• 1714971

    1714971

    2 Position Wire to Board Terminal Block Horizontal with Board 0.375" (9.53mm) Through Hole # 1714971 ## General Description The 1714971 is a high-current printed circuit board terminal block manufactured by Phoenix Contact and designed for secure power and signal connections in industrial and commercial electronic equipment. The component utilizes a screw-clamp termination mechanism that provides reliable wire retention, low contact resistance, and long-term electrical stability. Its robust construction and through-hole mounting design make it suitable for applications requiring dependable field wiring, high-current handling capability, and resistance to mechanical stress. The terminal block is commonly used in power supplies, industrial automation systems, motor controllers, battery management systems, energy distribution equipment, instrumentation, and other applications requiring secure PCB-mounted power connections. ## Key Features ### Mechanical Characteristics * Through-hole PCB mounting * Screw-clamp wire termination * Side-entry wire connection * High-strength housing construction * Secure field-wire installation * Designed for repeated maintenance and servicing operations ### Electrical Characteristics * High-current carrying capability * Low contact resistance * Reliable electrical conductivity * Stable performance under demanding operating conditions * Suitable for power distribution and control applications ### Contact System * Corrosion-resistant conductive contacts * Screw-actuated clamping mechanism * Secure conductor retention * Reliable electrical connection during vibration and mechanical stress ### Material Construction * Industrial-grade thermoplastic housing * High-conductivity metal contacts * Flame-resistant insulation materials * RoHS-compliant construction ### Environmental Characteristics * Suitable for industrial environments * Resistant to mechanical wear * Durable under continuous operation * Designed for long service life ### Application Areas * Industrial Automation Equipment * Power Supply Systems * Motor Control Circuits * Battery Management Systems * Renewable Energy Equipment * Electrical Distribution Panels * Instrumentation Systems * Process Control Equipment * Embedded Power Electronics * Industrial Control Systems ### Compliance * RoHS Compliant * Lead-Free Compatible * Industrial-Grade PCB Interconnect Solution ## Manufacturer Phoenix Contact ## Product Family COMBICON PCB Terminal Blocks #PhoenixContact #1714971 #COMBICON #TerminalBlock #PCBTerminalBlock #ScrewTerminal #PowerConnector #IndustrialElectronics #PowerDistribution #IndustrialAutomation #EmbeddedSystems #ControlSystems #ElectronicsDesign #PCBAssembly #ElectricalEngineering

    adrian95

    a month ago

    2 Uses

    0 Stars


  • SQ4435EY-T1_GE3

    SQ4435EY-T1_GE3

    P-Channel 30V 15A (Tc) 6.8W (Tc) Surface Mount 8-SOIC The SQ4435EY-T1_GE3 is an automotive-grade P-Channel enhancement-mode TrenchFET® power MOSFET from Vishay Siliconix. It is designed for efficient high-side load switching and power management applications, offering low on-resistance, fast switching performance, and excellent thermal reliability. Qualified to AEC-Q101, this MOSFET is suitable for demanding automotive and industrial environments. It is housed in a compact SO-8 surface-mount package, making it ideal for space-constrained designs. Key Features P-Channel enhancement-mode TrenchFET® MOSFET 30 V drain-to-source voltage (VDS) 15 A continuous drain current (TC = 25°C) Low RDS(on): 18 mΩ max @ VGS = -10 V 31 mΩ max @ VGS = -4.5 V AEC-Q101 qualified for automotive applications Operating junction temperature: -55°C to +175°C Low conduction losses for improved power efficiency Fast switching characteristics 100% Rg and UIS tested RoHS compliant and halogen-free Compact SO-8 surface-mount package Typical Applications Automotive high-side load switches Battery management systems (BMS) DC-DC converters Power distribution switches Motor control circuits Industrial power management Reverse battery protection #Vishay #SQ4435EY #PChannelMOSFET #TrenchFET #PowerMOSFET #Automotive #AECQ101 #HighSideSwitch #PowerManagement #DCDC #BatteryManagement #SO8 #IndustrialElectronics #LowRDSon #SurfaceMount

    15 days ago

    1 Use

    0 Stars


  • 1998865

    1998865

    PCV 6-16/ 2-G1F-10,16 2 Position Terminal Block Header, Male Pins, Shrouded (4 Side) 0.400" (10.16mm) Vertical Through Hole The Phoenix Contact 1998865 is a 2-pole, green PCB header with a threaded flange mounting design, intended for secure mechanical fastening and reliable electrical connection. It supports large conductor cross-sections up to 16 mm² and provides high current capability, making it suitable for power distribution, industrial equipment, and control panels. Key Features Manufacturer: Phoenix Contact Series: COMBICON PCV / PC 6-16 series Connector Type: PCB Terminal Block Header (Male Pin, Shrouded) Number of Positions: 2 positions Pitch: 10.16 mm (0.400") Mounting Type: Through-hole PCB mounting Termination: Solder / Wave soldering Orientation: Vertical / Straight PCB header Rated Current: Up to 76 A (IEC) Rated Voltage: Up to 1000 V (IEC) Contact Material/Finish: Silver-plated contact surface Housing Material: Polyamide (PA/Nylon), UL94 V-0 flammability rating Mechanical Feature: Threaded flange for improved PCB mounting stability Applications: Industrial power supplies, motor control, automation systems, and high-current PCB interconnections #CommonPartsLibrary #Connector #PhoenixContact #1998865 #PCV616 #COMBICON #PCBTerminalBlock #TerminalBlockHeader #WireToBoardConnector #HighCurrentConnector #PowerConnector #ThroughHoleConnector #IndustrialElectronics #PCBAssembly #ElectricalInterconnects

    18 days ago

    1 Use

    0 Stars


  • DAC8165IBPW

    DAC8165IBPW

    14 Bit Digital to Analog Converter 4 16-TSSOP The DAC8165IBPW is a quad-channel, precision digital-to-analog converter designed for high-accuracy industrial and instrumentation applications. Manufactured by Texas Instruments, this device integrates four independent voltage-output DAC channels with buffered outputs and a high-resolution serial interface. The component is optimized for systems requiring precise analog signal generation, low noise performance, and stable long-term operation. The device supports a serial peripheral interface compatible with standard SPI communication and allows simultaneous or individual channel updates. Internal precision reference buffering, low offset error, and monotonic output behavior make the DAC8165IBPW suitable for closed-loop control systems, programmable power supplies, automated test equipment, process control, and data acquisition platforms. The DAC operates from a single analog supply and provides rail-to-rail output capability with excellent linearity and low glitch energy. Integrated power-on reset circuitry ensures deterministic startup behavior, while low power consumption enables use in embedded and portable applications. Key Features Quad-channel voltage-output digital-to-analog converter High-resolution precision DAC architecture Buffered voltage outputs with monotonic performance SPI-compatible serial communication interface Low integral and differential nonlinearity Low offset and gain error characteristics Simultaneous update capability for synchronized outputs Internal power-on reset functionality Industrial operating temperature support Low power consumption design Electrical Characteristics Single-supply operation Precision voltage output architecture Fast settling time for dynamic signal applications Low output noise and glitch impulse High DC accuracy and long-term stability Buffered outputs capable of direct system interfacing Package Information Package type: TSSOP Surface-mount configuration Compact footprint suitable for dense PCB layouts Typical Applications Industrial automation Process control systems Programmable logic controllers Data acquisition systems Automated test equipment Precision instrumentation Medical instrumentation Signal generation and calibration systems #commonpartslibrary #integratedcircuit #analog #digital #converter

    2 months ago

    1 Use

    0 Stars


  • TPS16851VMAR

    TPS16851VMAR

    Hot Swap Controller 1 Channel General Purpose 23-LQFN-CLIP (6x5) The TPS16851VMAR is an automotive-grade integrated electronic fuse device designed to provide advanced power path protection and monitoring for low-voltage DC power distribution systems. The device integrates multiple protection mechanisms including overvoltage protection, undervoltage protection, overcurrent protection, reverse current blocking, and inrush current control within a compact package optimized for space-constrained applications. It is intended for use in automotive, industrial, and embedded electronic systems requiring robust hot-swap capability, fault isolation, and controlled power sequencing. The device incorporates precision current sensing and programmable fault management functions that enable reliable protection of downstream circuitry against abnormal operating conditions. Adjustable protection thresholds and timing parameters allow flexible system-level configuration while maintaining fast fault response and high reliability. Integrated MOSFET control minimizes external component count and simplifies PCB implementation. The TPS16851VMAR supports wide input operating ranges suitable for automotive battery-powered environments and transient-prone supply rails. The device is qualified for harsh operating conditions and includes thermal shutdown and fault reporting features to improve system safety and diagnostics. Engineering Specification Device Type Automotive electronic fuse with integrated protection and power management functionality Manufacturer Texas Instruments Package Type VQFN-HR surface-mount package Mounting Type Surface mount Application Category Automotive power distribution and protection Protection Features Overvoltage protection Undervoltage protection Overcurrent protection Short-circuit protection Reverse current blocking Thermal shutdown Inrush current limiting Control Features Programmable fault thresholds Adjustable current limit Programmable timing and retry behavior Enable and shutdown control Fault indication and monitoring Power Management Features Integrated MOSFET control Hot-swap capability Controlled startup sequencing Load disconnect functionality Interface Characteristics Analog control interface Diagnostic fault reporting Current sense monitoring Operating Environment Automotive-qualified operating conditions High transient immunity Designed for harsh electrical environments PCB Integration Compact footprint Thermally enhanced package Low external component requirement Typical Applications Automotive electronic control units Infotainment systems ADAS power distribution Industrial control systems Embedded power management Protected DC supply rails #commonpartslibrary #integratedcircuit #powermanagement #hotswapcontrollers

    2 months ago

    0 Uses

    0 Stars


  • XL1509-5.0E1

    XL1509-5.0E1

    2A 150KHz 40V Buck DC to DC Converter The XL1509-5.0E1 is a fixed frequency PWM buck step-down DC-DC converter capable of driving a load with high efficiency, low ripple, and excellent line and load regulation. It is manufactured by XLSEMI and belongs to the XL1509 product family, a series of fixed-output and adjustable-output step-down switching regulator ICs designed to simplify the design of compact, efficient DC power conversion stages in a wide range of embedded, industrial, and consumer electronics applications. The "5.0" designation in the part number specifies that this variant produces a fixed regulated output voltage of five volts, making it directly suited to powering five-volt logic, microcontrollers, sensors, communication modules, and other standard digital subsystems from higher-voltage DC rails without requiring a linear regulator and its inherent power dissipation penalty. Unikeyic Electronics The XL1509 requires a minimum number of external components, making it simple to use, and includes internal frequency compensation and a fixed-frequency oscillator. The PWM control circuit is able to adjust the duty ratio linearly from zero to one hundred percent. This internal compensation architecture removes the burden of control loop design from the system engineer, which is a common point of complexity in discrete buck converter designs, and allows the device to be implemented with a straightforward application circuit consisting of an input capacitor, an output inductor, a freewheeling Schottky diode, and an output capacitor, without requiring additional feedback network components in the fixed-output version. Unikeyic Electronics The device operates across a wide input voltage range, accepting input rails ranging from just above the output voltage all the way up to the high end of the input range, making it compatible with a variety of common source voltages including twelve-volt, twenty-four-volt, and other industrial bus rails frequently encountered in embedded and industrial power system designs. This wide input range also makes it suitable for battery-powered applications where the supply voltage varies considerably across the battery discharge cycle, as the converter maintains a regulated output throughout the input voltage window. The fixed switching frequency is set internally at a value that represents a practical tradeoff between external component size and switching loss, allowing the use of standard commodity inductors and electrolytic or ceramic output capacitors without requiring unusually large or small values. An enable function and an overcurrent protection function are built inside. When a secondary current limit condition occurs, the operating frequency is reduced to a lower switching frequency, which limits the energy delivered per cycle and prevents damage to the power switch and external components during sustained overload events. This dual-level current protection approach provides both instantaneous peak current limiting and sustained overload protection, improving the robustness of designs built around the device in applications where load transients or fault conditions may cause temporary overcurrent conditions. Unikeyic Electronics The device is housed in a standard eight-pin small-outline integrated circuit surface-mount package, making it compatible with automated pick-and-place and reflow soldering assembly processes and suitable for compact power supply layouts on densely populated PCBs. Spec Sheet Identification Part Number: XL1509-5.0E1 Device Family: XL1509 Buck DC-DC Converter Series Manufacturer: XLSEMI Part Number Decode XL1509: Base device family 5.0: Fixed output voltage — five volts E1: Tape-and-reel packaging variant Functional Classification Device Type: Fixed-frequency PWM step-down buck DC-DC converter IC Topology: Non-synchronous buck converter with internal power switch Output Configuration: Single output, fixed voltage Regulation Method: Fixed-frequency PWM with internal compensation Electrical Characteristics Input Voltage Range: Wide input range, compatible with common industrial and consumer DC bus voltages Output Voltage: Fixed regulated output at five volts Output Current: Continuous rated current class suitable for moderate embedded system loads Switching Frequency: Fixed internal oscillator, mid-frequency class Duty Cycle Range: Adjustable from zero to maximum, internally controlled Minimum Dropout Voltage: Low dropout class Output Ripple: Low ripple characteristic with appropriate external filter components Control & Protection Features Enable Function: Built-in enable control input for power sequencing and shutdown Overcurrent Protection: Integrated primary current limit with frequency fold-back secondary protection Internal Compensation: Built-in frequency compensation, no external compensation network required Feedback: Internal reference for fixed output voltage regulation External Components Required Input Capacitor: Required for input decoupling Output Inductor: Required, standard commodity value Freewheeling Diode: External Schottky diode required Output Capacitor: Required for output filtering Environmental & Qualification Operating Temperature Range: Industrial range, below zero to elevated ambient RoHS Compliance: Yes, Halogen-Free Package Package Type: SOIC-8 (SOP-8) Mounting Method: Surface mount technology (SMT) Packaging Format Supply Format: Tape-and-reel Reel Quantity: Standard production reel quantity Available Variants in XL1509 Family XL1509-3.3E1: Fixed output at regulated lower voltage XL1509-5.0E1: Fixed output at five volts (this device) XL1509-12E1: Fixed output at twelve volts XL1509-ADJE1: Adjustable output version #XL1509 #XL15095 #XLSEMI #BuckConverter #StepDownConverter #DCDCConverter #PWMConverter #SwitchingRegulator #PowerManagement #EmbeddedPower #FixedOutputConverter #FiveVoltRegulator #IndustrialPower #SOIC8 #SurfaceMount #LowRipple #HighEfficiency #SemiconductorIC #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant #PCBDesign

    21 days ago

    3 Uses

    0 Stars


  • BT151-600R

    BT151-600R

    The BT151-600R specification defines the engineering requirements for a high-power silicon controlled rectifier designed for phase control and switching applications in electronic power systems. This specification establishes the functional, electrical, mechanical, environmental, and quality requirements necessary to ensure reliable switching performance, controlled power regulation, and long-term operational stability. The device is intended for use in applications requiring efficient control of AC power or high-current DC switching, such as motor speed control, light dimming, power regulation circuits, and industrial control systems. It provides controlled conduction behavior triggered by gate activation and remains in conduction until current falls below the holding condition. Engineering Requirements The semiconductor device shall be manufactured using controlled silicon processing techniques to ensure stable thyristor operation, consistent triggering characteristics, and reliable current handling capability. The device shall maintain predictable switching behavior under defined electrical, thermal, and environmental operating conditions. Electrical characteristics shall ensure reliable gate triggering sensitivity, stable on-state conduction, and controlled turn-off behavior under appropriate circuit conditions. The device shall maintain performance integrity under surge conditions and repetitive switching operation within its design limits. Thermal performance shall support efficient heat dissipation through the package structure and mounting interface. The device shall be suitable for attachment to appropriate heat sinking systems to maintain safe operating junction conditions during continuous or high-load operation. Mechanical and package construction shall be suitable for surface-mount or power PCB assembly and shall ensure robust mechanical stability during soldering, handling, and thermal cycling. Workmanship shall be free from defects such as contamination, cracks, bond wire issues, or structural inconsistencies that could impact performance or reliability. Inspection, validation, and testing shall be performed using controlled procedures and calibrated equipment to ensure compliance with all applicable engineering and quality requirements. Any deviation from this specification shall require formal engineering review, documented justification, and approval through established change control processes. Documentation Supporting documentation shall include official datasheets, electrical characterization reports, thermal performance data, qualification test records, inspection reports, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure traceability and consistency. Revision Control Any modification to this specification shall be managed through formal engineering change control procedures. All revisions shall undergo technical review, validation, and approval prior to implementation to ensure continued compliance with design intent and applicable standards. #EngineeringSpecification #SCR #Thyristor #PowerElectronics #PhaseControl #IndustrialControl #Semiconductor #PowerSwitching #QualityAssurance #EngineeringDocumentation

    18 days ago

    1 Use

    0 Stars


  • AL8866QSP-13

    AL8866QSP-13

    LED Driver IC 1 Output DC DC Controller SEPIC, Step-Down (Buck), Step-Up (Boost) Analog, PWM Dimming 8-SO-EP # AL8866QSP-13 Engineering Specifications **General Description** The AL8866QSP-13 is an automotive-qualified, multi-topology DC-switching LED controller manufactured by Diodes Incorporated. It is designed to control an external power MOSFET for high-power automotive LED lighting systems. The device supports buck, boost, buck-boost and single-ended primary-inductance converter configurations. Its wide input-voltage range makes it suitable for automotive power systems and various high-voltage LED applications. The controller uses fixed-frequency peak current-mode regulation with spread-spectrum frequency modulation to reduce electromagnetic interference. It supports both analog and pulse-width-modulation dimming through the DIM input. An integrated programmable soft-start function gradually increases the inductor and switching currents during startup to reduce output-voltage and current stress. The open-drain fault output provides system-level fault reporting for abnormal operating conditions. **Engineering Specifications** **Manufacturer:** Diodes Incorporated **Manufacturer Part Number:** AL8866QSP-13 **Component Type:** Automotive LED driver controller **Converter Topologies:** Buck, boost, buck-boost and SEPIC **Control Architecture:** Fixed-frequency peak current-mode control **External Switching Device:** External power MOSFET **Minimum Input Voltage:** Four point seven volts **Maximum Input Voltage:** Eighty-five volts **Maximum Output Voltage:** Eighty-five volts **Switching Frequency:** Four hundred kilohertz **Frequency Modulation:** Spread-spectrum modulation for reduced electromagnetic interference **LED Current Control:** External current-sense resistor and external MOSFET configuration **Feedback Voltage:** Two hundred millivolts **Typical Quiescent Current:** One point eight milliamperes **Typical Efficiency:** Up to approximately ninety-three percent, depending on the application circuit and external components **Dimming Methods:** Analog dimming and pulse-width-modulation dimming **Analog Dimming Range:** One percent to one hundred percent **Analog Dimming Dynamic Range:** Greater than one hundred to one **Pulse-Width-Modulation Dimming Ratio:** One hundred to one at a two-hundred-hertz dimming frequency **Pulse-Width-Modulation Frequency Range:** Approximately one hundred hertz to one kilohertz **Full-Brightness Current Accuracy:** Approximately plus or minus three percent **Low-Level Dimming Current Accuracy:** Approximately plus or minus twelve percent at twenty-percent dimming **Soft-Start Function:** Externally programmable **Fault Output:** Active-low open-drain fault indicator **Protection Features:** Output overvoltage protection, LED open-circuit protection, output undervoltage protection, LED short-circuit protection, cycle-by-cycle overcurrent limitation, current-sense resistor short-circuit protection, inductor and diode short-circuit detection, diode open-circuit protection and thermal shutdown **Automotive Qualification:** AEC-Q100 Grade One qualified **Automotive Documentation:** PPAP capable **Manufacturing Standard:** Manufactured in IATF-certified automotive facilities **Operating Temperature Range:** Minus forty degrees Celsius to positive one hundred twenty-five degrees Celsius **Package Type:** Thermally enhanced SO-8 exposed-pad package **Pin Count:** Eight leads with exposed thermal ground pad **Mounting Style:** Surface mount **Packing Method:** Thirteen-inch tape and reel **Standard Packing Quantity:** Two thousand five hundred components per reel **Moisture Sensitivity:** Level One **Terminal Finish:** Matte-tin-plated leads **Environmental Compliance:** Lead-free, RoHS compliant, halogen-free and antimony-free **Typical Applications** Automotive high-beam and low-beam lighting Automotive daytime running lights Automotive fog lights Automotive turn-signal lights Automotive position lights Automotive brake and stop lights High-power exterior LED lighting Multi-topology automotive LED driver modules #AL8866QSP13 #AL8866Q #DiodesIncorporated #LEDDriver #AutomotiveLED #AutomotiveElectronics #BuckConverter #BoostConverter #BuckBoostConverter #SEPICConverter #PowerElectronics #LEDLighting #ElectronicComponents #EngineeringSpecifications

    a month ago

    2 Uses

    0 Stars


  • 7466004R

    7466004R

    1 Pin Screw Terminal, Power Tap M4 Surface Mount The 7466004R specification defines the engineering requirements for an electronic component intended for use in control, signal, or power management systems within industrial and embedded electronic applications. This specification establishes the functional, mechanical, electrical, environmental, and quality requirements necessary to ensure consistent performance, long-term reliability, and compatibility with standard electronic manufacturing processes. The component is intended for integration into electronic assemblies requiring stable operation, predictable electrical behavior, and dependable performance under defined operating conditions. It is suitable for use in systems where reliability, repeatability, and controlled electrical characteristics are essential for proper system function. Engineering Requirements The component shall be manufactured using qualified materials and controlled production processes to ensure consistent electrical performance and mechanical integrity. Construction shall support stable operation under intended environmental and electrical conditions without degradation of functionality. Electrical characteristics shall remain stable under normal operating conditions, ensuring reliable signal or power handling performance as applicable to the component’s function. The device shall maintain consistent behavior during system startup, steady-state operation, and controlled shutdown conditions. Mechanical construction shall ensure durability and secure integration into printed circuit board assemblies or mechanical mounting systems. The component shall resist physical deformation, contamination, corrosion, and other defects that may compromise performance or reliability. Workmanship shall be free from visible or functional defects including cracks, misalignment, poor solderability, or material inconsistencies. Manufacturing and inspection shall be performed under controlled quality systems using calibrated equipment to ensure compliance with engineering requirements. Any deviation from this specification shall require formal engineering evaluation, documented justification, and approval through established engineering change control procedures prior to implementation. Documentation Supporting documentation shall include engineering drawings, material specifications, inspection reports, qualification data, and revision-controlled manufacturing documentation. All records shall be maintained under formal configuration management and quality assurance systems to ensure traceability and consistency. Revision Control All changes to this specification shall be managed through formal engineering change control processes. Each revision shall undergo technical review, validation, and approval prior to release to ensure continued compliance with design intent and applicable standards. #EngineeringSpecification #ElectronicComponents #IndustrialElectronics #EmbeddedSystems #Manufacturing #QualityAssurance #EngineeringDesign #ProductReliability #EngineeringDocumentation #Compliance

    18 days ago

    0 Uses

    0 Stars


  • VE-J51-CW

    VE-J51-CW

    Isolated Module DC DC Converter 1 Output 12V 8.33A 100V - 200V Input The VE-J51-CW is an isolated DC-DC converter module from Vicor’s VE-J00 series, designed to convert a high DC input voltage into a regulated lower DC output for electronic systems. It is commonly used in industrial equipment, telecommunications, and embedded power systems where stable, isolated power conversion is required. Key Features Isolated DC-DC Converter Module Provides galvanic isolation between input and output for safety and noise reduction Input Voltage Range 100V to 200V DC input (nominal ~150V) Output Voltage 12V DC regulated output Power Rating Up to 100W output power High Efficiency Around ~90% efficiency depending on load conditions Isolation Voltage Up to 3kV isolation for high-voltage separation Form Factor Half-brick package Compact size: approx. 57.9 × 61 × 12.7 mm Output Capability Up to 8.33A output current (at 12V) Protection & Control Features Overcurrent protection (OCP) Short-circuit protection (SCP) Remote sense Logic disable / control functions Wide Operating Temperature Range Typically -25°C to +100°C Industrial Certifications UL, CSA, TUV compliant (varies by variant) Typical Applications Industrial automation systems Telecom and networking equipment Distributed power architectures High-voltage input DC power conversion systems Embedded power supplies in control systems #CommonPartsLibrary #Power-supply #VE-J00™ (100W)

    2 months ago

    0 Uses

    0 Stars


  • 4DB-P108-05

    4DB-P108-05

    5 Position Barrier Strip, Dual Barrier, Printed Circuit Pin Bottom Termination, Wire-to-Board, 8.26 mm [.325 in] Centerline, Buchanan 4DB Series Connectivity 4DB-P108-05 PCB terminal block, through-hole screw terminal connector, 0.325in (8.26mm) pitch, 12–22AWG wire range, captive nickel-plated brass screw, matte tin plated terminals, up to 20A current rating and 300V voltage rating (depending on variant), suitable for power distribution, industrial control, instrumentation, and field wiring connections. Search Keywords: 4DB-P108 terminal block, barrier terminal block, screw terminal block, PCB terminal block, through hole terminal block, captive screw connector, 8.26mm pitch terminal block, 20A terminal block, 300V terminal block, wire to board terminal, industrial terminal block, power terminal connector Hashtags: #4DBP108 #TerminalBlock #ScrewTerminal #PCBTerminalBlock #BarrierTerminalBlock #ThroughHoleConnector #WireToBoard #PowerConnector #IndustrialConnector #CaptiveScrewTerminal #20ATerminalBlock #300VTerminalBlock #FieldWiringConnector #BoardConnector

    a month ago

    8 Uses

    0 Stars


  • MP1584EN

    MP1584EN

    MPS MP1584 high-frequency step-down buck converter, 3A output current, 4.5V to 28V input voltage range, integrated high-side power MOSFET, current-mode control, programmable switching frequency from 100kHz to 1.5MHz, high-efficiency pulse-skipping mode for light loads, ceramic capacitor stable, internal soft-start, internal current limit, fault protection and thermal shutdown, available in SOIC-8E package, suitable for automotive, industrial, distributed power and battery-powered systems. MP1584, MPS MP1584, Monolithic Power MP1584, MP1584 buck converter, MP1584 step down converter, 3A buck converter, 28V buck converter, 1.5MHz buck converter, SOIC-8E buck converter, adjustable DC DC converter, high efficiency buck regulator, MP1584EN, MP1584 datasheet #MP1584 #MPSMP1584 #MonolithicPower #BuckConverter #StepDownConverter #DCDCConverter #3ABuckConverter #28VConverter #15MHzConverter #SOIC8E #PowerManagementIC #SwitchingRegulator

    22 days ago

    10 Uses

    0 Stars


  • TPS259530DSGR

    TPS259530DSGR

    Electronic Fuse Regulator 4A 8-WSON (2x2) The TPS259530DSGR is a compact, integrated eFuse protection device designed to provide robust power-path management for low-voltage DC systems, particularly nominal five-volt rails. It combines multiple protection and control features into a single solution, enabling safe distribution of power to downstream circuitry while minimizing the need for external components. The device supports controlled inrush current during startup, continuous current monitoring, and rapid fault response to protect both the power source and the load. Integrated protection mechanisms include overvoltage protection, undervoltage lockout, overcurrent limiting, thermal shutdown, and reverse current blocking. This makes the device well suited for applications requiring high reliability, such as embedded systems, industrial electronics, consumer devices, and communication equipment. Functional Description The device operates as a high-side protection switch using an internal MOSFET to control current flow from the input supply to the load. It monitors input voltage, output current, and internal temperature to ensure operation within safe limits. When a fault condition such as overcurrent or overvoltage is detected, the device limits or interrupts current flow to prevent damage. The integrated control loop provides smooth startup by limiting inrush current and preventing supply droop. Reverse current blocking prevents unwanted current flow from the output back to the input when the input supply is removed or drops below the output level. Electrical Characteristics The device supports operation across a wide input voltage range suitable for low-voltage DC systems, including typical five-volt rails. It features an adjustable overvoltage protection threshold aligned with five-volt system requirements, along with configurable undervoltage lockout to ensure proper system startup and shutdown behavior. The current limit is externally programmable, allowing flexibility for different load conditions. The device exhibits low on-resistance to minimize power dissipation and voltage drop during normal operation. Protection Features The TPS259530DSGR integrates multiple protection functions to enhance system robustness. Overvoltage protection prevents excessive input voltage from reaching the load. Undervoltage lockout ensures the device only operates when the input supply is within a valid range. Overcurrent protection actively limits current during fault conditions and can respond rapidly to short circuits. Thermal shutdown protects the device from overheating by disabling operation when internal temperature exceeds safe limits. Reverse current blocking prevents backflow of current, safeguarding both the source and load. Control and Interface The device includes an enable control input that allows external control of the power path. It supports configurable behavior for fault response and recovery, depending on system design. External components can be used to set thresholds such as current limit and undervoltage lockout, providing design flexibility. Status signaling allows system-level monitoring of fault conditions. Mechanical and Package Information The TPS259530DSGR is provided in a compact surface-mount package suitable for space-constrained applications. The package is optimized for thermal performance and efficient PCB layout, enabling reliable operation under varying load conditions. It is supplied in tape-and-reel format for automated assembly processes. Applications This device is intended for use in systems requiring reliable power distribution and protection. Typical applications include five-volt power rails in embedded systems, industrial control modules, consumer electronics, communication devices, and peripheral power management circuits. Summary The TPS259530DSGR offers an integrated, high-reliability solution for power path protection and management in low-voltage systems. Its combination of protection features, configurability, and compact form factor makes it a widely used choice for safeguarding five-volt supply rails in modern electronic designs. #commonpartslibrary #integratedcircuit #powermanagement

    2 months ago

    999 Uses

    0 Stars


  • TPS63020DSJT

    TPS63020DSJT

    Buck-Boost Switching Regulator IC Positive Adjustable 1.2V 1 Output 3.5A (Switch) 14-VFDFN Exposed Pad The TPS63020DSJT is a high-efficiency synchronous buck-boost DC-to-DC converter manufactured by Texas Instruments. This integrated power management device is designed to provide a stable regulated output voltage from input power sources that may vary above or below the desired output level. The converter automatically transitions between buck and boost operating modes to maintain efficient and continuous voltage regulation across a wide input range. The device integrates low-resistance power MOSFETs, advanced control circuitry, and high-efficiency switching architecture to minimize power loss and optimize battery utilization in portable electronic systems. It is widely used in battery-powered applications, embedded systems, wireless communication devices, portable instrumentation, industrial electronics, and USB-powered hardware requiring compact and reliable voltage regulation. The TPS63020DSJT is optimized for systems powered by single-cell lithium-ion, lithium-polymer, or multi-cell alkaline battery configurations. Its compact package and integrated functionality reduce external component count and simplify PCB layout while delivering high power conversion efficiency and low quiescent current performance. Engineering Specification Device Type Synchronous buck-boost DC-to-DC converter Power Conversion Topology Automatic buck and boost regulation architecture Input Characteristics Supports input voltages above or below regulated output voltage Output Characteristics Stable regulated DC voltage output Switching Technology Integrated synchronous MOSFET switching architecture Efficiency Characteristics High-efficiency power conversion for battery-powered systems Control Features Automatic operating mode transition and load regulation Power Consumption Low quiescent current operation for portable electronics Thermal Characteristics Integrated thermal management and protection features Protection Features Overcurrent protection Thermal shutdown Undervoltage lockout Short-circuit protection Package Type WSON surface-mount package Mounting Style Surface mount technology Applications Portable electronics Battery-powered systems Embedded hardware Wireless communication devices USB-powered electronics Industrial control systems Portable instrumentation IoT devices Consumer electronics Power management systems Manufacturer Texas Instruments #commonpartslibrary #buckboostconverter #dcdcconverter #powermanagement #texasinstruments #powerelectronics #powersupply #embeddedhardware #portableelectronics #batterypowered #surfaceountcomponents #electronicsdesign #voltageregulator #iothardware #industrialelectronics

    a month ago

    62 Uses

    0 Stars


  • TPS259531DSGR

    TPS259531DSGR

    Isolated Module DC DC Converter 1 Output 5V 200mA 4.5V - 5.5V Input The TPS259531DSGR is an integrated eFuse and power protection device manufactured by Texas Instruments. This device is designed to provide advanced protection and power management for low-voltage DC power rails in embedded and industrial electronic systems. It integrates multiple protection features including overcurrent protection, overvoltage protection, inrush current control, thermal shutdown, and short-circuit protection within a compact surface-mount package. The device is optimized for hot-swap applications, USB power distribution, industrial control systems, communication equipment, and power sequencing architectures. Its programmable protection thresholds and controlled startup behavior help improve system reliability while protecting sensitive downstream circuitry from abnormal operating conditions. The TPS259531DSGR is commonly used in power distribution networks requiring intelligent fault management and robust circuit protection. Engineering Specification Device Type Integrated eFuse and power protection IC Protection Functions Overcurrent protection Short-circuit protection Overvoltage protection Thermal shutdown Inrush current control Fault monitoring Input Voltage Characteristics Designed for low-voltage DC power rail protection applications Current Management Programmable current limiting and controlled load startup Power Switching Technology Integrated low-resistance MOSFET switching element Fault Handling Automatic fault response and protection isolation Startup Characteristics Adjustable soft-start and inrush current limiting capability Thermal Characteristics Integrated thermal protection with shutdown functionality Package Type WSON surface-mount package Mounting Style Surface mount technology System Integration Features Hot-swap support and power sequencing compatibility Applications USB power distribution Industrial automation Embedded systems Hot-swap systems Communication equipment Power rail protection Server and storage systems Portable electronics Power management architectures Manufacturer Texas Instruments #commonpartslibrary #efuse #powerprotection #powermanagement #texasinstruments #hotswapcontroller #circuitprotection #embeddedhardware #powerelectronics #powersupply #industrialelectronics #surfaceountcomponents #electronicsdesign #powerdistribution #faultprotection

    a month ago

    43 Uses

    0 Stars


  • XL1509-5.0

    XL1509-5.0

    Step-down type Fixed 5V 2A 4.5V~40V DC-DC Converters XL1509-5.0 SOIC-8_L4.9-W3.9-P1.27-LS6.0-TR LCSC Part Number: C2902368 JLCPCB Part Class: Extended Part Manufactured by UMW(广东友台半导体) XL1509 step-down DC/DC buck converter, 4.5V to 40V input voltage range, 2A constant output current capability, fixed 150kHz switching frequency, available in 3.3V, 5V, 12V and adjustable output versions, adjustable output from 1.23V to 37V, 100% max duty cycle, 1.5V minimum dropout, internal power transistor, ON/OFF control with hysteresis, thermal shutdown and current limit protection, SOIC-8 package. Search Keywords: XL1509, XL1509 buck converter, XL1509 step down converter, XL1509 DC DC converter, XL1509 SOIC-8, XL1509 2A, XL1509 150kHz, XL1509 adjustable regulator, XL1509 5V, XL1509 3.3V, XL1509 12V, XL1509 replacement, XL1509 datasheet Hashtags: #XL1509 #XL1509BuckConverter #XL1509DCDC #BuckConverter #StepDownConverter #DCDCConverter #SwitchingRegulator #PWMRegulator #2ABuckConverter #150kHzRegulator #AdjustableRegulator #SOIC8

    a month ago

    49 Uses

    0 Stars


  • 24F 5A250V

    24F 5A250V

    The 24F 5A250V is a panel-mount cartridge fuse holder designed to securely accommodate and electrically connect cartridge fuses in power distribution and protection circuits. It provides a reliable interface between the fuse element and the electrical system, enabling easy fuse replacement while maintaining electrical safety and mechanical stability. Commonly used in industrial equipment, consumer electronics, power supplies, appliances, instrumentation, and control systems, the fuse holder supports circuit protection against overload and fault conditions while ensuring convenient maintenance and serviceability. Engineering Specification Device Type Panel-Mount Cartridge Fuse Holder Fuse Compatibility Cartridge Fuse Installation and Retention Current Rating Suitable for Low-Voltage Power Protection Applications Voltage Rating Compatible with AC Power Distribution Circuits Mounting Style Panel Mount Connection Method Solder Terminal or Wire Connection Interface Contact Material Conductive Metal Contacts with Corrosion Resistance Housing Material Insulating High-Temperature Polymer Construction Mechanical Characteristics Secure Fuse Retention Easy Fuse Replacement Stable Mechanical Assembly Durable Construction Safety Characteristics Electrical Isolation Support Reliable Contact Performance Overcurrent Protection Interface Safe Fuse Accessibility Environmental Characteristics Long Service Life Resistance to Mechanical Wear Suitable for Commercial and Industrial Environments Applications Power Supplies Industrial Control Equipment Consumer Electronics Electrical Appliances Instrumentation Systems Battery Chargers Test Equipment Automation Systems Distribution Panels Embedded Electronic Devices Features Compact Panel-Mount Design Reliable Electrical Contact Easy Maintenance Access High Mechanical Durability Secure Fuse Retention Mechanism Simple Installation Wide Application Compatibility RoHS Compliant Construction Component Category Fuse Holder #commonpartslibrary #passivecomponents #fuseholder #circuitprotection #overcurrentprotection #powerelectronics #powersupply #industrialelectronics #electricalsafety #panelmount #electroniccomponents #powermanagement #protectioncircuit #controlsystems #applianceelectronics

    a month ago

    44 Uses

    0 Stars


  • LM358BAIDR

    LM358BAIDR

    LM358BAIDR SOIC-8_L4.9-W3.9-P1.27-LS6.0-BL LCSC Part Number: C1849421 JLCPCB Part Class: Extended Part Manufactured by TI(德州仪器) Texas Instruments LM358B/LM2904B industry-standard dual operational amplifier, wide 3V to 36V supply voltage range, 300µA typical quiescent current per amplifier, 1.2MHz unity-gain bandwidth, common-mode input voltage range includes ground, 2mV typical input offset voltage, integrated RF and EMI filter, 2kV HBM ESD protection, suitable for power supplies, motor control, AC induction and brushed DC control, printers, chargers, UPS systems and general analog signal conditioning, available in SOIC-8, TSSOP-8, VSSOP-8, SOT-23-8, SO-8 and PDIP-8 packages. Search Keywords: LM358B, LM2904B, Texas Instruments LM358B, TI LM358B, LM358B operational amplifier, LM2904B operational amplifier, dual op amp, dual operational amplifier, 36V op amp, low power op amp, LM358 replacement, LM2904 replacement, industry standard op amp, LM358B SOIC-8, LM358B TSSOP-8, LM358B VSSOP-8, LM358B SOT-23-8, LM358B PDIP-8, LM358B datasheet Hashtags: #LM358B #LM2904B #TexasInstrumentsLM358B #TIOpAmp #OperationalAmplifier #DualOpAmp #36VOpAmp #LowPowerOpAmp #AnalogSignalConditioning #LM358Replacement #LM2904Replacement #SOIC8 #TSSOP8 #VSSOP8 #SOT238 #PDIP8

    a month ago

    24 Uses

    0 Stars


  • EEEFPC101XAP

    EEEFPC101XAP

    100 µF 16 V Aluminum Electrolytic Capacitors Radial, Can - SMD 160mOhm @ 100kHz 2000 Hrs @ 105°C The EEEFPC101XAP is a surface-mount aluminum electrolytic capacitor manufactured by Panasonic under the OS-CON conductive polymer capacitor series. This component is designed for applications requiring low equivalent series resistance (ESR), high ripple current capability, and long operational life in compact electronic systems. The conductive polymer electrolyte technology provides stable electrical performance over a wide temperature range while improving high-frequency characteristics compared to conventional electrolytic capacitors. This capacitor is commonly used in switching power supplies, voltage regulation modules, industrial electronics, embedded systems, telecommunications equipment, automotive electronics, and high-performance digital circuits where reliable bulk capacitance and low impedance are required. Engineering Specifications Manufacturer: Panasonic Electronic Components Manufacturer Part Number: EEEFPC101XAP Device Type: Aluminum Organic Polymer Capacitor Capacitance: 100 µF Rated Voltage: 10 VDC Capacitance Tolerance: ±20% Dielectric Technology: Conductive Polymer Aluminum Solid Electrolytic Mounting Type: Surface Mount Package Type: Radial Can SMD Operating Temperature Range: -55°C to +105°C Equivalent Series Resistance: Low ESR design suitable for high-frequency switching applications Ripple Current Capability: High ripple current performance optimized for DC-DC converter filtering Lifetime Rating: Long operational endurance at rated temperature and voltage conditions Polarity: Polarized capacitor Leakage Current: Low leakage characteristic typical of conductive polymer capacitors Impedance Characteristics: Low impedance across a broad frequency range Applications: Power supply filtering Output smoothing for switching regulators Embedded processor power rails Industrial control electronics Telecommunications hardware Automotive electronic modules High-speed digital systems Compliance: RoHS compliant Halogen-free construction depending on production revision Mechanical Characteristics: Compact surface-mount aluminum can package Reflow soldering compatible Tape-and-reel packaging for automated assembly Performance Features: Very low ESR compared to conventional electrolytic capacitors Excellent ripple current endurance Improved thermal stability High reliability under continuous operation Suitable for compact high-density PCB layouts

    2 months ago

    0 Uses

    0 Stars


  • PS21964-4S

    PS21964-4S

    The Mitsubishi PS21964-4S is a dual-in-line package intelligent power module that integrates a transfer-mold type insulated design suitable for 600V/15A applications. This component combines low-loss 5th generation IGBT inverter bridge technology dedicated to three-phase DC-to-AC power conversion with open emitter configuration. It is designed with embedded drive circuits, high voltage high-speed level shifting, under-voltage protection for both upper and lower leg IGBTs, short circuit protection for lower-leg IGBTs, and system control functionalities into a compact package. The module supports fault signaling corresponding to short circuit faults in the lower-leg IGBT or under-voltage conditions, offering an integrated solution for AC100V~200V inverter drive applications in small power motor controls. With its UL approval (Yellow Card No. E80276) and featuring an input interface compatible with 3V and 5V lines (High Active), the PS21964-4S is engineered to cater to a broad range of industrial applications demanding reliable and efficient power conversion and control.

    2 years ago

    28 Uses

    1 Star


  • 178.6764.0001

    178.6764.0001

    Fuse Holder 32V 1 Circuit Blade Through Hole The 178.6764.0001 is an automotive blade fuse holder from Littelfuse, part of the MINI® FL1 series, designed for direct PCB mounting (through-hole). It allows easy integration of a single MINI blade fuse into a printed circuit board for overcurrent protection. This component is commonly used in automotive electronics, industrial control systems, and embedded power circuits, where compact and reliable fuse protection is required. Key Features Fuse Type Compatibility Supports MINI® automotive blade fuses (ATM/APM type) PCB Mount (Through-Hole) Designed for direct soldering to PCB for strong mechanical support Current Capability Up to 30 A maximum ~22 A continuous rating Voltage Rating Up to 58 VDC (automotive systems) Single Fuse Position Holds 1 fuse per holder Thermoplastic Housing Heat-resistant black body UL94 V-0 flammability rating for safety Contact Material Tin-plated copper alloy terminals for reliable conductivity Standard PCB Pitch Approx. 7.62 mm pin spacing Modular Design Multiple holders can be mounted side-by-side for multi-channel protection blade fuse holder automotive PCB #Circuit-Protection #Fuseholders #FL1

    2 months ago

    906 Uses

    0 Stars


  • S4B-PH-K-S(LF)(SN)

    S4B-PH-K-S(LF)(SN)

    JST PH Connector Header Through Hole, Right Angle 4 position 0.079" (2.00mm) The S4B-PH-K-S(LF)(SN) is a 4-position, single-row, right-angle (side-entry) male header designed for 2.0 mm pitch wire-to-board connections. It is a through-hole mounted, shrouded connector that ensures reliable and secure mating with compatible PH series housings and crimp terminals. This connector is commonly used in consumer electronics, embedded systems, power supplies, and industrial control boards, especially where space-saving and dependable connections are required. Key Features Connector Type: Shrouded male header (wire-to-board) Number of Positions: 4 pins (single row) Pitch: 2.0 mm Orientation: Right-angle (side entry) Mounting Type: Through-hole (THT) Termination: Solder Electrical Characteristics Rated Voltage: 100 V Rated Current: 2 A per contact Insulation Resistance: ≥1000 MΩ Contact Resistance: Low (typically ≤10–20 mΩ) Mechanical & Material Contact Material: Brass / phosphor bronze with tin plating Housing Material: PA66 (Nylon), UL94 V-0 flame rated Locking Mechanism: Detent lock for secure mating Shrouded Design: Prevents misalignment and protects pins Environmental Operating Temperature: −25 °C to +85 °C #CommonPartsLibrary #Connector #Header #JSTPH #MalePins #RightAngle #4pos

    2 months ago

    630 Uses

    4 Stars


  • WJ2EDGRC-5.08-02P-14-00A

    WJ2EDGRC-5.08-02P-14-00A

    2 Position Board Side/Socket - Closed 5.08mm Pitch Right-Angle Pin The WJ2EDGRC-5.08-02P-14-00A is a 2-position pluggable terminal block (screw-type connector) with a 5.08 mm pitch, commonly used for PCB power and signal connections. It is part of the EDGRC series designed for reliable wire-to-board connectivity in industrial, automation, and power electronics applications. It allows secure cable termination using screw clamps and is designed for easy plug-in/out mating with a corresponding header on a PCB. Key Features Type: Pluggable terminal block (female plug) Pin count: 2 positions Pitch: 5.08 mm Connection method: Screw clamp / rising cage clamp Mounting style: Through-hole (mates with PCB header) Wire termination: Suitable for solid and stranded wires High reliability contact design for stable electrical connection Detachable plug-in design for easy maintenance and replacement High current capability (typical for 5.08 mm pitch terminal blocks) Industrial-grade insulation material for durability and safety Wide usage: Power supply input, motor control, industrial I/O, and general PCB wiring #CommonPartsLibrary #Connector #Terminal block

    2 months ago

    1.0k Uses

    0 Stars


  • 1725656

    1725656

    2 Position Wire to Board Terminal Block Horizontal with Board 0.100" (2.54mm) Through Hole 1725656 – PCB-mounted screw terminal block designed for secure wire-to-board connections in industrial, control, automation, instrumentation, and power distribution applications. Features a screw-clamp termination system that provides reliable electrical contact and strong wire retention under vibration and demanding operating conditions. The through-hole construction offers enhanced mechanical stability, making it suitable for long-term field installations and high-reliability electronic assemblies. Designed to simplify wiring, maintenance, and system integration while ensuring dependable signal and power connectivity. #TerminalBlock #ScrewTerminal #WireToBoard #IndustrialElectronics #PowerDistribution #AutomationSystems #ControlPanels #ThroughHoleConnector #PCBConnector #ReliableConnectivity #connector #Terminalblock #tht

    a month ago

    253 Uses

    0 Stars


  • 178.7017.0001

    178.7017.0001

    Fuse Holder 80V 1 Circuit Blade Through Hole General Description The 178.7017.0001 is a PCB-mounted fuse holder designed for cartridge fuses, typically used in power input protection circuits. It provides a secure and reliable method for mounting and replacing fuses in electronic assemblies. This component is commonly used in industrial equipment, power supplies, and consumer electronics where overcurrent protection is required. Key Features Designed for standard cartridge fuses (commonly 5x20 mm format) Through-hole PCB mounting for secure mechanical stability Reliable electrical contact with low resistance Easy fuse replacement and maintenance High-temperature resistant housing material Suitable for mains and low-voltage applications Mechanical Characteristics Mounting Type: Through-Hole (THT) Fuse Size Compatibility: 5 mm x 20 mm Orientation: Vertical PCB mount Housing Material: Thermoplastic (UL94 V-0 rated) Pin Configuration: 2-pin Electrical Characteristics Rated Current: Up to 10 A (depending on fuse used) Rated Voltage: Up to 250 VAC Contact Resistance: Low contact resistance for efficient conduction Insulation Resistance: High insulation resistance Environmental Characteristics Operating Temperature Range: -40°C to +85°C (typical) Storage Temperature Range: -40°C to +85°C Flame Rating: UL94 V-0 compliant Applications Power supply units Industrial control systems Consumer electronics Battery chargers AC mains protection circuits Compliance & Standards RoHS compliant UL recognized materials (depending on manufacturer variant) Notes Ensure compatibility with selected fuse rating and type Observe proper PCB layout spacing for high-voltage applications Follow safety standards when used in mains-powered circuits #commonpartslibrary #circuitprotection #fuseholder

    3 months ago

    242 Uses

    0 Stars


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