scispace - formally typeset
Search or ask a question

What is the operating voltage of Arduino? 

Transformer
Dielectric
Transient-voltage-suppression diode
RF power amplifier
Schottky diode

Answers from top 9 papers

More filters
Papers (9)Insight
Open accessJournal ArticleDOI
Borophosphene as a promising Dirac anode with large capacity and high-rate capability for sodium-ion batteries
Yang Zhang, Erhu Zhang, Minggang Xia, Shengli Zhang 
12 May 2020-arXiv: Materials Science
5 Citations
A low average voltage of 0.367 V is estimated, implying a suitable operating voltage of the anode material.
Open accessJournal ArticleDOI
A Review of Watt-Level CMOS RF Power Amplifiers
Ted Johansson, Jonas Fritzin 
01 Jan 2014-IEEE Transactions on Microwave Theory and Techniques
68 Citations
However, the maximum operating voltage can be improved by amplifier class selection, circuit solutions, and process modifications or mask changes.
Journal ArticleDOI
Transformer Fault Diagnosis Using Self-Powered RFID Sensor and Deep Learning Approach
Tao Wang, Yigang He, Bing Li, Tiancheng Shi 
01 Aug 2018-IEEE Sensors Journal
36 Citations
The experimental results show that the presented power supply can generate 2.5-V dc voltage, which is the rated operating voltage for the rest of the sensor tag.
Open accessJournal ArticleDOI
Coordinated Voltage Control in Distribution Network with Renewable Energy based Distributed Generation
Mohd Khairun Nizam Mohd Sarmin, Worawat Nakawiro, MohdZamriChe Wanik, Mohd Fadzil Mohd Siam, ZahrulFaizi Hussien, Ahmad Asrul Ibrahim, Ahmad Kamil Mat Hussin 
15 Jan 2013-Engineering
12 Citations
It is demonstrated that the proposed method is capable of keeping the system voltage within operating limit.
Journal ArticleDOI
SiGe driver circuit with high output amplitude operating up to 23 Gb/s
R. Schmid, Thomas Meister, M. Rest, Hans-Martin Rein 
01 Jun 1999-IEEE Journal of Solid-state Circuits
47 Citations
To the best of the authors' knowledge, this is the highest voltage swing reported so far for a silicon-based driver circuit at comparable operating speed.
Journal ArticleDOI
Effect of conductivity and dielectric constant on the modulation voltage for nonlinear optic polymer based opto-electronic devices
James G. Grote, John S. Zetts, Robert L. Nelson, Frank Kenneth Hopkins, Larry R. Dalton, Larry R. Dalton, Cheng Zhang, William H. Steier 
01 Nov 2001-Optical Engineering
86 Citations
The results show promise for shorter, lower-operating-voltage devices.
Journal ArticleDOI
Modelling and characterization of inflated dielectric elastomer actuators with tubular configuration
Chi Zhang, Hualing Chen, Lei Liu, Dichen Li 
18 May 2015-Journal of Physics D
17 Citations
The actuating voltage is greatly reduced by applying pressure, providing the possibility of low-voltage driving.
Proceedings ArticleDOI
Diagnostics of induction machines using the zero sequence voltage
Pablo Garcia, Fernando Briz, M.W. Degner, Alberto B. Diez 
01 Nov 2004
38 Citations
The measured zero sequence voltage is shown to contain reliable information on the condition of the machine, with little influence from the operating point or imbalances in the phase voltages.
Book ChapterDOI
The Power Diode
Ali I. Maswood
01 Jan 2011
2 Citations
It is largely independent of the voltage.

Related Questions

How arduino works?5 answersArduino is a programmable circuit board that allows users to sense and control objects in the physical world. It consists of hardware components and software for programming. The Arduino board is equipped with a microcontroller that can be programmed using a simplified version of C++. It also has a wide range of inputs and outputs, such as sensors, LEDs, motors, and displays, which can be controlled based on the inputs received. The Arduino IDE is an integrated development environment that provides comprehensive facilities for software development. It includes a compiler and interpreter for writing and uploading code to the Arduino board. Arduino is widely used in various applications, including robotics, wireless sensor networks, and electronic prototyping.
How much voltage does Arduino Uno need?10 answers
What is the input voltage of Arduino Nano?8 answers
What is the maximum operating voltage of the Arduino Due?9 answers
What is the operating voltage of Raspberry Pi?9 answers
What is the output voltage of Arduino Uno?10 answers

See what other people are reading

Can i use Transformer with autoML?
5 answers
Yes, you can utilize Transformer models in conjunction with automated machine learning (AutoML) techniques. Transformers have proven to be highly effective in various machine learning applications, and when integrated into reinforcement learning frameworks like the Double-Transformer-guided Temporal Logic (T2TL) framework, they enhance task performance by efficiently encoding task instructions and context variables. Additionally, deploying Transformers on edge AI accelerators, such as the Coral Edge TPU, allows for real-time inference with low power and energy consumption, making them suitable for resource-constrained devices like mobile and IoT devices. Therefore, combining Transformers with AutoML can lead to improved model performance and efficient deployment in various real-world systems.What is the effect of humidity on the structure and performance of PAN nanofibers?
5 answers
The humidity during electrospinning significantly impacts the structure and performance of PAN nanofibers. Higher relative humidity (RH) levels lead to the formation of rough surfaces and porous cores in the nanofibers. This is attributed to the water diffusion into the polymer-solution jet, causing phase separation and increased porosity. Additionally, at elevated RH, the nanofibers exhibit larger miscibility areas and porous structures, affecting their mechanical properties. The presence of water vapors enhances chemical interactions with analytes, suggesting potential applications in monitoring moist environments. Adjusting RH levels and spinning solvent quality can control nanofiber diameter, porous structure, oil sorption capability, and mechanical strength. Overall, humidity plays a crucial role in determining the morphology, porosity, and performance of PAN nanofibers.What does the fiberglass consist of?
5 answers
The fiberglass composition varies slightly across different research papers. Overall, the fiberglass typically consists of SiO2, Al2O3, CaO, MgO, B2O3, F2, TiO2, K2O, Na2O, Fe2O3, SO3, and sometimes additional elements like La2O3 and ZnO. The weight percentages of these components can differ, with ranges such as 48-65% SiO2, 9-19% Al2O3, 10-26% CaO, 0.5-11% MgO, 0-5% B2O3, and trace amounts of other oxides. The compositions are carefully formulated to enhance specific properties of the fiberglass, such as inhibiting crystallization, reducing liquidus temperature, improving refractive index, enhancing modulus of elasticity, lowering dielectric constant, minimizing devitrification risks, and ensuring good mechanical strength, high temperature resistance, and chemical stability..What is the recent progress of the loss function of transformers?
5 answers
Recent progress in transformer models has focused on enhancing loss functions for improved performance. Studies have highlighted the significance of factors like pretraining data quality, attention mechanisms, and the choice of loss functions in influencing the effectiveness of learned representations. Multimodal attention mechanisms have shown superiority over modality-specific ones, impacting the overall model performance. While successful contrastive losses have been beneficial in self-supervised learning, their translation to multimodal transformers has not yielded similar performance gains. Additionally, innovative approaches have been proposed, such as incorporating spatial feature prediction alongside temporal prediction in loss functions for CAN bus data, showcasing promising results in prediction tasks. These advancements underscore the continuous evolution and refinement of loss functions in transformer models for various applications.How does the use of transparent ceramics impact the efficiency of energy conversion in various technological applications?
5 answers
The utilization of transparent ceramics significantly enhances the efficiency of energy conversion in various technological applications. Transparent dielectric ceramics, such as KNN-based ceramics, offer outstanding energy storage properties and optical transparency, enabling the development of advanced transparent pulse capacitors and electro-optical multifunctional devices. Similarly, transparent silica aerogels exhibit low thermal conductivity and high transparency, making them ideal for solar thermal energy conversion systems and transparent windows, achieving high temperatures rapidly under solar irradiance. Furthermore, the modification of KNN-based ceramics with Bi(Li0.5Nb0.5)O3 enhances energy storage efficiency and optical transmittance, paving the way for transparent pulse capacitors. Additionally, Cr,Nd: YAG transparent ceramics demonstrate high solar light conversion magnitude, making them promising gain media for solar pumped solid state lasers. Overall, transparent ceramics play a crucial role in improving energy conversion efficiency across various technological applications.What are the strengths and weaknesses of Milner and Goodale's two-visual stream model?
5 answers
Milner and Goodale's two-visual stream model posits distinct functions for the dorsal and ventral visual pathways. The dorsal stream is specialized for visually guided motor behavior, operating with short-term memory, while the ventral stream is involved in object classification, utilizing long-term memory. This model suggests that the dorsal stream processes input using absolute metrics for immediate action, while the ventral stream uses relative metrics and accumulates sensory evidence over time, enhancing memory capacity. However, the model has been critiqued for its oversimplified dichotomy and the complexity of neural processing, as evidenced by studies using recurrent neural networks to perform tasks attributed to each stream, showing varying memory requirements based on task complexity and dataset size.What is the effect of hBN fillers on the tribological properties of PTFE?
5 answers
The incorporation of hexagonal boron nitride (hBN) fillers into polytetrafluoroethylene (PTFE) composites significantly enhances their tribological properties, as evidenced by various research findings. Yuan-Long He et al. demonstrated that adding hBN alongside short carbon fibers and a specific micropowder to PTFE composites improved their mechanical properties, friction coefficient, and wear resistance, with a notable decrease in wear rate observed at certain filler concentrations. Similarly, Yanhong Feng et al. found that hBN, when used with silicon carbide (SiC) fillers in PTFE, not only improved thermal conductivity but also maintained low dielectric constants, suggesting an indirect benefit to tribological performance by enhancing material stability under operational conditions. Chaojie Xie and Kejian Wang's study further supports these findings, showing that hBN fillers, especially when combined with polyimide (PI), significantly reduce the coefficient of friction and wear rate of PTFE composites under dry sliding conditions. This reduction in wear and friction is attributed to the synergistic effect of hBN and PI, improving the dispersion and bonding within the PTFE matrix. Chen Pan et al. explored the thermal aspect, using hBN and aluminum nitride (AlN) as hybrid fillers in PTFE to disrupt hBN platelets' alignment, which indirectly suggests an improvement in tribological performance by enhancing thermal conductivity and reducing material degradation under thermal stress. Moreover, Anand Singh Rathaur et al. demonstrated that hBN fillers, when used in SU-8 composites, significantly improved wear resistance, thermal stability, and mechanical properties, indicating that hBN's benefits extend beyond PTFE composites to other polymer matrices as well. This broad applicability underscores hBN's role in enhancing the tribological performance of polymer composites. In summary, hBN fillers in PTFE composites lead to improved wear resistance, reduced friction coefficients, and enhanced mechanical and thermal properties, contributing to their overall superior tribological performance.What are the popular LLMs?
5 answers
Popular Large Language Models (LLMs) include ChatGPT, Bard, and various models deposited on Hugging Face, with nearly 16,000 Text Generation models available on the platform. Additionally, a combination of convolutional layers and Transformers has shown significant performance gains in LLMs, especially in speech applications, by capturing local and global dependencies over latent representations. Moreover, LLMs have revolutionized workflows for learning on graphs, offering extensive common knowledge and semantic comprehension abilities for tasks like node classification, either as enhancers in conjunction with Graph Neural Networks (GNNs) or as standalone predictors. Despite underperforming in explicit belief state tracking, LLMs excel in guiding dialogues to successful conclusions with access to accurate slot values or in-domain examples.What modeling approaches are being used to simulate metal casting and forging processes?
5 answers
Various modeling approaches are employed to simulate metal casting and forging processes. These include the use of mathematical models considering material deformation, friction, and heat dissipation in casting and forging modules. Additionally, the finite element method and software like DEFORM are utilized for predicting plastic metal flow in forging operations, considering parameters such as material characteristics, preform and die design, and die material. Furthermore, coupled thermomechanical computational modeling is applied to simulate metal casting processes, incorporating thermodynamically consistent constitutive material models, thermomechanical contact models, and fractional step methods for solving the coupled problem using a staggered scheme. These diverse approaches aim to enhance the efficiency, accuracy, and robustness of simulations in the metal casting and forging industry.What are the current advances in natural language processing and understanding technologies used for bidirectional human-robot interaction?
5 answers
Current advances in natural language processing (NLP) and understanding technologies for bidirectional human-robot interaction involve multimodal approaches, large-scale language models, and transformer-based architectures. Multimodal human-robot interaction (HRI) integrates various modalities like voice, image, text, and bio-signals for more natural communication. Integrating OpenAI's GPT-3 language model enables verbal dialogue with robots, enhancing interaction capabilities. Transformer-based models like Albert show promise in NLU tasks, offering comparable performance to BERT with significantly faster inference times, making them suitable for real-time applications on embedded systems in social robots. These advancements in NLP technologies are shaping more efficient and effective bidirectional communication between humans and robots.How does AI influence the creativity and originality of story generation?
5 answers
AI plays a significant role in influencing the creativity and originality of story generation. Generative models in AI have been utilized to create compelling narratives, with a focus on coherence and meaningful content. Critics highlight concerns such as the reliance on extensive training data and view AI-generated content as a form of randomized plagiarism. However, AI has been leveraged to develop creative conversational agents that enhance storytelling experiences, with a focus on fluency, flexibility, elaboration, and originality. Cognitive computing in AI further augments human capacity by simulating intelligence and thought processes, enabling tasks like text generation and context understanding to be performed efficiently. Ultimately, AI's impact on story generation lies in its ability to push boundaries, challenge traditional notions of creativity, and offer new avenues for narrative creation.