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Featured
Kadavar / Aqua Nebula Oscillator – White Ring 180g 2xLP/digital
... Kadavar / Aqua Nebula Oscillator – White Ring 180g 2xLP/ ...
Puducherry, India
11-50 Employees
2013
NXFEE ( Next Future Electronic Evolution) is an organization of developing Solution to provide Semiconductor IP products ( semiconductor intellectual property core, IP core, or IP block ) and application to customers with a wide range of solution that include Custom ASIC/ FPGA/ DSP/ EMBEDDED/ Wireless Technologies. These Technologies we are integrated with UAV and Bio-Medical Applications. NXFEE is the Industry of Semiconductor IP Development, IP Designs, and services of developing solution to provide core products and application to customers with a wide range of solution that include custom ASIC/ FPGA/ DSP/ EMBEDDED System/ Wireless Technologies. NXFEE will Provide cost effective In-sourcing services for secure and turn key product development in the areas of Bio-Medical/ Wireless/ Robotics/ VLSI/ DSP/ Embedded design & Development from conceptualization to production. About 7 years of expertise and Satisfied Customers, we have the capability to deliver solution that is fully meshed with your Business requirement, meeting the highest standards. Our Sound Technology and Knowledge Base have helped us to create products using emerging technologies that include FPGA, VHDL, VERILOG HDL, SYSTEM VERILOG HDL, UVM, OVM, VVM, DSP, RTOS, DSP, Bluetooth, WI-Fi, RF, CDMA and other related technologies in the areas of Industrial Automation, Telecommunications, Consumer Electronics and Automotive Applications. Our solution enables the intelligent products on ASIC/FPGA/DSP and Embedded based products with High Speed Secure Data Transmission. The Technology based products we are integrated with CDMA/TDMA/FDMA.
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Featured
A 2.5-V 8-Bit Low power SAR ADC using POLC and SMTCMOS D-FF for IoT Applications
... Frequency-Boost Jitter Reduction for Voltage-Controlled Ring Oscillators ...
Göttingen, Germany
11-50 Employees
1997
The main activities of ALPHALAS include development, production and sales of lasers, laser systems, laser-related electronics and components. ALPHALAS is specialized in short pulses (subnanosecond, picosecond and femtosecond) and microchip design but we are offering practically all common types of DPSS lasers featuring high efficiency and compact design. ALPHALAS GmbH offers you competence from simple optical phenomena to complicated laser physics. At ALPHALAS you can find laser parameters you have sought for a long time and are not available from other companies. The ALPHALAS PICOPOWER™-LD Series of Picosecond Diode Lasers with Driver are available with the following standard wavelengths: 375, 405, 450, 488, 510, 635, 670, 785, 850, 976, 1030, 1047, 1053, 1064, 1310, 1550 nm as well as more than 60 other customer-specific wavelengths in the range of 375 nm - 2300 nm! ALPHALAS GmbH has released a new advanced high-speed digital CCD line camera. Our products are based on 30 years of leading research and experience. As a high-tech laser company we are offering a wide range of products in the fields of lasers, optics and laser-related electronics.
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Featured
ALPHALAS - Laser Crystals
... Non-Planar Ring Oscillators (NPRO) ...
Capelle aan den IJssel, Netherlands
1-10 Employees
2009
Our company is based in Haarlem, a city just outside of Amsterdam, so we are located near one of Europe’s cultural hubs. The audiophiles know it, Record Industry is Europes leading pressing plant for vinyl and also a part of the Artone Group! We work together to bring the music to you but we work together to deliver the best possible product there is! So every Music On Vinyl production, is a product of the highest quality. Being part of Artone means we have a state-of-the-ART(one) studio next to us!
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Featured
Life On Mars – Music On Vinyl Store
... Wansel composed his own sci-fi sounds with swirling, ring-like oscillators, cosmic ...
Gothenburg, Sweden
1-10 Employees
1973
Vår snabba chaufför levererar musikglädje varje dag i veckan. Det är då de flesta får problem med både akustiska instrument och även elgitarrer och dito basar.
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Featured
UNO Synth PRO X – Musik Utan Gränser
... kreativ analog ”sequencing”-synth, som kombinerar analogt med moderniteten och bekvämligheten av digital teknik. 3 Waveshaping Oscillators Ring modulation and FM modulation Dual Filter design OTA based multimode filter with High Pass and Low Pass mode, with phase inverting SSI based Low ...
Leeds, United Kingdom
1-10 Employees
For those of you who are not sure of our exact location, we are directly opposite Sports Direct.
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Featured
Dexter Wansel - Life On Mars – Crash Records
... Wansel composed his own sci-fi sounds with swirling, ring-like oscillators, cosmic ...
Village of Briarcliff Manor, United States
1-10 Employees
2011
EOI is a well-equipped small technical house whose mission is to enable our customers to produce advanced measurement products for their customers. As technology developers we find imaginative solutions to hard measurement problems in very many areas of optics, electronics, photonics, and mixed-technology systems, both for customers and for our own proprietary developments, as well as doing extensive expert witness work in optics and electronics cases. Internal DevelopmentsIn the last year or two we've been doing a lot of work aimed at replacing photomultiplier tubes (PMTs) in instruments, using avalanche photodiodes (APDs) and silicon photomultipliers (SiPMs). These devices are arrays of single-photon detectors, so they're also known as multi-pixel photon counters (MPPCs). Our main application areas include biomedical instruments such as flow cytometers and microplate readers, which have to measure low light levels very precisely but don't need the ultralow dark current of PMTs. (Follow-on articles will talk about our SiPM work in airborne lidar and SEM cathodoluminescence, as well as on improving the performance of actual PMTs.)PMTs have been around since the 1930s, and remain the undisputed champs for the very lowest light levels. We love PMTs, but we have to admit that they're delicate and not that easy to use—they tend to be bulky, they need high voltage, and they need regular replacement. Most of all, PMTs are very expensive. In Part 1, we discussed ways to get better measurements by improving the signal to noise ratio (SNR), and saw that although it was often a win to measure more slowly and use lowpass filters, going too far actually makes things worse, because of the way noise concentrates at low frequency. Here we introduce a more sophisticated approach that generally works better: the lock-in amplifier. In building an ultrasensitive instrument, we're always fighting to improve our signal-to-noise ratio (SNR). The SNR is the ratio of signal power to noise power in the measurement bandwidth, and is limited by noise in the instrument itself and the noise of any background signals, such as the shot noise of the background light or the slight hiss of a microphone. I can often be found on the Usenet groups sci.electronics.design and sci.optics. (There's not a lot of activity at sci.optics these days, but there are still folks listening who can help.).
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Featured
Equipment | ElectroOptical Innovations
... 1064-nm Nonplanar Ring Oscillator (NPRO) Nd:YAG ...
Lawrence, United States
11-50 Employees
1976
For more than 30 years, we've been dedicated to quality, value and delivering truly great service whether you're a beginning musician or a seasoned player. We also offer a 7 day return policy. This Collings City Limits is an absolutely stellar custom order here at the shop, built as a nod to a particular vintage LP Custom.
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Featured
Moog - Moogergooger MF-102 Ring Modulator Pedal | Mass Street Music
... Moog MF-102 Moogerfooger Ring Modulator pedal gives you three full modular functions including a ring modulator, a carrier oscillator, and dual-waveform LFO to make the most of your music whether you're a guitarist, keyboard player, vocalist or heading up a studio. Moog, the ...
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Featured
Steady State Fate Entity Metalloid Percussion Eurorack Module - Elevator Sound
... The output of these oscillators is ring-modulated through two signal paths and mixed to produce two unique but related metallic tones. Three macro controls are employed to enhance the variety of tones and harmonic relationship of the synthesized metallic noise. Through variation of these ...
Mumbai, India
51-100 Employees
2011
And the service of Bajaao is surprisingly easy, fast and price is real! Make your purchase using any Credit or Debt card EMI and Bajaao will return the total interest charged, as Cashback to your bajaao wallet.
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Featured
Buy Moog MF-102 Moogerfooger Ring Modulator Pedal Online | Bajaao
... The heavy-duty yet smooth acting bypass switch allows tabletop or floor use.Imagine that the ring modulator's carrier oscillator is producing a 500 Hz sine wave, and your input signal is a 100 Hz sine wave. The ring modulator's output will be a complex waveform. You will hear two ...
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Some interesting numbers and facts about the results you have just received for Ring Oscillator
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 7 |
| Amount of suitable service providers | 5 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1973 |
| Youngest suiting company | 2013 |
A ring oscillator is an electronic oscillator circuit that consists of an odd number of NOT gates or inverters connected in a series such that the output of the last inverter is fed back to the input of the first. This configuration creates a feedback loop, resulting in a continuous oscillation between two voltage levels without the need for any external resonant circuit. The frequency of oscillation is determined by the number of stages in the loop and the propagation delay of the signal through each stage, making it highly dependent on the physical characteristics of the components and the operating conditions such as temperature and supply voltage. In the realm of electronics and integrated circuits, ring oscillators play a crucial role in several applications. They are widely used as test structures for characterizing the speed of semiconductor fabrication processes because their simplicity allows for easy analysis of delay and operational characteristics. Furthermore, ring oscillators are integral components in the design of phase-locked loops (PLLs) and delay-locked loops (DLLs), circuits that are essential for clock generation and synchronization in digital systems. Their ability to generate high-frequency signals also makes them suitable for use in RF (radio frequency) applications and as sources of randomness in cryptographic systems, underscoring their versatility and impact within the field.
1. Simplicity of Design
Ring oscillators feature a straightforward architecture, consisting of an odd number of inverters connected in a series that forms a closed loop. This simplicity facilitates easier integration into various electronic circuits, reducing the complexity and cost associated with their implementation.
2. Testability and Configurability
Due to their uncomplicated structure, ring oscillators are highly testable and configurable, making them ideal for applications requiring fine-tuning of oscillation frequencies. Designers can adjust the frequency by simply changing the number of inverters or the supply voltage, offering flexibility in use across different technologies.
3. Low Power Consumption
When compared to other oscillator types, ring oscillators generally consume less power, especially in applications where high precision is not the primary concern. This characteristic makes them particularly suitable for battery-operated devices or energy-sensitive applications, where power efficiency is paramount.
4. Integration Capability
The compact size and the ability to fabricate using standard CMOS technology enhance the integration capability of ring oscillators into integrated circuits. This advantage is crucial in the development of miniaturized electronics and semiconductor devices, contributing to the advancement of microelectronics technology.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Compatibility
Ensure the supplier's ring oscillators are compatible with your existing technology infrastructure, including fabrication processes and voltage requirements.
2. Performance Specifications
Evaluate the frequency range, stability, and phase noise to ensure they meet your project's requirements.
3. Quality and Reliability
Look for suppliers who adhere to industry quality standards and have a proven track record of reliability.
4. Customization Capabilities
Determine if the supplier can customize the oscillator’s specifications to tailor to your specific needs.
5. Supply Chain Stability
Assess the supplier's ability to maintain a stable supply chain, ensuring timely delivery and minimizing risk of disruptions.
6. Technical Support
Choose suppliers that offer comprehensive technical support, assisting with integration and troubleshooting post-purchase.
7. Cost-effectiveness
Compare pricing among suppliers to ensure you are receiving competitive rates without compromising on quality or specifications.
Ring oscillators are integral components in the semiconductor industry, primarily used for testing and monitoring the stability of integrated circuits (ICs). Manufacturers leverage these oscillators to ensure that their products meet the required specifications for speed and performance, making them crucial for quality assurance processes. This application guarantees that electronic devices function reliably, enhancing the reputation of semiconductor companies in the competitive tech market. In the realm of cybersecurity, ring oscillators serve as a foundation for hardware-based random number generators (RNGs). These RNGs are essential for creating encryption keys that protect sensitive data in B2B transactions. By utilizing the inherent unpredictability of ring oscillator timings, businesses can enhance their security measures, thereby safeguarding their digital assets against unauthorized access and cyber threats. Telecommunications is another sector that benefits from the application of ring oscillators. They are used in the design of frequency synthesizers, which are vital for signal processing and modulation in wireless communication systems. This ensures that data transmission over networks is both efficient and reliable, facilitating seamless connectivity and communication between businesses in an increasingly digital world. Each of these use cases underscores the versatility of ring oscillators across different industries, highlighting their significance in ensuring product quality, data security, and efficient communication in the B2B landscape.
Ring oscillators have achieved a Technology Readiness Level (TRL) of 9, indicating their full commercial deployment and widespread integration across various sectors, particularly in electronics and integrated circuits. This high TRL status is primarily due to their simple structure comprising an odd number of inverters in a loop, which ensures a reliable oscillation mechanism. Their robustness, coupled with the ease of fabrication within standard CMOS technology, has facilitated extensive research, development, and optimization over the years. The adaptability of ring oscillators in measuring integrated circuit characteristics, such as delay and phase noise, further underscores their technical maturity. Moreover, their application in generating random numbers for encryption and in built-in self-test (BIST) mechanisms for digital circuits highlights their versatility and the critical role they play in advancing semiconductor technologies. The technical advancements and the broad applicability of ring oscillators underscore their established position at the pinnacle of the TRL scale, showcasing their proven performance, reliability, and integral value to modern electronic design and security applications.
In the Short-Term, advancements in ring oscillator technology are poised to focus on energy efficiency and miniaturization. Developers are working on refining fabrication techniques that reduce power consumption and allow for more compact designs. These improvements are crucial for their integration into portable electronic devices, where space is at a premium and battery life is of paramount importance. The immediate future will likely see the introduction of ring oscillators with enhanced frequency stability and lower voltage requirements, making them more versatile across various applications. The Mid-Term outlook introduces significant innovations in the integration of ring oscillators with emerging semiconductor materials like graphene and transition metal dichalcogenides (TMDs). This period will witness a shift towards the development of ultra-fast, yet energy-efficient ring oscillators capable of operating at terahertz frequencies. Such advancements will be instrumental in pushing the boundaries of high-speed communications and computing, paving the way for faster data transmission rates and more powerful processors. Looking into the Long-Term, the evolution of ring oscillator technology is expected to revolutionize quantum computing and secure communications. The focus will be on leveraging quantum properties of materials to develop ring oscillators that can function at incredibly low temperatures and provide ultra-secure encryption for data transmission. This phase will see the convergence of classical and quantum computing elements, leading to the creation of hybrid systems that offer unprecedented computational speeds and security features, further expanding the horizon of technological possibilities.
