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China
51-100 Employees
2000
Hunston was founded in Hong Kong; our mission is to "Focus On Problems Rather Than Ideas". Hunston believes solving customers' problems is the only way to bring long-term benefits to both parties. We are committed to becoming the world's leading supplier of acoustic components through professional services and an extensive product line. Hunston was established in 2012 and specializes in acoustic components with manufacturing plants located in China's Jiangsu, Guangdong, and Shandong provinces. Our products include a buzzer, speaker, microphone, receiver, piezoelectric and ultrasonic products. We are aware of our customer's needs for a fast and stable supply chain, reasonable and competitive prices, and attentive and professional services. Therefore, Hunston has been expanding its sales and engineering team to assist customers in solving their design and operation problems and bringing them the best quality services and products to enjoy. In addition, due to the market demand, Hunston has been developing more product categories to meet customers.
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Featured
MEMS Microphone
... CMM3729AT-110H60S423 | MEMS Microphone | Microphone | Hunston ...
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Featured
MEMS microphone
... A part of the specifications of MEMS microphones handled by Aoi Electronics Co., Ltd. is posted. ...
Oslo, Norway
1-10 Employees
2016
The sensiBel team consists of MEMS, electronics, optics and acoustics technology experts, as well as a business and leadership team with vast multi-national experience and several successful high-tech start-ups in electronics for high-volume applications. We are passionate about audio and dedicated to bring a true studio-quality MEMS microphone to your products. We are curious and determined to overcome any barriers we may face. Commitment We are committed to our mission, vision and our goals. We are honest, respectful and hold the highest ethical standards. We believe in professional grade audio for everyone! Innovation We have an innovative mindset and always seek creative ways to solve tough problems. ECMs are large in size and inherently not suitable for high-volume production.
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Featured
The next generation MEMS microphones
... The next generation MEMS microphones ...
Village/Town of Mount Kisco, United States
501-1000 Employees
1988
Within these facilities we provide multiple discipline technical support including in-house tooling, SMT and through-hole PCB assembly, injection molding, PCB design, firmware development, industrial design, software/hardware, quality assurance along with materials management in support of both medium and high volume product manufacturing. RDI’s headquarters and engineering facilities are located in Mount Kisco, NY with wholly-owned manufacturing operations in Shenzhen, China. Our growing line of products, including miniature switches, audio devices, speakers and custom cable assemblies that form the core of our component offering, help ensure that our product, design and manufacturing capabilities will continue to find useful applications in an expanding array of system applications. Your project will be handled by experts every time.We make sure you have the most experienced professionals working for you. RDI works with some of the biggest names in the manufacturing world and we hope our insights will help you plan and prepare for what’s coming next in your own industry.
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Featured
RMM-2718AL-42NL Analog MEMS Microphone
... Analog MEMS Microphone with Top Port input, SMT and low noise voltage output for use in both Near and Far Field apps. ...
Saarbrücken, Germany
1-10 Employees
Der EXP-Tech-Onlineshop bietet ein umfassendes Produktspektrum rund um die Themen Mikrocontroller und Einplatinen-Computer. Yuan Wang nach seinem Studium der Elektrotechnik an der Universität Stuttgart gegründet. Seit über 10 Jahren bietet die EXP GmbH ihren Kunden Know-How und Produkte zur Realisierung verschiedenster Projekte. Zur Qualitätssicherung und Produktion unterhält die EXP GmbH eigene Services in Shenzhen,CN und ist Distributor zahlreicher internationaler Hersteller. Ein Motorcontroller ist ein Gerät, das als Vermittler zwischen dem Mikrocontroller, den Batterien und den Motoren Ihres Roboters fungiert. Wir bieten Ihnen eine große Auswahl an qualitativ hochwertigen Motoren und Motorsteuerungen von führenden Herstellern.
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Featured
Adafruit Silicon MEMS Microphone Breakout - SPW2430
... Listen to this good news - we now have a breakout board for a super tiny MEMS microphone. Just like 'classic' electret microphones, MEMS mics can detect sound and convert it to voltage, but they don't need a bias resistor or amplifier, its all in one! The SPW2430 is a small, low cost ...
London, United Kingdom
1-10 Employees
2004
Grab yourself a bargain with our collection of great value offers for your next project! A new upgraded camera featuring a 12-Megapixel IMX708 sensor, HDR capabilities, and a powered auto-focus. A versatile, high-performance, user-programmable robot with a Raspberry Pi RP2040 microcontroller at its heart. Want to know more about who Cool Components are? DESCRIPTION Arduino’s continued commitment to making technology accessible to everyone was the inspiration behind Arduino UNO R4 Minima: the new ad...
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Analog MEMS Microphone Breakout - VM2020
... DESCRIPTION The SparkFun Analog MEMS Microphone Breakout makes it easy to work with the Vesper VM2020 analog microphone. The VM2020 is an ultra-high Acoustic Overload Point (AOP), high dynamic range, differential analog output piezoelectric MEMS microphone. What separates this from ...
Linz, Austria
1-10 Employees
Infineon introduces CoolSiC™ MOSFET G2, the next generation of silicon carbide technology for high-performance systems that drive decarbonization. Infineon partner Thistle Technologies integrates its Verified Boot technology with Infineon’s OPTIGA™ Trust M for enhanced device security. Infineon sets new industry standard for enhanced power density and efficiency with OptiMOS™ 6 200 V MOSFETs.
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Featured
MEMS microphones
... Infineon XENSIV™ MEMS microphones redefine a growing number of use ...
Reno, United States
1-10 Employees
2014
We are in business to provide solutions that speed development, mitigate delays and resolve some of the simple problems engineers face when developing new products. We are constantly looking to grow our selection, so if you have something specific that you are looking for and you can't find it on our site, please don't hesitate to reach out by clicking here. We are very proud to be partnering with Indium Solder to provide access to their high quality products. IC Breakout, LLC is family owned and operated business based out of the beautiful Reno, NV. We offer a wide variety of breakout boards and prototyping supplies, we distribute Indium Solder Paste and Materials, and we provide custom PCB design and layout services. We also provide custom PCB design and layout services using Altium Designer, the number one PCB and FPGA development solution.
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Featured
MEMS Microphone Breakout Board (INMP401)
... MEMS Microphone Breakout Board (INMP401) | IC ...
Shenzhen, China
11-50 Employees
2000
TG Microchip was established in 2000 with headquarters in the world’s largest electronics market in Shenzhen, China. We are an independent first-hand global distributor of original and new electronics components, specialized in supplying qualified semiconductors for international manufacturers. We focus on understanding our customers’ needs in order to recommend the best parts/solutions with the quickest feed back. We offer competitive prices with quality assurance and efficient delivery.
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Featured
MEMS Microphones
... MEMS Microphones - TG ...
Montreal, Canada
1-10 Employees
2017
We are a team of engineers, musicians, and tech enthusiasts that are obsessed with understanding how the state-of-the-art works and how we can improve it. We are passionate, curious, and ambitious and are so excited to finally share what we’ve been up these past few years. Soundskrit was founded in 2019 and is headquartered in Montreal, Quebec with an R&D facility in Ann Arbor, Michigan. Soundskrit enables the next generation of consumer audio by bringing directional microphones from the studio to everyday devices. Soundskrit directional microphones are robust to environmental noise to ensure that users are always heard the way they expect to be. Soundskrit microphones are directional, meaning they only record sound in the direction they are pointed. Using just two, co-located Soundskrit microphones, portable electronics can match the performance of dedicated conferencing equipment. Apply to our latest job opportunities and be part of Soundskrit.
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Featured
Hear the Impossible - Soundskrit
... Our bio-inspired, directional MEMS microphone hears beyond human capability, with excellent directionality and audio. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for MEMS Microphone
Country with most fitting companies | United States |
Amount of fitting manufacturers | 79 |
Amount of suitable service providers | 41 |
Average amount of employees | 1-10 |
Oldest suiting company | 1963 |
Youngest suiting company | 2017 |
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A MEMS (MicroElectroMechanical Systems) microphone is a compact audio capturing device that integrates mechanical and electrical components within a micro-scale silicon chip. Utilizing MEMS technology, these microphones are engineered to convert sound waves into electrical signals through the movement of a tiny, sensitive diaphragm. This diaphragm's motion is then translated into an electrical signal by an integrated circuit (IC), making the technology highly efficient for various applications. The miniature size, high reliability, and excellent performance in a wide range of environmental conditions make MEMS microphones particularly advantageous for use in consumer electronics, such as smartphones, tablets, and wearable devices. Additionally, their low power consumption and high signal-to-noise ratio enhance the quality of voice commands and audio recordings, which is crucial for the effectiveness of voice-controlled systems and digital assistants. The integration of MEMS microphones into these devices has significantly contributed to the advancement of user interfaces, making interactions more natural and intuitive. Furthermore, their application extends beyond consumer electronics, including automotive systems, smart home devices, and healthcare monitoring equipment, where precise, reliable audio capture is essential. The evolution of MEMS microphone technology continues to impact the development of innovative products and solutions, shaping the future of how we interact with technology on a daily basis.
1. Compact Size
MEMS microphones boast a significantly smaller footprint compared to traditional microphone technologies. This miniaturization allows for their integration into a wide array of devices, including smartphones, wearable technology, and IoT devices, without compromising device design or user experience.
2. Energy Efficiency
One of the standout features of MEMS microphones is their exceptional energy efficiency. They consume far less power, which is crucial for battery-operated devices, extending the battery life and thereby enhancing user satisfaction and device performance.
3. High Sound Quality
Despite their small size, MEMS microphones deliver high-quality sound capture. They are adept at reducing background noise and improving voice clarity, making them ideal for applications requiring superior audio experiences, such as voice-controlled systems and high-quality audio recordings.
4. Durability
MEMS microphones are designed to withstand harsh conditions, including high temperatures and humidity levels. This robustness ensures reliable performance over a broad range of environmental conditions, making them suitable for outdoor and industrial applications.
1. Sensitivity and Signal-to-Noise Ratio (SNR)
Consider microphones with high sensitivity and SNR for clear audio capture, especially in noisy environments.
2. Power Consumption
Select suppliers offering low power consumption microphones to extend the lifespan of battery-powered devices.
3. Form Factor and Footprint
Ensure the microphone's size is compatible with your device design for seamless integration.
4. Environmental Robustness
Opt for microphones that perform well under various environmental conditions, including temperature and humidity changes.
5. Frequency Response
Choose a microphone with a frequency response that matches the application’s audio requirements for optimal sound quality.
6. Cost Efficiency
Evaluate the cost against performance and longevity to find a supplier that offers the best value for your specific needs.
7. Supply Chain Reliability
Consider the supplier's ability to consistently meet demand and manage logistics, ensuring timely product delivery.
MEMS microphones, known for their compact size and high performance, have become integral to the telecommunications industry. In conference call systems, these microphones offer unparalleled clarity and noise suppression, enabling effective communication across global teams. The ability to integrate multiple MEMS microphones into devices enhances voice pickup from various directions, making virtual meetings more productive and less susceptible to audio issues. In the healthcare sector, MEMS microphones are revolutionizing patient monitoring equipment. Their sensitivity to even the slightest sounds makes them ideal for non-invasive monitoring of heart and respiratory rates. This application not only improves patient care but also aids in the development of remote health monitoring devices, allowing for continuous patient observation without the need for direct contact. The automotive industry benefits from MEMS microphones in enhancing in-vehicle communication systems. These microphones, embedded in hands-free calling and voice control systems, ensure clear voice transmission despite road noise. This advancement significantly improves driver safety by allowing for undistracted operation of navigation and entertainment systems, reinforcing the role of MEMS microphones in promoting safer driving environments. Lastly, in smart home devices, MEMS microphones play a crucial role. They enable accurate voice command detection, facilitating seamless interaction with virtual assistants and smart appliances. This capability is fundamental in creating intuitive, user-friendly smart home ecosystems that respond efficiently to user commands, elevating the overall home automation experience.
MEMS (Micro-Electro-Mechanical Systems) microphones have achieved a high Technology Readiness Level (TRL), typically situated at TRL 9, indicating that they are fully developed technologies deployed in actual market conditions. This advanced TRL is primarily due to significant advancements in microfabrication techniques that have enabled the mass production of these compact, high-performance devices. Over the years, MEMS microphones have evolved to offer excellent audio quality, with improvements in signal-to-noise ratio (SNR) and sensitivity, making them ideal for a wide range of applications, from consumer electronics like smartphones and IoT devices to more specialized uses in hearing aids and automotive systems. The integration of MEMS microphones into these applications is facilitated by their robustness, reliability in various environmental conditions, and their ability to be manufactured in large quantities at a relatively low cost per unit. Additionally, the development of algorithms for noise cancellation and beamforming has further enhanced the desirability of MEMS microphones, allowing for clearer audio capture in noisy environments. These technical milestones underscore the maturity of MEMS microphone technology and its widespread adoption across multiple sectors, reflecting its status at the pinnacle of the TRL scale.
In the Short-Term, developments in MEMS (Microelectromechanical Systems) microphone technology are poised to enhance noise cancellation capabilities, making them more adept at isolating speech from background noise. This progress is expected to be driven by advancements in software algorithms and MEMS sensor designs, offering superior audio quality for smartphones, hearing aids, and smart home devices. Additionally, the miniaturization of MEMS microphones will continue, allowing for their integration into an even broader range of devices without compromising the overall design aesthetic. Looking towards the Mid-Term, we anticipate the integration of AI-driven features into MEMS microphones, enabling more intuitive voice-controlled applications. This will involve sophisticated signal processing techniques that allow for real-time language translation, emotion recognition, and enhanced environmental awareness. These microphones will likely become core components in wearable technology, providing seamless interaction with various IoT devices and virtual assistants. Furthermore, energy efficiency will see significant improvements, allowing these microphones to operate in a low-power mode for extended periods, which is crucial for battery-powered devices. In the Long-Term, MEMS microphone technology is expected to evolve towards fully autonomous sensory systems capable of three-dimensional sound detection and analysis. This will open up new possibilities for spatial computing, augmented reality experiences, and immersive virtual environments. These microphones will not only capture sound but also interpret acoustic scenes, enabling devices to understand their surroundings with unprecedented accuracy. Additionally, the development of biodegradable and sustainable materials for MEMS production will address environmental concerns, paving the way for eco-friendly electronic devices.
Some interesting questions that has been asked about the results you have just received for MEMS Microphone
What are related technologies to MEMS Microphone?
Based on our calculations related technologies to MEMS Microphone are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Which industries are mostly working on MEMS Microphone?
The most represented industries which are working in MEMS Microphone are Manufacturing, Hardware, Consumer Electronics, Commerce and Shopping, Information Technology
How does ensun find these MEMS Microphone Suppliers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.