All IPs > Analog & Mixed Signal > D/A Converter
The D/A Converter (Digital-to-Analog Converter) semiconductor IP serves as a crucial component in the translation of digital signals into analog formats, indispensable for numerous electronic devices. Within this category at Silicon Hub, you'll find a diverse range of D/A converter semiconductor IPs designed to offer high precision and reliability, essential for applications across consumer electronics, telecommunications, and automotive sectors.
D/A converters are pivotal in bridging the gap between digital systems and real-world analog outputs. These semiconductor IPs are implemented in a wide array of devices, from audio amplification systems to instrumentation equipment, where precise and efficient conversion is vital. With the proliferation of digital technologies, the demand for robust D/A conversion mechanisms has only increased, making these IP blocks a key focus for designers aiming to maintain signal integrity and performance across their products.
In consumer electronics, D/A converter semiconductor IPs facilitate features in devices like smartphones, televisions, and home audio systems, where digital signals need to be output as sound or video. Similarly, in telecommunications, these converters enable impeccable data transmission and reception capabilities by converting digital signals suitable for analog transmission over various media. In automotive applications, D/A converters are also used in digital dashboard displays and advanced driver-assistance systems (ADAS), requiring high precision and low power consumption.
Silicon Hub's selection of D/A Converter Semiconductor IPs encompasses a variety of specifications to meet design requirements such as resolution, sampling rate, and power efficiency. This ensures that developers can tailor their choice of D/A converter IPs to the specific needs of their applications, whether they require ultra-low power converters or high-speed and high-resolution variants. By providing access to these innovative semiconductor solutions, Silicon Hub supports the creation of cutting-edge technologies that rely on seamless digital-to-analog conversion.
The C100 IoT chip by Chipchain is engineered to meet the diverse needs of modern IoT applications. It integrates a powerful 32-bit RISC-V CPU capable of reaching speeds up to 1.5GHz, with built-in RAM and ROM to facilitate efficient data processing and computational capabilities. This sophisticated single-chip solution is known for its low power consumption, making it ideal for a variety of IoT devices. This chip supports seamless connectivity through embedded Wi-Fi and multiple transmission interfaces, allowing it to serve broad application areas with minimal configuration complexity. Additionally, it boasts integrated ADCs, LDOs, and temperature sensors, offering a comprehensive toolkit for developers looking to innovate across fields like security, healthcare, and smart home technology. Notably, the C100 simplifies the development process with its high level of integration and performance. It stands as a testament to Chipchain's commitment to providing reliable, high-performance solutions for the rapidly evolving IoT landscape. The chip's design focuses on ensuring stability and security, which are critical in IoT installations.
The agileDAC is a digital-to-analog converter that uses a traditional capacitive DAC architecture. The agileDAC uses its own internal reference voltage. The architecture can achieve up to 10-bit resolution at sample rates up to 16 MSPS. 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.
Aeonic Power revolutionizes power delivery within SoCs through integrated on-die voltage regulation tailored to high-demand ICs and chiplets. It offers a scalable architecture that meets diverse energy needs, optimizing both energy usage and bill of materials (BOM). Aeonic Power products include agile telemetry features, allowing design teams to glean invaluable insights into power behavior and improve power grid resilience. The family supports energy optimization efforts by enabling functionalities like per-core DVFS and virtual power islands, providing a versatile approach to energy management in complex systems.
The DAC solutions provided transform digital signals back into analog form, ensuring high fidelity and accuracy in the conversion process. This is crucial for applications that demand pristine audio outputs or precise control signals. Noteworthy for their minimal power consumption and high resolution, these DACs are suitable for both consumer electronics and professional audio equipment. Their advanced architecture ensures superior performance, enabling end-users to leverage the full potential of digital-to-analog conversion. Engineered for seamless integration into larger systems, they support various output ranges and resolutions to meet specific application demands. With a strong emphasis on maintaining signal integrity, these DACs provide consistent and reliable performance, making them a preferred choice for numerous technological solutions.
The 16-bit Sigma-Delta ADC supports a sampling rate of 16KSPS and is crafted using 55nm 2P7M SMIC CMOS technology. Notably, it offers programmable gain settings from 0 to 50 dB, providing flexibility in adjusting to varying signal strengths. The ADC supports both PDM (Pulse Density Modulation), I2S, and TDM (Time-Division Multiplexing) interfaces, making it adaptable for various audio processing applications. This converter is designed to handle mono audio inputs effectively, operating over a digital range that spans from AVSS to AVDD, which ensures a broad compatibility with diverse audio equipment. It maintains a high signal-to-noise ratio (SNR) of 90dB, critical for high-fidelity audio processing requirements, and features low current consumption figures, both in active and power-down states, enhancing energy efficiency. Applications for this ADC extend into digitally-intensive audio environments, including microphones and high-resolution audio streaming devices. Its technology and features make it a go-to choice for systems requiring precision audio digitization under power constraints, such as in portable and battery-dependent audio equipment.
The CC-205 is a wideband CMOS rectifier suited for RF applications. Distinguished by its capability to interface directly with antennas without the need for a matching network, this rectifier manages full wave or half wave rectification. With a notable low return loss for superior power transfer, it functions efficiently across wide frequency ranges, translating inputs from -18 dBm up to +33 dBm into efficient outputs with conversion efficiencies reaching 90%.
ISPido is a powerful and flexible image signal processing pipeline tailored for high-resolution image processing and tuning. It supports a comprehensive pipeline of image enhancement features such as defect correction, color filter array interpolation, and various color space conversions, all configurable via the AXI4-LITE protocol. Designed to handle input depths of 8, 10, or 12 bits, ISPido excels in processing high-definition resolutions up to 7680x7680 pixels, making it highly suitable for a variety of advanced vision applications. The architecture of ISPido is built to be highly compatible with AMBA AXI4 standards, ensuring that it can be seamlessly integrated into existing systems. Each module in the pipeline is individually configurable, allowing for extensive customization to optimize performance. Features such as auto-white balance, gamma correction, and HDR chroma resampling empower developers to produce precise and visually accurate outputs in complex environments. ISPido's modular and versatile design makes it an ideal choice for deploying in heterogeneous processing environments, ranging from low-power battery-operated devices to sophisticated vision systems capable of handling resolutions higher than 8K. This adaptability makes it a prime solution for developers working across various sectors demanding high-quality image processing.
This technology represents a significant innovation in the field of wireless energy transfer, allowing for the efficient transmission of power without physical connections or radiation. By leveraging magnetic resonance, this non-radiative energy transfer system can power devices over distances with high efficiency. It's designed to be safe and environmentally friendly, avoiding the pitfalls of electromagnetic radiation while maintaining a high level of power transfer efficiency. The technology finds its applications in various sectors, including consumer electronics, automotive, and industrial applications where it provides a seamless and reliable solution to power transfer needs. The system's capability to transfer power efficiently without contact makes it ideal for scenarios where traditional power connections might be impractical or inconvenient, enabling new levels of convenience and flexibility for users. Designed to integrate smoothly with existing infrastructure, this energy transfer system can significantly reduce reliance on traditional charging methods, paving the way for more innovative and sustainable energy solutions. Furthermore, the system's architecture is geared towards scalability and adaptability, making it suitable for a wide range of devices and use cases.
The JDA1 is a versatile DAC core cell, designed for high-fidelity audio processing. It integrates a delta-sigma DAC with a PLL, eliminating the need for external clock generation by deriving all necessary sampling clocks from a 27MHz input. The JDA1 processes digital PCM inputs from 16 to 24 bits wide, supporting various standard and custom audio sample rates, including 96kHz. Its efficient silicon use requires just 0.3 to 0.4 sqmm, adapting seamlessly to scaling digital IC technologies.
This very-low-noise, programmable high-gain DC-voltage amplifier is a precision component tailored for applications requiring enhanced signal integrity and accuracy. With its capability to amplify direct current signals with minimal noise interference, it is highly sought after in applications ranging from audio systems, instrumentation to telecommunications. The amplifier boasts a broad gain range that can be programmatically adjusted to suit specific application needs, offering heightened flexibility for dynamic operation in various environments. Its design ensures minimal distortion and interference, preserving the core characteristics of the original signal while delivering substantial amplification. Given its high-gain and low-noise properties, this amplifier is indispensable in circuits where signal fidelity and amplification reliability are crucial. It enables engineers to construct systems that require sensitive signal detection and amplification, ensuring that even the weakest signals are accurately amplified and processed. This capability is highly advantageous in highly precise and sensitive application scenarios.
Designed to provide comprehensive weather monitoring, the MVWS4000 series integrates humidity, pressure, and temperature sensors into a single compact package. Utilizing Silicon Carbide technology, these sensors are fine-tuned for durability and an ultra-low power footprint, making them suitable for sensitive and energy-efficient applications in various environments.
Advanced Silicon’s High-Voltage Integrated Circuits are crafted to manage complex operations involving high pin count multi-channel output drivers suited for thin-film technologies. They are essential for large-scale voltage drive systems, offering a range of DAC resolutions and channel capacities. These circuits enable precise control needed for MEMS devices and ITO capacitive loads. Primarily used in diverse flat panel display technologies, the HV ICs cater to both simple and demanding applications like digital X-ray detectors where radiation durability is a priority. The high pin count architecture, reaching up to 512 output channels, is contained in a COF package for compact yet effective deployment.
VeriSyno provides a broad array of analog solutions ranging from ADCs to PLLs and LDOs, encompassing process technologies from 28nm to 65nm. Catering to both advanced and legacy processes, the solutions are designed to deliver exceptional performance while maintaining power efficiency. Clients can receive customized IP porting services to suit their specific technological requirements, spanning from cutting-edge techniques to more traditional methodologies.
The MVH4000 series presents a set of remarkably precise and fully calibrated sensors for relative humidity and temperature measurements. These sensors boast a proprietary Silicon Carbide MEMS technology, which ensures long-term stability and reliability. They feature a fast response time and minimal power usage, making them ideal for demanding applications needing quick and efficient performance.
eSi-Analog offers silicon-proven analog technology, essential for integrating critical analog functionality in custom ASIC and SoC devices. This low-power IP is optimized to operate efficiently across leading foundry processes, providing the necessary adaptability for a range of applications from communication systems to healthcare devices.
MosChip's Mixed-Signal IP Solutions bridge the gap between digital and analog domains, providing essential components that facilitate the integration of both functionalities within a single chip. These IP solutions are pivotal for the development of applications that require precise sensor data acquisition, signal processing, and control. The mixed-signal solutions offered by MosChip include analog-to-digital converters, digital-to-analog converters, and other critical mixed-signal components that ensure accurate data conversion and interaction between electronic systems. These robust IP cores are designed to deliver exceptional performance, even in the most demanding environments, such as automotive and industrial systems. MosChip's continued innovation in mixed-signal technology underscores its commitment to providing versatile, high-performance solutions that cater to the evolving needs of modern electronic design. The integration of these mixed-signal IPs enables the development of smarter, more efficient electronic devices that can effectively perform a wide range of tasks from analog sensing to digital processing.
The SMS Fully Integrated Gigabit Ethernet & Fibre Channel Transceiver Core is an advanced solution designed for high-speed data transmission applications. This core incorporates all necessary high-speed serial link blocks, such as high-speed drivers and PLL architectures, which enable precise clock recovery and signal synchronization.\n\nThe transceiver core is compliant with IEEE 802.3z for Gigabit Ethernet and is also compatible with Fibre Channel standards, ensuring robust performance across a variety of network settings. It features an inherently full-duplex operation, providing simultaneous bidirectional data paths through its 10-bit controller interface. This enhances communication efficiency and overall data throughput.\n\nParticularly suited for networks requiring low jitter and high-speed operation, this transceiver includes proprietary technology for superior jitter performance and noise immunity. Its implementation in low-cost, low-power CMOS further provides a cost-effective and energy-efficient solution for high-speed networking requirements.
Incorporating advanced interference management techniques, this wireless energy transfer solution enhances the efficiency and reliability of power transmission over the air. By dynamically adjusting to environmental factors that typically cause interference, this technology ensures a stable power transfer even in challenging conditions. Employing sophisticated algorithms, the system manages power distribution to minimize interference, optimizing the performance and enabling it to power multiple devices simultaneously without conflicts. This advancement is particularly relevant in urban and industrial settings where electromagnetic interference is common, significantly improving energy transfer capabilities in such environments. The system’s ability to maintain high power transfer efficiency amidst potential sources of disruption expands its applicability in both consumer and industrial domains. It integrates seamlessly with existing wireless power infrastructure, offering a robust solution that can adapt to a multitude of environments and requirements. This technology provides distinct advantages for applications requiring high reliability and uninterrupted power delivery, positioning it as a vital component in the evolution of wireless power systems.
KeyASIC's Analog IP portfolio includes a diverse range of audio and data conversion technologies tailored for modern applications requiring precision and high fidelity. Their Audio Codec offerings, available in 16, 18, and 24-bit configurations with Sigma Delta architecture, provide crystal-clear audio performance essential for consumer electronics and professional sound systems. Additionally, KeyASIC presents a versatile Voice Codec, alongside various Analog to Digital (ADC) and Digital to Analog Converters (DAC) for comprehensive sound and signal processing solutions. ADC options include 14-bit, 48 KHz solutions, a 6-bit slow ADC ideal for basic applications, and a high-speed 12-bit ADC operating at 100 MHz, catering to both low and high-frequency demands. The DAC selection similarly spans multiple bit resolutions and frequencies, such as an 8-bit 200 MHz option and a precise 12-bit DAC supporting 100 MHz operations. Complementing these are Programmable Gain Amplifiers (PGA) and Bandgap Reference circuits, allowing designers to adjust and stabilize signal levels effectively. For power supply management, KeyASIC offers advanced DC-DC Converter technologies capable of handling 1.2V inputs, producing outputs of 3.3V, 2.5V, or 1.8V, which are crucial for creating efficient power solutions. Voltage Regulators further enhance system flexibility, supporting various output configurations from a standard 3.3V input. Together, these Analog IP components allow KeyASIC's clients to enhance the functionality and efficiency of their electronic designs, making them integral to cutting-edge developments across multiple technological fields.
The SiC Schottky Diode from Nexperia is a powerful semiconductor component offering remarkable efficiency and fast switching capabilities. Engineered using Silicon Carbide technology, this diode is ideal for applications that require superior performance in high-frequency operations. Its inherent advantages include low forward voltage drop and minimal reverse recovery losses, which are essential for energy-efficient power electronics. This diode excels in high-pressure environments, supporting applications with stringent power management requirements. The SiC Schottky Diode's ability to operate at higher temperatures compared to silicon diodes makes it an excellent choice for automotive and industrial applications where thermal stability is crucial. This component addresses the growing demand for components capable of performing in advanced and robust electronic systems. Versatile in its application, the SiC Schottky Diode is particularly beneficial in systems where minimizing power loss is critical. It finds extensive use in power factor correction circuits, solar inverters, and industrial power supplies. Nexperia's dedication to high-quality and efficient designs is clearly exemplified in this product, which is crafted to enhance system performance and reliability.
KeyASIC's Fundamental IP offering is comprised of an array of versatile and essential components that serve as the backbone for various electronic designs. These include a Standard Cell Library and General Purpose I/O Libraries, indispensable tools for chip designers looking to streamline product development and enhance design flexibility. Additionally, a variety of memory compilers such as SRAM, Register File, and ROM compilers, support the creation of efficient storage solutions. KeyASIC also provides robust LVCMOS I/O options with multiple voltage levels, catering to diverse interfacing needs. To ensure synchronization and precision in electronic devices, KeyASIC offers a PLL that operates up to 500MHz, alongside a DLL of the same frequency. These components are crucial for applications requiring stable clock generation and data alignment. The company's dedication to high-performance and flexible solutions is evident in their DC-DC Converter options, capable of managing voltage inputs and delivering multiple output voltages. The Voltage Regulator options complement these converters, offering further power management solutions for complex electronic designs. For power-sensitive applications, KeyASIC includes Power On Reset circuits and an Analog Mux, enhancing the reliability and integration capabilities of their Fundamental IP suite. These elements are designed to meet the stringent requirements of modern electronics, ensuring seamless operation across various platforms. By offering such a comprehensive and silicon-proven IP suite, KeyASIC empowers their clients to achieve unparalleled efficiency and innovation in their electronic design projects.
SCALINX's ADX series are cutting-edge Continuous-Time Delta-Sigma (ΔΣ) Analog-to-Digital Converters known for their high-resolution and high-speed performance. These ADCs are distinguished by their capability to handle extensive bandwidth while maintaining optimal signal fidelity and noise performance. The ADX line comprises a variety of models tailored to different performance benchmarks, ranging from 80MS/s with 16-bit resolution to 1.25GS/s with 10-bit resolution. Designed with the proprietary SCCORE™ technology, the ADX converters offer remarkable flexibility for integration into a variety of process nodes, ensuring adaptability across a wide range of BiCMOS and advanced CMOS processes. Each model, such as the ADX40M16B65LP, guarantees silicon-proven efficiency, underscoring SCALINX’s commitment to delivering reliable and optimized analog solutions. The ADX converters are engineered to support extensive industrial applications, particularly where precision and speed are critical. Features such as wide bandwidth handling capabilities, along with advanced on-chip calibration, provide significant advantages in test and measurement, communications, and defense sectors where robust performance is paramount.
Akronic offers an extensive range of analog and mixed-signal IC design services, spanning the essential building blocks required for modern telecom and radar transceiver radios. Specializing in both CMOS and BiCMOS processes, Akronic delivers custom design solutions with their expertise in low-pass filters, gain-control operations, signal converters, and frequency synthesis. Their design capabilities encompass a variety of conventional and cutting-edge node fabrication technologies, ensuring precise performance tailored to specific project needs. Their low-pass filters are crafted using advanced techniques such as Leapfrog, OPAMP, and Gm-C topology with adjustable channel bandwidths and more than 1GHz maximum cut-off frequency. Akronic also provides solutions in base-band functions, offering bandgap references, linear-in-dB gain control, and RSSI detectors. The company excels in creating high-speed ADC/DACs, including switched-capacitor and current source converters, and offers comprehensive frequency synthesis options with sophisticated PLL and VCO technologies. The company’s innovations include advanced designs for fractional/integer-N PLLs, multi-modulus prescalers, and VCO drivers. With a focus on integrated design and performance scalability, Akronic ensures that their analog and mixed-signal ICs are optimized for high efficiency and low power consumption, making them an ideal choice for state-of-the-art telecommunication applications.
IPGoal's Data Converter is designed to bridge the gap between analog and digital signals, offering high precision and performance. This technology is pivotal for applications that require accurate data representation and conversion, such as in control systems and digital signal processing. With cutting-edge architecture that ensures minimal conversion errors and high linearity, the Data Converter from IPGoal stands out in delivering high-frequency data conversion with efficiency and reliability. This makes it ideally suited for applications in sectors like telecommunications and consumer electronics. The converter's flexibility to adapt to different operational requirements makes it a versatile solution capable of meeting various customer-specific demands. Its design prioritizes low power consumption while maintaining superior performance, reflecting IPGoal’s commitment to innovation in semiconductor technology.
Designed to convert digital audio streams into analog outputs, the Audio DAC provides superior sound reproduction quality, fitting for high-end audio applications. Its capabilities include handling multiple digital formats, making it versatile for various consumer audio technologies and enhancing the audio experience with clarity and depth.
The VR-3V3-1V2-1-55-U stands out as an ultra-efficient linear voltage regulator designed for applications requiring a 3.3V input transitioned to a stable 1.2V output. It excels in applications where low dropout voltage and minimal quiescent current are paramount. By leveraging a UMC process, this voltage regulator ensures energy efficiency while delivering consistent output regulation vital for power-sensitive electronics. Its design emphasizes thermal management and reliability, making it suitable for mobile and portable devices that are often subjected to stringent power and space limitations. The VR-3V3-1V2-1-55-U provides adaptive current management, allowing for optimized performance across variable load conditions, which is essential in extending battery life and reducing heat generation. Engineered for robustness, this voltage regulator supports operation across a variety of circuit topologies and load demands. As a staple in energy-efficient design, it embodies MOSCAD's commitment to providing advanced power-related IP solutions that align with modern electronic design necessities.
The Octuple 20μA Bias Current Source is engineered to deliver consistent and reliable bias currents across multiple output channels. It is critical in systems that demand precision current management, providing eight outputs of stable current simultaneously. This bias current source finds extensive application in signal amplification, biasing analog circuits, and other systems necessitating carefully calibrated current flows. Characterized by its precision and efficiency, the Octuple 20μA Bias Current Source ensures minimal power dissipation and high operational stability. These features make it ideal for integration into analog and mixed-signal systems where current precision directly impacts the overall system performance. Applications include various sectors such as telecommunications, instrumentation, and consumer electronics where maintaining signal integrity and system reliability is paramount. The modular design of this bias current source accommodates various circuit designs, enabling engineers to integrate it smoothly within their existing infrastructure. This flexibility enhances the component's applicability across different system architectures, ensuring consistent performance in diverse electronic applications.
The 24-bit Sigma-Delta Analog-to-Digital Converter (SD ADC) with an Analog Front End (AFE) offered by Rafael Micro is engineered for precision in converting analog signals to digital form, a critical step in various electronic applications. This ADC is tailored for applications requiring high fidelity and accuracy, such as precision measurement, sensor interfaces, and audio processing. Featuring a 24-bit resolution, the ADC delivers highly accurate and granular output, suitable for precision-demanding tasks. The integrated AFE enhances its capability by optimizing incoming analog signal quality, ensuring that the subsequent digital processing stages receive the cleanest possible data. This combination is particularly beneficial in environments where signal clarity is paramount, or when processing signals with very small amplitude variations. Rafael Micro's ADC solution is implemented alongside noise shaping technologies inherent in Sigma-Delta architectures, which improve its capability to handle noisy environments by pushing quantization noise to higher frequencies. This makes it an excellent choice for applications in medical devices, audio applications, and advanced instrumentation systems, where the accuracy of digital conversion is critical towards ensuring the reliability of outcomes.
This Video DAC specializes in converting digital video signals into analog outputs, suitable for video display technologies. With its high-resolution support and precision, it ensures video quality is maintained across different formats, making it essential for seamless video output in entertainment and professional graphics systems.
The AC LED Driver IC is designed for efficient and compact lighting solutions, capable of directly utilizing rectified mains through its 400 V / 200 mA programmable branches, with a maximum of 700 V. It seamlessly drives up to three LED strings/branches with a single IC, while supporting dual IC configurations for controlling up to six branches. This driver IC is both configurable and one-time programmable, offering flexibility for various lighting setups. It is compatible with TRIAC dimmers, ensuring it can integrate easily into existing lighting systems. The driver enhances performance while simplifying supply chains and reducing costs, making it ideal for manufacturers aiming to achieve compact, cost-effective LED lighting solutions.
SoC integrators wishing to address portable audio applications like MP3 players, PMP or Application Processors for mobile communication, should demonstrate the best sound quality, while starring the longest playback capability. shDAC95-Helium, the ultra low power audio converter, is thus the best ally of SoC integrators targeting such high volume markets. Its amazingly small area ensures a cost-effective SoC integration both in mature and very advanced pure logic processes. This audio converter proves it feasible to combine Class-AB amplifiers, known for offering the lowest Bill-of-Material, with ultra-low dynamic power.
The sDAC-uLP-SW3-LR.01 is a mixed (analog and digital) Virtual Component containing a stereo DAC, and additional functions offering an ideal digital to analog converter for low dynamic power, low Bill-of-Material and high quality audio applications. It can also combine ultra-low latency capability for ANC applications to demonstrate the best sound quality, while starring the longest playback capability.
The sDAC-uLP-SW3-LR.01 is a mixed (analog and digital) Virtual Component containing a stereo DAC, and additional functions offering an ideal digital to analog converter for low dynamic power, low Bill-of-Material and high quality audio applications. It can also combine ultra low latency capability for ANC applications to demonstrate the best sound quality, while starring the longest playback capability.
loDAC-95 LO is a set of Virtual Components comprised of a fully digital core with Δ∑-PWM to provide a stereo digital-to-analog conversion, configurable-on-order for lowest silicon cost and smoothest SoC integration. loDAC-95 LO.pl provides the best resilience to SoC and system disturbances to guarantee the success of the integration and the best audio quality.
The virtual component sDACa-MT1.01 is a PWM sound shaper which provides a stereo digital-to-analog conversion, coupled with its application schematic.This product benefits from two outputs for analog and digital input amplifiers.
The virtual component sDACa-MT1.03 is a PWM sound shaper which provides a stereo digital-to-analog conversion, coupled with its application schematic.This product benefits from two outputs for analog and digital input amplifiers.
The mDAC115-CDA1-D.01 is a mixed (analog and digital) Class-D Audio DAC dedicated to head-phone market featuring high efficiency performance.
The RT125 by Rafael Micro is a 28Gbps SR CDR/LA/TIA designed to address the high-speed demands of optical communication systems. This component integrates a Clock Data Recovery (CDR) module, Limiting Amplifier (LA), and Trans-Impedance Amplifier (TIA) in a coherent architecture aimed at providing robust signal integrity even in demanding data rates. Engineered for high-speed environments, the RT125 optimizes data recovery processes with its CDR component, ensuring accuracy in signal timing alignment and reducing jitter. The Limiting Amplifier provides optimal signal amplification, refining signal resolution without introducing significant noise. Complementing this is the Trans-Impedance Amplifier, which transforms optical signals into usable electronic formats with heightened sensitivity. This integrated solution is particularly advantageous in data center interconnects and high-speed telecommunication networks. Its ability to handle complex optical signals with precision and efficiency distinguishes it in the arena of short-reach communication systems, where rapid data processing and minimal error rates are critical. Rafael Micro's RT125 paves the way for advancements in quick and dependable high-speed data link developments.
This SP8T switch model, ATEK258P4, is expertly designed for broadband applications requiring extended capacity across multiple frequency bands. With a frequency range extending to 12 GHz and up to 52.5 GHz, this switch addresses a variety of high-frequency switching needs. Its absorptive characteristic reduces reflected signals, enhancing the integrity of transmitted data. Encased in a 4x4 mm QFN package, it operates under positive control voltage conditions, making it a preferred choice for dynamic RF environments requiring high isolation and low insertion loss.
This advanced IP combines a variety of analog conversion and amplification technologies to support comprehensive sensor interfacing. It includes SAR and Sigma-Delta A/D converters with resolutions from 10 to 16 bits, offering meticulous data processing accuracy. The complementing D/A converters employ resistive voltage and current mechanisms for precise output control. Low-noise front ends with chopping, auto-zeroing, and ping-pong techniques ensure minimal signal interference. Additionally, the IP supports various optical, magnetic, and environmental sensors, including photodiode readouts for infrared, proximity, and x-ray applications. Together, these technologies facilitate sophisticated sensor array functionalities across multiple domains, enhancing data integrity and operational efficiency at minimal power disbursement.
SystematIC's Power Conversion and Management Systems include diverse solutions for linear regulators, low-dropout regulators, and power MOS drivers. The systems facilitate multiple tasks such as inductive DC-DC conversion across Buck, Boost, Flyback, and Resonant modes, aligning with modern energy needs. They support solar power conversions, comprising maximum power point tracking (MPPT), as well as encompass integrated charge pumps, Class-D amplifiers, and HV switching regulations. Accommodating up to 3 kV, these systems enable high-voltage applications while maintaining safety and efficiency. Designed with protections like UVLO, OVP, and short-circuit modules, they cater to a wide range of industrial and consumer power applications, ensuring reliable and optimized energy conversions with current limiting features.
The virtual component sDACa-MT1.05 is a fully digital PWM sound shaper which provides a stereo digital-to-analog conversion, coupled with its application schematic.This product benefits from two outputs for analog and digital input amplifiers.
The TRV201TSM40LP IQ Digitally-Assisted Current DAC is engineered to adapt to high-speed signal conversion requirements with precision and flexibility. It operates effectively with a wide frequency spectrum reaching up to 320 MHz, facilitated by its innovative 40nm CMOS design. Being digitally assisted, it employs sophisticated calibration methods to enhance signal accuracy and output reliability. This particular IQ DAC is vital for applications that require simultaneous processing of in-phase and quadrature components, essential in demodulation and communication systems. Its digitally controlled architecture ensures consistent output quality across varying signal conditions, representing an advancement in modulation accuracy for technologies like radar and satellite communications. Thanks to its energy-efficient design, it is well suited for integration into portable and battery-operated devices, where longevity and performance are crucial. The DAC's capability to manage high data rates without significant power draw makes it a versatile choice in environments including telecommunications and consumer electronics signaling a new era of precision influencing modern digital infrastructures.
The Absorptive SPDT Switch ATEK252P3 features an advanced design crafted for low-frequency operations, extending up to 27 GHz. Noteworthy for its absorptive characteristics, this switch is designed to handle frequencies seamlessly, optimizing performance in telecommunications systems. It boasts an impressive isolation level of 50 dB, ensuring minimal signal interference and superior transmission quality. Packaged in a sleek 3x3 mm QFN, the switch supports a negative control voltage, aligning with modern RF standards.
Analog Bits specializes in data conversion solutions that constitue the interface between the analog and digital realms. These data conversion IPs are critical in enabling efficient processing of analog signals within digital frameworks. By offering high-performance ADCs and DACs, they facilitate precise signal translation without compromising data integrity, crucial for applications such as audio processing, video transmission, and industrial instrumentation. Their data conversion technology is characterized by high-speed operation and precise resolution capabilities, providing influential advancements in converting analog input signals into accurate digital representations. This ability amplifies the potential of mixed-signal ICs, enhancing their functionality across diverse industries requiring high-fidelity signal conversion. Analog Bits ensures the integration of these converters is streamlined across multiple process nodes, aligning with the specific operational demands of brief momentary signals as well as sustained data-driven processes. These IPs are pivotal for computing and communication applications that prioritize high signal accuracy and low power consumption.
M31's DisplayPort TX is a transmitter IP focused on providing high-bandwidth data transfer capabilities for digital video and audio interfaces. This technology ensures efficient transmission of multimedia content across devices, meeting the specifications for crisp, high-definition signal output. It is especially beneficial for applications that demand superior video quality, such as broadcasting, gaming, and professional graphics.
Engineered using a 55nm process, this Video DAC supports a 10-bit resolution with an operation rate of 250MHz, catering specifically to high-speed video processing needs. It operates at an analog voltage of 3.3V and a digital supply of 1.2V, offering a stable and reliable power setup. The DAC features a single channel differential output designed to handle output loads of 75 ohms, ensuring minimal signal losses and optimal integrity. Its DNL and INL are closely controlled at ±0.5 LSB and ±1.0 LSB, respectively, providing exceptional consistency for video and graphic output tasks. Aimed at high-performance applications like digital video systems and instrumentation, this DAC perfectly meets demands for vivid and accurate image synthesis. It is capable of transforming video signals for external viewing devices while keeping power dissipation to about 62mW, allowing for high efficiency even in power-sensitive environments.
StarIC's 1.8 to 5.6V Charge Pump provides an efficient power conversion solution for systems requiring adjustable voltage levels. Utilizing a frequency-regulated voltage doubling and tripling mechanism, the charge pump manages voltage outputs while maintaining minimal power loss, making it ideal for battery-operated devices. Its design includes a regulation loop for precise output control, supporting various load conditions with scalable performance. This IP is particularly suited for portable electronics that demand reliable and efficient power management.
Designed with advanced digital calibration techniques, the TRV201TSM40LP Digitally-Assisted Current DAC boasts high precision output suitable for modern electronic circuits. Built on a robust 40nm CMOS framework, this digital-to-analog converter is optimized for use in high-performance signal conversion scenarios, offering output frequencies that extend to 320 MHz. The DAC's architecture leverages digital correction to fine-tune analog signal outputs, achieving minimal static and dynamic errors. This feature ensures superior linearity and stability, making it ideal for telecommunications, instrumentation, and multi-standard communication platforms. Its impressive resolution and accuracy are further supported by its energy-efficient design, fulfilling the demands of portable and power-sensitive applications. Furthermore, the DAC provides versatile compatibility with complex modulated signals, making it an essential component for sophisticated modulation schemes used in various high-frequency applications. Paired with its low-power operation, the TRV201TSM40LP offers increased reliability and performance, meeting the needs of a broad spectrum of cutting-edge technological advancements.
Designed for superior data conversion, the SBR0640 DAC offers 11-bit resolution with an impressive bandwidth of 640MHz. It is particularly suitable for IoT and low-power wireless markets, ensuring minimal power demand while retaining high-quality conversion specifications. This digital-to-analog converter is paramount for applications demanding high precision data processing with rigorous power constraints.
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