• IHDM1008BCEV4R7M30

    IHDM1008BCEV4R7M30

    4.7 µH Unshielded Drum Core, Wirewound Inductor 62 A 0.95mOhm Max Vertical, 2 PC Pin The IHDM1008BCEV4R7M30 is a surface-mount power inductor designed for energy storage and filtering in switching power supplies and DC-DC converter circuits. It provides stable inductance characteristics under varying current conditions, making it suitable for applications requiring efficient power conversion and noise suppression. The device is constructed using a magnetically shielded structure to minimize electromagnetic interference and ensure reliable operation in densely populated circuit environments. Its design supports high current handling capability while maintaining low core losses, contributing to overall system efficiency. Functional Overview The inductor stores energy in its magnetic field when current flows through it and releases that energy when the current changes. This behavior is essential for smoothing current in switching regulators and maintaining stable voltage levels in power circuits. Its low resistance winding helps reduce power loss, while the magnetic shielding limits flux leakage, improving performance in sensitive electronic systems. The component is optimized for high-frequency operation typically found in modern power management designs. Electrical Characteristics The device provides a fixed inductance value with stable performance across a range of operating currents. It supports relatively high saturation current levels, allowing it to function effectively in power circuits without significant degradation of inductance. Low direct current resistance contributes to improved efficiency and reduced heat generation. The inductor is designed to maintain consistent electrical behavior across typical operating temperatures and frequencies used in switching applications. Interface Requirements The component features standard surface-mount terminals for direct placement onto printed circuit boards. Proper soldering and pad design are required to ensure mechanical stability and optimal electrical performance. Placement considerations should include minimizing loop area and proximity to switching elements to reduce noise and maximize efficiency. Operating Conditions The inductor is intended for operation across a wide temperature range suitable for consumer and industrial electronics. It is capable of maintaining performance under continuous load conditions and varying thermal environments. Adequate thermal management and airflow may be necessary in high-current applications to prevent excessive temperature rise. Protection and Reliability Features The device is constructed with durable materials to ensure long-term reliability under electrical and thermal stress. Its magnetically shielded design reduces susceptibility to external interference and limits emissions that could affect nearby components. It is designed to withstand standard handling and soldering processes associated with surface-mount assembly. Packaging and Integration The IHDM1008BCEV4R7M30 is provided in a compact surface-mount package optimized for automated assembly processes. Its form factor allows efficient use of board space while supporting high-performance power designs. The package design ensures secure mounting and consistent electrical contact in high-density circuit layouts. Applications Typical applications include DC-DC converters, voltage regulator modules, power management circuits, filtering stages, and energy storage elements in portable devices, industrial equipment, and communication systems. #commonpartslibrary #inductors

    adrian95

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  • PCA9450CHNY

    PCA9450CHNY

    Power Management IC for iMX8M 5V 6A 6 Buck + 5 LDO The PCA9450CHNY is a highly integrated Power Management Integrated Circuit (PMIC) from NXP Semiconductors, specifically designed to power the i.MX 8M family of application processors, particularly the i.MX 8M Plus. It integrates multiple high-efficiency DC-DC buck converters, LDO regulators, power sequencing logic, load switching, voltage monitoring, and system control functions into a single device. The PCA9450C variant features a configurable dual-phase 6 A buck regulator for powering high-current processor cores while supporting Dynamic Voltage Scaling (DVS) for optimized power efficiency. Key Features Six high-efficiency switching regulators (Buck converters) PCA9450C variant supports a configurable 6 A dual-phase buck regulator Three 3 A buck regulators with Dynamic Voltage Scaling (DVS) Remote-sense capability on major buck outputs for IR-drop compensation Five integrated LDO regulators Supports DDR4, LPDDR4, and DDR3L memory configurations 400 mA load switch with active discharge Dual-channel logic level translator Integrated 32.768 kHz crystal oscillator driver Fast-mode Plus (Fm+) 1 MHz I²C interface Programmable power sequencing and voltage control Power ON/OFF and Standby/Run mode control inputs Protection features including UVLO, thermal shutdown, fault monitoring, and soft-start Operating temperature range: −40°C to +105°C 56-pin HVQFN package (7 mm × 7 mm, 0.4 mm pitch) Optimized for i.MX 8M Mini, Nano, and Plus processors, especially the i.MX 8M Plus for the PCA9450C variant. #CommonPartsLibrary #PCA9450CHNY #PCA9450C #NXP #PMIC #PowerManagementIC #PowerSupply #VoltageRegulator #BuckConverter #LDO #DynamicVoltageScaling #DVS #IMX8M #IMX8MPlus #EmbeddedSystems #IndustrialElectronics #PowerManagement #HVQFN56 #Semiconductor #IntegratedCircuit #IC #CommonPartsLibrary #ElectronicsDesign #HardwareDesign #PCBDesign #EmbeddedLinux #IoT #ProcessorPowerManagement #PowerSequencing #SystemPower #NXPSemiconductors

    adrian95

    4 Uses

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  • CSS4J-4026R-1L00F

    CSS4J-4026R-1L00F

    1 mOhms ±1% 4W Chip Resistor Nonstandard Automotive AEC-Q200, Current Sense Metal Element Bourns Inc. CSS4J-4026R-1L00F is a high-power surface-mount current sense resistor designed for accurate current measurement in power electronics applications. It belongs to the CSS4J-4026 series and uses a metal element construction that provides low resistance, high power handling, and excellent stability for automotive and industrial applications. This device features a 1 mΩ resistance value, ±1% tolerance, and 4 W power rating, making it suitable for monitoring high-current paths while minimizing measurement losses. It is also qualified for AEC-Q200 automotive applications and operates across a wide temperature range. Key Features Component Type: SMD Current Sense Resistor (Metal Element / Metal Strip) Resistance Value: 1 mΩ (0.001 Ω) Resistance Tolerance: ±1% Power Rating: 4 W Package Size: 4026 (approx. 10.06 mm × 6.60 mm) Number of Terminals: 4 terminals (Kelvin sensing configuration) Temperature Coefficient: approximately ±75 ppm/°C Operating Temperature Range: −55°C to +170°C Construction: Metal element current shunt resistor for accurate current measurement Qualification: Automotive AEC-Q200 compliant Typical Applications Battery Management Systems (BMS) EV and automotive power systems Motor control circuits Power supplies and DC/DC converters Overcurrent monitoring and protection circuits Industrial power monitoring equipment #CommonPartsLibrary #Bourns #CSS4J4026 #CurrentSenseResistor #ShuntResistor #MetalElementResistor #AECQ200 #PowerElectronics #BatteryManagementSystem #EVElectronics #SMTComponents #PCBDesign

    adrian95

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  • XAL1010-103MED

    XAL1010-103MED

    10 µH Shielded Molded Inductor 15.5 A 14.75mOhm Max Nonstandard The XAL1010-103MED specification defines the engineering requirements for a shielded power inductor designed for high-efficiency energy storage and power conversion applications. This specification establishes the functional, electrical, mechanical, thermal, environmental, and quality requirements necessary to ensure stable inductance characteristics, efficient current handling, and long-term operational reliability in power electronic systems. The component is intended for use in DC-DC converters, voltage regulators, power management circuits, industrial control equipment, automotive electronics, and embedded systems requiring compact, high-current inductive components. The magnetically shielded construction minimizes electromagnetic interference while supporting efficient energy transfer and stable performance in high-frequency switching applications. Engineering Requirements The power inductor shall be manufactured using high-quality magnetic core materials and precision-wound conductors to ensure consistent inductance, low core losses, and reliable current-carrying capability. The construction shall maintain stable electrical performance under specified operating voltage, current, frequency, and temperature conditions. Electrical characteristics shall provide accurate inductance values, low direct current resistance, high saturation current capability, and low electromagnetic emissions. The component shall maintain stable performance during continuous operation, transient loading, and thermal cycling without significant degradation of inductance or efficiency. Thermal performance shall support effective heat dissipation and continuous operation within the specified temperature range while maintaining structural integrity and electrical characteristics. The shielded construction shall minimize magnetic field leakage and improve electromagnetic compatibility within densely populated electronic assemblies. Mechanical construction shall be suitable for surface-mount assembly and compatible with automated manufacturing processes. The component shall withstand solder reflow, vibration, mechanical shock, and handling without deformation or degradation of electrical performance. Workmanship shall be free from defects including cracks, contamination, core damage, winding irregularities, or structural inconsistencies. Inspection, validation, and testing shall be conducted using calibrated equipment and controlled quality procedures to verify compliance with all applicable engineering and manufacturing requirements. Any deviation from this specification shall require formal engineering evaluation, documented technical justification, and approval through the established engineering change control process. Documentation Supporting documentation shall include engineering drawings, electrical specifications, magnetic characterization data, thermal performance reports, qualification records, inspection reports, material declarations, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure complete product traceability. Revision Control Any modification to this specification shall be managed through the formal engineering change management process. All revisions shall undergo technical review, validation, and approval before implementation to ensure continued compliance with design intent and applicable engineering standards. #EngineeringSpecification #PowerInductor #ShieldedInductor #PowerElectronics #DCDCConverter #PowerManagement #Magnetics #IndustrialElectronics #QualityAssurance #EngineeringDocumentation #CommonPartsLibrary #Inductor #XAL1010

    adrian95

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  • LM5148RGYR

    LM5148RGYR

    Buck Regulator Positive Output Step-Down DC-DC Controller IC 24-VQFN (3.5x5.5) The LM5148RGYR specification defines the engineering requirements for a synchronous buck controller integrated circuit designed for high-efficiency DC-DC power conversion applications. This specification establishes the functional, electrical, mechanical, thermal, environmental, and quality requirements necessary to ensure reliable voltage regulation, efficient power management, and long-term operational stability in industrial, automotive, telecommunications, and embedded electronic systems. The device is intended for use in high-performance power supply designs requiring wide input voltage capability, precise output voltage regulation, and high-current conversion efficiency. It controls external power MOSFETs to implement synchronous buck converter topologies suitable for distributed power architectures, industrial automation equipment, networking infrastructure, battery-powered systems, and embedded control applications. Engineering Requirements The controller shall be manufactured using qualified semiconductor fabrication processes and high-quality materials to ensure stable switching performance, low power consumption, and reliable long-term operation. The device shall maintain consistent functionality under specified operating voltage, temperature, and environmental conditions. Electrical characteristics shall provide accurate pulse-width modulation control, stable output voltage regulation, fast transient response, and reliable gate drive capability for external synchronous power MOSFETs. The controller shall maintain predictable switching performance during startup, shutdown, overload, and dynamic load conditions while supporting efficient power conversion. The integrated control architecture shall provide robust regulation, protection features, and compensation capability to ensure stable converter operation across varying input voltages and output load conditions. The device shall maintain operational integrity during power sequencing and fault recovery without compromising system reliability. Thermal performance shall support continuous operation within the specified junction temperature range while maintaining electrical performance and reliability. The package shall be suitable for automated surface-mount assembly and compatible with standard solder reflow manufacturing processes. Mechanical construction shall withstand thermal cycling, vibration, mechanical handling, and environmental exposure without degradation of functionality. Workmanship shall be free from defects including contamination, package cracking, bond failures, lead deformation, or structural inconsistencies that could adversely affect electrical or mechanical performance. Inspection, validation, and testing shall be performed using calibrated equipment and controlled quality procedures to verify compliance with engineering and manufacturing requirements. Any deviation from this specification shall require formal engineering evaluation, documented technical justification, and approval through the established engineering change control process before implementation. Documentation Supporting documentation shall include engineering drawings, electrical performance specifications, application guidelines, thermal characterization reports, qualification records, inspection reports, material declarations, reliability data, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure complete product traceability. Revision Control Any modification to this specification shall be managed through the formal engineering change management process. All revisions shall undergo technical review, validation, and approval before release to ensure continued compliance with design intent and applicable engineering standards. #EngineeringSpecification #BuckController #DCDCConverter #PowerManagement #SynchronousBuck #PowerElectronics #EmbeddedSystems #IndustrialElectronics #QualityAssurance #EngineeringDocumentation

    adrian95

    1 Use

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  • XL4016

    XL4016

    8A 180KHz 40V Buck DC to DC Converter The XL4016 is a high-efficiency DC-DC step-down (buck) switching regulator IC designed for applications that require high current output and simple external component design. It is commonly used in power supplies, LED drivers, battery chargers, and automotive/industrial DC conversion systems. Type: Step-down (buck) DC-DC converter Input voltage range: ~8 V to 40 V Output current: up to 8 A (practically ~5–6 A continuous with good cooling) Output voltage: adjustable via external resistors Switching frequency: ~180 kHz Built-in high-current power MOSFET switch Current-mode PWM control Cycle-by-cycle current limiting Thermal shutdown protection Short-circuit protection PackageTypically available in TO-220-5L package (with heat sink tab) Designed for external diode, inductor, and capacitor components Typical Applications DC power supply modules LED constant-current drivers Battery charging circuits Automotive 12V/24V step-down systems DIY adjustable bench power supplies #CommonPartsLibrary #IntegratedCircuit #PowerManagement

    adrian95

    24 Uses

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  • ACS758LCB-100B-PFF-T

    ACS758LCB-100B-PFF-T

    Current Sensor 100A 1 Channel Hall Effect, Open Loop Bidirectional 5-CB Formed Leads, PFF The ACS758LCB-100B-PFF-T is a fully integrated Hall-effect current sensor IC from Allegro MicroSystems, designed for accurate and electrically isolated measurement of both AC and DC currents up to ±100 A. It incorporates a precision Hall sensing element positioned near a low-resistance copper current conductor, producing an analog output voltage proportional to the sensed current. The device offers galvanic isolation between the current path and signal pins, making it ideal for high-voltage and high-current applications such as motor drives, power supplies, inverters, battery management systems, and overcurrent protection circuits. Key Features Hall-effect based current sensing for AC and DC currents up to ±100 A Galvanic isolation between current conductor and signal circuitry 120 kHz typical bandwidth for fast current measurement 3 µs typical response time to step current changes 20 mV/A typical sensitivity Ultra-low 100 µΩ internal conductor resistance for minimal power loss Factory-trimmed gain and offset for improved accuracy Typical total output error of 2.4% over temperature Integrated electrostatic shield for improved immunity to high dV/dt and electrical noise Single-supply operation from 3.0 V to 5.5 V High reliability monolithic Hall IC architecture AEC-Q100 qualified for automotive applications Operating temperature range of -40°C to +150°C #ACS758LCB100BPFFT #ACS758 #CurrentSensor #HallEffectSensor #CurrentMonitoring #PowerElectronics #MotorControl #OvercurrentProtection #BatteryManagement #AutomotiveElectronics #AllegroMicroSystems #HighCurrentSensing #DCCurrentSensor #ACCurrentSensor #IndustrialAutomation #commonpartslibrary #currentsensor

    adrian95

    34 Uses

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  • XAL6060-682MEC

    XAL6060-682MEC

    6.8 µH Shielded Molded Inductor 9 A 20.8mOhm Nonstandard The XAL6060-682MEC specification defines the engineering requirements for a shielded surface-mount power inductor designed for high-efficiency energy storage and power conversion applications. This specification establishes the functional, electrical, mechanical, thermal, environmental, and quality requirements necessary to ensure stable inductance characteristics, efficient current handling, low electromagnetic interference, and long-term operational reliability. The component is intended for use in DC-DC converters, voltage regulator modules, power management systems, industrial automation equipment, automotive electronics, telecommunications infrastructure, and embedded electronic applications requiring compact, high-current inductive components. The magnetically shielded construction minimizes stray magnetic fields while supporting efficient switching performance and stable energy transfer in high-frequency power circuits. Engineering Requirements The power inductor shall be manufactured using high-quality magnetic core materials and precision-wound conductors to ensure consistent inductance, low core losses, and dependable long-term reliability. The construction shall maintain stable electrical and magnetic characteristics throughout the specified operating voltage, current, frequency, and temperature ranges. Electrical characteristics shall provide accurate inductance, low direct current resistance, high saturation current capability, and low core loss to maximize power conversion efficiency. The component shall maintain stable performance during continuous operation, transient load conditions, and dynamic switching without significant degradation of inductance or current-handling capability. The shielded magnetic structure shall minimize electromagnetic emissions and magnetic coupling with adjacent components while improving electromagnetic compatibility in densely populated printed circuit board assemblies. Thermal performance shall support efficient heat dissipation and continuous operation within the specified operating temperature range while maintaining electrical integrity and structural stability. Mechanical construction shall be suitable for automated surface-mount assembly and compatible with standard solder reflow manufacturing processes. The package shall withstand thermal cycling, vibration, mechanical shock, and handling without degradation of electrical or mechanical performance. Workmanship shall be free from defects including cracks, contamination, core damage, winding irregularities, plating defects, or structural inconsistencies that could adversely affect functionality or reliability. Inspection, validation, and testing shall be conducted using calibrated equipment and controlled quality procedures to verify compliance with all applicable engineering and manufacturing requirements. Any deviation from this specification shall require formal engineering evaluation, documented technical justification, and approval through the established engineering change control process before implementation. Documentation Supporting documentation shall include engineering drawings, electrical performance specifications, magnetic characterization reports, thermal performance data, qualification records, inspection reports, material declarations, reliability data, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure complete product traceability. Revision Control Any modification to this specification shall be managed through the formal engineering change management process. All revisions shall undergo technical review, validation, and approval before release to ensure continued compliance with design intent and applicable engineering standards. #EngineeringSpecification #PowerInductor #ShieldedInductor #PowerElectronics #DCDCConverter #PowerManagement #Magnetics #IndustrialElectronics #QualityAssurance #EngineeringDocumentation

    adrian95

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  • TPS22995RZGR

    TPS22995RZGR

    Power Switch/Driver 1:1 N-Channel 3.8A 6-WQFN-HR (1.5x0.75) The TPS22995RZGR is a high-current, low ON-resistance load switch designed for power distribution and power sequencing applications. It features an integrated N-channel MOSFET capable of handling high load currents while maintaining minimal voltage drop. The device includes controlled rise time to reduce inrush current, making it suitable for sensitive power rails and battery-powered systems. It also integrates thermal shutdown and overcurrent protection, ensuring safe operation under fault conditions. Its compact package and low quiescent current make it ideal for portable and space-constrained designs. Key Features Ultra-low ON-resistance (R<sub>ON</sub>) Wide input voltage range High continuous output current capability Controlled slew rate for inrush current limiting Low quiescent current Thermal shutdown protection Reverse current blocking (when disabled) Active high enable pin (ON pin) Compact WQFN package Electrical Characteristics Input Voltage Range: 0.5 V to 5.5 V ON-Resistance (R<sub>ON</sub>): Typically ~5 mΩ (VIN = 5 V) Continuous Output Current: Up to 6 A (typical, PCB dependent) Quiescent Current: Typically < 10 µA Shutdown Current: Typically < 1 µA Enable Threshold Voltage: ~0.9 V (typical) Functional Description The TPS22995RZGR operates as a load switch that connects or disconnects a power supply to a load using an internal MOSFET controlled by an enable (ON) pin. When the ON pin is asserted high, the device turns on with a controlled rise time, limiting inrush current. When disabled, the switch turns off quickly and prevents reverse current flow from the output to the input. Integrated protection features such as thermal shutdown ensure reliability during abnormal operating conditions. Absolute Maximum Ratings Input Voltage (VIN): -0.3 V to 6 V ON Pin Voltage: -0.3 V to 6 V Output Voltage (VOUT): -0.3 V to VIN + 0.3 V Operating Junction Temperature: -40°C to +125°C Storage Temperature: -65°C to +150°C Package Information Package Type: WQFN (RZG) Package Size: 3 mm × 3 mm Mounting Type: Surface Mount Pin Count: 12 Applications Power rail switching Portable electronics USB power distribution Solid-state drives (SSD) Battery-powered systems Embedded systems power management Advantages Minimizes power loss due to low R<sub>ON</sub> Reduces system inrush current Enhances system reliability with built-in protections Suitable for high-current, compact designs #commonpartslibrary #integratedcircuit #powermanagement

    adrian95

    65 Uses

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  • 88615-5005

    88615-5005

    15 Position D-Sub Plug, Male Pins Connector The 88615-5005 is a D-subminiature connector manufactured by 3M, configured as a plug-style connector with male pin contacts. D-subminiature connectors, commonly known as D-Sub connectors, are among the most widely used and longest-standing rectangular connector standards in the electronics industry, recognized by their characteristic trapezoidal metal shell that provides a self-aligning, polarized mating interface and a degree of mechanical shielding for the contacts housed within. This particular connector is built around a defined male pin contact arrangement housed within the standard D-shaped metal shell, which serves to guide correct mating alignment with its corresponding female socket connector counterpart while also helping to reduce the risk of bent or damaged pins during the mating process. As a plug-style device with pin contacts, this connector is typically mounted on a cable assembly, panel, or enclosure and is intended to mate with a female D-Sub receptacle mounted on a printed circuit board, another cable assembly, or an equipment panel, forming a complete signal or low-power interconnect path between two systems or subsystems. D-Sub connectors of this style have long been used across an extremely broad range of applications, including legacy computer peripheral interfaces, industrial control systems, test and measurement equipment, instrumentation racks, and many other applications requiring a rugged, field-serviceable, and widely interoperable multi-pin connection. Their enduring popularity stems from the connector family's mechanical robustness, ease of hand assembly and field termination, broad availability of compatible mating hardware such as backshells and hoods, and long-established presence in legacy and ruggedized electronic system designs across commercial, industrial, and aerospace sectors. 3M's D-Sub connector assemblies in this product family are typically constructed using a metal or metal-plated shell to provide mechanical strength and a degree of electromagnetic shielding, paired with an insulating housing that holds the individual pin contacts in precise alignment. The pin contacts themselves are typically machined or stamped from a conductive alloy and plated to ensure low-resistance, corrosion-resistant electrical contact across the connector's service life. As is typical for connectors in this product class, the device is intended for general-purpose signal and low-power interconnection rather than high-speed digital or high-current power transmission, making it well suited to control signal routing, instrumentation wiring, and other moderate-density interconnect applications. Spec Sheet Identification Part Number: 88615-5005 Connector Family: D-Sub Connector Assemblies Manufacturer: 3M Connector Type / Configuration Type: D-Subminiature connector Gender: Plug, male pin contacts Contact Style: Male pins Shell Style: Standard D-shaped trapezoidal metal shell Mechanical Specifications Mounting Style: Cable-mount or panel-mount plug configuration Mating Interface: Standard D-Sub polarized shell, self-aligning Contact Material: Conductive alloy pin contacts, plated for corrosion resistance and low contact resistance Application Context Typical Use: General-purpose signal and low-power interconnection Common Applications: Industrial control systems, instrumentation, test and measurement equipment, legacy peripheral interfaces, panel and rack wiring Compatibility Mates With: Corresponding D-Sub female socket receptacle connector Accessory Compatibility: Compatible with standard D-Sub backshells, hoods, and jackscrew hardware Environmental & Qualification Construction Class: General-purpose connector construction typical of the D-Sub product family RoHS Compliance: Per 3M product documentation for this series Packaging Supply Format: Standard connector packaging per 3M distribution practices #88615 #3M #DSubConnector #DSubminiature #ConnectorAssembly #MalePinConnector #PlugConnector #SignalConnector #IndustrialConnector #InstrumentationConnector #PanelMount #CableAssembly #RectangularConnector #ElectronicComponents #PCBDesign #HardwareEngineering #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #ConnectorDatasheet

    adrian95

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  • SPM4030T-1R0M

    SPM4030T-1R0M

    TDK SPM4030T-1R0M — shielded wound metal SMD power inductor, 1.0 µH ±20%, 4.6 A typ. Isat, 4.0 × 4.2 × 3.0 mm max. Shielded molded power inductor, 4.0mm × 4.0mm × 3.0mm package, metallic magnetic material construction, low DC resistance (DCR), high current capability and low acoustic noise. Suitable for DC/DC converters, VRM circuits, compact power supplies, servers, HDDs and notebook computers. Operating temperature range -40°C to +125°C including self-heating. Для конкретного компонента на скріншоті: SPM4030T-R40M 0.40µH shielded molded power inductor, 4.0×4.0×3.0mm, ±20% tolerance, 4.7mΩ typ DCR, 13.5A rated current (Itemp), 7.8A saturation current (Isat), magnetic shielded construction for high-current switching regulator applications. Search Keywords: SPM4030T-R40M, SPM4030, power inductor, shielded inductor, molded inductor, 0.4uH inductor, 4x4mm power inductor, DC DC converter inductor, low DCR inductor, high current inductor, VRM inductor, SMD power inductor, magnetic shielded inductor Hashtags: #SPM4030TR40M #SPM4030 #PowerInductor #ShieldedInductor #MoldedInductor #SMDInductor #HighCurrentInductor #LowDCRInductor #DCDCConverter #BuckConverter #SwitchingRegulator #VRMInductor #0404Inductor #04uHInductor #MagneticShielded

    cherepanyadima

    3 Uses

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  • LM51772RHAR

    LM51772RHAR

    Buck-Boost Regulator Positive Output Step-Up/Step-Down I2C DC-DC Controller IC 40-VQFN (6x6) The LM51772RHAR is a high-performance multi-phase bidirectional buck-boost controller designed for power conversion systems requiring efficient energy transfer between two voltage domains. The device supports seamless operation in both step-up and step-down modes and is optimized for battery-powered, automotive, industrial, and energy storage applications. The controller enables bidirectional current flow, making it suitable for battery charging, backup power systems, supercapacitor management, and high-power USB Type-C power delivery applications. The device integrates advanced control architecture for high efficiency across a wide operating range while supporting programmable current regulation, voltage regulation, and protection features. Multi-phase capability allows reduced input and output ripple currents, improved thermal distribution, and higher overall power capability. The controller supports external MOSFETs for scalable power design flexibility and includes comprehensive monitoring and fault management functions. The LM51772RHAR is designed for operation in demanding environments with robust protection features including overvoltage protection, undervoltage lockout, cycle-by-cycle current limiting, thermal shutdown, and fault reporting. Its flexible configuration and high integration level reduce external component count and simplify implementation in high-density power systems. Key Features Bidirectional synchronous buck-boost controller architecture Supports power transfer in both forward and reverse directions Multi-phase operation for increased power capability and reduced ripple Wide input and output voltage operating range High-efficiency synchronous control using external MOSFETs Programmable current and voltage regulation Peak and average current control capability Seamless transition between buck, boost, and buck-boost operating modes Integrated current sensing support Programmable switching frequency synchronization Phase interleaving support for thermal and ripple optimization External clock synchronization capability Soft-start and controlled startup sequencing Comprehensive fault detection and protection functions Overcurrent protection and short-circuit protection Overvoltage and undervoltage protection Thermal shutdown protection Fault status reporting and system monitoring support Designed for automotive and industrial power applications Compact thermally enhanced package Typical Applications Bidirectional battery charging systems Energy storage systems Automotive dual-battery architectures USB Type-C Power Delivery systems Backup power and UPS systems Supercapacitor charging and balancing Industrial DC power conversion Renewable energy power management High-power portable electronics Telecom and server power systems Electrical Characteristics Wide operating supply voltage range High switching frequency operation capability High-current multi-phase scalability Precision current regulation accuracy Low standby power consumption High-efficiency synchronous rectification support Programmable dead-time and switching parameters Stable operation across wide temperature range Package Information Package Type: VQFN Package Suffix: RHA Thermally enhanced exposed pad package Surface-mount implementation Suitable for automated assembly processes #commonpartslibrary #integratedcircuit #powermanagement #buckboost #dcdcswitchingcontrollers

    adrian95

    11 Uses

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  • WSL2512R2500FEA

    WSL2512R2500FEA

    RESISTOR, 2512 0.25 Ohm +/- 1.0 % 1 W Vishay WSL Series Power Metal Strip® resistors are ultra-low-value surface-mount current-sense resistors designed for high-current measurement, voltage division, and pulse-handling applications. Using a solid metal resistive element with welded construction, the WSL series provides resistance values as low as 0.0005Ω, extremely low inductance (typically 0.5nH to 5nH), and low thermal EMF (<3µV/°C) for accurate current sensing. Available in multiple package sizes including 0603, 0805, 1206, 2010, 2512, and 2816, these resistors support power ratings up to 2W and are suitable for automotive, industrial, power supply, battery management, motor control, DC/DC converters, and high-current embedded systems. The series is AEC-Q200 qualified and optimized for precision current measurement in demanding environments. Search Keywords: WSL, Vishay WSL, Power Metal Strip resistor, current sense resistor, shunt resistor, low ohm resistor, ultra low resistance resistor, current measurement resistor, 0.0005 ohm resistor, precision shunt resistor, surface mount shunt resistor, high current resistor, AEC-Q200 resistor, battery current sensing, motor current sensing, DC DC converter resistor, power supply current monitor, low inductance resistor, metal strip resistor, current sensing component Hashtags: #WSL #Vishay #PowerMetalStrip #CurrentSenseResistor #ShuntResistor #CurrentMeasurement #LowOhmResistor #PrecisionResistor #AECQ200 #PowerElectronics #BatteryManagement #MotorControl #DCDCConverter #PowerSupplyDesign #IndustrialElectronics #AutomotiveElectronics #EmbeddedSystems #PCBDesign #ElectronicComponents #HardwareDesign

    cherepanyadima

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  • BSC030N10NS5SCATMA1

    BSC030N10NS5SCATMA1

    N-Channel 100 V 171A (Tc) 188W (Tc) Surface Mount PG-WSON-8-2 The BSC030N10NS5SCATMA1 specification defines the engineering requirements for an N-channel power MOSFET designed for high-efficiency switching and power management applications. This specification establishes the functional, electrical, mechanical, thermal, environmental, and quality requirements necessary to ensure reliable switching performance, low conduction losses, and long-term operational stability in power electronic systems. The device is intended for use in DC-DC converters, synchronous rectification circuits, motor control systems, battery management systems, power distribution modules, and industrial electronic equipment. It provides low on-state resistance, fast switching characteristics, and efficient power handling, making it suitable for high-frequency and high-current applications requiring optimized efficiency and thermal performance. Engineering Requirements The power MOSFET shall be manufactured using advanced semiconductor fabrication processes and qualified materials to ensure consistent electrical characteristics, high switching efficiency, and reliable long-term operation. The device shall maintain stable performance under specified voltage, current, and environmental operating conditions. Electrical characteristics shall provide low on-state resistance, high current-carrying capability, low gate charge, and fast switching performance to minimize conduction and switching losses. The device shall maintain stable operation during repetitive switching cycles, transient load conditions, and dynamic power management applications. Thermal performance shall support efficient heat dissipation through the package structure and printed circuit board interface. The component shall maintain electrical integrity and operational reliability within the specified junction temperature range during continuous and intermittent high-power operation. Mechanical construction shall be suitable for automated surface-mount assembly and compatible with standard solder reflow manufacturing processes. The package shall withstand vibration, thermal cycling, mechanical handling, and environmental exposure without degradation of electrical or mechanical performance. Workmanship shall be free from defects including contamination, cracks, bond failures, package deformation, or structural inconsistencies. Inspection, validation, and testing shall be conducted using calibrated equipment and controlled quality procedures to verify compliance with all applicable engineering and manufacturing requirements. Any deviation from this specification shall require formal engineering evaluation, documented technical justification, and approval through the established engineering change control process. Documentation Supporting documentation shall include engineering drawings, electrical performance specifications, thermal characterization reports, qualification records, inspection reports, material declarations, reliability data, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure complete product traceability. Revision Control Any modification to this specification shall be managed through the formal engineering change management process. All revisions shall undergo technical review, validation, and approval before implementation to ensure continued compliance with design intent and applicable engineering standards. #EngineeringSpecification #PowerMOSFET #NChannelMOSFET #PowerElectronics #PowerManagement #MotorControl #DCDCConverter #Semiconductor #QualityAssurance #EngineeringDocumentation #commonpartslibrary #transistor #mosfet

    adrian95

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  • SRP1265A-330M

    SRP1265A-330M

    33µH Shielded Drum Core, Wirewound Inductor 8 A 58mOhm Max Nonstandard The SRP1265A-330M is a shielded wirewound power inductor from the Bourns SRP1265A series, designed for high-current DC-DC converters, voltage regulator modules, and power supply applications. It features a carbonyl powder core construction that provides high saturation current capability, low electromagnetic interference (EMI), and stable inductance characteristics in compact surface-mount packaging. The device is AEC-Q200 qualified, making it suitable for automotive and industrial environments. Key Features 33 µH inductance Shielded construction for reduced EMI High saturation current capability Carbonyl powder core Low DC resistance Surface-mount package Wirewound drum-core structure AEC-Q200 qualified RoHS compliant and halogen free Operating temperature up to +150 °C Suitable for high-current switching regulators and DC-DC converters Electrical Characteristics Inductance: 33 µH Tolerance: ±20% Current Rating: 8 A Saturation Current (Isat): 11 A DC Resistance (Max): 58 mΩ Self-Resonant Frequency: 5 MHz Typical Applications DC-DC converters Switching power supplies Automotive electronics EMI filtering Industrial power systems LED drivers Battery-powered equipment #CommonPartsLibrary #Inductor #SMD

    adrian95

    4 Uses

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  • RK806-1

    RK806-1

    QFN-68(7x7) Power Management - Specialized ROHS The RK806-1 is a multi-channel PMIC designed to deliver and manage power for modern embedded platforms. It integrates multiple high-efficiency DC-DC buck converters, LDO regulators, and a configurable power sequencing controller in a compact QFN-68 package. It is tightly coupled with Rockchip SoCs and is responsible for generating stable voltage rails for CPU cores, GPU, DDR memory, and peripheral blocks. ⭐ Key Features ⚡ 1. High-Integration Power Architecture Multiple synchronous buck converters (high-current rails for CPU/GPU) Several LDO regulators for low-noise analog and IO domains Supports dynamic voltage scaling (DVS) for performance optimization 🔌 2. Wide Output Capability Output voltage range: ~0.5 V to 3.4 V per channel Designed for modern low-voltage SoC power domains Supports both high-current and low-noise power rails 🧠 3. Programmable Power Sequencing OTP / register-configurable power-up & power-down sequence Ensures safe startup for multi-rail SoCs Supports synchronized sequencing with multiple PMICs 📡 4. Digital Control Interface I²C and SPI interface for configuration and control Real-time voltage adjustment per processor demand Register-based control for power modes and telemetry 🛡️ 5. Protection & Reliability Features Over-voltage protection (OVP) Over-current protection (OCP) Thermal shutdown protection Soft-start for inrush current control ⚙️ 6. Efficiency & Performance Optimizations High-frequency switching (~MHz range) for smaller external components Fast transient response for CPU load changes Low standby current for power-sensitive designs 📦 7. Package & Integration QFN-68 (7×7 mm) compact package High thermal efficiency for dense PCB layouts Minimal external components required 📌 Typical Applications Single-board computers (SBCs) AI edge computing devices Tablets and industrial embedded systems Consumer electronics using Rockchip SoCs (e.g., RK3588 platforms) #commonpartslibrary #integratedcircuit #powermanagement

    adrian95

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    jharwinbarrozo

    32 Uses

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  • DRV8262QDDWRQ1

    DRV8262QDDWRQ1

    Bipolar Motor Driver NMOS On/Off, PWM 44-HTSSOP The DRV8262QDDWRQ1 is an automotive-qualified, high-power H-bridge motor driver from Texas Instruments designed for 24 V and 48 V automotive systems. It integrates two H-bridges capable of driving one or two brushed DC motors, a bipolar stepper motor, or thermoelectric coolers (TECs). The device features integrated high-side current sensing, programmable current regulation, and comprehensive protection functions, eliminating the need for external current-sense resistors while reducing PCB area and system cost. It supports wide supply voltages from 4.5 V to 60 V, making it suitable for demanding automotive body electronics and industrial motor control applications. Key Features Automotive AEC-Q100 Grade 1 qualified (-40°C to +125°C) Wide 4.5 V to 60 V operating supply voltage Dual H-bridge or single high-current H-bridge operation Drives: One or two brushed DC motors One bipolar stepper motor One or two thermoelectric coolers (TECs) Up to 8 A peak (dual H-bridge mode) Up to 16 A peak (single H-bridge mode) Low MOSFET on-resistance: 100 mΩ (dual H-bridge) 50 mΩ (single H-bridge) Integrated high-side current sensing with ±4% accuracy Programmable current regulation and current limiting Supports 1.8 V, 3.3 V, and 5 V logic interfaces Configurable PWM control modes (PH/EN or IN/IN) Ultra-low 3 µA sleep current Integrated protection features: Undervoltage Lockout (UVLO) Charge Pump Undervoltage (CPUV) Overcurrent Protection (OCP) Thermal Shutdown (OTSD) Fault output (nFAULT) Functional safety-capable with supporting documentation for automotive system design. #DRV8262QDDWRQ1 #MotorDriver #HBridge #AutomotiveElectronics #BrushedDCMotor #StepperMotor #CurrentSense #AECQ100 #TexasInstruments #EmbeddedSystems #PowerManagement #PCBDesign

    adrian95

    24 Uses

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  • STP75NF68

    STP75NF68

    N-Channel 68 V 80A (Tc) 190W (Tc) Through Hole TO-220 # STP75NF68 ## General Description The STP75NF68 is a high-performance N-channel power MOSFET manufactured by STMicroelectronics and designed for efficient power switching and power management applications. Utilizing advanced STripFET™ power MOSFET technology, the device offers low on-state resistance, high current-handling capability, and excellent switching performance. Its rugged construction and optimized electrical characteristics make it suitable for industrial automation systems, motor control applications, power supplies, battery-powered equipment, DC-DC converters, automotive-support systems, and general-purpose power electronics. The device is engineered to provide high efficiency, reduced power losses, and reliable operation in demanding switching environments. ## Key Features ### Power MOSFET Architecture * N-channel enhancement-mode MOSFET * Advanced STripFET™ technology * Low on-state resistance * High-current switching capability * Optimized power conversion efficiency * Fast switching performance ### Electrical Characteristics * Low conduction losses * High-current carrying capability * Low gate drive requirements * Stable switching operation * Efficient energy transfer performance * Suitable for high-power electronic systems ### Switching Performance * Fast turn-on characteristics * Fast turn-off characteristics * Reduced switching losses * High-frequency operation support * Reliable dynamic performance * Enhanced power management capability ### Thermal Characteristics * High power dissipation capability * Efficient thermal transfer performance * Suitable for heatsink integration * Reliable operation under continuous load conditions * Stable thermal behavior in demanding applications ### Protection and Reliability * Avalanche-rated performance * Rugged semiconductor construction * High reliability under transient conditions * Long operational service life * Enhanced electrical robustness ### Package Characteristics * Through-hole power package * Industry-standard footprint * Easy integration into power electronic assemblies * Suitable for industrial and commercial applications * Compatible with automated and manual assembly processes ### Material Construction * Advanced silicon power MOSFET technology * High-reliability semiconductor materials * RoHS-compliant construction * Lead-free compatible package * Industrial-grade manufacturing quality ### Environmental Characteristics * Suitable for industrial operating environments * Reliable performance under continuous operation * Resistant to electrical and thermal stress * Long-term operational stability ### Application Areas * Motor Control Systems * Switching Power Supplies * DC-DC Converters * Battery Management Systems * Industrial Automation Equipment * Power Distribution Systems * Renewable Energy Equipment * Inverter Applications * Embedded Power Electronics * Automotive Electronic Systems * Uninterruptible Power Supplies * General Power Switching Circuits ### Compliance * RoHS Compliant * Lead-Free Compatible * Industrial-Grade Power Semiconductor Solution ## Manufacturer STMicroelectronics ## Product Family STripFET™ N-Channel Power MOSFET Series #STP75NF68 #STMicroelectronics #PowerMOSFET #NChannelMOSFET #STripFET #PowerElectronics #MotorControl #SwitchingPowerSupply #DCDCConverter #BatteryManagement #IndustrialElectronics #PowerManagement #EmbeddedSystems #ElectronicsEngineering #PowerSemiconductor

    adrian95

    0 Uses

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  • 7447798720

    7447798720

    7.2 µH Shielded Drum Core, Wirewound Inductor 7.9 A 12.8mOhm Max Nonstandard # 7447798720 ## General Description The 7447798720 is a high-performance power inductor manufactured by Würth Elektronik as part of the WE-MAPI series. It is designed for energy storage, filtering, and power conversion applications in modern switching power supplies and DC-DC converter circuits. The component features a magnetically shielded construction that minimizes electromagnetic interference while maintaining excellent current handling capability and low power losses. Its compact surface-mount design and robust mechanical structure make it suitable for industrial automation equipment, telecommunications systems, embedded electronics, automotive-support applications, consumer devices, and high-efficiency power management systems. The inductor is optimized for use in applications requiring stable inductance, low DC resistance, and reliable performance under varying load conditions. ## Key Features ### Magnetic Characteristics * Magnetically shielded construction * Stable inductance performance * High-current handling capability * Low magnetic flux leakage * Optimized energy storage capability * Suitable for high-frequency switching applications ### Electrical Characteristics * Low DC resistance * High efficiency operation * Low core losses * Stable electrical performance * Excellent current saturation behavior * Reliable operation in power conversion circuits ### Mechanical Characteristics * Surface-mount package * Compact footprint * Robust mechanical construction * Automated assembly compatible * High-density PCB design support ### Material Construction * Metal alloy core technology * Shielded magnetic structure * High-temperature materials * RoHS-compliant construction * Lead-free compatible design ### Thermal Characteristics * Efficient heat dissipation * Stable operation under continuous load * Suitable for demanding power applications * Reliable performance across industrial operating conditions ### Environmental Characteristics * Industrial-grade reliability * Long operational service life * Resistance to mechanical stress * Suitable for harsh electronic operating environments ### Application Areas * DC-DC Converters * Switching Power Supplies * Point-of-Load Regulators * Industrial Automation Equipment * Telecommunications Systems * Embedded Electronics * Power Distribution Modules * Consumer Electronics * Energy Management Systems * Battery-Powered Devices * Motor Control Systems * Power Filtering Applications ### Compliance * RoHS Compliant * Lead-Free Compatible * Industrial-Grade Power Inductor Solution ## Manufacturer Würth Elektronik ## Product Family WE-MAPI Molded Power Inductor Series #7447798720 #WurthElektronik #WEMAPI #PowerInductor #ShieldedInductor #SMDInductor #PowerElectronics #DCDCConverter #SwitchingPowerSupply #EmbeddedSystems #IndustrialElectronics #PowerManagement #PCBDesign #ElectronicsEngineering #EnergyStorage

    adrian95

    0 Uses

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  • XT60PW-F

    XT60PW-F

    XT60PW-F is a high-current power connector designed for reliable electrical interconnection in demanding power delivery applications. Manufactured with gold-plated conductive contacts and a high-temperature resistant housing, this connector provides low contact resistance, strong mechanical retention, and stable current handling performance for high-power electronic systems. The connector is widely used in battery-powered equipment, power distribution systems, robotics, unmanned vehicles, industrial electronics, RC platforms, and portable energy storage applications. Its polarized housing structure helps prevent reverse polarity connection while ensuring secure mating and consistent electrical contact during repeated connection cycles. The XT60PW-F is optimized for PCB mounting and supports high-current power transfer with excellent thermal and vibration resistance. Its durable construction and compact form factor make it suitable for embedded power systems requiring dependable and efficient power interconnection in compact electronic designs. #commonpartslibrary #powerconnector #connector #highcurrent #powermanagement #embeddedhardware #batteryconnector #robotics #electronicscomponents #pcbdesign

    lcsc

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    adrian95
    jharwinbarrozo

    78 Uses

    1 Comment

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