VL53L1X laser ranging flight time sensor 400 cm distance measurement #pinheader #tht

24 Bit Analog to Digital Converter 4 Input 4 Sigma-Delta 56-LFCSP-WQ (8x8) The AD4134BCPZ is a high-precision, ultra-low-power analog-to-digital converter designed for industrial and instrumentation applications requiring accurate measurement of low-bandwidth sensor signals. It integrates multiple fully differential or pseudo-differential input channels with advanced signal conditioning and digital filtering functions to support precision data acquisition systems. The device is optimized for applications such as process control, temperature measurement, pressure sensing, weigh scales, and portable instrumentation where low noise, high resolution, and reduced power consumption are critical. Its integrated excitation currents, programmable gain stages, and flexible interface architecture simplify external circuitry and improve overall system integration. Engineering Specification Device Type Precision low-power sigma-delta analog-to-digital converter Resolution Twenty-four-bit conversion architecture Input Channels Multiple analog input channels supporting differential and pseudo-differential configurations Architecture Sigma-delta ADC with integrated digital filtering Sampling Capability Programmable output data rates with simultaneous optimization of noise and power performance Input Signal Support Compatible with low-level sensor outputs including RTDs, thermocouples, bridge sensors, and resistive sensors Programmable Gain Integrated programmable gain amplifier for small signal conditioning Reference Support Internal reference and external reference compatibility Noise Performance Low input-referred noise optimized for precision sensing applications Power Consumption Ultra-low-power operating modes with configurable performance scaling Excitation Features Integrated programmable excitation current sources for sensor biasing Filtering Functions On-chip digital filtering including rejection of industrial mains frequencies Interface SPI-compatible serial digital communication interface Supply Voltage Operates from low-voltage analog and digital supply rails Temperature Range Industrial operating temperature range suitable for harsh environments Package Type LFCSP package with compact footprint for space-constrained designs Applications Industrial automation, medical instrumentation, portable measurement systems, environmental monitoring, precision sensor interfaces, and data acquisition modules. #CommonPartsLibrary #IntegratedCircuit #ADC

MCP3913 Series 3.6 V 4.5 mA SMT Six-Channel Analog Front End - SSOP-28 The MCP3913A1T-E/SS is a high-performance, multi-channel analog front-end (AFE) from Microchip Technology intended for precision measurement applications. It features six simultaneous sampling 24-bit delta-sigma ADCs with integrated programmable gain amplifiers, enabling accurate acquisition of low-level analog signals. Designed for energy monitoring and industrial sensing, the device provides low noise, high dynamic range, and flexible configuration. It supports SPI communication for efficient interfacing with microcontrollers and digital processing systems. Key Features Six simultaneous sampling 24-bit delta-sigma ADC channels Integrated programmable gain amplifiers per channel High signal-to-noise ratio and low distortion Programmable oversampling ratios for performance tuning Internal voltage reference with external reference option SPI-compatible digital interface Configurable data output formats and control registers Low power operation modes Electrical Characteristics Resolution: 24-bit Number of Channels: 6 Input Configuration: Differential Supply Voltage: 2.7V to 3.6V Operating Temperature Range: -40°C to +125°C Programmable Gain: Up to 32 V/V (typical) Reference Voltage: Internal or external selectable Functional Description The device integrates six high-resolution delta-sigma ADCs that sample input signals simultaneously, ensuring accurate phase and timing relationships across channels. Each input passes through a programmable gain stage, allowing optimization for different sensor levels. Analog signals are digitized using oversampling and digital filtering techniques to achieve high precision and noise reduction. Configuration is handled via internal registers, and data is transferred through an SPI interface. Package Information Package Type: SSOP Pin Count: 28 Mounting Type: Surface Mount Applications Energy metering Power monitoring systems Industrial automation Multi-channel data acquisition Sensor interfacing Smart grid systems Advantages High integration reduces external components Simultaneous sampling improves measurement accuracy High resolution supports precise signal analysis Flexible configuration for various system requirements #commonpartslibrary #integratedcircuit #powermanagement #energymetering

Standard (General Purpose) Amplifier 2 Circuit Rail-to-Rail 8-SOIC The MCP6042-I/SN specification defines the engineering requirements for a low-power dual operational amplifier designed for precision analog signal conditioning applications. This specification establishes the functional, electrical, mechanical, environmental, and quality requirements necessary to ensure stable and accurate analog performance across a wide range of embedded, industrial, and consumer electronic systems. The device is intended for use in applications requiring low offset voltage, low input bias current, and stable operation under low supply conditions. It is suitable for signal buffering, sensor signal conditioning, filtering, and general-purpose analog amplification in battery-powered and low-energy electronic systems. Engineering Requirements The operational amplifier shall be manufactured using advanced CMOS process technology to ensure low power consumption, high input impedance, and stable analog performance. The device shall maintain consistent operation under defined electrical, thermal, and environmental conditions without degradation of signal integrity. The amplifier architecture shall support dual independent channels with stable gain characteristics and predictable linear response across the intended operating range. Output performance shall remain stable under capacitive loading and dynamic signal conditions typical of embedded analog systems. Electrical characteristics shall ensure low noise operation, low offset behavior, and reliable signal amplification with minimal distortion. The device shall maintain functional stability during power-up, power-down, and transient operating conditions. Mechanical and package construction shall be suitable for surface-mount assembly and shall ensure robust handling during manufacturing, soldering, and system integration. Workmanship shall be free from defects such as contamination, cracks, bonding issues, or structural inconsistencies that could affect electrical or mechanical reliability. Inspection, validation, and testing shall be performed using controlled procedures and calibrated measurement systems to ensure compliance with all applicable engineering and quality requirements. Any deviation from this specification shall require formal engineering review, documented justification, and approval through established change control processes. Documentation Supporting documentation shall include official datasheets, electrical characterization reports, qualification data, inspection records, and revision-controlled manufacturing documentation. All records shall be maintained under formal configuration management and quality assurance systems to ensure traceability and consistency. Revision Control Any modification to this specification shall be managed through the formal engineering change control system. All revisions shall undergo technical review, validation, and approval prior to implementation to ensure continued compliance with design intent and applicable standards. #EngineeringSpecification #OperationalAmplifier #AnalogIC #MicrochipTechnology #LowPowerDesign #SignalConditioning #EmbeddedSystems #ElectronicsDesign #QualityAssurance #EngineeringDocumentation

HC-SR04 ultrasonic distance sensor. This economical sensor provides 2cm to 400cm of non-contact measurement functionality with a ranging accuracy that can reach up to 3mm #CommonPartsLibrary #Sensor #ultrasonic #distanceSensor

Current Sense Amplifier 1 Circuit 8-SOIC The INA240A1D is a precision current-sense amplifier manufactured by Texas Instruments, specifically designed for high-side and low-side current measurement applications in electrically noisy environments. The device features enhanced PWM rejection capability, enabling accurate current sensing in motor control systems, switching power supplies, solenoid drivers, and other fast-switching power electronics applications. The amplifier is optimized for measuring voltage drops across shunt resistors while maintaining high common-mode voltage tolerance and excellent signal accuracy. Its bidirectional current-sensing capability allows monitoring of charging and discharging currents in battery systems and power management circuits. The INA240A1D provides fixed gain amplification and high common-mode transient immunity, making it suitable for industrial automation, automotive electronics, embedded power systems, and precision current monitoring applications. The device combines low offset voltage, low drift characteristics, and robust analog performance within a compact surface-mount package, simplifying precision current measurement implementation in modern electronic systems. Engineering Specification Device Type Current-sense amplifier Amplifier Configuration Precision bidirectional current-shunt monitor Input Characteristics High common-mode voltage sensing capability Gain Configuration Fixed-gain current measurement amplifier Measurement Topology High-side and low-side current sensing support Signal Performance High accuracy with low offset voltage and low drift PWM Rejection Enhanced PWM rejection for switching power applications Common-Mode Performance High common-mode transient immunity Output Characteristics Analog voltage output proportional to sensed current Power Consumption Low-power precision analog operation Package Type SOIC surface-mount package Mounting Style Surface mount technology Protection and Reliability Designed for robust operation in electrically noisy environments Applications Motor control systems Battery management systems Switching power supplies Industrial automation Current monitoring Solenoid control Power inverters Embedded power electronics Automotive current sensing Load measurement systems Manufacturer Texas Instruments #commonpartslibrary #currentsenseamplifier #analogfrontend #powermanagement #texasinstruments #motorcontrol #currentsensing #embeddedhardware #industrialelectronics #analogdesign #surfaceountcomponents #powerelectronics #signalconditioning #batterymanagement #precisionanalog

Small, low power inertial measurement unit, LGA-14 Bosh IMU small low power inertial measurement unit Bosch*LGA*3x2.5mm*P0.5mm*

4 Channel AFE 12 Bit 36-WLCSP (2.8x2.56) The ADPD7000 is a highly integrated analog front end (AFE) designed for measuring various vital signals. The optical channel is designed as an optical transceiver, stimulating up to eight light emitting diodes (LEDs) and measuring the return signal on up to four separate current inputs. The signal chain rejects signal offsets and corruption from asynchronous modulated interference, typically from ambient light, eliminating the need for optical filters or externally controlled DC cancellation circuitry. The electrocardiography (ECG) signal acquisition is designed to support low noise, diagnostic level measurement in the presence of a variety of interferers. The ECG signal chain has a number of complementary features supporting ECG measurement, such as driven reference for common-mode rejection and lead off detection to identify a fallen electrode. The body impedance analysis (BIA) signal chain is designed for body impedance measurement with a configurable excitation path and measurement path. A 12-bit digital-to-analog converter (DAC) is used in the excitation path to generate the sinusoid wave and high precision measurement, with configurable filters used to measure the body response of the stimulus. The electrodermal activity (EDA) signal chain is designed for electrodermal activity. By multiplexing BIA and ECG peripheral circuits, the ADPD7000 supports high precision AC and DC measurement with 1 nS resolution. The data output and functional configuration use a serial port interface (SPI) on the ADPD7000. The control circuitry includes flexible LED signaling and synchronous detection, digital filters, digital wave generators, and configurable filters. The ADPD7000 is available in a 2.795 mm × 2.560 mm, 0.40 mm pitch, 36-ball WLCSP. ► Multimodal analog front end ► Optical channel ► 4 input channels with multiple operation modes for various sensor measurements ► 4-channel processing with simultaneous sampling ► 12 programmable time slots for synchronized sensor measurements ► Flexible input multiplexing to support single-ended sensor measurements ► 8 LED drivers, 2 of which can be driven simultaneously ► Flexible sampling rate from 0.004 Hz to 9 kHz using internal oscillators ► AC ambient light rejection: 78 dB up to 100 Hz ► 400 mA total LED peak drive current ► Individual ambient cancellation DAC at TIA input with 9-bit control up to 300 μA ► Individual LED DC cancellation DAC at TIA input with 7-bit control up to 190 μA ► ECG channel ► <1 µV RMS RTI noise at diagnosis bandwidth ► High input impedance 20 GΩ ► Accepts up to ±1.2 V of DC differential input range ► CMRR: 115 dB ► Flexible 4 electrode configurations to support various applications ► Both AC lead off detection and DC lead off detection ► Support always on, low power, lead on detection ► BIA channel ► Low power, high accuracy excitation path ► Configurable excitation frequency up to 250 kHz ► Sine wave excitation with a 12-bit DAC ► High accuracy with large imbalance contact impedance ≤20 kΩ ► Configurable receive filters with low noise design ► Complex impedance measurement engine ► Integrated current-limit resistors ► EDA channel ► Support both voltage excitation and current excitation ► 10 kΩ to100 MΩ measurement range with 1 nS resolution ► DFT and decimation for high accuracy measurement result ► SPI communications supported ► 704-byte FIFO

Pressure Sensor 4.35PSI ~ 18.13PSI (30kPa ~ 125kPa) 9-LGA The BMP585 is a high-precision digital barometric pressure sensor designed for accurate altitude and environmental pressure measurement in compact, low-power embedded systems. It integrates a MEMS sensing element with advanced signal conditioning and digital compensation circuitry to provide highly stable and reliable pressure and temperature data across a wide operating range. The device is optimized for portable electronics, industrial sensing, indoor navigation, weather monitoring, drones, and IoT applications requiring precise atmospheric measurements. The sensor supports digital communication through standard serial interfaces, enabling straightforward integration with modern microcontrollers and processors. Its low noise performance, high resolution, and fast response characteristics make it suitable for applications involving motion tracking, vertical positioning, and environmental monitoring. The compact surface-mount package allows efficient PCB layout integration in space-constrained designs. The BMP585 incorporates configurable sampling, filtering, and power management features to balance measurement accuracy, bandwidth, and energy consumption. Internal calibration and compensation algorithms reduce system-level complexity while improving long-term stability and measurement consistency. The device is designed for robust operation under varying environmental conditions and supports low-power modes for battery-operated systems. Engineering Specification Device Type Digital barometric pressure and temperature sensor Sensor Functions Atmospheric pressure sensing Temperature sensing Altitude estimation support Pressure Measurement High-resolution MEMS pressure sensing element Integrated digital compensation and calibration Low-noise pressure measurement architecture Temperature Measurement Integrated temperature sensing for environmental monitoring and pressure compensation Communication Interface I²C interface support SPI interface support Power Features Low-power operation Configurable performance and sampling modes Sleep and standby operating capability Signal Processing Integrated digital filtering Configurable oversampling Internal compensation engine Package Information Compact surface-mount package RoHS-compliant construction Operating Characteristics High measurement stability Fast response time Designed for portable and industrial environments Application Areas Wearable devices Indoor navigation systems Portable weather stations Industrial monitoring IoT sensing nodes Drones and altitude tracking systems Consumer electronics #commonpartslibrary #integratedcircuit #pressuresensor

3-in-1 sensor, humidity, pressure, temperature, I2C and SPI interface, 1.71-3.6V, LGA-8 Bosch pressure humidity temperature environment environmental measurement digital *LGA*2.5x2.5mm*P0.65mm*Clockwise*

Battery Battery Monitor IC Lithium Ion 9-DSBGA The BQ27220YZFR is a highly integrated single-cell battery fuel gauge IC developed for rechargeable lithium-ion and lithium-polymer battery applications. The device utilizes Texas Instruments’ Impedance Track™ algorithm to provide highly accurate battery capacity measurement, state-of-charge estimation, runtime prediction, and battery health monitoring across varying load and temperature conditions. The device is designed for compact portable electronics, wearable devices, IoT products, handheld instruments, and low-power embedded systems requiring precise battery monitoring and extended operating life. The BQ27220YZFR supports system-side fuel gauging without requiring battery pack-side electronics, simplifying battery integration and reducing overall system cost. The fuel gauge continuously monitors battery voltage, current, and temperature to estimate available capacity, remaining runtime, full charge capacity, and state-of-health information. Integrated low-power operation enables ultra-low standby current consumption suitable for always-on battery-powered products. Communication with the host processor is implemented through a standard I²C interface, allowing configuration access, telemetry reporting, and battery parameter monitoring. The device also integrates protection and alert functionality through programmable interrupt outputs and battery condition monitoring features. The BQ27220YZFR is optimized for use with single-cell lithium-based chemistries and supports learning cycles for adaptive battery characterization over product lifetime. Internal data flash memory stores battery profile information and calibration parameters to improve long-term gauging accuracy. The device is supplied in a compact lead-free wafer chip-scale package suitable for space-constrained PCB designs and portable electronics requiring minimal footprint and low-profile assembly. Electrical Characteristics Device Type Single-cell battery fuel gauge and battery monitor IC Battery Chemistry Support Lithium-ion and lithium-polymer rechargeable batteries Input Voltage Range Supports single-cell battery operation Fuel Gauging Method Impedance Track™ algorithm Communication Interface I²C serial interface Measurement Functions Battery voltage monitoring Battery current monitoring Battery temperature monitoring State-of-charge estimation Remaining capacity calculation Full charge capacity estimation State-of-health reporting Runtime prediction Power Consumption Ultra-low operating current for portable applications Temperature Monitoring External thermistor support Host Alert Features Interrupt and alert reporting capability Data Storage Integrated nonvolatile configuration memory Calibration Features Automatic learning and battery characterization support Protection Monitoring Battery condition and system monitoring functions Package Type DSBGA wafer chip-scale package Mounting Style Surface mount Operating Temperature Range Industrial temperature operation suitable for portable electronics Functional Features High-accuracy fuel gauging over battery lifetime Adaptive battery modeling and aging compensation Low-power operation for battery-powered systems Integrated battery profiling capability Real-time remaining runtime estimation Automatic battery learning cycles Compact PCB footprint for portable devices System-side implementation without smart battery pack requirement Programmable battery alert functionality Support for low-power embedded processors and mobile systems Optimized for wearable and IoT applications RoHS compliant and lead-free package construction #commonpartslibrary #integratedcircuit #powermanagement #batterymanagement

The ORP OEM™ Circuit is a compact, OEM-ready electrochemical interface board that provides accurate oxidation-reduction potential (ORP) measurement from an ORP probe to your embedded system. Designed for use by developers, engineers, and manufacturers, this board simplifies integration of ORP sensing into custom hardware and industrial products. #Module #Part

This is a full-wave rectifier circuit to ensure that both positive and negative peaks are accounted for when taking measurement of the signal peaks. It was created for my VCA Compressor to ensure accurate peak detection so it has a response-adjust switch terminal for that can be used further to determine detection speed.

4-in-1 sensor, gas, humidity, pressure, temperature, I2C and SPI interface, 1.71-3.6V, LGA-8 Bosch gas pressure humidity temperature environment environmental measurement digital *LGA*3x3mm*P0.8mm*Clockwise*

The digital 18 bit board-mount pressure sensors in the AMS 5935 series are designed for high precision pressure measurements. They combine very high measurement accuracy with extremely low power consumption. The AMS 5935 are housed in a robust ceramic DIL-8 package for PCB assembly. They have an integrated I2C / SPI interface, which allows the readout of calibrated pressure and temperature data. They are extensively calibrated and temperature compensated and feature an extremely low measurement error at room temperature as well as a very small total error band in the compensated temperature range of -25 ... 85 °C. With a supply voltage range of 1.7 V up to 3.6 V and the extremely low current consumption in sleep mode, the AMS 5935 pressure sensors are especially suitable for battery powered microcontroller applications.

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

REYAX RYUW122 is designed as smart algorithm and high quality UWB(Ultra Wide Band) module, It is good for secure and precise distance measurement. FEATURES • Supports IEEE802.15.4-2015 UWB & IEEE802.15.4z (BPRF mode) • Supports channels 5 & 9 (6489.6MHz & 7987.2 MHz) • Worldwide UWB Radio Regulatory compliance • Location to an accuracy of 10 cm • Control easily by AT commands • Provides precision location and data transfer simultaneously • Designed with integrated antenna • Integrated AES 128 #CommonPartsLibrary #module

Texas Instruments OPT4060 high-speed high-sensitivity RGBW color sensor, single-chip light-to-digital sensor with four optical channels for red, green, blue and wide/clear band measurement, I2C interface, semi-logarithmic output with wide dynamic range from 2.15mlux to 144klux, 12 configurable conversion times from 600µs to 800ms, automatic full-scale light range selection, selectable I2C address, interrupt output, low 24µA operating current and 2µA standby current, 1.6V to 3.6V supply range, 5.5V tolerant I/Os, SOT-5X3 2.1 x 1.9 x 0.6mm package. Search Keywords: OPT4060, Texas Instruments OPT4060, TI OPT4060, OPT4060 color sensor, RGBW color sensor, high speed color sensor, high sensitivity color sensor, I2C color sensor, light to digital sensor, RGB light sensor, ambient light color sensor, wide dynamic range light sensor, 144klux sensor, SOT-5X3 color sensor, OPT4060 Hashtags: #OPT4060 #TexasInstrumentsOPT4060 #TIColorSensor #RGBWSensor #ColorSensor #LightSensor #LightToDigitalSensor #I2CSensor #AmbientLightSensor #HighSensitivitySensor #HighSpeedSensor #144kluxSensor #SOT5X3

MCP9808 - Temperature Sensor Evaluation Board The Adafruit 1782 MCP9808 Temperature Sensor Breakout is a compact sensor evaluation board that enables high-accuracy digital temperature measurement using the MCP9808 sensor IC. It supports an I²C communication interface, allowing simple connection to microcontrollers while maintaining high precision over a wide operating temperature range. Key Features High Accuracy Temperature Sensing: Typical accuracy of ±0.25°C for reliable temperature monitoring. Wide Temperature Range: Measures temperatures from -40°C to +125°C. Digital I²C Interface: Simple two-wire communication interface for easy integration with embedded systems. High Resolution: Provides temperature resolution up to 0.0625°C. Wide Supply Voltage Range: Operates from 2.7V to 5.5V, compatible with common logic levels. Multiple Device Addressing: Configurable address pins allow multiple sensors to share the same I²C bus. Compact Breakout Board Design: Includes supporting components and headers for quick prototyping. Low Power Consumption: Suitable for battery-powered and portable applications. Applications IoT environmental monitoring Weather stations Industrial temperature monitoring Battery management systems Data logging equipment Embedded control systems Hashtags #Adafruit1782 #MCP9808 #TemperatureSensor #DigitalSensor #I2C #EmbeddedSystems #IoT #Arduino #RaspberryPi #SensorModule #ElectronicsDesign #HardwareDevelopment