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Abracon AST3TDA Temperature Controlled Crystal Oscillators

Posted on by mixos

Abracon AST3TDA Precision SMD Crystal Oscillators are temperature-controlled crystal oscillators with wide operating temperatures and high stability. They feature a wide range of standard frequencies ranging from 10MHz to 50MHz, and voltage control as an available option. Abracon AST3TDA Temperature Controlled Crystal Oscillators high degree of precision suitable for network equipment, wireless communication, and autonomous technologies.

Features

  • -40°C to +105°C operating temperature range with high stability
  • Wide range of standard frequencies from 10MHz to 50MHz
  • CMOS or clipped sine wave output
  • Voltage-control option available

more information: https://abracon.com/datasheets/AST3TDA.pdf

Taoglas FXUB66 Maximus Flexible Wideband 5G/4G Antenna

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Taoglas FXUB66 Maximus Flexible Wideband 5G/4G Antenna is designed to cover all working frequencies in the 600MHz to 6000MHz spectrum, including cellular (5G/4G/3G/2G), NB-loT, Cat-M, Wi-Fi®, ISM, and GNSS bands. This flexible antenna features a unique hybrid design. Within one antenna structure, the electromagnetic waves travel in two predominant propagation modes – one for lower frequencies and the other for higher frequencies. Using the Maximus antenna in a device improves the radiated power and sensitivity while enabling the high throughput rates of broadband devices. The FXUB66 is ground plane independent and offers a 5dBi peak gain and more than 60% efficiency across all cellular bands. Taoglas FXUB66 Maximus Flexible Wideband 5G/4G Antenna comes with 3M adhesive tape for peel-and-stick mounting, 150mm of 1.37mm diameter coaxial cable, and an I-PEX MHF 4L (HSC compatible) connector.

Features

  • Ground plane independent
  • 600MHz to 6000MHz wideband
  • 5G/4G fully operational on all sub-6GHz bands
  • Efficiencies up to 80% on all cellular bands (600MHz to 6000MHz)
  • 120.4mm x 50.4mm x 0.2mm dimensions
  • I-PEX MHF 4L (HSC compatible) connector
  • 150mm of 1.37mm diameter coaxial cable
  • 3M adhesive tape for peel-and-stick mounting
  • CE certified
  • RoHS and REACH compliant

more information: https://www.taoglas.com/product/maximus-fxub66-ultra-wide-band-flex-antenna-ipex-mhf/

SMART Modular Technologies DuraFlash™ BGAE240 eMMC Memory

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SMART Modular Technologies DuraFlash™ BGAE240 eMMC Memory is an industrial-grade embedded memory solution in a compact BGA (Ball Grid Array) package. The BGAE240 integrates 2D-MLC NAND Flash Memory, an embedded MMC (MultiMediaCard) controller, and advanced firmware into a single unit that provides stable, cost-effective, and high-density embedded storage. BGAE240 eMMC Memory is designed to meet the rigid requirements of the industrial, medical, and networking markets where technical support, extended life, and stable roadmaps are critical.

The SMART Modular Technologies DuraFlash BGAE240 eMMC Memory Modules are offered in capacities from 8GB to 64GB and are compliant with the JEDEC® v5.0 standard.

Features

  • Capacities from 8GB to 64GB
  • Up to 270MB/s read
  • Up to 95MB/s write
  • Compliant to JEDEC v5.0 standard
  • Pre-configurable to pSLC enhanced storage media mode
  • VCC = 3.3V and VCCQ = 3.3V or 1.8V

Specifications

  • Performance
    • eMMC v5.0 host interface
    • 270MB/s maximum sequential read
    • 95MB/s maximum sequential write
    • 5.3K IOPS random read
    • 1.2K IOPS random write
  • Reliability
    • 10-year data retention
    • BCH error correction
  • Power
    • 3.3V ±5% input voltage
  • Environmental and physical
    • Operating shock
      • 1500g half-sine, 0.5msec
      • 1 shock along each axis
      • X, Y, Z in each direction
    • Operating vibration
      • 20G 80Hz to 2000Hz
      • 1.52mm 20Hz to 80Hz, 3 axis
    • Industrial -40°C to +85°C operating temperature range
    • 11.5mm x 13.0mm x 1.0mm BGA153 package

more information: https://www.smartm.com/product/bgae240-emmc-100-ball/SH9Q4GP1ATI11

Advanced Acoustic Technology Corp. Micro-Speakers

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Advanced Acoustic Technology Corp. (AATC) Micro-Speakers offer a 110Hz to 20kHz frequency range, 72dB to 121dBA sound pressure level, and up to 100Ω impedance rating. These speakers come in circle, oval, rectangle, or square varieties and feature diameters from 10mm to 98mm. AATC Micro-Speakers are good at playing out multi-tone audio content, such as human voice and music.

Specifications

  • Shape
    • Oval
    • Rectangle
    • Round
    • Square
  • 110Hz to 20kHz frequency range
  • 72dB to 121dBA sound pressure level
  • Up to 100Ω impedance
  • 10mm to 98mm diameters are available

more information: https://www.aatc.tw/index.php?lang=en

ScioSense ENS160 Digital Metal Oxide Multi-Gas Sensors

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ScioSense ENS160 Digital Metal Oxide Multi-Gas Sensors offer a 1.67V to 1.98V supply voltage range and up to +85°C temperature rating. These sensors are based on metal oxide (MOX) technology with four MOX sensor elements, and each sensor element has independent hotplate control to detect a wide range of gases. The ENS160 series features TrueVOC™ air quality detection and supports intelligent algorithms, which calculate CO2 equivalents, TVOC, and air quality indices (AQIs) and perform humidity and temperature compensation. ScioSense ENS160 Sensors are ideal for home appliances, IoT devices, building automation, and HVAC applications.

Features

  • TrueVOC air quality detection
  • Independent sensor heater control
  • Immunity to siloxanes and humidity
  • Hassle-free on-chip heater drive control and data processing
  • Interrupt on threshold for low-power applications.

Specifications

  • 3mm x 3mm x 0.9mm LGA package
  • 1.67V to 1.98V supply voltage range
  • Moisture Sensitivity Level: 1
  • -40°C to +85°C operating temperature range

more information: https://www.sciosense.com/products/environmental-sensors/digital-multi-gas-sensor/

Circuit provides reverse-battery connection protection

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A universal problem in battery-operated devices is the threat of damage when an end-user (never an engineer) inserts the battery backward. You can avoid damage by inserting a single diode or by using a diode-bridge configuration, but those fixes waste power and reduce the supply voltage by adding one or two diode drops between the battery and the supply rail. An alternative solution not only protects against battery-reversal damage but also automatically corrects the reversal (Figure 1). To eliminate the voltage drops associated with discrete diodes, a low-on-resistance, DPDT (double-pole, double-throw) switch serves as a full-wave rectifier. When you insert the battery with the correct polarity as shown, the upper switch, S1, is in its normally closed state, because its control pin is in its low state. The resulting connection from Pin 2 to Pin 10 provides a low-impedance path from the battery to the VCC terminal. Conversely, the lower switch, S2, closes its normally open terminal (not as shown) because its control pin is in its high state. The resulting path from Pin 7 to Pin 6 connects the battery’s negative terminal to ground.

The ESD-protection diodes in IC1 guarantee start-up and act as a full-wave rectifier (Figure 2). MOSFETs internal to the analog switch turn on when the battery voltage exceeds 1 V. Their less-than-20-nsec turn-on time enables the circuit to maintain normal operation by quickly swapping the leads of a reversed-polarity battery connection. The circuit resistance is proportional to the battery voltage. When the circuit operates from four NiCd, NiMH, or alkaline cells, the resistance in each leg of the rectifier is 2.5 Ω (5 Ω total). Operation with a two-cell battery (2.4 to 3 V) yields a total resistance of 10 Ω. IC1 is rated for operation to 5.5 V with 30-mA continuous current, making the circuit useful for cordless phones, portable audio equipment, handheld electronics, and other light- to medium-current applications. IC1‘s miniature 10-pin µMAX package takes less space than four through-hole signal diodes and is almost as small as two SOT-23 dual signal diodes.

source: EDN

onsemi NCP716BC LDO regulator

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The NCP716BC is a 150 mA LDO Linear Voltage Regulator with a wide input voltage range from 2.5V up to 24 V

The NCP716BC is a 150 mA LDO Linear Voltage Regulator with a wide input voltage range from 2.5V up to 24 V. The device comes in a TSOP-5/SOT-23-5 package and is an extension of the NCP715, NCP716, NCP716B, and NCP718 series, which all feature an input voltage range of up to 24 V. It is a very stable and accurate device with ultra-low ground current consumption and comes with several protection features such as thermal shutdown and current limit protection.

Key features

  • Wide Iiput voltage range: 2.5 V to 24 V
  • Ultra-Low quiescent current: 3.2 µA typical, 4.7 µA maximum over temperature
  • Compact TSOP-5/SOT-23-5 package
  • Thermal shutdown and current limit protection

Additional features

  • Fixed voltage options available:
    • 3.0 V, 3.3 V, 3.45 V and 5.0 V
  • ±2% accuracy over the full temperature range
  • Noise: 115 μVRMS from 200 Hz to 100 kHz
  • Cross-reference and pin-to-pin replacement for TLV704
  • Pb-Free, Halide Free

more information: https://www.onsemi.com/products/power-management/linear-regulators-ldo/ncp716bc

STDRIVEG600 Gate Driver for GaN Transistors

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STMicroelectronics’ single-chip half-bridge gate driver is designed for enhancement mode GaN FETs or N-channel power MOSFETs

STMicroelectronics’ STDRIVEG600 is a single-chip half-bridge gate driver for enhancement mode GaN FETs or N-channel power MOSFETs. The high-side section is designed to stand a voltage up to 600 V. It is suitable for applications with bus voltage up to 500 V. The STDRIVEG600 can drive high-speed silicon and GaN FETs thanks to the high current capability, short propagation delay of 45 ns in typical conditions, and operation with a supply voltage down to 5 V. The dV/dt immunity is high: ±200 V/ns. The STDRIVEG600 is a robust driver featuring overtemperature protection and UVLO function on both the lower and upper driving sections, preventing the power switches from operating in low efficiency or dangerous conditions.

The interlocking function avoids cross-conduction conditions. The logic inputs are CMOS/TTL compatible down to 3.3 V for easy interfacing with microcontroller and DSP. A dedicated pin for shut down functionality is also available. The package is SO16. STDRIVEG600 is offered both in package part (PN is STDRIVEG600) and in wafer for dice business (PN is STDRIVEG600w).

Application Diagram

Features

  • Voltage rail to 600 V
  • Up to 20 V gate driver
  • 5.5 A / 6 A sink/source currents
  • 45 ns short propagation delay
  • Bootstrap diode
  • Separated ON-OFF outputs for easy gate driving tuning
  • 3.3 V / 5 V logic inputs
  • UVLO on VCC and VBOOT
  • Thermal shutdown
  • Interlocking function
  • Shutdown pin
  • SO16 package

more information: https://www.st.com/en/power-management/stdriveg600.html

NCP51561 – 5 kV Isolated High Speed Dual MOS/SiC Drivers

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The NCP5156x are isolated dual-channel gate driver with up to 4-A/8-A source and sink peak current. It is designed for fast switching to drive power MOSFETs power switches. The NCP5156x offers short and matched propagation delays. Internal functional isolation between the two secondary-side drivers allows a working voltage of up to ~1,200 VDC. The NCP5156x offers other important protection functions such as independent under-voltage lockout for each driver and disable function.

Application Diagram

Features

  • Input side isolated from output drivers by 5-kVRMS isolation barrier
  • 40 ns Prop Delay & 8 ns Delay Match
  •  >= 150 V/ns dV/dt Immunity
  •  Typical Source/Sink Current Capability
    • NCP51560 : 2-A/4-A
    • NCP51561 : 4-A/8-A
  • Matched Propagation Delays : Max. 8 ns
  • User Programmable Input Logic
    • Single or Dual-input modes via ANB
    • DISABLE or ENABLE mode
  • User Programmable Dead-Time Control
  • Different UVLO options: 5-V,8-V & 17-V

more information: https://www.onsemi.com/products/power-management/gate-drivers/ncp51561

Infineon Technologies XENSIV™ PAS CO2 sensor

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High performance in a small size – disruptive CO2 PAS sensor

Increasingly efficient building insulation can help to mitigate the effects of climate change, but heavily insulated buildings are not always good for human health. Poor ventilation can result in lower oxygen levels and a build-up of carbon dioxide (CO2). Even moderate levels of CO2 can have a negative impact on health and productivity. Already at 1000 ppm, people begin to experience drowsiness and have difficulty concentrating. Consequently, there is a growing demand for smart indoor air quality sensors that can “smell” rising levels of CO2 and either alert the user or trigger a system response.

Key features

  • Operating range: 0 ppm to 10000 ppm
  • Accuracy: ± (30 ppm +3%) of reading between 400 ppm and 5000 ppm
  • Interface: I2C, UART, and PWM
  • Average power consumption: 30 mW typically at 1 measurement/minute

Additional features

  • Exceptionally small form factor (14 x 13.8 x 7.5 mm)
  • Accurate and robust performance at ppm level (±30 ppm ±3% of reading)
  • SMD package delivered in tape and reel
  • Advanced compensation and self-calibration algorithms
  • Various configuration options (e.g. sampling rate, baseline calibration) and interfaces (UART, I2C, PWM)

Additional benefits

  • Space savings in customers and products
  • High-quality data and compliance with smart building standards
  • Cost-effective high-volume assembly and easy system integration
  • Plug & play for fast design-to-market
  • Customer flexibility thanks to a variety of configuration options

more information: https://www.infineon.com/cms/en/product/sensor/co2-sensors/?redirId=134693#!documents

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