4V to 16V Input Quad 3A 3A 2A 2A Output Power Module with I2C and MTP in Ultra-Thin LGA Package #ultralibrarian

SM261S4030H0R is an omnidirectional, Top‐ported, I 2 S digital output MEMS microphone. It has high performance and reliability.    MSM261S4030H0R is available in a 4 mm × 3 mm × 1.0 mm metal can LGA package. It is SMT compatible with no sensitivity degradation Cost effective Low Power mode Digital I2S output Compatible with Sn/Pb and Pb‐free solder processes RoHS/Halogen free compliant Sensitivity Matching within +/‐1dB #CommonPartsLibrary #MEMS #Microphone #Vibration-motor

The Bosch BME688 is a state-of-the-art digital low power gas, pressure, temperature, and humidity sensor that integrates Artificial Intelligence (AI) capabilities, making it the first of its kind in the market. Housed in a compact 3.0 x 3.0 x 0.9 mm³ metal lid LGA package, it is designed to meet the demands of mobile and connected applications where size and power consumption are critical factors. The sensor is capable of detecting Volatile Organic Compounds (VOCs), volatile sulfur compounds (VSCs), carbon monoxide, and hydrogen in the part per billion (ppb) range. Building on the features of the BME680, the BME688 introduces a gas scanner function that enhances its sensitivity, selectivity, data rate, and power consumption for specific applications. With the help of Bosch AI-Studio tool, customers can train the BME688 gas scanner for their specific needs, making it an ideal choice for a wide range of applications including indoor air quality measurement, detection of bad breath or spoiled food, early odor detection, and smart home devices among others. The BME688 operates within a supply voltage range of 1.71 V to 3.6 V and offers various modes of operation to balance power consumption and measurement responsiveness, catering to both portable and stationary applications.

Quectel LG290P (03) high-precision quad-band GNSS module, supports GPS/GLONASS/Galileo/BDS/QZSS/NavIC constellations, simultaneous L1/L2/L5/E6 reception, SBAS support, quad-band RTK positioning with fast convergence, integrated interference detection and mitigation, protection-level integrity functions, Secure Boot support, UART and I2C interfaces, low power consumption, compact 12.2 x 16.0 x 2.6mm LGA package. lg290

Cellular, Navigation BeiDou, EGDE, Galileo, GLONASS, GPS, GNSS, GSM, LTE Transceiver Module 850MHz, 900MHz, 1.8GHz, 1.9GHz Antenna Not Included Surface Mount The BG95M3LA-64-SGNS is a compact low-power LTE cellular communication module designed for IoT, telematics, asset tracking, industrial automation, and embedded wireless applications. The module supports global LTE Cat M1, Cat NB2, and EGPRS connectivity, enabling reliable wide-area wireless communication for battery-powered and mobile embedded systems. The device integrates cellular modem functionality, GNSS positioning capability, power management features, and multiple peripheral communication interfaces within a highly compact surface-mount package optimized for space-constrained embedded designs. The module is engineered for low-power operation, making it suitable for long-life IoT deployments requiring efficient wireless connectivity. The BG95M3LA-64-SGNS supports integrated satellite positioning technologies including GPS, GLONASS, Galileo, and BeiDou for location-aware applications. Its robust RF performance and industrial-grade operating capability allow deployment in harsh environmental conditions and demanding remote monitoring systems. The module provides comprehensive support for embedded communication protocols and is commonly used in smart meters, telematics units, industrial gateways, environmental monitoring systems, fleet tracking devices, and connected sensor platforms. Key Features LTE Cat M1 cellular communication support LTE Cat NB2 narrowband IoT capability EGPRS fallback connectivity Integrated GNSS positioning functionality Low-power optimized architecture Global wireless network compatibility Compact surface-mount module design Embedded TCP/IP protocol stack support UART, USB, and serial communication interfaces Integrated power management subsystem Industrial operating temperature support Embedded IoT connectivity optimization High-reliability wireless communication platform Multi-constellation satellite navigation support Electrical Characteristics Low operating power consumption Wide input voltage support High RF sensitivity performance Embedded low-power sleep functionality Stable wireless communication architecture Integrated RF and baseband processing Optimized antenna interface support Industrial-grade reliability performance Fast network registration capability Applications IoT and M2M communication systems Asset tracking devices Fleet management platforms Smart utility metering Industrial automation equipment Remote environmental monitoring Smart agriculture systems Telematics and transportation electronics Portable wireless data terminals Embedded gateway systems Smart city infrastructure Connected sensor platforms Package Information Package Type: LGA Module Mounting Type: Surface Mount Compact embedded wireless module package RoHS compliant configuration available #commonpartslibrary #wirelessmodule #lte #iot #embeddedhardware #cellularcommunication #gnss #telematics #industrialautomation #assettracking

Attitude Sensors LSM6DSO32TR LGA-14_L3.0-W2.5-P0.50-TL LCSC Part Number: C1864162 JLCPCB Part Class: Extended Part Manufactured by ST(意法半导体)STMicroelectronics LSM6DSO32 iNEMO 6-axis inertial measurement unit, integrated always-on 3D digital accelerometer and 3D digital gyroscope, accelerometer full-scale ranges ±4/±8/±16/±32g, gyroscope full-scale ranges ±125/±250/±500/±1000/±2000dps, low power consumption, 1.71V to 3.6V supply voltage, SPI/I2C/MIPI I3C interface, smart FIFO up to 9kbytes, embedded pedometer, step detector, tilt detection and motion functions, embedded temperature sensor, -40°C to +85°C operating range, compact 14-lead LGA 2.5 x 3.0 x 0.83mm package. Search Keywords: LSM6DSO32, ST LSM6DSO32, STMicroelectronics LSM6DSO32, LSM6DSO32TR, iNEMO inertial module, 6-axis IMU, 3D accelerometer gyroscope, 32g accelerometer, 2000dps gyroscope, LSM6DSO32 IMU sensor, LSM6DSO32 accelerometer, LSM6DSO32 gyroscope, SPI I2C I3C IMU, LGA-14 IMU, 2.5x3mm IMU, LSM6DSO32 datasheet Hashtags: #LSM6DSO32 #LSM6DSO32TR #STMicroelectronics #STIMU #iNEMO #IMUSensor #6AxisIMU #Accelerometer #Gyroscope #3DAccelerometer #3DGyroscope #32gAccelerometer #2000dpsGyroscope #I2CSensor #SPISensor #I3CSensor #LGA14 #MotionSensor

Accelerometer X, Y, Z Axis ±2g, 4g, 8g 6.25Hz ~ 200Hz 12-LGA (2.2x2.3) The ADXL367BCCZ-RL7 is an ultra-low power, three-axis MEMS accelerometer developed by Analog Devices for motion sensing applications requiring extremely low energy consumption and high measurement stability. The device integrates precision acceleration sensing, embedded motion detection capabilities, and intelligent power management features within a compact surface-mount package suitable for portable and battery-operated systems. The accelerometer supports both I²C and SPI digital communication interfaces, enabling flexible integration with embedded processors, microcontrollers, and sensor hubs. Its architecture is optimized for continuous motion monitoring while maintaining exceptionally low current consumption, making it ideal for wearable electronics, asset tracking devices, medical monitoring equipment, industrial sensing systems, and Internet of Things platforms. The device incorporates embedded activity, inactivity, and wake-up detection functions that allow host processors to remain in low-power states until significant motion events occur. Integrated FIFO buffering and programmable interrupt functionality reduce processor overhead and improve overall system efficiency. The ADXL367BCCZ-RL7 is designed for robust operation across a wide operating temperature range and maintains high measurement accuracy with low noise and excellent long-term stability. The compact LGA package enables dense PCB layouts for space-constrained designs. Key Features Motion Sensing Three-axis digital accelerometer Selectable acceleration measurement ranges High-resolution motion detection Low noise sensing architecture Integrated temperature sensor Power Management Ultra-low power operation optimized for battery-powered systems Multiple operating and standby modes Autonomous motion-triggered wake-up capability Efficient duty-cycling support Digital Interfaces Supports SPI communication Supports I²C communication Programmable interrupt outputs Embedded FIFO data buffering Embedded Detection Functions Activity detection Inactivity detection Motion-triggered interrupt generation Autonomous wake-up monitoring Mechanical and Environmental Compact LGA surface-mount package High shock tolerance Wide operating temperature capability Suitable for portable and industrial environments Electrical Characteristics Supply Requirements Low-voltage digital supply operation Optimized for low-current embedded systems Stable operation across supported voltage range Sensor Performance High sensitivity stability Low offset drift Low output noise density Configurable output data rates Communication and Control Supported Interfaces SPI serial interface I²C serial interface Programmability Configurable measurement ranges Adjustable output data rates Programmable interrupt mapping FIFO configuration support Package Information Package Type LGA surface-mount package Mounting PCB surface mount compatible Suitable for automated assembly processes Typical Applications Wearable electronics Health and fitness monitoring Portable instrumentation Asset and condition monitoring Industrial sensing systems IoT sensor nodes Motion-activated devices Battery-powered embedded systems #commonpartslibrary #integratedcircuit #accelerometer #sensor

SLC NAND Flash Parallel/Serial 3.3V 256G-bit 32G x 8 100-Pin LBGA FLASH - NAND (SLC) Memory IC 256Gbit Parallel 100 MHz 100-LBGA (12x18) The MT29F256G08AUCABH3-10ITZ:A is a high-density 256Gb Single-Level Cell (SLC) NAND Flash memory device from Micron Technology. It provides non-volatile data storage with high reliability, fast read/write performance, and long endurance, making it suitable for industrial, networking, embedded computing, automotive, and data-logging applications. The device supports both asynchronous and synchronous interfaces and complies with the Open NAND Flash Interface (ONFI) standard for enhanced interoperability and performance. It is housed in a compact 100-ball LBGA package (12 mm × 18 mm). • Open NAND Flash Interface (ONFI) 2.2-compliant1 • Single-level cell (SLC) technology • Organization – Page size x8: 8640 bytes (8192 + 448 bytes) – Block size: 128 pages (1024K + 56K bytes) – Plane size: 2 planes x 2048 blocks per plane – Device size: 32Gb: 4096 blocks; 64Gb: 8192 blocks; 128Gb: 16,384 blocks; 256Gb: 32,768 blocks • Synchronous I/O performance – Up to synchronous timing mode 5 – Clock rate: 10ns (DDR) – Read/write throughput per pin: 200 MT/s • Asynchronous I/O performance – Up to asynchronous timing mode 5 – tRC/tWC: 20ns (MIN) – Read/write throughput per pin: 50 MT/s • Array performance – Read page: 35µs (MAX) – Program page: 350µs (TYP) – Erase block: 1.5ms (TYP) • Operating Voltage Range – VCC: 2.7–3.6V – VCCQ: 1.7–1.95V, 2.7–3.6V • Command set: ONFI NAND Flash Protocol • Advanced Command Set – Program cache – Read cache sequential – Read cache random – One-time programmable (OTP) mode – Multi-plane commands – Multi-LUN operations – Read unique ID – Copyback • First block (block address 00h) is valid when shipped from factory. For minimum required ECC, see Error Management (page 114). • RESET (FFh) required as first command after power-on • Operation status byte provides software method for detecting – Operation completion – Pass/fail condition – Write-protect status • Data strobe (DQS) signals provide a hardware method for synchronizing data DQ in the synchronous interface • Copyback operations supported within the plane from which data is read • Quality and reliability – Data retention: JESD47G compliant; see qualification report – Endurance: 60,000 PROGRAM/ERASE cycles • Operating temperature: – Commercial: 0°C to +70°C – Industrial (IT): –40ºC to +85ºC • Package – 52-pad LGA – 48-pin TSOP – 100-ball BGA – 132-ball BGA #Micron #NANDFlash #SLCNAND #FlashMemory #NonVolatileMemory #ONFI #EmbeddedSystems #IndustrialElectronics #DataStorage #MemoryIC #LBGA100 #HighReliability #MT29F256G08AUCABH310ITZA #MicronMemory #ParallelNANDFlash

Accelerometer X, Y, Z Axis ±2g, 4g, 8g, 16g 0.05Hz ~ 1.6kHz 14-LGA (3x5) The ADXL345-EP is an extended performance version of the ADXL345, which is a small, thin, ultralow power, 3-axis accelerometer with high resolution (13-bit) measurement at up to ±16 g. Digital output data is formatted as 16-bit twos complement and is accessible through either a SPI (3- or 4-wire) or I2 C digital interface. The ADXL345-EP is well suited for extended temperature range industrial and aerospace equipment. It measures the static acceleration of gravity in tilt-sensing applications, as well as dynamic acceleration resulting from motion or shock. Its high resolution (3.9 mg/LSB) enables measurement of inclination changes less than 1.0°. Several special sensing functions are provided. Activity and inactivity sensing detect the presence or lack of motion by comparing the acceleration on any axis with user-set thresholds. Tap sensing detects single and double taps in any direction. Freefall sensing detects if the device is falling. These functions can be mapped individually to either of two interrupt output pins. An integrated memory management system with a 32-level first in, first out (FIFO) buffer can be used to store data to minimize host processor activity and lower overall system power consumption. Low power modes enable intelligent motion-based power management with threshold sensing and active acceleration measurement at extremely low power dissipation. The ADXL345-EP is supplied in a small, thin, 3 mm × 5 mm × 1 mm, 14-lead, enhanced plastic package. Ultralow power: as low as 23 µA in measurement mode and 0.1 µA in standby mode at VS = 2.5 V (typical) Power consumption scales automatically with bandwidth User-selectable resolution from 10 to 13 bits 4 mg/LSB scale factor in all g ranges 32-sample FIFO minimizes host processor load Single tap, double tap, and free-fall detection Activity/inactivity monitoring Supply voltage range: 2.0 V to 3.6 V I/O voltage range: 1.7 V to VS SPI (3- and 4-wire) and I2C digital interfaces Flexible interrupt modes mappable to either interrupt pin Measurement ranges selectable via serial command Bandwidth selectable via serial command 10,000 g shock survival Pb free/RoHS compliant Small and thin: 3 mm × 5 mm × 1 mm LGA package #CommonPartsLibrary #Sensor #Motion-sensor #accelerometer

The RFFM6901 is a single-chip RF front-end module (FEM) designed for 868 MHz to 928 MHz ISM-band wireless communication applications. It integrates a high-power power amplifier (PA), low-noise amplifier (LNA), antenna diversity switch, and matching circuitry into a compact package, helping reduce external components, PCB space, and overall system cost. It is commonly used in smart energy systems, wireless metering, industrial monitoring, alarm systems, and other Sub-1 GHz wireless devices. Key Features Operating frequency range: 868 MHz to 928 MHz Integrated 1 W power amplifier Up to +30 dBm transmit output power Integrated low-noise amplifier with bypass mode Dual-port antenna diversity switch Separate 50 Ω transmit and receive interfaces Compact 32-pin LGA package (6 mm × 6 mm) Supply voltage range: 2.8 V to 4.2 V Typical LNA gain: 17 dB Low receiver noise figure: 1.5 dB Designed for portable and battery-powered wireless systems RoHS compliant Typical Applications Smart energy and smart metering Wireless alarm and security systems ISM-band communication devices Industrial wireless sensors Portable RF equipment IoT Sub-1 GHz wireless systems Search across more sources

Gas, Humidity, Pressure, Temperature Sensor Digital Output The BME690 is a compact 4-in-1 environmental sensor from Bosch Sensortec designed for advanced indoor air-quality monitoring. It integrates gas, humidity, temperature, and barometric pressure sensing into a single low-power MEMS device. The sensor is optimized for battery-powered and high-condensation environments, making it suitable for smart home, industrial, wearable, and IoT applications. Key Features 4-in-1 environmental sensing: Gas sensing Relative humidity Temperature Barometric pressure Detects: Volatile Organic Compounds (VOCs) Volatile Sulfur Compounds (VSCs) Other air-quality-related gases Supports indoor air quality (IAQ) monitoring Provides: IAQ index bVOC equivalent CO₂ equivalent outputs Improved robustness for high-condensation environments Ultra-small package: 3.0 × 3.0 × 0.93 mm 8-pin metal LGA package Low power consumption suitable for battery-powered devices Interfaces: I²C up to 3.4 MHz SPI up to 10 MHz Wide operating range: Temperature: −40°C to +85°C Humidity: 0–100% RH Pressure: 300–1100 hPa Supply voltage: VDDIO: 1.2 V to 3.6 V VDD: 1.71 V to 3.6 V Humidity accuracy: ±3% RH Temperature accuracy: ±0.5°C Pressure accuracy: ±0.5 hPa absolute Supports AI-based gas classification using Bosch BME AI-Studio Pin-compatible evolution of the BME688 platform Designed for: Smart home devices HVAC systems Air-quality mapping Food freshness monitoring Wearables Industrial sensing applications #CommonPartsLibrary #Sensor

Magnetic Sensors QMC5883L LGA-16_L3.0-W3.0-P0.50-BL_SQ The QMC5883L is a multi-chip three-axis magnetic sensor. This surface -mount, small sized chip has integrated magnetic sensors with signal condition ASIC, targeted for high precision applications such as compassing, navigation and gaming in drone, robot, mobile and personal hand-held devices. The QMC5883L is based on our state-of-the-art, high resolution, magneto-resistive technology licensed from Honeywell AMR technology. Along with custom-designed 16-bit ADC ASIC, it offers the advantages of low noise, high accuracy, low power consumption, offset cancellation and temperature compensation. QMC5883L enables 1° to 2° compass heading accuracy. The I²C serial bus allows for easy interface. The QMC5883L is in a 3x3x0.9mm3 surface mount 16-pin land grid array (LGA) package.  3-Axis Magneto-Resistive Sensors in a 3x3x0.9 mm3 Land Grid Array Package (LGA), guaranteed to operate over an extended temperature range of -40 °C to +85 °C.  Small Size for Highly Integrated Products. Signals Have Been Digitized And Calibrated.  16 Bit ADC With Low Noise AMR Sensors Achieves 2 Milli-Gauss Field Resolution  Enables 1° To 2° Degree Compass Heading Accuracy , Allows for Navigation and LBS Applications  Wide Magnetic Field Range (±8 Gauss)  Maximizes Sensor’s Full Dynamic Range and Resolution  Temperature Compensated Data Output and Temperature Output  Automatically Maintains Sensor’s Sensitivity Under Wide Operating Temperature Range  I 2C Interface with Standard and Fast Modes.  High-Speed Interfaces for Fast Data Communications. Maximum 200Hz Data Output Rate  Wide Range Operation Voltage (2.16V To 3.6V) and Low Power Consumption (75A)  Compatible with Battery Powered Applications  Lead Free Package Construction  RoHS Compliance  Software And Algorithm Support Available  Compassing Heading, Hard Iron, Soft Iron, and Auto Calibration Libraries Available #CommonPartsLibrary #Sensor

Sensor Modules BME280 Environmental Sensor LGA-8_BME280_BL LCSC Part Number: C431940 JLCPCB Part Class: Extended Part Manufactured by Waveshare(微雪电子) Bosch BME280 combined digital humidity, barometric pressure and temperature environmental sensor, compact metal-lid LGA package with 2.5 x 2.5mm footprint and 0.93mm height, low power consumption for battery-powered devices, high accuracy humidity and pressure measurement, integrated temperature sensor for compensation and ambient temperature estimation, SPI and I2C interfaces, 1.71V to 3.6V sensor supply range, 1.2V to 3.6V interface supply range, sleep/normal/forced operating modes, current consumption down to 0.1µA in disabled state, suitable for indoor navigation, home automation, health care, GPS refinement and weather monitoring applications. Search Keywords: BME280, Bosch BME280, Bosch Sensortec BME280, BME280 environmental sensor, BME280 humidity pressure temperature sensor, BME280 barometric pressure sensor, BME280 temperature humidity sensor, BME280 I2C SPI sensor, BME280 LGA, 2.5x2.5mm sensor, low power environmental sensor, digital humidity sensor, digital pressure sensor, BMP280 compatible sensor, BME280 datasheet Hashtags: #BME280 #BoschBME280 #BoschSensortec #EnvironmentalSensor #HumiditySensor #PressureSensor #TemperatureSensor #BarometricPressureSensor #DigitalSensor #I2CSensor #SPISensor #LowPowerSensor #LGA8 #25x25mmSensor #IndoorNavigationSensor #WeatherSensor

ADXL345 iMEMS® Accelerometer, 3 Axis Sensor Evaluation Board The ADXL345 measures acceleration in three axes (X, Y, Z) and outputs digital data via either I²C or SPI interfaces. It is widely used in applications like tilt sensing, vibration monitoring, free-fall detection, and motion-based user interfaces. Its high resolution (up to 13-bit) allows it to detect very small changes in motion, making it suitable for both consumer electronics and industrial applications. Key Features 3-axis acceleration measurement (X, Y, Z) Selectable measurement ranges: ±2g, ±4g, ±8g, ±16g High resolution (13-bit) with up to 4 mg/LSB sensitivity Digital output interfaces: I²C and SPI Low power consumption: ideal for battery-powered devices Built-in motion detection functions: Tap and double-tap detection Free-fall detection Activity and inactivity monitoring Wide bandwidth range: supports various data rates for different applications Operating voltage: typically 2.0V to 3.6V Compact package: small LGA form factor suitable for space-constrained designs Common Applications Smartphones and tablets (screen rotation, motion sensing) Wearable devices and fitness trackers Gaming controllers Robotics and drones Vibration and shock monitoring systems #commonpartslibrary #developmentboard #evaluationboard #sensor

Humidity, Pressure, Temperature 0 ~ 100% RH I²C, SPI ±3% 1 s Surface Mount BME280 I2C breakout module The BME280 integrates three sensors—temperature, relative humidity, and pressure—along with a high-performance digital interface. It communicates via I²C or SPI, making it easy to interface with microcontrollers like Arduino, ESP32, and STM32. It is designed for low power consumption, making it suitable for battery-powered applications such as portable weather stations and smart home devices. Key Features Environmental Sensing Measures: Temperature Relative Humidity Barometric Pressure Enables altitude estimation based on pressure readings High Accuracy Temperature: ±1.0°C (typical) Humidity: ±3% RH (typical) Pressure: ±1 hPa (typical) Low Power Consumption Typical current: ~0.6 µA (sleep mode) ~3.6 µA (measurement mode) Ideal for battery-operated devices Communication Interfaces Supports: I²C (up to 3.4 MHz) SPI (3-wire / 4-wire) Easy integration with most microcontrollers Compact Package Small footprint: 2.5 × 2.5 × 0.93 mm LGA package Suitable for space-constrained designs Built-in Features Factory-calibrated coefficients stored in NVM Configurable oversampling and filtering Integrated ADC for high-resolution measurements #commonpartslibrary #sensor #humidity #pressure

RF IC Synthesizer, VCO VSAT 7.3GHz ~ 14.6GHz SPI Interface 48-LGA (7x7) The ADF5611 allows implementation of fractional-N or integer-N phase-locked loop (PLL) frequency synthesizers when used with an external loop filter and an external reference source. The wideband microwave voltage controlled oscillator (VCO) design permits frequency operation from 7300MHz to 14,600MHz at a single RF output. A series of frequency dividers with a differential frequency output allows operation from 57MHz to 14,600MHz. Analog and digital power supplies for the PLL circuitry range from 3.15V to 3.45V, and the VCO supplies are between 4.75V and 5.25V. The ADF5611 has an integrated VCO with a fundamental frequency of 3650MHz to 7300MHz. These frequencies are internally doubled and routed to the RFOUT pin. An additional differential output allows the doubled VCO frequency to be divided by 1, 2, 4, 8, 16, 32, 64, or 128, allowing the user to generate RF output frequencies as low as 57MHz. A simple 3- or 4-wire serial port interface (SPI) provides control of all on-chip registers. To conserve power, this divider block can be disabled when not needed through the SPI. Likewise, the output power for both the single-ended output and the differential output are programmable. The integrated phase detector and Δ-Σ modulator, capable of operating at up to 100MHz, permit wide loop bandwidths and fast frequency tuning with a typical spurious level of −105dBc. With a VCO open-loop phase noise at an 100kHz offset from −115dBc/Hz at a 7.3GHz RFOUT to −109dBc/Hz at a 14.6GHz RFOUT, the ADF5611 is equipped to minimize blocker effects and to improve receiver sensitivity and transmitter spectral purity. The low phase noise floor eliminates any contribution to modulator and mixer noise floor in transmitter applications. ► RFOUT frequency range: 7300MHz to 14,600MHz ► PDIV_OUT and NDIV_OUT frequency range: 57MHz to 14,600MHz ► Fractional-N synthesizer and integer-N synthesizer modes ► Typical PFD spurious: <−105dBc ► Integrated RMS jitter at 1kHz to 100MHz integration bandwidth: <40fs ► Normalized inband phase noise floor FOM ► Integer mode: −232dBc/Hz ► Fractional mode: −229dBc/Hz ► Maintains frequency lock over −40°C to +85°C (lock and leave) ► Low phase noise VCO ► −115dBc/Hz typical at 100kHz (7.3GHz) ► −114dBc/Hz typical at 100kHz (10GHz) ► −109dBc/Hz typical at 100kHz (14.6GHz) ► RFOUT power (typical): 6dBm ► Programmable divide by 1, 2, 4, 8, 16, 32, 64, or 128 output ► Programmable output power level ► Typical power dissipation: 1W ► 48-terminal, 7 mm × 7 mm LGA package: 49 mm2 #ADF5611BCCZ #ADF5611 #FrequencySynthesizer #PLL #MicrowaveSynthesizer #RFIC #LowPhaseNoise #VCO #WirelessInfrastructure #SatelliteCommunication #MicrowaveRadio #TestAndMeasurement #AnalogDevices #RFDesign #ClockGeneration

Accelerometer, Gyroscope, 6 Axis Sensor I2C, I3C, SPI Output The BMI323 is a low-power, high-performance inertial measurement unit developed by Bosch Sensortec. It integrates a three-axis accelerometer and a three-axis gyroscope within a compact surface-mount package intended for motion sensing applications requiring precise movement detection, orientation tracking, vibration monitoring, and activity recognition. The device is optimized for wearable electronics, industrial sensing, robotics, navigation systems, IoT devices, and consumer electronics where low power consumption and high motion accuracy are critical. The sensor includes advanced digital signal processing, configurable motion-detection features, programmable interrupts, and integrated FIFO buffering to reduce host processor workload and improve system efficiency. Communication is supported through standard digital interfaces, enabling straightforward integration with microcontrollers and embedded platforms. The BMI323 is designed for robust environmental performance and supports flexible power management modes suitable for battery-operated systems. Engineering Specifications Device Type Six-axis inertial measurement unit consisting of: Three-axis accelerometer Three-axis gyroscope Manufacturer Bosch Sensortec Package Compact LGA surface-mount package suitable for automated assembly processes. Accelerometer Characteristics Supports multiple selectable full-scale measurement ranges for motion and acceleration sensing applications. Provides high-resolution digital output with configurable filtering and sampling parameters for low-noise operation and accurate motion analysis. Gyroscope Characteristics Integrated three-axis angular rate sensor with programmable measurement ranges and digital filtering capabilities. Designed for rotational movement tracking, stabilization, gesture recognition, and inertial navigation applications. Digital Interfaces Supports: I²C serial communication SPI serial communication I3C compatible operation Power Features Designed for ultra-low power operation with multiple configurable power modes to optimize energy consumption for portable and battery-powered devices. Embedded Features Includes integrated: FIFO data buffering Motion detection engine Activity and inactivity detection Tap and gesture detection Orientation and tilt sensing Interrupt generation Self-test functionality Output Data Handling Provides configurable output data rates, oversampling settings, and digital filtering options for balancing performance, bandwidth, and power consumption. Temperature Performance Integrated temperature sensing and compensation support for improved measurement stability across varying environmental conditions. Interrupt System Programmable interrupt outputs support event-driven system architectures and allow efficient host wake-up functionality. Operating Environment Designed for operation across industrial and consumer temperature ranges with stable sensor performance under dynamic motion conditions. Applications Suitable for: Wearable devices Smart watches Fitness trackers Industrial motion monitoring Robotics Drones Navigation systems Gaming controllers AR/VR systems IoT motion sensing Human-machine interfaces #commonpartslibrary #integratedcircuit #accelerometer #sensor

Accelerometer, Gyroscope, Magnetometer, 9 Axis Sensor I2C, SPI, UART Output The BNO085 is a high-performance 9-axis absolute orientation sensor system-in-package (SiP) that integrates a 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, and a low-power ARM Cortex-M0+ microcontroller running CEVA/Hillcrest SH-2 sensor fusion firmware. It provides accurate real-time orientation, motion tracking, and activity detection while offloading complex sensor fusion calculations from the host processor. The device is widely used in robotics, AR/VR systems, wearables, drones, IoT devices, and navigation applications. Key Features 9-axis motion sensing with integrated accelerometer, gyroscope, and magnetometer Built-in SH-2 sensor fusion engine for accurate orientation tracking ARM Cortex-M0+ processor for onboard motion processing Outputs quaternion, rotation vector, linear acceleration, gravity vector, angular velocity, and magnetic field data Advanced motion detection including tap, step, shake, and significant motion detection Activity classification and stability detection capabilities Low-latency rotation vectors optimized for AR/VR applications Supports I²C, SPI, and UART communication interfaces Configurable output data rates and timestamps Low-power operation suitable for battery-powered devices Compact 28-pin LGA package (5.2 mm × 3.8 mm) Operating temperature range: -40°C to +85°C Backward compatible with BNO080 designs while adding support for future application-specific libraries Applications Robotics and autonomous systems Virtual Reality (VR) and Augmented Reality (AR) Wearable devices and fitness trackers Drones and UAVs Head-mounted displays (HMDs) Industrial motion tracking IoT and smart devices Navigation and positioning systems #BNO085 #IMU #9AxisSensor #MotionTracking #SensorFusion #OrientationSensor #Robotics #AR #VR #IoT #Wearables #EmbeddedSystems #CEVA #HillcrestLabs #MotionDetection #Quaternion #InertialMeasurementUnit

3D accelerometer and 3D gyroscope The LSM6DS3TR-C is a system-in-package featuring a 3D digital accelerometer and a 3D digital gyroscope performing at 0.90 mA in high-performance mode and enabling always-on low-power features for an optimal motion experience for the consumer. The LSM6DS3TR-C supports main OS requirements, offering real, virtual and batch sensors with 4 kbyte for dynamic data batching. ST’s family of MEMS sensor modules leverages the robust and mature manufacturing processes already used for the production of micromachined accelerometers and gyroscopes. The various sensing elements are manufactured using specialized micromachining processes, while the IC interfaces are developed using CMOS technology that allows the design of a dedicated circuit which is trimmed to better match the characteristics of the sensing element. The LSM6DS3TR-C has a full-scale acceleration range of ±2/±4/±8/±16 g and an angular rate range of ±125/±250/±500/±1000/±2000 dps. High robustness to mechanical shock makes the LSM6DS3TR-C the preferred choice of system designers for the creation and manufacturing of reliable products. The LSM6DS3TR-C is available in a plastic land grid array (LGA) package. Features  “Always-on” experience with low power consumption for both accelerometer and gyroscope  Power consumption: 0.90 mA in combo highperformance mode  Smart FIFO up to 4 kbyte based on features set  Android M compliant  Hard, soft ironing for external magnetic sensor corrections  ±2/±4/±8/±16 g full scale  ±125/±250/±500/±1000/±2000 dps full scale  Analog supply voltage: 1.71 V to 3.6 V  Independent IO supply (1.62 V)  Compact footprint, 2.5 mm x 3 mm x 0.83 mm  SPI & I2C serial interface with main processor data synchronization feature  Pedometer, step detector and step counter  Significant motion and tilt function  Standard interrupts: free-fall, wakeup, 6D/4D orientation, click and double-click  Embedded temperature sensor  ECOPACK®, RoHS and “Green” compliant #CommonPartsLibrary #Sensor

The PAT9125EL-TKIT from PixArt Imaging Inc. is a low-power optical tracking miniature chip designed for precise motion detection using laser-based optical navigation technology. It integrates both the optical sensor and VCSEL laser light source into a single compact package, enabling accurate tracking even on smooth or glossy surfaces. This device captures sequential surface images and processes them internally to determine movement direction, speed, and displacement (X/Y data), which can be accessed by a host controller via digital interfaces. It is particularly suited for space-constrained, battery-powered, and enclosed systems, eliminating the need for mechanical components like code wheels or special surface markings. Key Features Integrated optical sensor + VCSEL laser (850 nm) in a single package No external lens required, simplifying design Wide depth of field (DOF): 1–30 mm, even on reflective surfaces Programmable resolution up to ~1275 CPI Supports I²C (TKIT) interface (SPI variant available as TKMT) Motion detection interrupt output Built-in oscillator (no external clock needed) Low power consumption: Run: ~0.7 mA Sleep: down to 10 µA Power-down: ~5 µA Pre-calibrated laser (no calibration required) IEC/EN 60825-1 Class 1 eye-safe laser compliant Key Specifications Supply Voltage: VDD: 1.7–3.6 V VLD (laser): 2.7–3.6 V Max Tracking Speed: up to ~30 inches/sec Package: 8-pin LGA (3.5 × 3.2 × 1.0 mm) Interface: I²C (for TKIT variant)