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.
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 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.
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.
Pacific MicroCHIP's REFS serves as a reliable band-gap and PTAT current reference suited for mixed-signal and RF ICs. It offers multiple output current settings, enhancing compatibility across varied circuit designs for consistent performance.
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 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 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 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.
Vantablack S-VIS is a revolutionary space-qualified coating renowned for its unparalleled ability to suppress stray light. This is crucial for enhancing the performance and precision of optical instruments used in space applications. With its spectrally flat absorption capabilities extending from the UV range to the near-millimeter (THz) range, Vantablack S-VIS significantly improves light absorption, reducing interference and enhancing image quality. The coating has demonstrated exceptional performance in harsh environments, thriving under the intensity of solar, lunar, and terrestrial light in a zero-gravity context. Its deployment has resulted in lighter and smaller calibration systems and baffles, which is critical for space-bound equipment where size and weight are significant constraints. These coatings enhance emissivity across the IR spectrum, making them ideal for blackbody calibration in IR cameras and other sensitive optical systems. Since its initial deployment in low Earth orbit, the Vantablack S-VIS has amassed a significant track record of success in space missions. It possesses excellent thermal stability and is resistant to radiation and extreme vibrational forces, ensuring reliability and longevity in challenging space conditions. These attributes, coupled with its lightweight nature, make Vantablack S-VIS an optimal choice for advanced space imaging technologies.
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 mmWave PLL provided by CoreHW is a high-precision fractional-N PLL designed for use in demanding wireless communication systems and radar applications. Operating primarily between 19 and 81 GHz, it features an adaptable frequency synthesizer with low phase noise, suitable for fast frequency chirp generation in FMCW radar systems. The design itself is frequency-scalable, allowing for customization over a wide range of mmWave frequencies.\nThe PLL integrates several key components, such as frequency multipliers that extend the range to radar frequency bands between 38-40.5 GHz and 76-81 GHz. CoreHW's mmWave PLL also offers the capability of Linear Frequency Modulation, essential for applications needing reliable chirp modulation, alongside a built-in sequencer for calibration and testing.\nThe technology used in this PLL falls under GlobalFoundries' 22FDX™ process, which ensures low power consumption, operating from voltages of 0.8V for IO and 1.2V for the RF sectors, supporting an ambient temperature spectrum of -40 to 125 degrees Celsius. The compact design ensures minimization of the area required on silicon, enhancing its applicability in advanced automotive and communication infrastructure.
CoreHW's Power Management ICs encompass a range of solutions including DC-DC converters and linear voltage regulators designed to deliver efficient power management for modern electronic systems. These products offer a high level of integration, providing stable and reliable power delivery, which is critical for high-precision applications.\nThe selection of DC-DC converters includes both down and up voltage topologies, tailored to enhance power management by optimizing voltage regulation and conversion efficiency. Coupled with features like minimal noise and high integration, these solutions are perfect for demanding applications in a variety of sectors.\nFurthermore, the LDOs are manufactured to ensure consistent power supply, available in both fully integrated options and those requiring external output capacitors. This versatility grants them the adaptability necessary to accommodate a wide range of technological and process requirements, maintaining signal integrity while minimizing form factor.
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 Analog I/O solutions from Certus Semiconductor are crafted to deliver exceptional performance in handling a wide range of electronic signals. These solutions provide ultra-low capacitance and robust ultra ESD protection, essential for safeguarding sensitive components against electrostatic discharge while maintaining signal integrity. Such protection is vital for high-speed data transfers and RF applications, where it minimizes impedance mismatches and maintains accurate signal transmission. Certus Semiconductor's Analog I/O offerings include comprehensive ESD and power clamp integrations, essential for high-frequency and power-efficiency demand in various applications. These include GSG/GSPSG RF macro cells, which offer tolerance for wide signal swings, crucial for maintaining performance in high-frequency domains and fluctuating environments. Designed with versatility in mind, these Analog I/O solutions are adaptable for integration into a broad array of processes and platforms, ranging from low- to high-voltage applications. The capability to integrate into RF networks while ensuring minimal interference with existing signal paths makes these solutions a preferred choice for engineers looking to enhance signal performance and reliability.
SiliconIntervention's Fractal-DTM Amplifier stands out as a cutting-edge solution designed to revolutionize Class-D audio driver efficiency. At its core, this amplifier utilizes an innovative architectural approach meant to optimize performance across a wide spectrum of power levels. The amplifier's self-determining ability allows it to dynamically adjust and maximize efficiency, making it a compelling choice for various audio applications. The Fractal-DTM Amplifier's design is optimized to handle diverse operational conditions while maintaining superior power efficiency. This unique feature positions it as a leader in real-world audio solutions, offering unparalleled performance reliability. Those in the audio processing arena will find this technology particularly beneficial as it brings unprecedented enhancements in the way high-power operations are conducted with minimal power wastage.
The aLFA-C product is an advanced interfacing ASIC designed for space applications, specifically for infrared readout ICs (ROICs) and other image sensors. It integrates much of the typical front-end electronics infrastructure in a single solution, offering versatility through features such as operation on a single unregulated supply using onboard LDOs and regulators, and compatibility with external clocks or crystal oscillators. Communication with external devices is achieved via a SpaceWire interface, and a programmable sequencer with 8 levels of nesting enhances the control towards the ROIC. Capable of handling 32 programmable digital outputs, the aLFA-C also allows the customization of input thresholds and output formats, supporting CMOS, LVDS, and CML. Its analog acquisition system includes 32 signal channels plus 4 reference channels, each with differential or single-ended input capability and 16-bit ADC resolution. The ADCs are equipped with features like calibration and post-correction, supporting various configurations for enhanced speed and performance. Additionally, the aLFA-C provides several programmable voltage sources and current outputs, accompanied by measurement capabilities for resistance, voltage, and current, making it extremely flexible for a wide range of applications. Its design is robust against radiation, exhibiting tolerance against TID, SEU, and SEL, and operates efficiently in temperatures from 35K to 330K, making it ideal for the harsh environments of space.
The BG-1V2-U is a remarkably low-power bandgap reference circuit that delivers a stable voltage reference of 1.20V. Crafted by UMC using a 0.13 µm technology, this circuit ensures minimal power consumption and enhanced precision, making it an excellent choice for applications that demand consistent performance over a broad range of temperatures. When it comes to designing stable analog circuits, the BG-1V2-U excels with its low power requirements and precise voltage reference output. This bandgap circuit is particularly suitable for battery-operated devices where conserving power is crucial yet consistent performance cannot be compromised. The BG-1V2-U's ultra-low power consumption makes it ideal for integration into portable and hand-held electronic devices, where long battery life is essential. By maintaining a dependable voltage reference, it supports the smooth operation of analog components and ensures overall system stability.
The FCM1401 is an innovative power amplifier that showcases the company's patented Dual-Drive™ technology. This technology sets the standard for power amplifier efficiency in the market, validated on a CMOS SOI platform and adaptable across other silicon formations like GaAs, GaN, and SiGe. The FCM1401 efficiently operates at 14.5 GHz, offering both high performance and reduced silicon area requirements, ensuring substantial efficiency gains for wireless communication devices. The core of the FCM1401 boasts a dual-drive architecture that permits unmatched power efficiency, with a significant improvement over traditional designs. It delivers a PAE of up to 53% in a two-stage setup and maintains a high drain efficiency, even under demanding conditions, making it an excellent choice for space communications and other high-frequency applications. With reductions in size and improvements in output, this amplifier meets rigorous demands for modern telecommunication standards. Engineered for a supply voltage ranging from 1.6V to 2.0V, the FCM1401 manages to sustain efficiency without compromise. It is designed to increase the range and reduce power consumption, which is crucial in minimizing environmental impact and promotes longer battery life in mobile devices and other portable technology.
Presto Engineering offers a comprehensive range of foundational and platform-specific semiconductor IPs designed to meet diverse application needs. The Foundation IP includes a wide array of vital circuit blocks, such as high-accuracy sensors, digital controllers, and interface blocks. These fundamental IPs aim to reduce ASIC development risks by leveraging proven components like secure encryption blocks with low power consumption or analog front ends with enhanced specific capabilities. The Platform IPs, on the other hand, provide extensive customization options from functional design to optimized power efficiency. Users can expect specialized analog front ends tailored to demanding specifications such as high-dynamic optical handling, ultra-low-power motion ISP, and MCU integration. Moreover, RFID/NFC/UHF/ISM connectivity solutions are part of this lineup, all of which contribute to efficient energy management and harvesting applications. Presto Engineering's semiconductor IP offerings are geared towards enabling rapid development and ensuring cost-effective project realization, which in turn helps firms achieve faster market entry. By providing validated and efficiently designed IPs, Presto supports clients in overcoming both technical hurdles and market competition, facilitating successful product integration and implementation.
The eSi-Analog portfolio is crafted to integrate vital analog functions into custom ASICs and SoCs, optimized for a variety of applications. This low-power and silicon-proven technology adapts to meet specific project requirements, blending seamlessly with leading foundry processes. The analog IPs can include amplifiers, A/D and D/A converters, and other critical components. These IPs are fully flexible, adaptable, and provided with significant configurability, ensuring that custom specifications can be met with precision. This tailored approach supports a range of sectors from automotive to healthcare, enabling critical analog functionalities in compact and power-efficient designs.
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.
ISELED Technology is a joint development of INOVA for implementing advanced self-contained lighting solutions in automotive interiors. This technology integrates the LED driver within the RGB LED, greatly simplifying the design and assembly process while enhancing functionality. Each Smart RGB LED can perform internal temperature compensation and store calibration data. ISELED systems allow for daisy-chain configurations with up to 4,079 LEDs, controlled via a simplified digital 24-bit color value. This integration significantly lowers system costs and improves the overall vehicle design and manufacturing process.
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.
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.
Tower Semiconductor's Bipolar-CMOS-DMOS (BCD) technology is a groundbreaking solution for power management applications, optimized for high performance and efficiency. This technology stands out with its ability to handle a wide voltage range up to 700V, supporting both low and high-power applications. With a strong focus on scalability, Tower Semiconductor integrates low Rdson LDMOS and diverse isolation schemes for enhanced digital capabilities. The BCD technology is pivotal for automotive, industrial, and consumer applications, well-suited for use in DC-DC converters, motor drivers, and voltage regulators. Its versatility across power ranges and circuit integrations reflects Tower Semiconductor's unyielding dedication to flexible and customizable design solutions. Substantial investments in R&D further the technology's development path, ensuring it meets evolving industrial demands with reliable, cost-effective solutions. Manufactured on 8'' and 12'' wafers across worldwide facilities, Tower Semiconductor's BCD technology offers unmatched operational flexibility and steady production capabilities. The combination of high power density and rapid design deployment garners swift time-to-market for consumer, automotive, and communication products. As a result, it firmly anchors Tower Semiconductor's reputation as a leader in power management innovation.
The FCM3801-BD represents peak innovations in power amplifier technology developed by Falcomm. Operating at 38 GHz, this power amplifier utilizes the Dual-Drive™ technology to facilitate superior performance metrics, aligning with modern high-frequency communication needs. It is crafted to enhance signal strength while minimizing power consumption, which is quintessential for space communications and wearable devices. This power amplifier capitalizes on proprietary advancements to ensure high power-added efficiency, maintaining structural and operational integrity even at elevated frequency operations. Such advancements integrate well with telecommunication technologies, providing a pathway for enhanced communication efficiency and reduced energy expenses. Suited for compact and space-conscious designs, the FCM3801-BD is designed to support a supply voltage range from 1.6V to 2.0V. It delivers elevated performance with remarkable power savings, aligning with the environmental goals of reduced carbon footprints. This amplifier's design encourages longer-lasting device operation between charges, appealing to telecommunications providers focusing on efficiency and sustainability.
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.
Perceptia’s pPOR01 acts as a critical module in digital systems, offering reliable power-on reset control essential for ensuring proper initialization and operation of integrated circuits. Designed for versatility, this reset unit is built to operate across various semiconductor technologies, delivering consistent performance without latency across a range of conditions. The pPOR01 module is notable for its compact design, allowing it to fit easily into a wide range of system architectures without imposing major area or power constraints. Its architecture is robust, incorporating essential features that assure reliable reset functionality in complex systems, regardless of fluctuations in power supply levels. Well suited for systems needing dependable power transitions, the pPOR01 supports broad industry standards and simplifies the integration process with comprehensive design support. As part of Perceptia’s robust IP offerings, the pPOR01 distinguishes itself by ensuring smooth power transitions that maintain system integrity and performance across varied operational scenarios.
The VR-3V3-1V2-1-55-U is a meticulously engineered voltage regulator that transitions a 3.3V input to a stable 1.2V output. Manufactured with UMC's advanced 0.06 µm process technology, this regulator is compact, featuring a tiny area footprint of just 0.053406 mm2. Its output is consistent and robust, with an impressive PSRR (Power Supply Rejection Ratio) of 40 dB. This voltage regulator is especially tailored for scenarios that necessitate precise voltage regulation with high efficiency and low power dissipation. Its compact design and high performance are ideal for portable electronics and battery-powered applications where space and energy efficiency are paramount. The VR-3V3-1V2-1-55-U stands out for reducing power consumption while maintaining consistency, making it an excellent choice for systems where power efficiency and size constraints are significant considerations. With a maximum output current of 1mA, it is well suited to support a variety of low-power electronic applications.
The FCM2801-BD is a dual-drive power amplifier developed to cater to the high demands of modern and future wireless communication technologies. Designed for operation at 28 GHz, it leverages Falcomm's Dual-Drive™ technology to achieve record efficiencies in space-sensitive environments, making it ideal for telecommunications and wearable device applications. This power amplifier surpasses typical market offerings in its class by delivering outstanding power efficiency and maintaining minimal silicon area usage. The FCM2801-BD offers a core efficiency that contributes significantly to reducing power consumption, providing an eco-friendly solution designed to enhance device durability by extending battery life. With advanced capabilities for increasing signal range, it is well-suited to intensive applications where energy conservation and performance are key. The FCM2801-BD is also characterized by its consistent drain efficiency across varying supply voltages, offering operational stability between 1.6 and 2.0 volts without impacting its efficiency negatively. The product provides a robust answer to the challenges of next-generation telecommunication devices, ensuring environmental benefits alongside technological advancements.
SystematIC's Power Conversion and Management Systems are designed for efficiency and scalability, addressing diverse power requirements in consumer electronics, industrial controls, and automotive systems. These systems incorporate state-of-the-art technologies for linear and low-dropout regulation, DC-DC conversion, and high-voltage switching. By reusing proven IP blocks, SystematIC accelerates development timelines while ensuring high performance and reliability. The integration of power management functions into a single, comprehensive system offers significant advantages, from improved power efficiency to enhanced thermal management.
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 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.
Saankhya Labs' 5G Remote Radio Unit is an ORAN 7.2x compliant device, designed to provide multiband support for next-generation 5G networks. This unit plays a pivotal role in facilitating advanced wireless communications by connecting cellular base stations to the core network efficiently and seamlessly. Its support for multiple frequency bands allows it to cater to diverse communication needs, making it a versatile solution for modern cellular infrastructure. This adaptability is coupled with robust performance capabilities, ensuring reliable connections across varied geographies and network conditions. Specially built to enhance network capacity and data throughput, the 5G Remote Radio Unit enhances interoperability with existing and upcoming network technologies, ensuring smooth transitions and backward compatibility. It is especially suitable for deployment in dense urban environments and underserved rural locations, aiding in bridging the communication divide.
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 High-Voltage ICs provided by Advanced Silicon include a comprehensive range of solutions for operating Thin Film technologies. These circuits enable efficient management of TFT technology through precise DAC drivers with high-resolution output channels. Applications range from driving OLED and LCD technologies to MEMS devices. They are particularly known for their ability to handle high thermal loads and radiation environments, making them suitable for the demanding field of digital flat-panel X-RAY detectors. Their versatility extends to flat panel displays where precise analog driving of capacitive loads is essential.
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.
The AC LED Driver IC is designed to directly power LED strings from the rectified mains, making it suitable for various LED applications. This high-voltage IC supports global mains voltages and configurations, including compatibility with conventional TRIAC dimmers. Its architecture requires minimal additional components, fostering a cost-effective yet reliable LED lighting solution. The development was highly interactive with customer inputs ensuring that the system’s performance and adaptability meet diverse lighting needs, from simple to complex configurations, leading to a robust, programmable, and flexible LED driver solution.
X-REL by EASii IC focuses on high-reliability semiconductor components designed to thrive in extreme conditions, with temperatures ranging from -60°C to +230°C. These ICs are crafted to support various industries including aerospace and automotive, ensuring longevity and system cost reduction over the product lifecycle. X-REL offers components in various packages such as ceramic, metal and plastic, catering to environments with less temperature constraints, where adaptability is key. The product line supports applications in oil, gas, and transport industries, presenting designs that withstand severe conditions without compromising performance or reliability.
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) is a critical component in enhancing the efficiency of RF power amplifiers, an essential part of modern telecommunications infrastructure. This technology works by mitigating signal distortion produced by power amplifiers' inherent nonlinearities, thus ensuring a clean and strong signal transmission without extensive power wastage. The process involves pre-correcting the input signals in such a way that the inevitable output distortion is effectively compensated, leading to higher efficiency and performance of RF transmitters. DPD technology is invaluable in applications that require high precision signal delivery, including wireless communications and broadcasting, where maintaining signal integrity and reducing interference is crucial. In addition to improving amplifier efficiency, DPD also leads to cost savings by reducing the energy requirements for transmitting high-quality signals. As wireless data demands escalate, technologies like DPD become increasingly important for meeting the quality standards expected by consumers and regulatory bodies alike. This technology stands as a testament to Faststream's commitment to advancing telecommunications capabilities efficiently.
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.
Crest Factor Reduction (CFR) technology is a sophisticated signal processing technique that addresses the challenges faced by power amplifiers in handling peak power demands. By managing the peak-to-average power ratio (PAPR), CFR helps to ensure that power amplifiers operate efficiently, thus reducing the burden on power supplies and improving overall system reliability. CFR is pivotal in telecommunications, where signal spikes can cause inefficiencies or even damage to the system. This technology carefully adjusts signal peaks to manageable levels without compromising the quality of the transmitted information, thereby extending the life span of equipment while reducing operational costs. The implementation of CFR can lead to substantial cost savings associated with power efficiency and infrastructure longevity. It also enhances the ability of providers to meet regulatory and performance standards in modern communication systems, positioning the technology as a vital tool in the arsenal of those aiming to maintain top-quality service in high-demand scenarios.
This high voltage boost converter is capable of outputting up to 100V while offering programmability for both voltage and switching frequency. The unit is powered by a 3.5V to 5.5V supply voltage, with an internal reference voltage and external FET switch to enhance performance. These features make it ideal for applications requiring substantial voltage boosting while maintaining precise control over frequency to optimize performance and power efficiency. The design supports a wide range of industrial and consumer electronics that demand reliable high-voltage operation.
The Bandgap Voltage Reference is a pivotal component in ensuring stable voltage outputs across a range of environmental conditions. Delivering a precise reference output of 1.2V, the design focuses on achieving high stability by compensating for temperature variations and line voltage shifts, thus ensuring consistency in reference accuracy. Integrated into multiple voltage and node applications, this reference is tailored to support diverse circuits requiring precise voltage regulation. Its design incorporates output current capability and temperature compensation, making it adaptable to various configurations. Suitable for a spectrum of applications, from consumer electronics to automotive systems, this bandgap reference integrates seamlessly into environments where short-term response and long-term stability are crucial, helping to maintain operational reliability and efficiency in complex systems.
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 High-Performance Photonic Interconnect by Pacific MicroCHIP is a sophisticated solution tailored for advanced telecommunications applications. It seamlessly integrates with other optical components and delivers exceptional data throughput, enhancing speed and efficiency in communication systems. This product is critical for modern networks needing robust connectivity at lower latency levels.
The ARKS55LP_LDO100 is a low dropout voltage regulator that offers a dependable linear power supply solution ideal for compact electrical designs. Functioning with an input range from 2.97V to 3.36V, it consistently maintains an output voltage of 1.2V while delivering a current of up to 100mA. It is engineered to cater to devices requiring high stability and low power operation. Fabricated using SMIC's 55nm process, this LDO is silicon-proven and ensures minimal power dissipation, making it a suitable choice for low power applications. Its low-profile design allows seamless integration into space-constrained devices, and by maintaining efficiency, it supports longevity in portable electronic products. The features of the ARKS55LP_LDO100 make it advantageous for use in various sectors, including telecommunications, computing, and consumer electronics, where power efficiency and reliable performance are crucial.
Voltage regulators from ASIC North are developed to provide reliable and efficient power management solutions, critical for maintaining stable voltage levels in electronic circuits. These components are designed to deliver precise output voltage under varying load conditions, ensuring the longevity and performance stability of the electronic systems they support. Efficiency and robustness are key hallmarks of these regulators, tailored for optimal performance in both industrial and consumer applications.<br><br>ASIC North's voltage regulators are engineered to address the specific power requirements of modern electronic devices, minimizing power loss and enhancing battery life. These solutions are a testament to ASIC North's commitment to power efficiency and innovation, integrating features that facilitate seamless integration into diverse electronic architectures.<br><br>By employing advanced fabrication techniques and rigorous testing methodologies, ASIC North guarantees high reliability and adherence to industry standards, positioning their voltage regulators as indispensable components in today's power-sensitive applications.