuring high efficiency and low power operation.
X-FAB's Bandgap Voltage Reference is engineered to provide a stable voltage and current reference, which is essential for many analog and mixed-signal systems. This component outputs a voltage of 1.2V and a current of 1uA, maintaining stability across various operating conditions. It serves as a foundational block in systems requiring precise voltage outputs, such as embedded systems and consumer electronics, ensuring that other circuit components function accurately in relation to this stable reference point. Its reliable performance makes it a staple in precision electronics.
Crafted for efficient power supply management, Novatek's Power Management Controllers are crucial for optimizing the energy usage in electronic devices such as TVs, notebooks, monitors, smartphones, and wearable products. These controllers regulate power distribution within the main system, enhancing performance while reducing energy consumption. By focusing on adaptable power control solutions, Novatek meets the increasing demands for energy efficiency and sustainability in the consumer electronics industry. Their advanced controllers ensure consistent power supply, contributing to the longevity and reliability of the devices they support.
Crest Factor Reduction (CFR) technology serves to enhance the performance of RF power amplifiers by managing the Peak-to-Average Power Ratio (PAPR) of signals. Employed in wireless communication systems, CFR techniques lower the PAPR by reshaping peak signal levels. This process reduces stress on power supply designs and lowers peak power demands. CFR is often paired with Digital Pre-Distortion to optimize amplifier efficiency, as low PAPR is crucial for maintaining signal fidelity in high-frequency applications. Faststream’s CFR uses sophisticated algorithms modeled in MATLAB and Verilog for simulation and verification, ensuring compatibility with multi-channel transmission systems. By enabling more effective power management and reduced energy consumption, CFR plays a pivotal role in sustaining amplifier lifecycle and operational integrity. This becomes particularly significant in high-throughput environments which are essential for supporting emerging technologies such as 5G and beyond.
The 100V Boost Converter is engineered to deliver high-voltage outputs between 40V and 100V from a supply voltage as low as 3.5V. With adjustable switching frequencies from 80KHz to 160KHz, it allows substantial flexibility in managing the boost process. The converter's design incorporates an internal reference voltage and supports an external FET switch and power diode for adaptable power management, making it ideal for scenarios requiring robust voltage boosting.
The ARKS55LP_CLLDO10 is a cap-less low dropout voltage regulator that offers a streamlined power solution for modern electronic applications. Operating efficiently across an input range of 2.97V to 3.36V, it provides a stable output of 1.2V at a current of up to 10mA. This regulator is particularly valuable for designs that benefit from reduced component count and improved efficiency. Utilizing SMIC's 55nm process technology, this regulator is silicon proven, ensuring high reliability and consistent operational performance. Its cap-less design significantly reduces the need for external components, thus simplifying the power supply circuitry in compact devices. Due to its minimal footprint and efficient power management capabilities, the ARKS55LP_CLLDO10 is ideal for a range of applications from wearables to portable communication devices, where size and power conservation are essential considerations.
The GS61008P Enhancement Mode GaN Transistor excels in delivering high power performance with its efficient and compact design. Capable of handling high currents, this transistor minimizes on-resistance, ensuring minimal energy loss, which is crucial for high-density power converters. Designed for bottom-side cooling, it offers superior thermal management, effectively dissipating heat to ensure stable operation. Its small footprint and enhanced electrical characteristics make it a preferred choice in systems requiring high power efficiency, from renewable energy setups to cutting-edge consumer electronics products.
The GS66516T represents a state-of-the-art GaN Transistor engineered for high-performance applications. It offers significant improvements in power conversion techniques, reducing energy losses and enhancing thermal management. Capable of supporting high current levels with its advanced structure, this component is ideal for sectors needing optimal power solutions such as telecommunications and renewable energy setups, ensuring durable and consistent operational benefits.
The Series 100 from Keysom is a fundamental part of their electronic tap offerings, providing essential features that prioritize both efficiency and simplicity. This series is particularly suited for installations where basic water control and user convenience are essential, without over-complicating functionality. Simple yet effective, the Series 100 features reliable sensor control mechanisms that ensure water is dispensed efficiently, minimizing waste and promoting sustainability. Its straightforward design makes it accessible for installation in various settings, from private homes to less demanding public locations. While it may not boast the advanced features of more sophisticated models, the Series 100 is valued for its practicality and ease of use. It represents a cost-effective solution for those seeking to implement modern tap technology without the complexities of more feature-laden models, fulfilling Keysom's commitment to accessibility and resource conservation.
Keysom's Series 500 is another remarkable lineup that caters to the needs of users seeking reliability and advanced functionality in electronic tap systems. Designed with modern demands in mind, this series integrates state-of-the-art technology to offer a smooth and automatic water dispensing experience. It is ideal for environments where water conservation is of utmost importance. The Series 500 is equipped with advanced sensors that detect motion accurately, ensuring water is only dispensed when necessary. This not only conserves water but also supports hygiene in public spaces by eliminating the need for direct contact. Its aesthetic design enhances the appearance of both residential and commercial facilities, making it a popular choice among modern consumers. Durability and performance are at the core of the Series 500, ensuring it handles frequent usage without compromising efficiency. Its smart system minimizes energy consumption, aligning with green initiatives to reduce ecological footprint. This series exemplifies Keysom's desire to blend functionality with sustainable practices, paving the way for future technological advancements.