8 Position FFC, FPC Connector Contacts, Bottom 0.039" (1.00mm) Surface Mount, Right Angle The Molex Easy-On connector is a compact surface-mount FPC/FFC interconnect solution designed for reliable board-to-cable connections in space-constrained electronic systems. Featuring a bottom-contact configuration with a flip-lock actuator, it provides secure retention of flexible printed circuits while supporting repeated insertion and removal cycles. Its low-profile construction and robust locking mechanism make it suitable for consumer electronics, industrial controls, embedded systems, displays, and portable devices where dependable signal transmission and compact form factors are required. Engineering Specifications Manufacturer: Molex Series: Easy-On FD19 Part Number: 2005280080 Connector Type: FFC/FPC Connector Contact Configuration: Bottom Contact Actuator Type: Flip-Lock ZIF Mounting Style: Surface Mount Orientation: Right Angle Circuit Count: Eight Positions Pitch: One Millimeter Cable Type: Flexible Flat Cable / Flexible Printed Circuit Contact Material: Copper Alloy Contact Finish: Gold over Nickel Housing Material: High-Temperature Thermoplastic Operating Temperature Range: Industrial Grade RoHS Compliant: Yes Halogen Free: Yes Application Areas: LCD Interfaces, Touch Panels, Embedded Electronics, Industrial Equipment, Portable Devices, Consumer Electronics #Molex #EasyOn #FD19 #FFCConnector #FPCConnector #FlipLock #BottomContact #ZIFConnector #SMTConnector #ElectronicComponents #Interconnect #PCBDesign #EmbeddedSystems #DisplayInterface #IndustrialElectronics

Headers & Wire Housings HEADER 2POS 2.5MM Connector Header Through Hole, Right Angle 2 position 0.098" (2.50mm) IL-2P-S3FP2-1 is a 2-position, 2.50 mm pitch right-angle through-hole header connector from the IL Series by JAE Electronics. It is designed for board-to-wire connections in compact electronic equipment and features a friction-lock mechanism to ensure reliable cable retention. The connector uses gold-plated brass contacts for enhanced conductivity and corrosion resistance, making it suitable for industrial, consumer, and embedded electronic applications. Key Features 2-position male header connector 2.50 mm pitch Right-angle through-hole mounting Board-to-wire connection style Friction-lock mating system for secure connection Gold-plated brass contacts for reliable electrical performance Shrouded design with one protective wall Polyamide (PA66/Nylon 6/6) housing UL94 V-0 flame-retardant material Compact single-row configuration Operating temperature range: -40°C to +85°C RoHS compliant and lead-free version available Suitable for power and signal connections in electronic equipment #CommonPartsLibrary #JAE #Connector #HeaderConnector #WireToBoard #ThroughHole #RightAngleConnector #ILSeries #2p50mmPitch #FrictionLock #ElectronicComponents #EmbeddedSystems #PCBDesign #HardwareDesign #RoHSCompliant

The NX3225GD 8.000MHz STD-CRA-3 is a surface-mount quartz crystal resonator designed to provide a stable and accurate clock reference for electronic circuits. It is housed in a compact ceramic package suitable for space-constrained applications and is optimized for low power consumption and reliable frequency generation. This crystal is commonly used in microcontrollers, wireless communication modules, industrial control systems, consumer electronics, IoT devices, and embedded systems requiring precise timing and frequency control. Features Fundamental mode quartz crystal resonator Nominal frequency of 8.000 MHz Compact surface-mount ceramic package High frequency stability and accuracy Low equivalent series resistance Suitable for low-power oscillator circuits Excellent aging characteristics RoHS-compliant construction Designed for automated SMT assembly processes Reliable operation across industrial temperature environments Electrical Characteristics Crystal type: Quartz Crystal Resonator Frequency: 8.000 MHz Oscillation mode: Fundamental Load capacitance: Standard load capacitance configuration Frequency tolerance: Standard precision grade Frequency stability: Industrial-grade stability performance Equivalent series resistance optimized for MCU and RF oscillator circuits Low drive level operation High insulation resistance Mechanical Characteristics Surface-mount package Ceramic hermetic enclosure Compact footprint suitable for high-density PCB layouts Compatible with standard reflow soldering processes Designed for automated pick-and-place assembly Applications Microcontroller clock generation Wireless communication devices Bluetooth and RF modules IoT and smart devices Industrial automation equipment Embedded control systems Consumer electronics Timing and synchronization circuits Sensor interface modules Portable battery-powered products Compliance RoHS compliant Lead-free package Environmentally friendly manufacturing standards Suitable for commercial and industrial electronic applications #commonpartslibrary #crystal #quartzcrystal #frequencycontrol #timingdevice #clocksource #oscillator #smtcomponent #embeddedsystems #wirelesscommunication #industrialelectronics #consumerelectronics #iotdevices #passivecomponents #electroniccomponents

Voltage Regulator Current Limit Module 3.3V Out is engineered to deliver a stable 3.3V supply with advanced current limiting capabilities for optimal power management and circuit protection. This cutting-edge module harnesses the ultra-low switch technology of the SY6280 integrated circuit from Silergy Corp, ensuring precise overcurrent and short circuit protection. The design incorporates high-performance Murata fixed capacitors and robust resistors, creating a seamless blend of filtering, decoupling, and regulation for dependable operation. Ideal for modern electronics, IoT, and embedded systems, this module offers a compact solution that combines reliability, efficiency, and long-term stability, making it the perfect choice for applications where safe and efficient power delivery is paramount. #Module #VoltageRegulator #CurrentLimit #3V3Module #SY6280 #SilergyCorp #PowerManagement #ElectronicsDesign #IoT #EmbeddedSystems

12 MHz Crystal Oscillator Circuit Module #Module This module is designed to generate a highly stable and precise 12 MHz clock signal using a crystal oscillator. It incorporates a carefully selected load capacitor network and proper grounding techniques to ensure minimal frequency drift and robust performance across digital applications. This circuit is optimized for use in timing-critical systems where consistent frequency output is essential. #CrystalOscillator #CircuitModule #ClockSignal #EmbeddedSystems #DigitalCircuits #PCBDesign

External Flash Module #Module The External Flash Module is a compact, high-performance circuit designed around a 128Mbit NOR flash memory, ensuring fast and reliable data storage for modern embedded systems. Integrated with precision passive components and optimized connectivity, this module offers efficient power management and seamless integration for diverse applications in IoT, industrial automation, and consumer electronics. #ExternalFlashModule #NORFlash #EmbeddedSystems #IoT #DataStorage #ElectronicsDesign

The 1N4148 SOD-323 is a high-speed switching diode designed for general-purpose signal switching, fast signal processing, and protection applications in compact electronic circuits. Utilizing fast recovery characteristics and low junction capacitance, this diode is widely used in digital circuits, communication equipment, consumer electronics, industrial control systems, and embedded devices. The device is optimized for high-speed switching performance, enabling rapid response to changing signal conditions while maintaining low power consumption. Its compact SOD-323 surface-mount package makes it ideal for space-constrained PCB layouts and high-density electronic assemblies. The 1N4148 SOD-323 is commonly employed for signal routing, logic circuit protection, voltage clamping, waveform shaping, and general-purpose switching functions where fast response and reliable operation are required. Features High-speed switching diode Fast reverse recovery characteristics Low forward voltage drop Low junction capacitance Low leakage current High reliability construction Compact SOD-323 surface-mount package Suitable for high-frequency applications Excellent switching performance RoHS-compliant construction available Compatible with automated assembly processes Wide operating temperature capability Electrical Characteristics Silicon switching diode technology Fast signal switching operation Low capacitance design Low reverse leakage performance High-speed recovery behavior Stable electrical characteristics Optimized for digital and analog signal applications Suitable for low-current switching circuits Applications Signal switching circuits Logic signal routing Communication equipment Embedded systems Consumer electronics Industrial control systems Protection circuits Waveform shaping networks Signal detection circuits High-frequency switching applications Test and measurement equipment General-purpose electronic designs Package Information Package Type: SOD-323 Surface-mount technology Compact PCB footprint Suitable for automated pick-and-place assembly High-density circuit integration capability Optimized for space-constrained applications #commonpartslibrary #semiconductor #diode #switchingdiode #signaldiode #highspeedswitching #circuitprotection #electronics #smd #sod323 #consumerelectronics #industrialelectronics #embeddedsystems #communicationelectronics #analogdesign #digitaldesign #pcbdesign #electroniccomponents

The SI2300 is a N-channel enhancement-mode MOSFET designed for efficient switching and power management applications. Fabricated using advanced trench MOS technology, it delivers low on-state resistance, fast switching performance, and high current handling capability within a compact surface-mount package. The device is widely used in load switching, battery-powered equipment, DC-DC converters, motor control circuits, power distribution systems, and general-purpose switching applications where efficiency and space optimization are critical. Features N-channel enhancement-mode MOSFET Low on-state resistance for reduced conduction losses Fast switching characteristics Low gate charge for efficient drive operation Compact surface-mount package High current carrying capability Low power dissipation design Optimized for battery-operated systems Suitable for high-speed switching applications RoHS-compliant and lead-free construction Applications Power management circuits Load switching systems Battery protection modules Portable electronic devices DC-DC converter circuits Motor drive applications Power distribution networks Embedded control systems Consumer electronics Industrial automation equipment Electrical Characteristics Low drain-to-source on-resistance High drain current capability Low gate threshold voltage Fast turn-on and turn-off response Low gate capacitance High switching efficiency Low leakage current characteristics Enhanced thermal performance Stable operation across specified temperature ranges Reliable avalanche and transient performance Mechanical Characteristics Surface-mount package construction Compact footprint for high-density PCB layouts Suitable for automated assembly processes Compatible with standard reflow soldering methods Tape-and-reel packaging availability Robust package integrity for production environments Environmental Characteristics Industrial-grade reliability Resistance to mechanical shock and vibration within specification limits Moisture-resistant package design Suitable for operation in demanding electronic environments Compliant with RoHS and environmental regulations Long operational lifetime under recommended operating conditions #commonpartslibrary #mosfet #nchannelmosfet #powermanagement #powerswitching #semiconductor #transistor #loadswitch #dcdcconverter #batteryprotection #embeddedsystems #industrialelectronics #consumerelectronics #smtcomponent #electronicsdesign

The CC1101RGP is a low-power sub-gigahertz RF transceiver designed for wireless communication applications requiring reliable long-range data transmission and high receiver sensitivity. It integrates a complete radio frequency front-end, packet handling engine, modulation and demodulation circuitry, frequency synthesizer, and advanced power management features within a compact package. The device supports multiple modulation formats and is optimized for industrial, scientific, medical, smart metering, home automation, remote control, wireless sensor networks, and Internet of Things applications. Its flexible configuration options enable designers to achieve an optimal balance between communication range, data throughput, power consumption, and system robustness. Features Sub-gigahertz RF transceiver for license-free ISM frequency bands High receiver sensitivity for extended communication range Programmable output power for optimized power consumption Multiple modulation schemes including FSK, GFSK, ASK, OOK, and MSK Integrated packet handling and error detection functions Fast frequency synthesizer settling time Low current consumption in transmit, receive, and sleep modes Hardware support for address filtering and data buffering Programmable channel spacing and data rate configuration Integrated RSSI, LQI, and clear channel assessment functions SPI interface for configuration and data communication Suitable for battery-powered wireless devices Applications Smart metering systems Wireless sensor networks Industrial monitoring and control Home and building automation Remote keyless entry systems Alarm and security systems Asset tracking devices Telemetry and data acquisition systems IoT communication nodes Proprietary wireless communication networks Electrical Characteristics Wide operating supply voltage range Low-power transmit and receive operation Programmable RF output power levels High-performance frequency synthesizer Low standby and sleep current consumption Integrated crystal oscillator support Robust RF performance across supported frequency bands Interface and Connectivity Serial Peripheral Interface communication Digital control and status signals Configurable interrupt outputs Integrated FIFO buffers for transmit and receive data External antenna connection through matching network Package Information Surface-mount package suitable for automated assembly Compact footprint for space-constrained applications RoHS-compliant device construction #commonpartslibrary #integratedcircuit #wirelesscommunication #rftransceiver #subghz #iot #embeddedsystems #industrialautomation #smartmetering #wirelesssensornetwork #lowpowerdesign #telemetry #homeautomation #remotecontrol #texasinstruments

The LSM6DSOXTR is a low-power inertial measurement unit integrating a three-axis accelerometer and a three-axis gyroscope within a compact surface-mount package. Designed for motion tracking, gesture recognition, activity monitoring, and sensor fusion applications, the device incorporates embedded machine learning capabilities and programmable finite state machines to enable intelligent edge processing with reduced host processor workload. The sensor supports high-performance motion sensing while maintaining low power consumption, making it suitable for wearable devices, IoT products, industrial monitoring systems, smart home equipment, and portable electronics. Engineering Specification Device Type Six-axis inertial measurement unit featuring a three-axis accelerometer and three-axis gyroscope. Sensor Functions Motion sensing, orientation detection, vibration monitoring, gesture recognition, activity tracking, tilt sensing, and sensor fusion. Integrated Features Embedded machine learning core, finite state machine engine, sensor hub functionality, timestamp generation, event detection, and programmable interrupt generation. Communication Interface Supports digital communication through I²C, SPI, and I³C interfaces for integration with microcontrollers and embedded processors. Power Characteristics Optimized for low-power operation with multiple performance modes supporting battery-powered and always-on applications. Measurement Capabilities Provides configurable acceleration and angular rate measurement ranges with programmable output data rates and digital filtering options. Embedded Intelligence Includes on-chip machine learning and event classification capabilities to enable local data processing and reduce system power consumption. Package Style Compact surface-mount LGA package suitable for space-constrained electronic designs. Applications Wearable electronics, asset tracking devices, industrial sensors, robotics, smart appliances, navigation systems, handheld devices, health monitoring equipment, and IoT products. Manufacturer STMicroelectronics. Hashtags #LSM6DSOXTR #STMicroelectronics #IMU #MotionSensor #Accelerometer #Gyroscope #SensorFusion #MachineLearningCore #EmbeddedSystems #WearableElectronics #IndustrialAutomation #IoT #SmartDevices #MEMS #CommonPartsLibrary

The CPDT-12V is an electromechanical relay designed for switching and control applications in industrial, automotive, consumer, and embedded electronic systems. Operating from a nominal twelve-volt coil supply, this relay provides reliable isolation between low-power control circuitry and higher-power loads. Its compact construction, robust contact mechanism, and dependable switching performance make it suitable for power distribution, automation controls, battery-powered equipment, protection circuits, and general-purpose switching applications. The relay incorporates a magnetic coil and mechanical contact assembly that enables safe control of AC or DC loads while maintaining electrical isolation between the control and load sides. Its durable design supports repeated switching operations and long service life in demanding environments. Features Electromechanical relay with nominal twelve-volt coil operation Provides galvanic isolation between control and load circuits Suitable for AC and DC load switching Reliable contact performance for power and signal applications Compact package for PCB mounting Low control power requirement Durable contact system for long operational life Fast switching response characteristics Compatible with industrial and embedded control systems Designed for automation, protection, and power management circuits Applications Industrial automation equipment Power control modules Battery-powered systems Automotive electronics Home appliance control circuits Smart energy management devices Security and alarm systems Embedded controller interfaces Motor and actuator switching General-purpose load control applications Electrical Characteristics Nominal coil voltage: twelve volts DC Electromagnetic actuation mechanism Isolated contact structure Designed for low-voltage control interfaces Supports switching of resistive and inductive loads Stable operation across specified environmental conditions Mechanical Characteristics PCB-mount relay construction Compact footprint for space-constrained designs Durable housing for electrical and mechanical protection Secure terminal arrangement for reliable soldering and connection Engineered for repeated switching cycles Environmental Characteristics Suitable for indoor industrial and commercial environments Resistant to normal operating vibration and mechanical shock conditions Designed for reliable operation across standard electronic equipment temperature ranges #commonpartslibrary #relay #electromechanicalrelay #switchingdevice #powermanagement #industrialautomation #controlsystems #pcbmount #automationelectronics #circuitprotection #embeddedsystems #industrialelectronics

The ESP32-C3FH4 is a highly integrated wireless microcontroller designed for Internet of Things, smart devices, industrial automation, consumer electronics, and embedded connectivity applications. It combines a low-power RISC-V processor with integrated Wi-Fi and Bluetooth Low Energy connectivity, providing a cost-effective and secure platform for wireless communication and edge computing. The device incorporates embedded flash memory, advanced security features, low-power operating modes, and a rich set of peripheral interfaces, making it suitable for battery-powered and always-connected systems. Its compact design and comprehensive software ecosystem enable rapid development of connected products while maintaining high reliability and energy efficiency. The ESP32-C3FH4 is widely used in smart sensors, home automation devices, wearable electronics, industrial monitoring systems, wireless control modules, and cloud-connected embedded products. Features Integrated RISC-V microcontroller core Built-in Wi-Fi connectivity Integrated Bluetooth Low Energy support Embedded flash memory Low-power operation for battery-powered applications Hardware cryptographic acceleration Secure boot capability Flash encryption support Multiple GPIO interfaces Integrated UART, SPI, I²C, I²S, PWM, and ADC peripherals Real-time processing capability Wireless networking and cloud connectivity support OTA firmware update support Compact surface-mount package Industrial-grade reliability Electrical Characteristics Wireless microcontroller architecture Integrated RF subsystem Low-power operating modes High-performance embedded processing Secure communication support Multi-protocol wireless connectivity Flexible peripheral expansion capability Optimized power consumption for IoT devices Applications Internet of Things devices Smart home automation Wireless sensor networks Industrial monitoring systems Asset tracking devices Wearable electronics Smart appliances Remote control systems Data acquisition platforms Edge computing applications Connected consumer products Embedded wireless gateways Package Information Surface-mount package Compact footprint for embedded applications Suitable for automated assembly processes Optimized thermal and electrical performance PCB-friendly package design #commonpartslibrary #integratedcircuit #microcontroller #wirelessconnectivity #wifi #bluetoothlowenergy #iot #embeddedsystems #espressif #smartdevices #industrialautomation #edgecomputing #wirelessmodule #internetofthings #electronicsdesign #riscv #embeddedelectronics #lowpowerdesign

Tiny, Low-Cost, PCM Class D Amplifier with Class AB Performance The MAX98357AETE+T is a highly integrated digital input Class-D audio amplifier designed to convert digital audio streams directly into high-efficiency speaker output signals. It features an integrated digital-to-analog conversion stage and Class-D output driver, eliminating the need for an external DAC and significantly simplifying audio system design. The device accepts digital audio data through a standard I²S interface and delivers high-quality audio output suitable for portable electronics, smart speakers, embedded systems, Internet of Things devices, multimedia products, and consumer audio equipment. Its high-efficiency architecture minimizes power dissipation while maintaining excellent audio performance, making it particularly suitable for battery-powered applications. The MAX98357AETE+T incorporates advanced audio processing capabilities, low electromagnetic interference characteristics, and integrated protection features to ensure reliable operation in compact embedded audio designs. Features Digital input Class-D audio amplifier Integrated digital-to-analog conversion functionality Direct I²S audio interface support High-efficiency power amplification architecture Filterless output design Compact surface-mount package Low electromagnetic interference operation Integrated click-and-pop suppression Low power consumption High audio fidelity performance Simplified external component requirements Integrated thermal protection Short-circuit protection capability Suitable for mono speaker applications Optimized for embedded audio systems Electrical Characteristics Digital audio input architecture Class-D switching amplifier topology High-efficiency power conversion Low distortion audio reproduction Wide operating supply range Low standby power consumption Direct speaker drive capability Integrated audio signal processing functions Applications Smart speakers Embedded audio systems Internet of Things devices Portable electronics Voice-enabled products Multimedia equipment Consumer audio devices Wireless audio products Home automation systems Educational and development platforms Battery-powered audio applications Human-machine interface systems Package Information TQFN surface-mount package Compact footprint for space-constrained designs Suitable for automated PCB assembly Thermally optimized package construction High-density electronic product integration #commonpartslibrary #integratedcircuit #audio #audioamplifier #classd amplifier #digitalaudio #i2s #dac #embeddedaudio #consumerelectronics #iot #multimedia #signalprocessing #powermanagement #maximintegrated #analogdevices #electronicsdesign #audioelectronics #speakerdriver #embeddedsystems

The TPS63802DLAR is a highly integrated synchronous buck-boost DC-DC converter designed to provide a regulated output voltage when the input voltage is either above, below, or equal to the desired output voltage. The device automatically transitions between buck and boost operating modes to maximize efficiency across a wide input range. It is optimized for battery-powered and portable electronic applications requiring high power conversion efficiency, low quiescent current, compact solution size, and stable operation under varying load conditions. The TPS63802DLAR is commonly used in wearable devices, IoT products, wireless modules, sensors, handheld electronics, and embedded systems. Engineering Specification Device Type Synchronous Buck-Boost DC-DC Converter Topology Automatic Buck and Boost Mode Operation Output Configuration Single Adjustable Output Control Method Current Mode Control Architecture Switching Operation High-Frequency Synchronous Switching Regulation Power Conversion Step-Up and Step-Down Voltage Regulation Efficiency Characteristics High Conversion Efficiency Across Wide Input and Load Conditions Quiescent Current Optimized for Low-Power and Battery-Operated Applications Protection Features Overcurrent Protection Thermal Shutdown Protection Short-Circuit Protection Undervoltage Lockout Protection Soft-Start Functionality Package Style VSON Surface-Mount Package Mounting Type Surface Mount Technology Input Source Compatibility Single-Cell and Multi-Cell Battery Systems USB Power Sources Portable Power Systems Applications Battery-Powered Electronics Wearable Devices Internet of Things Equipment Wireless Communication Modules Portable Medical Devices Handheld Consumer Electronics Embedded Control Systems Industrial Sensors Data Acquisition Systems Features Automatic Buck-Boost Transition Integrated Power Switches Low Quiescent Current Operation High Power Density Design Compact Footprint Fast Transient Response Wide Input Voltage Compatibility High Reliability Performance Optimized for Portable Applications RoHS Compliant Construction Manufacturer Texas Instruments #commonpartslibrary #integratedcircuit #powermanagement #dcdcconverter #buckboost #powersupply #voltageregulator #batterypowered #embeddedsystems #portableelectronics #iot #texasinstruments #powerelectronics #smps #electroniccomponents

ST Microelectronics STM32L432KCU6 UFQFPN-32_L5.0-W5.0-P0.50-TL-EP3.5 LCSC Part Number: C1337280 JLCPCB Part Class: Extended Part Manufactured by ST(意法半导体) STMicroelectronics STM32L432KC ultra-low-power 32-bit ARM Cortex-M4 microcontroller with FPU running up to 80MHz, featuring 256KB Flash memory, 64KB SRAM, USB 2.0 Full-Speed device support, Quad-SPI interface, RTC with calendar and alarms, true random number generator (TRNG), DMA controller, CAN 2.0B, UART, LPUART, SPI, I2C, SAI audio interface, 12-bit 5MSPS ADC, dual 12-bit DACs, operational amplifier with PGA, comparators, capacitive sensing channels, advanced timers and ultra-low-power modes. Operates from 1.71V to 3.6V and is optimized for battery-powered, industrial, medical, IoT and portable embedded applications. Search Keywords: STM32L432KC, STM32L432KCU6, STM32L432KCU6TR, STM32L432, STM32L4 series, STM32 Cortex-M4 MCU, STM32 low power microcontroller, STM32 256KB Flash 64KB SRAM, STM32 USB FS MCU, STM32 CAN MCU, STM32 Quad SPI MCU, STM32L432 datasheet, STM32L432 development board, Nucleo-L432KC, ARM Cortex-M4 FPU Hashtags: #STM32L432KC #STM32L432KCU6 #STM32L432 #STM32L4 #STMicroelectronics #CortexM4 #ARMMicrocontroller #LowPowerMCU #EmbeddedSystems #USBFS #CANBus #QuadSPI #ADC12bit #DAC12bit #RTC #TRNG #IoTMCU #IndustrialMCU #MedicalElectronics #NucleoL432KC

Overvoltage, Undervoltage Protection PMIC 8-DFN (3x2) The LTC4365IDDB#TRMPBF is a high-reliability overvoltage, undervoltage, and reverse supply protection controller designed to safeguard sensitive electronic systems from abnormal power conditions. It controls an external N-channel MOSFET to disconnect loads during hazardous voltage events, preventing damage caused by input voltage transients, reverse polarity connections, and supply faults. This device is widely used in industrial equipment, telecommunications systems, automotive electronics, embedded control platforms, and power distribution applications where robust input power protection is required. The controller offers precise voltage monitoring, adjustable protection thresholds, low operating current, and fast fault response, enabling reliable operation in harsh electrical environments. Key Features Overvoltage protection controller for DC power inputs Undervoltage lockout protection Reverse input voltage protection Controls external N-channel MOSFET for load isolation Adjustable overvoltage and undervoltage thresholds Wide operating input voltage range Fast fault detection and response Low quiescent current operation Surge and transient voltage protection capability Gate drive suitable for high-side protection configurations Integrated fault monitoring functionality Compact surface-mount package Lead-free and RoHS-compliant construction Electrical Characteristics Input voltage monitoring with programmable thresholds Precise voltage sensing accuracy Reverse polarity protection support Low standby power consumption External MOSFET-based current handling capability High gate drive output for efficient MOSFET control Industrial-grade operating temperature support Applications Industrial automation systems Telecommunications equipment Network infrastructure hardware Automotive electronic modules Battery-powered equipment Embedded control systems Power distribution units Data acquisition systems Medical instrumentation Portable electronic devices Package Information Package Type: DFN Surface-mount technology Compact footprint for space-constrained designs Tape-and-reel packaging for automated assembly Compliance RoHS compliant Lead-free package Industrial-grade reliability Moisture-sensitive device qualified for standard SMT assembly processes #commonpartslibrary #integratedcircuit #analog #powermanagement #powerprotection #surgeprotection #reversepolarityprotection #overvoltageprotection #undervoltageprotection #lineartechnology #analogdevices #industrialelectronics #embeddedsystems #powersupply #circuitprotection

The TPS54531DDA is a high-efficiency step-down switching regulator designed for converting higher input voltages into regulated lower output voltages. It integrates a power MOSFET, control circuitry, and protection features into a compact package, enabling simplified power supply design for a wide range of industrial, consumer, communication, and embedded applications. The device utilizes current-mode control architecture to provide fast transient response, stable operation, and straightforward loop compensation. It supports a wide input voltage range and delivers efficient power conversion while minimizing external component count. Built-in protection mechanisms enhance system reliability by safeguarding against fault conditions such as overcurrent, undervoltage, and thermal overload. The TPS54531DDA is commonly used in distributed power systems, industrial controllers, networking equipment, telecommunications hardware, battery-powered devices, and embedded computing platforms requiring efficient voltage regulation. Features Integrated high-side power MOSFET High-efficiency buck regulator architecture Wide input voltage operating range Current-mode control operation Adjustable output voltage capability Fast transient response performance Internal soft-start functionality Cycle-by-cycle current limiting protection Thermal shutdown protection Undervoltage lockout protection Frequency compensation support Low standby current operation Compact surface-mount package Suitable for industrial temperature environments Electrical Characteristics Step-down DC/DC conversion topology Fixed switching frequency operation Adjustable output regulation High conversion efficiency across load conditions Stable operation with ceramic output capacitors Integrated power switch architecture Low output voltage ripple performance High load regulation accuracy Applications Industrial automation systems Embedded processors and microcontrollers Communication equipment Networking hardware Distributed power architectures Point-of-load regulators Consumer electronic products Measurement and instrumentation equipment Battery-powered systems Digital control platforms Package Information Package Type: SO PowerPAD package Surface-mount assembly compatible Thermally enhanced package construction Optimized for automated PCB manufacturing Compact footprint for space-constrained designs #commonpartslibrary #integratedcircuit #powermanagement #powersupply #buckconverter #dcdcconverter #switchingregulator #voltageregulator #embeddedsystems #industrialelectronics #powerelectronics #texasinstruments #energyefficiency #electronicsdesign #powersupplycontroller

MOSFET N-CH 20V 3.6A SOT-23 The IRLML2502 is a small-signal N-channel enhancement mode power MOSFET designed for low-voltage, high-efficiency switching applications. It is commonly used as a load switch or power control transistor in compact electronic systems such as battery-powered devices, LED drivers, and DC-DC converters. It features a low on-resistance (RDS(on)), which allows it to switch higher currents with minimal power loss and heat generation. The device is optimized for logic-level gate drive, meaning it can be driven directly from microcontrollers (like 3.3 V or 5 V systems). It is packaged in a compact SOT-23 (Micro3) surface-mount package, making it suitable for space-constrained PCB designs. Key Features N-channel enhancement mode MOSFET Drain-source voltage (VDS) up to 20 V Continuous drain current up to ~4.2 A (at 25°C) Very low RDS(on) ≈ 45 mΩ @ VGS = 4.5 V Logic-level gate drive capability (works with 2.5–4.5 V signals) Fast switching performance Compact SOT-23 (Micro3) surface-mount package Low gate charge for efficient switching Suitable for battery-powered and low-voltage applications RoHS compliant, lead-free design #IRLML2502 #MOSFET #NChannelMOSFET #PowerElectronics #SOT23 #LogicLevelMOSFET #PowerSwitch #ElectronicComponents #EmbeddedSystems #PCBDesign

Infrared (IR) Emitter 940nm 1.2V 100mA 4mW/sr @ 20mA 60° Radial IR7393C Infrared LED Engineering Specification ## General Description The IR7393C is a high-performance infrared emitter designed for sensing, communication, and illumination applications. Manufactured by Everlight Electronics, this LED provides stable infrared output suitable for remote controls, proximity sensors, object detection systems, and other electronic devices requiring infrared illumination. Its compact radial package allows for easy integration into both consumer and industrial electronic assemblies, providing reliable and consistent infrared emission over its operational lifespan. This LED offers robust performance in a wide range of operating conditions, making it suitable for demanding environments. ## Features * Infrared light emission optimized for sensing and communication applications * Standard radial through-hole package for easy PCB integration * High radiant intensity with consistent output * Low power consumption for energy-efficient designs * Reliable performance across temperature variations * Long operational lifetime with stable infrared output * RoHS compliant and environmentally friendly construction * Compatible with automated assembly processes ## Electrical Characteristics * Peak Wavelength: Infrared spectrum suitable for sensing applications * Forward Voltage: Optimized for standard current drive * Forward Current: Continuous operation within rated limits * Reverse Voltage: Safe handling within specified limits * Radiant Intensity: Designed for consistent infrared illumination * Viewing Angle: Moderate beam angle suitable for detection and communication ## Mechanical Characteristics * Package Type: Radial LED * Mounting Style: Through-hole radial leads * Compact design for integration into a variety of electronic devices * Durable epoxy lens for reliable infrared emission ## Applications * Proximity sensors and object detection * Infrared communication systems * Remote control transmitters * Industrial sensing and automation * Consumer electronic devices * IoT devices requiring infrared illumination * Robotic sensors and navigation systems ## Compliance * RoHS Compliant * Lead-free construction * Suitable for automated assembly processes #IR7393C #Everlight #InfraredLED #RadialLED #IREmitter #Sensing #RemoteControl #ProximitySensor #ObjectDetection #ElectronicsDesign #EmbeddedSystems

The B0505S-1WR3 is a compact isolated DC-DC power converter module designed to provide regulated power conversion while maintaining galvanic isolation between input and output circuits. The module incorporates high-frequency switching technology and transformer isolation to deliver stable power with reduced noise coupling and improved system safety. It is widely used in industrial control systems, communication equipment, instrumentation, data acquisition devices, medical electronics, and embedded applications where isolated power rails are required to eliminate ground loops and enhance signal integrity. Engineering Specification Device Type Isolated DC-DC Converter Module Power Conversion Topology Transformer-Isolated Switching Regulator Input Configuration Single DC Input Output Configuration Single Isolated DC Output Isolation Method Internal High-Frequency Transformer Isolation Regulation Characteristics Regulated Output Voltage High Conversion Efficiency Low Output Ripple and Noise Electrical Features Galvanic Isolation Between Input and Output Enhanced Noise Immunity Stable Load Regulation Reliable Power Transfer Performance Protection Characteristics Short-Circuit Resistant Design Input-to-Output Isolation Protection Thermal Reliability Enhancement Package Style Single In-Line Through-Hole Package Mounting Type Through-Hole Mounting Environmental Characteristics Industrial-Grade Reliability Long Operational Lifetime High Resistance to Electrical Interference Suitable for Harsh Operating Environments Applications Industrial Automation Equipment Data Acquisition Systems Sensor Signal Conditioning Communication Interfaces Medical Electronics Embedded Control Systems Power Supply Isolation Instrumentation Equipment Process Control Devices Microcontroller-Based Systems Features Compact Integrated Module Isolated Power Distribution High Reliability Design Low Electromagnetic Interference Simple Circuit Integration Efficient Power Conversion Stable Output Performance Wide Application Compatibility RoHS Compliant Construction Manufacturer MORNSUN #commonpartslibrary #powermodule #dcdcconverter #isolatedpower #galvanicisolation #powermanagement #powersupply #powerelectronics #industrialelectronics #instrumentation #communications #embeddedsystems #medicalelectronics #throughhole #electroniccomponents