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 16-bit Sigma-Delta ADC achieves a conversion rate of 16KSPS, leveraging SMIC's 55nm 2P7M CMOS technology. It incorporates a programmable gain feature ranging from 0 to 50dB alongside a configurable microphone bias. Supporting both mono audio input and four channels of fully differential inputs, this ADC delivers precise analog signal conversion. Boasting high signal quality verified by a signal-to-noise ratio (SNR) of 90dB, this component is optimized for applications within the audio domain, ensuring high fidelity and low power operation, ideal for compact audio processing solutions.
Revolutionizing SoC power delivery, the Aeonic Power family integrates state-of-the-art on-die voltage regulation capabilities. Its design supports energy and BOM optimization through a highly configurable framework that addresses a range of power delivery needs. Notably, Aeonic Power offers unprecedented telemetry oriented around Power Delivery Networks (PDN). This functionality is critical for gaining insights into SoC power behavior, providing capabilities for real-time monitoring and performance enhancement. This integration serves to reduce energy consumption through dynamic voltage and frequency scaling (DVFS) and virtual power islands. Flexible in application, Aeonic Power is ideal for handling the power complexities of chiplets and die-to-die interfaces. Its robustness and programmability aspire to suppress noise and harmonize power distribution across various SoC environments, facilitating reliable power management.
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.
The Chipchain C100 is a pioneering solution in IoT applications, providing a highly integrated single-chip design that focuses on low power consumption without compromising performance. Its design incorporates a powerful 32-bit RISC-V CPU which can reach speeds up to 1.5GHz. This processing power ensures efficient and capable computing for diverse IoT applications. This chip stands out with its comprehensive integrated features including embedded RAM and ROM, making it efficient in both processing and computing tasks. Additionally, the C100 comes with integrated Wi-Fi and multiple interfaces for transmission, broadening its application potential significantly. Other notable features of the C100 include an ADC, LDO, and a temperature sensor, enabling it to handle a wide array of IoT tasks more seamlessly. With considerations for security and stability, the Chipchain C100 facilitates easier and faster development in IoT applications, proving itself as a versatile component in smart devices like security systems, home automation products, and wearable technology.
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 CC-205 Wideband CMOS Rectifier is engineered for direct interfacing with antennas without the necessity of a matching network, accommodating a rectification range from 6MHz to 5.8GHz. It ensures efficient power conversion with a flexible input power range from -18dBm to over +33dBm, offering conversion efficiencies between 40% and 90%. This rectifier optimizes power transfer through very low return losses, enhancing the applicability in a range of RF environments and systems, thus maximizing efficiency.
ISPido offers a comprehensive set of IP cores focused on high-resolution image signal processing and tuning across multiple devices and platforms, including CPU, GPU, VPU, FPGA, and ASIC technologies. Its flexibility is a standout feature, accommodating ultra-low power devices as well as systems exceeding 8K resolution. Designed for devices where power efficiency and high-quality image processing are paramount, ISPido adapts to a range of hardware architectures to deliver optimal image quality and processing capabilities. The IP has been widely adopted in various applications, making it a cornerstone for industries requiring advanced image calibration and processing capabilities.
The MVH4000 Series is a line of precise and fully calibrated humidity and temperature sensors. These sensors, utilizing advanced Silicon Carbide MEMS technology, are notable for their extremely fast response and minimal power consumption, making them ideal for challenging environments. The sensors ensure excellent long-term stability, ensuring reliability over extended periods.\n\nThe sensors provide a broad temperature operating range from -40 to 125°C and come in a compact design of 2.5 x 2.5 x 0.9 mm. On-chip calibration allows for immediate deployment, easing integration into existing systems. Additionally, the sensors come with digital I2C or analog interfacing options, depending on the specific model.\n\nEngineered for precision, the MVH4000 sensors offer various accuracy options and include on-chip features that support ease of use in critical applications. Their versatility makes them apt for uses ranging from industrial to automotive sectors.
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 MVWS4000 series integrates three crucial environmental sensing modalities—humidity, pressure, and temperature—into a single, compact package. These digital sensors are built on a proprietary Silicon Carbide platform, offering enhanced reliability and energy efficiency. Ideal for OEM and battery-operated devices, they bridge the gap between performance and power conservation.\n\nThese sensors exhibit remarkable accuracy, with 1.5% for humidity, 1.0 hPa for pressure, and 0.3°C for temperature. Crafted for long-term stability, the sensors are suitable for demanding, resource-constrained applications. Their compact dimensions, along with a desirable operating range, make them versatile for various implementations.\n\nGiven their design for reduced energy use, these sensors are excellent for portable and embedded systems. With digital interfaces, including I2C and SPI, they offer flexible integration paths for manufacturers aiming to meet varied application requirements in industrial, consumer, medical, and automotive sectors.
The Very-low-Noise and Programmable very-high-Gain DC-Voltage Amplifier stands out for its outstanding ability to amplify low-level signals while suppressing noise figures, a critical attribute for precision applications like sensor interfaces and instrumentation amplifiers. This amplifier offers programmable gain settings, allowing for easy adjustment and optimization based on specific application needs, whether it's used in industrial sensing, automotive systems, or communication devices. Its low-noise operation ensures signal integrity, maintaining the fidelity of the amplified output even in challenging environments. The highly configurable nature of this amplifier supports a broad range of input signal conditions, providing flexibility for designers to tailor the performance characteristics to their exact specifications. Its design priorities both performance and efficiency, making it ideal for modern electronic systems focused on reliability and precision.
The High-Voltage ICs by Advanced Silicon are key components for driving various thin film technologies. Designed with a high pin count for multi-channel output, these drivers are adept at turning on and off thin film switching devices across technologies such as amorphous silicon, poly-silicon, and IGZO. They also provide precise analog driving of MEMs devices and ITO capacitive loads, essential for applications requiring high precision and resilience, like digital flat-panel X-ray detectors. With resolutions from 64 to 1024 output voltage levels, these ICs maintain performance across demanding environments and applications.
EnSilica's eSi-Analog offerings encompass a wide range of silicon-proven analog IP solutions designed to meet the demands of competitive markets where analog capabilities are essential for system performance. These solutions stand out for their high performance and easy integration, which help reduce time-to-market and costs while supporting successful custom ASIC and SoC devices.\n\nThe eSi-Analog IP portfolio includes critical components such as oscillators, SMPSs, LDOs, temperature sensors, PLLs, and ultra-low-power radio elements like sub-GHz BLE, NFC Tag Front-end, and sensor interfaces. These blocks are optimized for low power consumption and high resolution, making them suitable for a wide array of applications.\n\nBy offering flexible configuration options, eSi-Analog IP allows customization according to specific project needs, leveraging EnSilica's expertise in full SoC integration. This facilitates the development of complex designs across multiple process nodes, ensuring customers achieve their design goals efficiently and effectively.
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.
CoreVCO is a versatile voltage-controlled oscillator designed for high-frequency applications where stability and precision are vital. This VCO is tailored to deliver optimal performance over a range of frequencies, making it suitable for integration in a variety of RF systems including communication networks and signal processing applications. CoreHW's VCO features advanced phase noise management, which is critical in maintaining signal integrity for high-speed data transmissions. Its design facilitates seamless adaptability to different electronic environments, supporting robust performance across sectors like telecommunications and consumer electronics. The compact and energy-efficient design of CoreVCO allows for its use in portable and battery-powered devices. This adaptability ensures that CoreVCO can meet the demands of modern, high-tech environments requiring stable and precise frequency generation.
VeriSyno's Analog Solutions feature a comprehensive array of analog IP offerings designed for precision and efficiency across a variety of applications. The portfolio includes essential components like ADCs, DACs, PLLs, and LDOs, each developed to provide exceptional analog performance. Analog IPs from VeriSyno span multiple process nodes ranging from 28nm to 180nm, reflecting their adaptability to both mature and advanced nodes. By leveraging these technologies, VeriSyno ensures that their analog solutions deliver high accuracy and low power consumption, making them ideal for diverse fields, from consumer electronics to industrial applications. The company emphasizes flexibility within its solutions, allowing customization to address specific design requirements. This approach ensures that the analog IPs can be seamlessly incorporated into broader circuits, enhancing both functionality and performance. Through continuous development, VeriSyno remains at the forefront of analog technology, offering solutions that cater to the evolving needs of the semiconductor industry.
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.
Riftek Europe’s 2D Optical Micrometers are designed for batch in-line dimensional measurement, offering a sophisticated solution for industries demanding precision in wire and rod measurements. The measurement scope of these micrometers spans from 8x10 mm to 60x80 mm, with outstanding accuracy up to +/-0.5 um, making them suitable for high-precision industries. These micrometers expedite measurement tasks in industrial environments, reducing manual work by automating the dimensional analysis of numerous components rapidly. By employing advanced optoelectronic technology, these devices simplify the acquisition of precise dimensional characteristics across multiple parameters. The real-time data collection capability of these devices supports seamless integration into assembly lines, enabling consistent measurement that reduces defects and assures high manufacturing standards. This contributes significantly to improving efficiency and operational throughput, aligning with the demands of fast-paced production environments.
The Mixed-Signal Front-End designed by Global Unichip Corp. stands at the forefront of processing analog signals into digital forms. It's a crucial element for systems where high precision, low noise, and robust performance are required. The IP is adept at managing various signal inputs and enhancing the overall system performance in diverse applications ranging from consumer electronics to automotive systems. Engineered with cutting-edge technologies, this Mixed-Signal Front-End integrates seamlessly within existing architectures, promoting reduced signal degradation and enhanced fidelity. Its design ensures minimal interference and excellent signal integrity, which are pivotal in high-demand environments where accurate signal processing is critical, like in radar and lidar technologies. Flexibility is another hallmark of this IP, with scalable solutions that can be tailored to meet specific project requirements. Its robust architecture supports extensive interoperability, allowing it to be readily incorporated into broader system designs, facilitating faster development cycles and improved cost efficiencies.
The Analog IP offered by Key ASIC encompasses a broad range of components meant to satisfy the intricate needs of mixed-signal designs. Their audio codec IPs support 16, 18, and 24-bit sigma-delta architectures primarily for applications requiring high-fidelity audio processing. The voice codec supports both 14-bit ADC and 16-bit DAC at 48 KHz, ensuring crystal-clear audio for communication devices. For data conversion needs, their offerings include ADCs ranging from 6-bit to 12-bit, with various sampling rates that cater to different performance levels, from slow ADC tasks to high-speed functionality at 200 MHz. Their DACs, similarly spanning 8-bit to 12-bit, are engineered to handle a range of frequencies, making them ideal for applications in digital communications and signal processing. Other significant components include a programmable gain amplifier (PGA) with a 46 MHz bandwidth, bandgap references, DC-DC converters, voltage regulators, and power-on-reset elements. These IPs can be leveraged across consumer electronics and advanced data acquisition systems to enhance system efficiency and minimize power consumption.
The SiC Schottky Diodes are engineered for efficiency in low-loss systems. These silicon carbide devices provide high speed switching and minimal reverse recovery time, significantly reducing conduction losses. As a result, they are an excellent choice for applications such as power factor correction and power inverter circuits. Their unique structure also ensures high voltage operation capability, making them well-suited for both industrial and renewable energy sectors. The diodes’ robustness and efficiency contribute to the development of compact and efficient power management solutions.
Akronic excels in the design of Analog and Mixed-Signal ICs, leveraging their extensive experience to craft various integral components for modern telecom and radar transceiver radios. They offer solutions in both CMOS and BiCMOS processes, accommodating a wide range of IC fabrication technologies from conventional to cutting-edge nodes. Their expertise spans low-pass filters and base-band functions, showcasing an ability to design sophisticated analog blocks like 5th order or higher leapfrog filters and high-speed analog-to-digital converters. Their designs accommodate various gain-control operations with linear-in-dB or stepped mechanisms, and they are adept in implementing signal converters like high-speed ADCs and DACs, switched-capacitor DACs, and time-interleaved ADCs. Additionally, Akronic's skillset includes frequency synthesis and the design of fractional/Integer-N PLLs, loop filters, and multi-modulus prescalers, ensuring efficient and reliable operation across various specifications. Akronic's methodology incorporates advanced techniques to mitigate potential discrepancies between simulations and real-world performance, incorporating maturity in their design choices and processes. This includes LO leakage compensation and enhanced signal processing capabilities, ensuring optimal IC performance. Their deep understanding of analog mixed-signal design principles contributes significantly to various demanding applications across telecommunications and radar sensing sectors.
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.
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 for audio outputs, this DAC transforms digital audio signals into analog with high fidelity, paving the way for exceptional sound reproduction. It's equipped for various applications and offers robust features for maintaining acoustic integrity, crucial for high-performance audio systems.
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.
This video DAC specializes in converting digital video signals to analog, ensuring seamless video playback with high clarity. It's suitable for a range of applications from broadcast to consumer electronics, providing dynamic visual performance in converting electronic signals for display devices.
SystematIC's AC LED Driver IC is custom-designed to power multiple LED strings directly from rectified mains, making it versatile for use across various lighting applications. The IC is incredibly adaptable with high voltage support and configurability that includes compatibility with traditional dimmers like TRIAC. The driver, requiring minimal additional components, simplifies manufacturing while ensuring reliable, low-cost LED lamp production. This bespoke IC development demonstrates SystematIC's commitment to providing innovative, customer-centric solutions, ensuring comprehensive application support from feasibility to production.
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.
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.
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.
Designed as an advanced SP8T switch, the ATEK258P4 caters extensively to low frequency ranges up to 12 GHz. With an insertion loss of 2 dB and an isolation reaching 52.5 dB, it is particularly adept at handling high-frequency signal routing, supporting a P1dB of 28 dBm. It utilizes a positive control voltage packed into a 4x4 mm QFN format, making it suitable for high-integrity applications in dense circuit designs.
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.
This 55nm DAC features 10-bit resolution and a high-speed conversion rate of 250MHz, tailored for video applications. It operates on a 3.3V analog supply and a 1.2V digital supply with a differential output load of 75ohm. Optimized for low power dissipation, the DAC provides superior output performance ideal for digital video systems. Its small core area and exemplary signal fidelity metrics, like DNL and INL, make it a valuable asset for high-speed instrumentation and control tasks.
The RT125 is a high-speed device capable of delivering 28Gbps, ideal for short-reach (SR) applications. It combines clock data recovery (CDR), limiting amplifier (LA), and trans-impedance amplifier (TIA) functionalities in a single compact package. Optimized for optical communication infrastructure, the RT125 is built to ensure minimal signal loss and maximum data integrity over short distances. This makes it suitable for modern data center applications where efficient, high-speed data interchange is critical.
This preliminary SPDT switch is designed to cover frequencies from LF to 20 GHz. Known for its absorptive properties, it presents a 1.8 dB insertion loss and provides a respectable 45 dB isolation. With a P1dB of 24 dBm and a positive control voltage, this switch is suited for applications necessitating robust switching capability within constricted spaces, due to its 3x3 mm QFN package.
This absorptive SPDT switch offers impressive capabilities from LF to 27 GHz. It features a low insertion loss of 2.1 dB and excellent isolation capabilities at 50 dB. Notably, it supports a P1dB of 25 dBm, with a negative control voltage design housed in a 3x3 mm QFN package, offering a compact footprint ideal for high-frequency applications.
This dual digital-to-analog converter (DAC) offers a resolution of 10 bits and a sampling speed of 80 million samples per second (Msps). Ideal for high-speed data processing and conversion tasks, it excels in providing high-fidelity signal outputs for various applications, including audiovisual broadcasting and signal generation. The 10-bit resolution provides a good balance between data precision and processing speed, making it suitable for industrial and consumer electronics which demand rapid and accurate data conversion.
The TRV201TSM40LP IQ DAC represents a sophisticated extension in Tetrivis's line of digitally-assisted current DACs, purposed for advanced I/Q modulation needs. This component is pivotal in systems requiring intricate analog signal processing, delivering high accuracy through its digital calibration techniques. Built to perform under rigorous conditions, and utilizing a 1.1V supply within a 40nm fabrication process, it provides superior current conversion capabilities for RFIC applications. This level of precision ensures stable operation across diverse applications, fostering dependable signal integrity and performance. Ideal for cutting-edge communication technologies, the TRV201TSM40LP IQ DAC facilitates precise control over I/Q signals, enhancing the performance of complex digital systems. Its efficient design and operational reliability make it indispensable in driving advancements in telecommunication and consumer electronics, meeting high standards for accuracy and efficiency in cutting-edge environments.
Data Conversion products by Analog Bits are designed to facilitate the seamless conversion of analog signals into digital data and vice versa, a critical function in mixed-signal ICs that enables the integration of digital and analog functionalities on a single chip. This range includes high-performance analog-to-digital converters (ADCs) and digital-to-analog converters (DACs). These converters are tailored to meet the stringent demands of high-speed, low-power applications, providing the precision and accuracy needed in modern electronic systems. They are instrumental in applications ranging from consumer electronics to advanced computing systems, allowing processors to comprehend, process, and respond to analog inputs. Analog Bits ensures that their data conversion technologies are optimized to operate reliably across varying conditions, maintaining data integrity and performance. Their prowess in high-resolution and high-frequency conversion technologies is evidenced in their adoption across major industry players and leading-edge process nodes.
The TRV201TSM40LP is an innovative Digitally-Assisted Current DAC, offering exemplary precision and adaptability for modern digital to analog conversion needs. Its cutting-edge design exploits advanced digital calibration techniques to enhance accuracy and extend dynamic range, while maintaining low power consumption within a compact footprint. Operating at 1.1V and built on a 40nm CMOS process, the DAC provides excellent performance for telecom, automotive, and consumer electronics applications requiring precise current driving capabilities. Its seamless integration into high-frequency systems ensures consistent device performance despite varying operational conditions. The TRV201TSM40LP is particularly suited for environments where power efficiency is as pivotal as precision, supporting scalable solutions across a range of signal processing applications. With its robust digital assistance mechanisms, this DAC ensures dependable operation, even in the most challenging design specifications and conditions.
The P20640B is a high-performance 32-channel ADC delivering a sampling rate of 200MS/s with a resolution of 12 bits, optimized for high-speed data acquisition applications. Equipped with the JESD204B interface, it simplifies data management and enhances transmission efficiency, making it a valuable asset for complex analytic systems. This ADC is designed to excel in environments requiring precise and fast data conversion, such as radar systems, advanced signal processing, and real-time broadcasting. Its multi-channel approach offers flexibility and scalability in data collection, enabling it to handle large volumes efficiently. The inclusion of an event builder further enhances its ability to manage complex data flows effectively. The P20640B’s innovative features drive connectivity and simplify integration in modern high-performance systems. Its robust construction ensures durability and reliability, even under demanding operational conditions. Providing optimal performance, low latency, and high accuracy, it stands out as a choice ADC in the competitive field of data acquisition technologies.
For digital-to-analog conversion needs, the SBR0640 serves as an 11-bit DAC operating at a significant 640MHz. This digital-to-analog converter is tailored for systems that demand high speed and precision, particularly within low-power contexts like IoT devices. Its design focuses on minimizing power expenditure while ensuring dependable performance across diverse wireless settings. With a sleek integration into existing systems, the SBR0640 complements power strategies by using as little energy as possible without sacrificing conversion quality. Its versatility in handling rapid data flows makes it an exemplary component for advanced communication equipment, lending itself to both commercial and industrial applications where efficiency and reliability are paramount.
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