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.
The Aeonic Power product family introduces revolutionary on-die voltage regulation tailored for SoC power delivery challenges. This series is engineered for energy and BOM optimization, featuring configurable architecture and PDN-oriented telemetry. By supporting integrated voltage regulation, Aeonic Power aids in minimizing energy consumption while delivering comprehensive insights into SoC power behaviors, facilitating effective energy and power management.
Vantablack S-VIS Space Coating is engineered for use in space-qualified applications, excelling in suppressing stray light in optical systems. This coating is highly regarded for its ability to offer extremely high spectrally flat absorption, extending from the ultraviolet through to the near-millimeter wavelengths. Such attributes make it a superior choice for space missions, where light pollution from celestial bodies is a paramount challenge. Designed to withstand the harsh conditions of space, Vantablack S-VIS improves the effectiveness of baffles and calibration systems by reducing both the size and weight of the instrument package. This not only enhances the optical performance but also contributes to cost savings in manufacturing and deployment. The coating has been tested rigorously to ensure it withstands the environmental extremes experienced in space, including thermal stability and resistance to outgassing. For over a decade, Vantablack S-VIS has demonstrated flawless performance in low Earth orbit, particularly on dual star-trackers on disaster monitoring satellites. Its reliability has been proven through numerous successful implementations, including its deployment on the International Space Station. These achievements underscore Surrey NanoSystems' leadership in advanced coating technologies for aerospace applications.
The Bandgap solution from SkyeChip ensures a stable voltage reference crucial for advanced electronics systems requiring consistent precision despite varying temperature and power conditions. With a precise output voltage of 0.9V, the Bandgap reference maintains exceptional voltage stability across temperatures ranging from -40C to 125C. It incorporates robust buffer capabilities that enable it to sink substantial current loads while consuming minimal power. This IP is tailored for integration within power management systems where unwavering voltage benchmarks are requisite for system performance and reliability, supporting diverse applications from consumer electronics to telecommunications.
The PLL12G, serving as a Clock Multiplication Unit, is engineered to generate clock outputs in the 8.5GHz to 11.3GHz range, complementing a host of transceiver standards like 10GbE and OC-192. It operates with low power consumption, courtesy of IBM's 65nm process, making it suitable for various clocking modes crucial in phase-locked loop systems. Its diverse functionality ensures it's integral to telecommunications infrastructures where multiple clocking modes, including FEC support, are required.
The REFS, a robust band-gap and PTAT current reference, is designed to bolster RF, analog, and mixed-signal integrated circuits with significant stability even across varied operational conditions. This component outputs currents and voltages that remain consistent against temperature fluctuations, making it indispensable in high-precision electronic environments. It features multiple outputs referenced to both internal and external resistors, all of which are programmable within a flexibility range of ±30% to support custom calibration needs.
MEMS Vision's MVPM100 series captures the forefront of particulate matter detection technology with an emphasis on size reduction while maintaining high measurement precision. Moving beyond the bulkiness of traditional gravimetric devices, these sensors directly ascertain particle mass within compact dimensions, fostering portable applications. The immense accuracy of the MVPM100—a capability typically exclusive to larger instruments—extends its applicability into diverse environments, making it not only comprehensive but efficient. By providing multiple interface options and operating over a broad temperature spectrum, it adapts to varied climatic conditions effortlessly. Its small encapsulated format does not sacrifice performance, offering I2C and UART interfaces for extended connectivity. The sensors deliver optimal results for sectors like industrial-manufacturing, consumer technological devices, healthcare systems, and automotive solutions requiring meticulous air quality insights.
EnSilica's eSi-Analog IP encompasses a robust selection of analog solutions equipped for seamless SoC and ASIC integration. These solutions are silicon-proven across multiple process nodes, ensuring reliability and cost efficiency in challenging markets. The IP includes fundamental blocks like oscillators, SMPS, LDOs, temperature sensors, PLLs, and ultra low-power radio components. Each block can be adapted to meet bespoke client specifications, enhancing system performance while optimizing power consumption and achieving high resolution.
The Cap-less LDO Regulator from Archband is engineered to provide stable power supply solutions without the need for external capacitors. This regulator ensures efficient voltage regulation even in compact and portable devices where space and power efficiency are prime concerns. Its design is optimized for both low dropout and low quiescent currents, making it suitable for a wide array of applications that require reliable power management.
The MVH4000 series of sensors represents a pinnacle of precision in the field of humidity and temperature monitoring. Using the innovative Silicon Carbide MEMS technology, these sensors offer unmatched stability and responsiveness, critical for time-sensitive applications. Their design allows for significant energy savings, making them an ideal choice for battery-powered devices due to their minimal power consumption. Over the years, they maintain excellent accuracy, ensuring persistent performance with a high degree of reliability. Characterized by a small package size, each MVH4000 sensor is fully equipped with digital I2C interfaces, featuring 8 to 14-bit resolution. They can operate in a wide temperature range from -40 to 125°C, and their encapsulated design ensures durability in diverse environmental conditions. As such, these sensors are well-suited for precision-driven fields such as industrial, consumer electronics, medical devices, and automotive systems. Available in various output configurations, including digital and analog versions, the sensors cater to different technological needs, enabling easy integration into existing systems. The MVH4000 series not only meets current standards but sets new benchmarks for cost-effective solutions without compromising on quality or performance.
Functioning as a comprehensive cross-correlator, the XCM_64X64 facilitates efficient and precise signal processing required in synthetic radar receivers and advanced spectrometers. Designed on IBM's 45nm SOI CMOS technology, it supports ultra-low power operation at about 1.5W for the entire array, with a sampling performance of 1GSps across a bandwidth of 10MHz to 500MHz. The ASIC is engineered to manage high-throughput data channels, a vital component for high-energy physics and space observation instruments.
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 FCM1401 is part of Falcomm's line of advanced Dual-Drive™ power amplifiers designed to enhance efficiency in wireless applications. Engineered for operation at a center frequency of 14 GHz, this two-stage power amplifier maximizes energy use while maintaining exceptional performance standards. Its innovative design includes CMOS SOI platform integration, boasting world-class efficiencies unmatched by conventional solutions in the market. The technology also comes with alternative options across other silicon platforms like GaAs, GaN, and SiGe, providing versatile application potential. This power amplifier achieves remarkable efficiency levels; a two-stage power-added efficiency (PAE) of 56% and a drain efficiency nearing 70%. The design also incorporates a 0.5x reduction in silicon area without degrading overall capabilities. The FCM1401 supports a broad range of applications from telecommunications to space communications, helping to lower operational costs while enhancing signal strength. Moreover, the amplifier’s robust design allows it to operate across a supply voltage between 1.6V to 2.0V without any loss in efficiency, ensuring stable performance under diverse conditions. With such specifications, the FCM1401 proves an ideal candidate for integrative use in advanced wireless communication infrastructures, offering substantial battery life improvements and energy savings to connected devices.
The mmWave PLL is crafted for high-frequency applications, delivering superior phase lock across a range of millimeter-wave frequencies. It is tailored to meet the stringent demands of modern communication systems, enabling enhanced data transmission speeds and connectivity. Combining advanced signal stability with low phase noise, the mmWave PLL offers precise frequency management, crucial for next-generation wireless networks. It leverages cutting-edge technology to minimize power consumption, while maintaining high performance, a balancing act essential for today's technology. This PLL supports a broad spectrum of frequencies, making it versatile for varied applications in telecommunications and radar systems. Its design ensures that it remains robust under high-frequency operations, offering reliable performance for critical infrastructure and technology deployments.
The XCM_64X64_A is a powerful array designed for cross-correlation operations, integrating 128 ADCs each capable of 1GSps. Targeted at high-precision synthetic radar and radiometer systems, this ASIC delivers ultra-low power consumption around 0.5W, ensuring efficient performance over a wide bandwidth range from 10MHz to 500MHz. Built on IBM's 45nm SOI CMOS technology, it forms a critical component in systems requiring rapid data sampling and intricate signal processing, all executed with high accuracy, making it ideal for airborne and space-based applications.
This Voltage-mode Buck Converter offers impressive efficiency across load currents ranging from 800mA to 1.5A, making it an excellent solution for voltage regulation tasks in applications like consumer electronics and telecom equipment. It functions effectively within an input voltage range of 2.7V to 5.5V, providing an output voltage from 0.6V to 2.5V, with grounding currents under 30μA. The converter embodies high precision with a 2% accuracy in voltage regulation, ensuring smooth and efficient power conversion even in dynamic load conditions. Its voltage-mode control architecture is designed for applications that demand reliable power delivery and efficiency. Fabricated on Magna's 130nm and 180nm process nodes, it is well-suited for designs requiring robust power regulation, validated through silicon-proven reliability for enhanced performance in modern electronic devices.
The FCM3801-BD power amplifier completes Falcomm’s Dual-Drive™ series with remarkable functionality for high-frequency applications. Designed for a center frequency of 38 GHz, it offers expanded performance capabilities that address the needs of the modern telecommunications landscape. Its integration with CMOS SOI and other advanced platforms like GaAs or GaN underscores its utility in diverse application scenarios. Excelling in energy efficiency, the FCM3801-BD achieves a power-added efficiency (PAE) up to 56%, which reduces energy usage without compromising performance. This makes it an excellent choice for systems aiming to cut energy costs while delivering high data throughput. As with the other products in this series, the FCM3801-BD supports a balanced power range and maintains efficiency across a supply voltage span of 1.6V to 2.0V. This amplifier is perfectly tailored for expansive high-bandwidth roles, making it suitable for telecommunications and cutting-edge wireless technology explorations. Its design ensures developers can maximize output while maintaining an environmentally friendly footprint, thus aiding in global efforts to reduce carbon emissions alongside boosting technological efficiency.
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.
The MVDP2000 series from MEMS Vision consists of leading-edge differential pressure sensors attributed with capacitive sensing technology for outstanding sensitivity and stability. Particularly fashioned for accurate pressure and temperature calibration, these sensors are the epitome of low-power-consumption models suited for high-demand OEM and portable applications. These sensors are vital in industries where precision in differential pressure detection is necessary, such as respiratory medical devices, gas flow machines, and HVAC systems. Their configurability makes them versatile for adaptation into existing frameworks, ensuring swift performance with incredibly low error margins. With a 7 x 7 mm DFN packaging size, the sensors are adept for applications where space is at a premium, yet accurate readings are paramount. They support digital I2C and Analog output, enhancing their applicability across varied usage scopes in sectors demanding the highest standard reliability.
The Bandgap Reference Block from VivEng offers a reliable and precise voltage reference solution, crucial in various analog and mixed-signal designs. This block provides adjustable reference voltages, ensuring stability across different operating conditions. It incorporates bias currents and features such as over-temperature and under-temperature alerts, along with power-on reset capabilities. This makes it an essential component in power management systems where precision and reliability are paramount.
Optimized for precision voltage reference, the Band-Gap Reference delivers stable voltage outputs ranging from 0.6V to 1.2V, supporting a current operation of 25μA within a voltage range of 2.2V to 5.5V. It ensures high precision with an accuracy between 1% to 3%, depending on operational conditions, making it highly effective for calibration and biasing circuits in diverse electronic applications. The band-gap reference is critical in systems that demand a stable, low-temperature-coefficient voltage reference such as analog-to-digital converters and power management circuits. Its resilience across different temperatures and voltage supplies ensures reliable performance in varying environmental conditions. Implemented across Magna and Samsung foundries via 65nm, 130nm, and 180nm process technologies, the reference circuit is silicon-proven, demonstrating consistent and reliable operation in delivering precise voltage references for demanding electronic systems.
The CurrentRF CC-100 Power Optimizer is central to the company's innovative energy harvesting technology, utilized in devices like the PowerStic and Exodus. This optimizer is engineered to be a fundamental component in intercepting digital noise currents and recycling them back into the system, effectively reducing operational power. It supports the enhancement of system battery life by up to 40%, serving as a critical device in power-conscious design strategies for integrated circuits and electric vehicles. The CC-100 ensures power savings when systems remain active, making it a vital tool for extending battery life in IC and systems design.
Certus Semiconductor's Analog I/O solutions deliver state-of-the-art protection through ultra-low capacitance and extreme ESD protection. Designed for high-speed SerDes and RF applications, these products ensure that signal integrity and impedance matching are not compromised. The Analog I/O offerings from Certus are driven by innovation, featuring less than 50 fF capacitance solutions apt for today's advanced technological demands. These analog solutions are equipped to tolerate signal swings below ground, capable of providing robust ESD protection withstanding over 16kV HBM. In addition to these capabilities, they possess high temperature tolerance and can endure aggressive operational environments, making them an ideal fit for sectors demanding high reliability and rugged performance. The comprehensive design integrates IO, ESD, and power clamps into significant macro cells for optimal performance. Certus Semiconductor ensures that their analog solutions are adaptable, scalable, and ready to meet future demands in high-speed and high-frequency applications.
Tower Semiconductor's Bipolar-CMOS-DMOS (BCD) technology provides high power density and advanced integration capabilities for power management applications. This technology excels in delivering solutions for diverse applications, like motor drivers and DC-DC converters, through various isolation methods and high digital integration options.\n\nDesigned for efficiency across a voltage range up to 700V, the BCD platforms support low Rdson LDMOS for efficient power conversions. They are integral to developing state-of-the-art semiconductor devices tailored for consumers, automotive, and industrial applications. The optimized power handling ensures high performance, enabling devices to deliver the power needed without compromising on energy efficiency.\n\nThe BCD technology is adaptable with Tower's Power platforms available on both 8-inch and 12-inch production wafers, allowing it to meet high-volume production requirements. Such flexibility underpins its application in high-power environments, reinforcing Tower Semiconductor’s leadership in nurturing innovative power management solutions.
Falcomm's FCM2801-BD is a state-of-the-art power amplifier that belongs to the company's advanced Dual-Drive™ series. This high-frequency power amplifier operates at a center frequency of 28 GHz, delivering remarkable energy efficiencies for modern wireless communication systems. By integrating cutting-edge CMOS SOI technology, this amplifier ensures optimal performance aligning with the demands of evolving telecommunications infrastructure. The FCM2801-BD showcases a design that supports an impressive power-added efficiency (PAE) of up to 56%, making it superior to many traditional analogs. With a focus on minimizing power waste and enhancing signal output, this product is especially suited for applications requiring high reliability and minimal energy consumption, such as telecoms, satellite communications, and advanced mobile networks. In addition to its top-tier performance metrics, the FCM2801-BD features a versatile supply voltage range from 1.6V to 2.0V. Such adaptability ensures consistent operational efficiency even under varying conditions, leading to extended battery life and reduced operational costs in deployed systems. This amplifier is pivotal for organizations striving for maximum impact, efficiency, and competitive edge in the wireless communications sector.
Designed for high-capacity data transfer over fiber optic networks, the SER12G facilitates 32:1 serialization for robust telecommunications. Capable of sustaining data rates from 8.5Gb/s to 11.3Gb/s, this module is essential for SONET/SDH and 10GbE operations, embracing IBM's 65nm CMOS technology. The design boasts low power requirements and integrates CMU and frac N PLL, making it suitable for both line and host side transmission, effectively enhancing data throughput and signal integrity.
Bridging complex data communication requirements, the SERDES12G offers comprehensive serialization/deserialization capabilities, supporting 32:1 and 1:32 operations at speeds of 8.5Gb/s to 11.3Gb/s. With robust low power features, its design leverages IBM's 65nm technology, vital for SONET/SDH and XFI protocols in modern telecommunication systems. By integrating CDR and CMU, it provides high performance and stability, ensuring seamless data handling across a wide array of applications.
The Current-mode Buck Converter is engineered to support a load current of up to 2.5A, ideal for power-intensive applications such as computer peripherals and industrial electronics. It effectively manages input voltage ranges between 2.7V to 5.5V, with an adjustable output voltage stretching from 0.6V to 2.5V, and operates with grounding currents under 30μA. It features current-mode control, providing superior speed responses and improved stability in the face of input voltage or output load changes. This converter maintains a precise voltage regulation with an accuracy of 1.5%, enhancing efficiency and performance in complex operating environments. The converter is silicon-proven over Samsung's 65nm technology, attesting to its high performance and reliability. Its robustness and efficiency make it a versatile choice for systems demanding meticulous power management solutions.
The Cap-less Low Dropout Regulator (LDO) is designed to offer efficient power management for low-current applications, with a load current capacity of 100mA. Its cap-less design negates the need for an external capacitor, simplifying device integration and saving on PCB space, making it highly suitable for compact and efficient designs. Operating with an input voltage range from 1.7V to 5.5V and delivering an output voltage between 0.8V and 4V, the regulator exhibits a grounding current of less than 150μA. It's built to present a voltage regulation precision of 2%, ensuring stable power supply across variable loads. The Cap-less LDO's silicon-proven design on Magna's 130nm and 180nm nodes underlines its reliability and adaptability in devices where board real estate and component count are primary concerns.
The CurrentRF PowerPad is an innovative IP embedded solution aimed at reducing dynamic power in semiconductor designs. It serves as a replacement for traditional IC power and ground bond pads, integrating seamlessly without significantly increasing IC area. This IP allows for efficient energy harvesting and reduction in IC operating power, contributing to extended battery life and overall system efficiency. By leveraging techniques such as capacitance multiplication and series inductance nullification, the PowerPad is optimized for power-conscious technology applications and eco-friendly IC designs.
The VR-3V3-1V2-1-55-U is a highly efficient ultra low power voltage regulator designed to step down an input voltage of 3.3V to an output voltage of 1.2V. Suited for low-power applications, this regulator stands out with its extremely low current consumption of just 1.8 µA, making it ideal for battery-powered devices where power conservation is crucial. The voltage regulator's architecture is built on UMC's 0.06 μm process node, providing a compact and efficient design conducive to integration in space-limited applications. With its robust performance, the VR-3V3-1V2-1-55-U supports a wide range of portable electronics, delivering consistent power output with minimal heat dissipation. Particularly beneficial for devices that require constant power regulation, this voltage regulator will ensure operational stability across varying input conditions. It's an invaluable component in the design of sensors, mobile devices, and other power-sensitive technologies, allowing for enhanced battery life and fewer power-related interruptions.
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 BG-1V2-U is a meticulously crafted ultra-low power Bandgap Reference Circuit that delivers consistent and precise voltage reference. It is designed to provide a stable 1.2V reference voltage, making it highly suitable for applications where power efficiency and reliability are critical. Manufactured using UMC's advanced 0.13 µm technology, it fits perfectly into modern electronic systems demanding precision and stability. This reference circuit exhibits impressive power-saving features, characterized by its zero power supply current, to support extended battery life in portable electronics. Its compact design ensures minimal space requirements, yet it does not compromise on performance, thanks to its sophisticated layout that minimizes thermal errors and offsets. Ideal for integration in a wide array of circuits, the BG-1V2-U's performance excels in both digital and analog designs. The circuit is particularly advantageous for use in voltage-sensitive devices like ADCs, DACs, and other precision electronic applications, ensuring optimal operation and minimal drift over varying conditions.
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 Goliath is a large-format solid-state battery designed primarily for electric vehicles and cordless electronic devices. It utilizes an oxide solid electrolyte coupled with a silicon anode, which provides significant safety benefits over traditional lithium-ion batteries. These cells are capable of operating at higher temperatures, simplifying battery management systems and presenting a safer, more robust solution for energy storage. This results in a lightweight battery with high energy and power density, supporting extended driving ranges and faster charging times, which align with the evolving needs of the automotive industry and consumer electronics. Ilika has also established a Lead Partner Program for Goliath batteries, inviting OEMs and Tier 1 manufacturers to collaborate. This initiative allows partners to gain early insights into development progress, receive access to physical prototypes, and potentially influence the specifications of the cell. The development of Goliath not only focuses on performance but also scalability. The company is preparing to scale up production to MWh scale at their pilot facility, ultimately planning for giga-scale production through technology licensing. This strategic advancement is achieved through collaborations with industry partners, emphasizing Ilika’s readiness to transition Goliath batteries to a commercial scale.
The pPOR01 is a power-on reset solution developed by Perceptia, designed to support stable system initialization processes. This component is essential for digital systems requiring robust reset mechanisms that can withstand the challenges of power transitions and fluctuating states. Integrating the pPOR01 into a variety of semiconductors enhances system reliability by ensuring devices return to a defined state upon start-up or after power interruptions. This feature is crucial for maintaining the integrity and performance of advanced digital circuits. Constructed with a focus on efficiency, the pPOR01 accommodates diverse system requirements, making it an ideal choice for enhancing the dependability of complex semiconductor designs. Its functionality supports broad application scenarios, providing a reliable reset strategy pivotal for modern digital architectures.
This General-purpose Low Dropout Regulator (LDO) is engineered to offer a variable load current output of 150mA, 300mA, or 450mA. It is designed for applications demanding efficient power regulation with low quiescent current requirements, which is crucial in portable and battery-operated devices. The LDO supports an input voltage range from 1.7V to 5.5V and provides a regulated output between 0.8V and 4V with a grounding current of less than 20μA, enabling high-efficiency operation across a wide load spectrum. It integrates high precision, maintaining an accuracy of 2% in voltage regulation, making it ideal for sensitive applications that require stable power. Manufactured using Magna's 130nm and 180nm process technologies, it ensures consistent performance and reliability. Its proven silicon capability further solidifies its suitability for diverse electronics needing robust voltage regulation.
Advanced Silicon's high-voltage integrated circuits are engineered to drive thin-film electronics and other complex switching devices. These ICs include both standard two-level and sophisticated digital-to-analog converters, providing varied grey scale outputs tailored for precise driving in device applications. Particularly designed for thin film technologies such as amorphous and low-temperature polysilicon, these high-voltage ICs cater to high pin count scenarios, making them suitable for applications ranging from flat panel displays to medical imaging, where precision and robustness are crucial. The line drivers in this series excel in environments demanding high radiation hardness and feature up to 512 output channels, supporting complex digital X-ray detector setups. Moreover, DAC drivers within this IC range cater to industries requiring detailed analog signal control, providing high-resolution outputs up to 1024 voltage levels. These features enable Advanced Silicon's high-voltage ICs to be integrated across a broad spectrum of advanced technology sectors.
VivEng's LDO for 5V input delivers a consistent output voltage, essential for applications requiring stable power supplies. Catering to a 1.8V output with a load current of 20 mA, this LDO is designed to operate without the need for an external capacitor, enhancing its integration into compact designs. This LDO operates efficiently even when the input voltage falls to 1.6V, ensuring saturation-safe operations. Such attributes make it an ideal choice for portable and low-power applications.
Designed for high-power delivery, the Voltage-mode Buck Converter is capable of handling currents up to 3A, tailored for use in applications such as power supply modules and automotive electronics. The device operates over an extensive input voltage range of 4.5V to 48V, delivering an output voltage between 5V and 20V, ensuring broad utility across varied voltage requirements. This voltage-mode buck converter maintains high efficiency and power density, benefiting from a tightly controlled regulation which assures power stability and performance in high-load scenarios. It is particularly suited for applications where high input voltages need efficient down-conversion. The converter is developed using X-FAB's 180nm process node, reflecting its robust design and silicon-proven efficacy, equipped to tackle the demands of high-voltage applications while ensuring energy efficiency and performance.
VivEng's LDO designed for 3.3V input stands out with its capability to ensure a stable 1.2V output at varying load conditions, specifically supporting up to 50 mA without the necessity for external capacitors. This feature affords it greater flexibility and ease of application integration, whether it’s needed for low-power consumer electronics or other sensitive electronic systems where space-saving and efficiency are critical.
X-REL engineering tackles the challenging environments of high temperatures and extreme conditions, offering components that operate reliably from -60°C to 230°C. These products serve industries such as oil, gas, automotive, aerospace, and energy sectors where durability and performance are critical. The XTR product line, offering ceramic and metal packages, has been further refined with the XER series to include plastic encapsulated ICs suitable for slightly cooler applications at a more economical cost, providing high reliability across less severe environments.
The CC-100IP RF is designed to mitigate RF emissions within integrated circuit power grids. This on-chip solution not only reduces emissions but also enhances cybersecurity measures by decreasing up to 40% of digital dynamic currents. By establishing the lowest impedance point within the power grid, the CC-100IP RF achieves significant improvements in supply filtering efficiency, boasting up to a 600-fold increase in reservoir capacitance. This robust RF and EMI reduction capability within IC power grids positions it as a crucial asset in maintaining optimal operational conditions.
The Power Management IC developed by CoreHW is engineered to efficiently control power distribution in complex electronic systems. It combines high efficiency with flexibility, managing various voltages and currents to optimize power usage across devices. Designed with advanced power-saving techniques, this IC supports dynamic power management, reducing energy consumption during periods of low demand. This capability is vital for extending battery life in portable electronics and enhancing performance in larger systems. CoreHW's Power Management IC is also built with robust protection features, safeguarding against overcurrent and overvoltage scenarios. These features, coupled with its ability to manage power across multiple domains, make it indispensable for modern consumer and industrial applications.
The 16mA 4V Voltage Regulator is designed to provide stable and reliable power delivery for various components in electronic systems. It maintains a consistent output under varying loads and conditions, ensuring optimal performance of the associated devices. This regulator is ideally suited for use in low-power applications where precision and reliability are essential.
The CM1713ff is a meticulously engineered Li-Ion battery charger that excels in delivering precision charging capabilities, marked by its +/-1% voltage accuracy. It supports a fast charge current reaching up to 1500mA, making it highly suitable for applications demanding rapid energy replenishment. Implemented in a 0.18μm BCD process by SilTerra, this product is now in production, attesting to its reliability and effectiveness. Key features of the CM1713ff include integrated protection mechanisms to ensure safe and efficient battery charging, reducing risks associated with overcharging or excessive currents. Additionally, it offers compatibility with USB interfaces, facilitating ease of use across various devices requiring USB-based charging infrastructure. Its robust design, coupled with advanced semiconductor technology, ensures performance in power-sensitive applications such as portable electronics where maintaining battery health is critical. Overall, the CM1713ff is a trustworthy solution for manufacturers aiming to integrate reliable battery management functionality into their products.
The SoC Management technology by Sondrel is a comprehensive suite dedicated to the oversight of system start-up processes, along with clock and reset control, and handling of power domains. Central to this suite is the Power Management Unit (PMU) which oversees the SoC's initialisation, allowing for dynamic software-controlled power-ups and shutdowns of digital domains. It is proficient in reset management and addresses system faults by deploying preventive measures like shifting the system to 'Safe-Mode' during functional safety anomalies. Another component, the Universal Reset Generator (URG), serves an essential role in reset management tailored to the intricate logic systems within an SoC. The URG is designed to be lightweight yet scalable, facilitating multiple instances across multi-power-domain SoCs for intricate reset control. Its adaptable design leads to effective reset sequencing without compromising on complexity handling, stemming from a variety of hardware and software-driven events. Complementing these is the Universal Clock Generator (UCG), tasked with the meticulous management of on-chip clock systems. Accommodating numerous clock sources, the UCG enables the independent configuration of up to 128 clocking channels. It includes mechanisms for design safety and reliability, enabling fault detection in clock sources to maintain system stability. By incorporating such nuanced and flexible technologies, Sondrel's SoC Management suite stands as an integral solution for managing complex chip architecture systems.
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.
A comprehensive photonic interconnect that delivers exceptionally high data throughput across various communication channels. It integrates seamlessly with existing systems to enhance performance in broadband applications. Designed for scalability, it supports significant data loads without compromising speed or reliability. Featuring low power consumption, its operation is both cost-effective and environmentally sustainable. The integration helps eliminate bottlenecks typically associated with high-volume data transfer, ensuring smooth and efficient data management across platforms.
MosChip's Mixed-Signal IP Solutions integrate both analog and digital functionalities to create efficient, high-performing systems. These solutions are critical for applications where precision and performance are paramount, such as in data converters, amplifiers, and clock management systems. By combining these elements, MosChip's mixed-signal IPs deliver enhanced signal processing capabilities and improved integration into broader systems, making them ideal for communications, industrial, and consumer electronics applications. The expertise of MosChip in this domain ensures that these solutions are not only technically sound but also adaptable to specific customer needs.
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