Murata has announced its collaboration with NXP Semiconductors to develop the Type 1XL very high-performance Wi-Fi 6 and Bluetooth® 5.3 module
Based on the NXP 88W9098 combo chipset, the ultra-small dual-band module supports IEEE 802.11a/b/g/n/ac/ax 2×2 multi-user, multiple-input, multiple-output (MU-MIMO) and Bluetooth 5.3 Low Energy (LE). The Wi-Fi™ section of the module supports connectivity up to 1.4x faster than conventional Wi-Fi compatible devices, offering data rates of up to 1200 Mbps. This section also supports the PCIe 3.0 interface with optional support for SDIO 3.0. The Bluetooth 5.3 LE section supports speeds of up to 2 Mbps with a high-speed 4-wire UART interface, optional support for SDIO, and PCM for audio data.
Murata announces the MRD series of open-loop current sensors for industrial systems
Each integrates high-performance tunnel magneto-resistive (TMR) elements - enabling precision measurement with regard to both DC and AC currents up to 40A, as well as maintaining stable characteristics across an extensive temperature range. This gives them an industry-leading full scale output accuracy of ±1.0% when operating anywhere between −40°C and 105°C, with fast-response time of 0.5µs (typical) also being supported.
Murata has added the MRMS591P and MRMS581P omnidirectional AMR sensors to its lineup of magnetic sensors
In recent years, there has been a growing need for highly secure functionality in the smart meter and security industries. For example, the meter functionality of smart meters can be disabled simply by bringing a strong magnet near the device. Traditional magnetic sensors can only detect magnetic fields in a single axial direction, making accurate detection of magnetic fields in multiaxial directions difficult. In response, Murata has applied its proprietary technologies and has developed an omnidirectional AMR sensor capable of detecting magnetic fields even when the direction of the magnetic field is not fixed.
Murata Introduces High Power Density, 10:1 ratio DC-DC converters in half- and quarter-brick footprints
The 250W IRH-W80 and 150W IRQ-W80 modules are designed for embedded applications in the railway and industrial sectors. They comply with the requirements of EN50155 for shock, vibration, extreme temperatures and humidity. Typical applications include powering equipment on board trains, such as infotainment, communications and lighting, and from a wide range of battery voltages, that require a reliable DC source. The modules also can be used in other industrial applications that operate from batteries in harsh environments. Lorem ipsum dolor sit amet, consectetuer adipiscing elit
Nichicon Launches New SLB Series of Energy Storage Devices for IoT Market
Nichicon's new SLB series of energy storage devices is ideal for IoT applications. They are capable of low current charge and high current discharge, and have an extended lifespan with excellent cycle characteristics. The SLB series has a lower internal resistance than traditional lithium-ion batteries.
Murata Launches SCH16T-K10: Setting New Standards in High-Performance Drone and Robotics Applications
Building on the success of SCH16T-K01, announced January 2024, this new sensor version significantly enhances
gyroscope capabilities, offering a dynamic range ten times greater than the SCH16T-K01. Specifically designed for high demand applications such as drone flight controllers, the SCH16T-K10 provides unparalleled performance in challenging environments.
Murata announces the development of the world’s smallest class 006003-inch size (0.16 mm x 0.08 mm) chip inductor
The relentless pursuit of enhanced functionality and miniaturization in electronic mobile devices has led to a critical need for smaller, more
efficient components. As a result, engineers are having to squeeze more
components onto less board space. The use of chip inductors, essential
components used in a wide array of these electronic devices, has also
increased, with some of the latest smartphones incorporating hundreds of
them. This trend has intensified the demand for further miniaturization
of chip inductors to facilitate high-density mounting where space is at
a premium.
Tempo's Octal PDM to TDM Converter: 142dB SNR 8 Channel DMIC Aggregator
With the brand new, game-changing 8:1 Digital PDM Mic Aggregator (Mic Array) that converts the PDM data into 16-bit or 24-bit Linear PCM in either I2S (1 or 2 channels), Left-Justified (1 or 2 channels) or TDM (1 ~ 8 channels) solution like the TSDP18xx, an ultra-fast time to market 2 to 8 digital mic Voice Activated Speaker / Touch Screen or other voice input class device can be realized leveraging our brand new TSDP18xx Octal PDM to TDM Converter ASIC.
Murata expands NTC thermistor lineup: compact sizes with high-precision temperature sensing for mobile,
consumer, and medical devicesAs electronic devices such as smartphones and wearable devices acquire advanced performance with higher component densities, the load on electronic components is increasing, generating more heat. In recent years, however, as the performance of equipped ICs has improved and the
number of mounted electronic components has increased, the importance of thermal designs is becoming more critical by the day. Under such circumstances, the demand for high-precision temperature sensing has significantly increased to ensure efficient application performance. Taking advantage of Murata's years of processing technology development, these compact products are capable of achieving high precision temperature sensing.
Antenova adds high performer to its 5G antennas
The Lepida SR4L054 is a wideband antenna in SMD form designed to achieve high efficiency and performance right across the spectrum from 600MHz to 3800MHz. Lepida operates right across the cellular bands B71 (617-698MHz), LTE700, GSM850, GSM900, DCS1800, PCS1900, WCDMA2100, B40 (2300-2400MHz), B7 (2500-2690MHz), and B78 (3300-3800MHz).
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Murata commercializes high precision agricultural CO2 sensors with superior long-term stability
In the field of agriculture, increased yield and quality improvement per unit area are required since there is a reduction in yield and decline in quality due to global warming as well as a drop in agricultural worker population. Technology for accelerating crop photosynthesis using CO2 application is an effective means of addressing these challenges. Furthermore, due to the recent increase in energy costs, effective CO2 application based on environmental data measurements is crucial. As a result, high-precision CO2 sensors, which offer long-term stability,
require no calibration, and are resistant to malfunction, play a crucial role in photosynthesis accelerator technology.
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