All IPs > Analog & Mixed Signal > A/D Converter
In the realm of Analog & Mixed Signal technology, A/D Converter semiconductor IPs play a critical role. These IPs, also known as Analog-to-Digital Converters, are essential components in modern electronics that convert real-world analog signals, such as sound, light, or pressure, into digital signals that can be processed by digital circuitries. This conversion is vital for various applications across several industries, including telecommunications, healthcare, consumer electronics, and automotive sectors.
The primary function of an A/D Converter semiconductor IP is to enable seamless interaction between analog input sources and digital processing units. High-quality A/D Converters ensure accurate data capture and conversion, minimizing loss of information during the transformation process. As the demand for more precise and faster data processing increases, the importance of these IPs grows, driving innovations in resolution, sampling rates, and power efficiency.
In Silicon Hub’s A/D Converter category, you'll find a diverse range of semiconductor IPs tailored to meet specific needs of system designers and engineers. Whether you require low-power solutions for battery-operated devices or high-speed converters for data-intensive applications, our catalog offers the perfect fit. Products range from delta-sigma modulators for audio applications to high-speed pipeline converters often used in video processing or RF communication systems.
Developers and manufacturers can greatly benefit from integrating these cutting-edge A/D Converter IPs into their electronic designs. They not only improve the functionality and accuracy of electronic devices but also enable the creation of innovative products that respond adeptly to the challenges of the modern digital era. Explore Silicon Hub’s collection today to find the right A/D Converter IP that matches your technical requirements and enhances the performance of your products.
The agileADC analog-to-digital converter is a traditional Charge-Redistribution SAR ADC that is referenced to VDD, VSS. The architecture can achieve up to 12-bit resolution at sample rates up to 64 MSPS. It includes a 16-channel input multiplexor that can be configured to be buffered or unbuffered, and support differential or single-ended inputs. 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 ADQ35 offers a dual-channel, 12-bit configuration with a sampling rate of up to 10 GSPS. This digitizer is designed for high-performance applications, featuring up to 2.5 GHz input bandwidth and a programmable DC-offset. With 8 Gbyte onboard memory and an open FPGA, it allows custom real-time digital signal processing. It supports peer-to-peer streaming at rates up to 14 Gbyte/s, making it ideal for scientific and industrial applications.
The KL730 AI SoC is powered by Kneron's innovative third-generation reconfigurable NPU architecture, delivering up to 8 TOPS of computing power. This architecture offers enhanced efficiency for the latest CNNnetwork architectures and serves transformer applications by reducing DDR bandwidth requirements significantly. The chip excels in video processing, supporting 4K 60FPS output and excelling in areas such as noise reduction and low-light imaging. It's ideal for applications in intelligent security, autonomous driving, and video conferencing, among others.
This is a high-performance, single-channel, 12-bit analog-to-digital converter (ADC) capable of achieving a sampling rate of up to 1 MSPS. It is designed for optimal precision in digitizing analog signals into a digital format. The architecture of this ADC is tailored to ensure rapid data conversion while maintaining exceptional accuracy and resolution, making it well-suited for applications requiring high-speed data acquisition and precise measurements. Its compact design integrates effectively into various systems, providing flexibility and efficiency for designers seeking crisp resolution and fast processing speeds in their electronic products.
XDS serves as an all-encompassing platform for RF and microwave circuit design, unifying schematic and layout simulations across different scales. This software features extensive RF libraries and integrates linear circuit, spice, and MoM electromagnetic field solvers to handle diverse engineering needs. Its advanced technology supports automatic LC filter synthesis, optimizing the design of RF passive components. By managing third-party device libraries and facilitating efficient field-circuit simulations, XDS is a preferred choice for both preliminary and advanced stages of RF circuit development, ensuring high-precision and high-reliability results.
The 3D Imaging Chip developed by Altek is a remarkable example of cutting-edge imaging technology, tailored to meet the evolving needs of industries that require three-dimensional image capture. This chip is designed to provide high-resolution 3D images, making it ideal for applications in areas such as augmented reality, virtual reality, and industrial automation. The chip integrates advanced depth-sensing capabilities, ensuring that it can capture intricate details with high fidelity. This feature is particularly beneficial for tasks that require precise measurements and accurate representations of spatial relationships, such as in robotics and autonomous systems. The 3D Imaging Chip's robustness also contributes to its functionality in challenging environments, making it suitable for a variety of industrial applications. Additionally, this chip is engineered to operate efficiently, incorporating power management techniques that enhance its performance while minimizing energy consumption. Altek's focus on innovation is evident in the chip's ability to deliver enhanced depth perception and its integration with AI technologies, which significantly expand its application potential.
The AFX010x Product Family serves benchtop and portable data-acquisition systems, offering up to four channels with a resolution reaching up to 16 bits. It boasts a sampling rate capability of up to 5 GSPS, supported by a digitally-selectable 3dB bandwidth extending to 300 MHz. Integrated features such as a single-to-differential amplifier and offset DAC make it a comprehensive solution for high-resolution systems. The family includes products suitable for a variety of applications, ensuring high signal integrity and power efficiency. This product line is engineered for minimal power consumption while maintaining high sampling rates and wide bandwidth. Each AFE IC encompasses four independent, highly integrated channels. These channels feature programmable input capacitance, a programmable gain amplifier (PGA), offset DAC, ADC, and a digital processor. The AFX010x products are pin-to-pin compatible in a standard package, designed for high integration and reduced PCB footprint. The product's versatility is highlighted by features such as the capability to choose different power modes, allowing adaptability to specific needs. With low power consumption and advanced on-chip technology like clock synthesizers, these products offer exceptional configurability and SWaP-C optimization. Applications extend to areas like handheld and benchtop oscilloscopes, non-destructive testing, and noise diagnostics.
Hermes X3D excels in electromagnetic simulation of advanced electronic packages and passive interconnects, essential for high-speed digital designs. It uses a quasi-static algorithm to extract RLGC parameters and generate SPICE models, which are crucial for system analysis regarding signal and power integrity and electromagnetic compatibility. Hermes X3D facilitates parasitic parameter extraction, supporting low-frequency precision and swift processing speeds, making it ideal for designing touch screens and other electromagnetic applications that require accurate capacitance analysis.
The MVPM100 Series sensors advance particulate matter detection by integrating microsystem technologies traditionally seen in larger devices, into a more compact and accurate format. Unlike conventional optical solutions, these sensors provide direct measurement of particle mass, offering precision and reliability in diverse applications, from air quality monitoring to industrial environments.
Hermes Layered stands as a leading solution for electromagnetic field simulations, particularly for complex systems needing board-level, IC, and package simulations. Developed with a full-wave high-precision EM simulation engine, it supports extensive simulations of every conceivable 3D structure from nanometer to centimeter scales. Hermes Layered's distributed parallel computing capabilities allow users to leverage powerful computing resources for fast, detailed model simulations. This tool is indispensable for industries that require accurate and quick iterations of design, supporting a variety of simulations from signal integrity to full system integrity.
SnpExpert is a specialized tool for analyzing S-parameters in high-speed and RF circuits, crucial for addressing issues such as reflections and crosstalk. Supporting a range of COM protocols, SnpExpert offers advanced analysis features like parameter extraction and margin calculations. It also facilitates the creation of broadband models using rational fitting, ensuring users can design optimized signal paths. Whether handling NRZ or PAM-4 modulations, SnpExpert provides engineers with the detailed insights needed for precise signal integrity analysis and system compliance.
The Vantablack S-VIS coating is specifically tailored for space applications, where it serves a crucial role in suppressing stray light in optical systems and blackbody calibration of infrared camera systems. Its exceptionally high performance and spectrally flat absorption from the UV to the near-millimeter spectral range make it indispensable for ensuring accurate readings and operations in the challenging environment of space. One of the prominent applications of the S-VIS coating is in the reduction of launch weight for instruments, thanks to its ability to absorb light efficiently from all angles. This not only enhances the operation of devices like star trackers and optical calibration systems but also minimizes the overall size and complexity of these systems, offering significant cost savings. This coating has proven its reliability in harsh space conditions since its first deployment in low Earth orbit in 2015. Its capabilities in outgassing management and thermal stability are well-documented, making it a trusted solution for enhancing the operational longevity and performance of space missions.
eSi-Analog delivers integrated analog solutions that enhance the performance of custom ASICs and SoCs. The IP range includes oscillators, PLLs, and sensor interfaces, critical to developing high-fidelity analog functionalities. Designed for low power consumption, these solutions are adaptable to customers' requirements, ensuring expedited time-to-market. Silicon-proven across multiple process nodes, eSi-Analog enables innovative designs in competitive, dynamic industries. With a focus on reducing integration complexity and costs while maintaining high performance, eSi-Analog serves crucial roles in various applications, such as IoT devices, wearables, and medical systems, benefiting from the reliable analog performance.
Advanced Silicon's Sensing Integrated Circuits (ICs) provide versatile solutions for various sensor system needs, ranging from high-performance photodiode detectors to low-noise photon detection pixel arrays. These ICs are designed to significantly enhance system integration while reducing the solution size, power consumption, and cost. By incorporating state-of-the-art technology and providing unmatched design support, these ICs offer both reliability and performance. A key feature of these Sensing ICs is their ability to maintain superior performance metrics such as low noise figures, high linearity of ADCs, and excellent resolution, particularly suited for sophisticated imaging systems such as Digital X-ray Flat Panel Detectors, CT scanners, and even biometric fingerprint detectors. This adaptability makes them a preferred choice for complex input systems requiring high integration and functionality. The multichannel charge sensing ICs come with embedded per-channel analog-to-digital conversion, which ensures outstanding image scanning efficiency. The capacitive sensing models too bring their own strengths, excelling in designing demanding touch screen interfaces. They showcase high sensitivity, superior signal interference rejection, and fast response, essential for both large-screen formats and small-sized rugged touch applications.
Eureka Technology offers a High-Resolution ADC (Analog-to-Digital Converter), renowned for its precise data conversion capabilities vital for applications requiring high accuracy, such as scientific research and industrial control systems. Known for its exceptional signal-to-noise ratio, this ADC is designed to perform in challenging environments while maintaining superior performance. Manufactured with meticulous attention to detail, the High-Resolution ADC integrates seamlessly with diverse systems, providing stable and reliable conversions over a broad range of input signals. Its robust architecture supports a variety of applications, from healthcare devices to electronic consumer products, emphasizing efficiency and reliability. Compliant with industry standards, this ADC's modular design allows for easy customization, adapting to specific project needs without compromising on performance. It ensures efficient power usage, making it an ideal choice for power-sensitive applications where precision and low power consumption are paramount.
Engineered to address high-bandwidth and precision-driven environments, the 14-bit Delta-sigma ADC achieves a remarkable 20 million samples per second (Msps). It's ideally suited for applications requiring high-frequency sampling and superior precision such as medical imaging devices and radar systems. The ADC employs delta-sigma technology with advanced noise shaping for enhanced resolution and reduced quantization error, ensuring that even the most subtle nuances in signal variations are captured and accurately converted to digital form. Leveraging the TSMC 65nm process, it embodies robust performance characteristics and silicon-proven efficiency. The ADC stands out for delivering exceptional conversion accuracy and speed, highlighting its value in modern high-performance signal processing applications.
The MVH4000 Series offers a robust solution for measuring humidity and temperature with high accuracy. These sensors utilize a proprietary Silicon Carbide MEMS technology, promising long-term stability and durability. The rapid response time, low power usage, and compact design make this series ideal for demanding applications, providing exceptional precision in data measurement and transmission.
The ADQ35-WB stands out as a versatile and high-performance data acquisition module, featuring either a dual-channel setting at 5 GSPS or a single-channel mode at 10 GSPS. It boasts a substantial 9 GHz usable analog input bandwidth, rendering it suitable for high-frequency applications. Integrated with an open FPGA, the device enables custom real-time digital signal processing, supports peer-to-peer streaming up to 14 Gbyte/s, and is equipped with hardware triggers for a variety of advanced applications.
RIFTEK's Laser Triangulation Sensors are designed to perform non-contact measurements, crucial for determining positions with extreme accuracy. These sensors are capable of measuring dimensions and displacements over ranges extending from 2 mm to 2.5 meters. With a precision margin of approximately ±1 µm and a sampling frequency reaching up to 160 kHz, these sensors are available in configurations utilizing both blue and infrared lasers, catering to diverse measurement needs. This technology is applied in various domains where exact measurement is pivotal, ensuring measurements are not only accurate but also fast, catering to the demands of high-speed industrial applications.
IRIS is a robust solution for RF and analog IC electromagnetic simulations, crucial for addressing parasitic effects at high frequencies. Integrated with Cadence Virtuoso, IRIS ensures designers can execute precise electromagnetic field simulations within their design environment. It employs advanced 3D planar EM solvers based on the method of moments (MoM) to accurately model materials' skin and proximity effects. Additionally, IRIS facilitates design cycle reduction through parallel processing capabilities and unparalleled integration of front-end and back-end design environments, optimizing both synthesis and verification processes for RF circuits.
The MVWS4000 Series combines humidity, pressure, and temperature sensing in a single, compact digital unit. Engineered with state-of-the-art Silicon Carbide technology, these sensors promise high reliability and performance with ultra-low power consumption. Especially suitable for battery-powered and demanding original equipment manufacturer (OEM) applications, they offer excellent accuracy and stability over time, catering to a wide array of environmental monitoring needs.
This Delta-sigma ADC offers 8-bit resolution at a sampling rate of 2 kilo-samples per second (Ksps), specifically crafted to deliver accuracy in applications like instrumentation and control systems. The converter benefits from the delta-sigma architecture's ability to filter out noise across the sampling band, allowing for precise and accurate digital representation. It uses an advanced digital signal processing methodology to ensure accurate conversion of low-frequency analog inputs into high-resolution digital signals, addressing the needs of systems that must maintain data integrity across slow-changing signals. Manufactured using the 180nm process technology from SMIC foundry, this analog-digital conversion framework ensures silicon-proven capability in supporting industry-standard performance targets, enhancing its applicability in a host of precision-driven electronic systems.
The FCM3801-BD Power Amplifier enhances Falcomm's powerful offerings in the realm of high-performance digital power amplification. Functioning at an impressive 38 GHz center frequency, this device is engineered for ultra-efficient energy solutions in the field of advanced telecommunications. With a design that underscores energy efficiency and reliability, the FCM3801-BD is a key player for telecom operators aiming to optimize power resources. This amplifier's intelligent construction ensures unwavering performance even in challenging conditions, reflecting Falcomm's commitment to sustainability and operational excellence. Ideal for applications such as high-speed data transmission and enhanced signal processing, the FCM3801-BD promises to reduce power demands while delivering high output. This enables telecom providers to pursue eco-friendlier paths in their operations without compromising on service quality or connectivity capabilities.
The 16-bit Sigma-Delta ADC is crafted leveraging the advanced 55nm SMIC CMOS technology, tailored for applications requiring high-resolution audio capture and processing. This ADC features programmable gain and a selectable microphone bias, perfect for audio input, with specialized serial interfaces like PDM, I2S, and TDM. Offering a 16KSPS conversion rate and operating with a wide supply voltage range, it handles audio applications with ease, providing exceptional signal-to-noise ratios and efficient power usage. Its compact design not only ensures low current consumption but also facilitates easy integration into diverse audio systems.
The ADX series encompasses Continuous-Time Delta-Sigma ADCs that are integral to high-speed data conversion. These ADCs leverage a proprietary SCCORE™ technology, facilitating resolutions up to 16-bit across various bandwidth requirements. The ADX ADCs are known for their adaptability in high-speed applications while maintaining low power dissipation and superior signal integrity. Each ADX model is precisely tuned to offer a balance between speed, resolution, and bandwidth, making them suitable for mission-critical communications. The ADCs ensure a reliable performance with enhanced dynamic range, supporting various industries such as Defense, Aerospace, and Test & Measurement. Customization is a key feature of the ADX lineup, allowing integration into diverse system environments. The blend of SCCORE™ innovations within these ADCs helps in achieving optimal signal conversion with minimal noise and distortion.
The ADC offerings at Analog Circuit Works are tailored to exceed commodity designs by optimizing for various resolutions, sample rates, and semiconductor processes. Recognizing that a single ADC design cannot cater to all applications, the company customizes its ADC solutions to meet specific needs. These ADCs are fine-tuned across several semiconductor processes, ensuring that they meet stringent performance parameters that set them apart. Analog Circuit Works’ ADC technology focuses on creating solutions that align with distinct computing or communication requirements. Their approach involves not just meeting but surpassing the performance benchmarks of widely used off-the-shelf options. This customization extends to offering various families of ADCs, each with different resolution and sample rates, thus providing more refined digital representation of analog signals. By leveraging a comprehensive understanding of mixed-signal technology, they provide ADCs capable of integrating smoothly within complex systems-on-chip designs. The emphasis on flexibility and precision makes these converters exceptional choices for customized SoC solutions that require robust accuracy and efficient signal conversion.
The General-purpose SAR ADC is an 8-channel, 12-bit ADC designed to operate at sampling rates up to 1 million samples per second (Msps). This ADC is particularly adept at handling a range of analog signals with precision, making it ideal for various general-purpose applications. Operating with a bandgap reference circuit, it ensures optimal conversion accuracy and stability. The ADC is voltage-operated at 3.3V, which contributes to its efficient power usage, making it well-suited for power-sensitive applications. Developed using the well-proven SAR architecture, it stands out for its high-speed operation without compromising the linear performance of the device. Fabricated on process nodes of 130nm and 180nm with Magna foundry, it demonstrates impressive silicon-proven stability and reliability, ensuring it meets rigorous demands of real-world applications.
TmlExpert is a high-efficiency modeling tool tailored for the precise creation of transmission line models. This software is notable for its speed and ease of use, offering a variety of built-in templates that simplify the modeling of complex scenarios, such as serpentine and tabbed routing, while also providing intuitive evaluation of board-level impedance controls. Leveraging a blend of 2D RLGC, 2.5D MoM, and 3D FEM solvers, it ensures models are both reliable and swiftly generated. TmlExpert’s focus is on signal integrity, allowing users to accurately simulate and assess parameters like impedance and insertion loss.
With its superior resolution and high sampling rate, the ADQ7DC digitizer is designed to improve application performance tremendously. It offers 14 bits of vertical resolution and can operate in a dual-channel mode at 5 GSPS, or a single-channel arrangement at 10 GSPS, with a wide 3 GHz input bandwidth. The digitizer supports a diverse range of applications including mass spectrometry and LiDAR, thanks to its versatile modular setup and peer-to-peer streaming capabilities to GPUs and CPUs.
The Chipchain C100 is a sophisticated, single-chip solution designed for Internet of Things (IoT) applications. It is built around a 32-bit RISC-V CPU operating at speeds of up to 1.5GHz, supplemented by embedded RAM and ROM, ensuring exceptional computational efficiency. The C100 integrates several essential features for IoT use, including Wi-Fi capability, multiple data transmission interfaces, and built-in ADCs, LDOs, and temperature sensors. This integration is aimed at simplifying and expediting application development across various domains ranging from security to healthcare.
FaintStar is an advanced sensor-on-a-chip designed by Caeleste, tailored for high precision applications such as medium-high accuracy star trackers and navigation cameras. Characterized by its 1020 x 1020 pixel configuration with a 10um pixel pitch, this sensor provides superior imaging capabilities required for accurate celestial navigation and rendezvous scenarios. The sensor incorporates 12-bit analog-to-digital conversion which enhances its precision in translating the captured light into digital signals, crucial for detailed image processing and analysis. Additionally, it offers flight-proven reliability with a technology readiness level 9 (TRL9), indicative of its operational success in environments approximating actual missions. FaintStar is radiation-tolerant, making it robust against total ionizing dose (TiD), proton, and other space-related radiation, thus assuring dependable performance in space conditions. It features a SpaceWire LVDS command and data interface, providing efficient data transfer capabilities, which, along with its ITAR-free status and ESCC evaluations, makes it a highly versatile and sought-after component for aerospace applications.
The MVDP2000 Series features differential pressure sensors that emphasize sensitivity and accuracy, thanks to a novel capacitive sensing technology. These sensors are designed to be digitally calibrated over a range of pressures and temperatures, ensuring optimal performance even in challenging environments. Their quick response and low power needs make them versatile for numerous applications, from HVAC systems to medical devices.
The Dual-Drive™ Power Amplifier FCM1401 stands out for its exceptional energy efficiency and advanced two-stage architecture. Operating at a center frequency of 14 GHz, it embodies industry-leading innovation in power amplifiers by offering a significant leap in power efficiency. This product is ideal for mobile connected devices and telecommunication applications that demand lower energy consumption without sacrificing performance. With its robust design, the FCM1401 ensures that operators can enhance operational efficiency while reducing the environmental footprint of power consumption. The design caters to high-frequency applications by maximizing performance and maintaining the reliability expected in modern telecom infrastructures. It therefore offers a practical solution for enhancing device longevity with reduced operational expenses. This amplifier is tailored to support both space communications and mobile technology applications, offering unparalleled power handling capabilities. Whether enriching the battery life or scaling up the signal strength, it aligns with green energy initiatives by providing significant output without increased energy use.
The Pipelined SAR ADC features 16 channels with a 12-bit resolution, operating at sampling rates of up to 1.5 million samples per second (Msps). Combining the benefits of pipelined and SAR ADC architectures, this component excels in achieving high speed and precision in data conversion processes. Designed to take advantage of a higher operational voltage of 5.0V, this ADC is robust in handling diverse and demanding tasks, catering to applications that require swift and accurate data conversion. The integration of the SAR technology within a pipelined framework allows for enhanced data throughput without sacrificing accuracy. With its implementation over 65nm process nodes with Samsung foundry, the ADC brings proven reliability and efficiency to sophisticated electronic systems, making it a favored choice for systems prioritizing speed and bandwidth.
The FCM2801-BD Power Amplifier from Falcomm represents a pinnacle in amplification technology, engineered to excel in ultra-efficient energy use. This power amplifier operates at a center frequency of 28 GHz, making it well-suited for high-speed wireless communications and next-generation telecom services. Its design not only prioritizes power efficiency but also durability and performance in demanding environments. The FCM2801-BD offers considerable improvements in power usage efficiency, aligning with modern demands for low-energy-consumption solutions. Thus, it caters to both commercial and industrial applications that require robust yet efficient power amplification. This product is fundamental in reducing operational costs for telecommunication providers and in advancing the performance of consumer electronics. Its precision engineering ensures it can withstand and operate efficiently in a wide range of conditions, cementing its place as a core component in innovative telecom solutions.
This technology platform is devoted to radio frequency and includes features such as a high-performance silicon-germanium process. It is designed to enhance both RF circuits and mixed-signal designs, making it suitable for applications in wireless communication and infrastructure. This technology leverages the improved speed and reduced power consumption benefits of SiGe BiCMOS, making it a cornerstone for modern communication solutions. The SiGe BiCMOS Technology offers exceptional performance in terms of frequency response and signal integrity. It allows designers to create smaller, more efficient chips that are capable of forming the backbone of diverse RF applications. Its versatility is evident in the wide array of devices it supports, enabling compact yet powerful units suitable for today's demanding technological environments. With its strong emphasis on cost-effectiveness, SiGe BiCMOS Technology is adept at reducing material usage and power consumption. The process's integration capability allows for the accommodation of diverse components on a single chip, enabling significant advancements in system simplification while enhancing component reliability and longevity.
Hermes 3D is designed for handling any 3D structure's electromagnetic simulation needs, delivering solutions ideally suited for modeling antennas and intricate electronic assemblies. This software accommodates mainstream 3D design file imports and is optimized for ease of use with features such as geometric center identification and direct model import. Thanks to its self-developed full-wave electromagnetic simulation engine, users can perform detailed simulations from DC to THz frequency ranges, enhancing capabilities in antenna design or EMI/EMC verification. Hermes 3D opens up vast potential for professionals requiring versatile simulation solutions across large platforms.
ParkerVision has spearheaded a shift in RF signal processing through their Energy Sampling Technology. This approach breaks from the conventional super-heterodyne methodology by using direct conversion in RF receivers to enhance performance. Their energy sampling receivers deliver unmatched sensitivity, bandwidth, and dynamic range, enabling superior selectivity and interference rejection without dividing RF signals into separate paths. The innovation supports multimode operation in compact, cost-effective CMOS technology, expanding its application across various devices such as smartphones, tablets, and embedded modems. This technology supports RF receivers in managing a broad range of signal strengths, essential for modern mobile communication standards like GSM, EDGE, CDMA, UMTS, TD-CDMA, and LTE. By maximizing functionality in reducing redundant elements and silicon area, while enhancing dynamic range, ParkerVision's solution minimizes the necessity for external filters, promoting efficient integration in advanced transceivers and SoCs. Ultimately, the Energy Sampling Technology allows RF components to be more resilient to environmental interference and enhances demodulation accuracy, making it a cornerstone for next-generation wireless communication devices seeking to balance power efficiency with robust performance.
The 24-bit Sigma-Delta ADC with Analog Front End (AFE) from Rafael Micro is tailored for applications requiring high fidelity and noise-free signal conversion. This solution is optimized for precision measurement systems and audio processing scenarios, where maintaining data integrity is pivotal. Its design prioritizes energy efficiency while maintaining top performance metrics. The combination of 24-bit resolution with a front-end that minimizes noise and distortion makes it suitable for smart home devices and healthcare monitoring systems. This ADC can handle complex analog inputs with ease, ensuring high-quality digital output for further processing. By employing advanced signal processing techniques, it assures high accuracy and robustness, even in electrically noisy environments. In addition, its small form factor allows for seamless integration into existing designs, making it an optimal choice for designers seeking to upscale their product features without compromising on space or performance.
The ADQ35-PDRX is engineered for pulse data systems, offering a high level of performance with a 12-bit resolution and 5 GSPS sampling rate. It features an extended dynamic range through a built-in dual-gain channel combination, effectively enhancing performance to match that of a 16-bit digitizer. The device is equipped with a DC-coupled input that supports up to 2 GHz bandwidth, and a programmable DC-offset to optimize positive or negative pulse detection.
Enosemi's analog and mixed-signal devices are designed to handle both low and high-speed electrical signals, making them integral to the implementation and operation of advanced photonic circuits. These devices play a crucial role in ensuring signal integrity and seamless integration between various components within a circuit, facilitating high-fidelity data processing and transmission. The product range includes various amplifiers, filters, and converters, each meticulously crafted to enhance performance while minimizing power consumption and signal distortion. By leveraging these devices, engineers can achieve precise control over electrical signals, enabling the efficient operation of complex photonic systems. These devices are particularly well-suited for high-performance applications where accuracy and speed are paramount. By providing reliable and versatile solutions, Enosemi ensures that its products meet the highest standards required for next-generation photonic applications, aiding clients in achieving superior performance and reliability in their designs.
Notus provides comprehensive analysis capabilities across signal and power integrity, thermal management, and stress analysis for PCB and package designs. Equipped with electromagnetic technologies, it can offer detailed DC and AC power analyses, optimize decoupling capacitors, and conduct electrothermal simulations. Notus supports examining complex package structures and stacked die solutions, catering to specifications required in modern electronic designs. Its integration-friendly environment and dynamic analysis capabilities confirm Notus as a robust solution for optimizing power delivery systems and improving product reliability in electronic design.
The Telecommunication ADC is designed for asynchronous operations within telecommunication applications, providing efficient data conversion capabilities that are crucial in robust communication systems. With an 8-bit resolution, this ADC ensures accurate signal conversion, maintaining the integrity of telecommunication data streams. Fabricated using the TSMC 28HPC process, this component is engineered to support data throughput at speeds reaching 1.2 Gbps, ensuring rapid data processing capabilities ideal for high-bandwidth applications. It embodies a design that emphasizes both performance and precision, critical for maintaining the fidelity of transmitted data. This ADC distinguishes itself with its capability to handle asynchronous data, making it suitable for a varied range of telecommunication contexts. It's designed to cater to the advanced needs of modern digital communication systems, ensuring compatibility with various industry standards and enhancing overall system performance.
The 12-bit 1MSPS ADC, utilizing Samsung's 100nm LF6 CMOS technology, is engineered for a broad operating range with a maximum conversion rate of 1MHz at nominal conditions. It accommodates an analog input range that extends from ground level to the supply voltage, offering a strong signal-to-noise ratio and excellent dynamic performance. With low power consumption and a robust design, it is suitable for a wide array of measurement applications. This ADC is particularly efficient with a minimal power down current, supporting various configurations of high-speed and precision-demanding tasks.
Engineered for efficiency, the 65nm 8-channel 12-bit ADC is targeted at low power applications requiring reliable data conversion. It features a conversion rate up to 1MSPS, suitable for high-speed data acquisition systems. The ADC operates within an analog power range of 2.4V to 3.6V and a digital power range of 1.08V to 1.32V, leveraging its compact design for integration in systems where space and power-saving are priorities. Its steady performance in varied voltage and temperature conditions makes it ideal for battery-powered and remote sensing applications.
The ELFIS2 is a sophisticated visible light imager designed by Caeleste, incorporating a robust radiation-hard design to ensure reliability in demanding environments prone to radiation exposure. It features a true high dynamic range (HDR), enabling it to function effectively even in varied lighting conditions without compromising image quality. Additionally, its motion artifact-free (MAF) imaging ensures precision and clarity in capturing moving objects, a crucial requirement for dynamic applications. The sensor is equipped with a global shutter, enabling it to capture all pixels in the field of view concurrently, a feature that is paramount for high-speed imaging applications. The incorporation of backside illumination (BSI) optimizes the sensor's performance by enhancing sensitivity and reducing noise, thereby improving the overall image output quality. This imaging solution is particularly suitable for space and scientific imaging applications, where high-performance imaging is paramount. The ELFIS2's features make it ideal for applications that demand high fidelity and radiation resistance, truly standing out as a reliable component for cutting-edge imaging needs in challenging environments.
ChannelExpert is designed to address the challenges of high-speed signal integrity, providing a simulation platform that accurately evaluates high-speed channel performance. This tool features built-in engines for time domain and convolution simulations, ideal for handling parameters across entire communication links from transmission to reception. ChannelExpert offers a refined workflow with support for IBIS-AMI simulations and comprehensive DDR bus analysis, ensuring the highest level of precision in high-frequency environments. Its compatibility with SerDes statistical eye diagram analysis makes it indispensable for optimizing complex communication networks.
The 55nm 8-channel 12-bit ADC is designed for energy-efficient applications requiring precision data conversion. This ADC stands out with its low power consumption, operating at 1.1mA typically, and providing a wide input voltage range from 2.4V to 3.6V. It achieves conversion rates between 0.1MSPS and 1MSPS, making it adaptable for varied data acquisition tasks. With a size-optimized core and capabilities like single-ended inputs, the ADC is perfect for space-constrained projects demanding low power. The device is compact, facilitating integration into power-sensitive environments like sensor networks or portable data systems.
The Delta-sigma ADC is a cutting-edge 16-bit analog-to-digital converter optimizing data conversion with a sampling rate of 28 kilo-samples per second (Ksps). This ADC is designed to provide outstanding precision, making it suitable for applications requiring high signal integrity and dynamic range such as audio systems and high-definition sensors. The device employs the delta-sigma modulation approach, which excels at minimizing quantization noise and improving signal clarity. This modulator leverages advanced noise-shaping techniques, allowing for high-resolution conversion that's essential for clarity and accuracy in complex signal processing tasks. Although still under development with Samsung foundry on a modern 65nm process node, the ADC promises high performance and optimal power efficiency. Its potential to facilitate low-distortion signal representation makes it an attractive choice for high-fidelity audio equipment and precision measurement systems.
MeasureExpert automates the testing and analysis of complex signal transmission characteristics, compatible with industry-standard vector network analyzers. With robust algorithms for de-embedding and precise measurement across time and frequency domains, this tool significantly improves testing efficiency. Users benefit from features like support for Intel's Delta-L 4.0 Methodology, customizable S-parameter testing, and TDR analysis, streamlining the validation of high-frequency electrical systems and enhancing debugging capabilities across various applications.
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