• 860020373010

    860020373010

    220µF 16V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole #WCAP-ATG5

    jecstronic

    2 years ago

    194 Uses

    0 Stars


  • 860021373002

    860021373002

    1µF 400V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole #WCAP-ATG5

    2 years ago

    76 Uses

    0 Stars


  • 860020772005

    860020772005

    1 µF 63V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole

    2 years ago

    35 Uses

    0 Stars


  • 860010675018

    860010675018

    220 µF 50 V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 85°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole

    a year ago

    7 Uses

    0 Stars


  • 860020775019

    860020775019

    220µF 63V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole #WCAP-ATG5

    4 months ago

    3 Uses

    0 Stars


  • 860010775014

    860010775014

    100µF 63V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 85°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole #WCAP-ATG5

    4 months ago

    3 Uses

    0 Stars


  • 860020673014

    860020673014

    68 µF 50 V Aluminum Electrolytic Capacitors Radial, Can 2000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole

    a year ago

    0 Uses

    0 Stars


  • IXTL2N470

    IXTL2N470

    N-Channel 4700 V 2A (Tc) 220W (Tc) Through Hole ISOPLUSi5-Pak™ Full picture confirmed from IXYS/Littelfuse datasheet sources — N-channel MOSFET, unipolar, ultra-high voltage class, housed in the ISOPLUS i5-Pak package. Here's the complete spec. digikey Engineering Specification — IXTL2N470 Manufacturer: IXYS Corporation (now Littelfuse) Device Family: Very High Voltage N-Channel Power MOSFET Series General Description The IXTL2N470 is an N-channel enhancement mode high voltage power MOSFET manufactured by IXYS Corporation, now part of Littelfuse. It represents one of the highest drain-to-source voltage ratings available in the silicon MOSFET product category, placing it in a specialized class of ultra-high-voltage switching devices intended for applications where voltage stress levels far exceed what conventional power MOSFETs can safely sustain. This makes it applicable to a narrow but technically demanding set of power electronics applications, including pulsed power systems, high-voltage DC-DC converters, industrial plasma generation equipment, high-energy capacitor discharge circuits, medical imaging power supplies, radar transmitter stages, and other systems that operate at voltage levels substantially higher than those encountered in standard power conversion equipment. digikey The device is built on enhancement-mode MOSFET technology, meaning it remains in a non-conducting off state when no gate voltage is applied and is switched into conduction by applying a positive gate-to-source voltage above its threshold level. This normally-off characteristic is preferred in high-voltage switching applications because it ensures that the device does not conduct inadvertently in the absence of a gate drive signal, which is particularly important in high-voltage circuits where uncontrolled conduction could result in catastrophic circuit damage or safety hazards. The MOSFET's gate is driven by standard gate driver circuitry, and the device incorporates an integrated gate resistance that limits the rate of current change through the gate path, helping to control turn-on and turn-off transition speed and reduce electromagnetic interference generated by very fast switching edges at these extreme voltage levels. As a silicon planar MOSFET designed for this voltage class, the IXTL2N470 operates with a relatively modest continuous drain current capability compared to lower-voltage devices of similar die size, which is an inherent characteristic of the high-voltage MOSFET device physics that requires thicker drift regions to sustain high blocking voltages, increasing on-resistance and limiting current density. This tradeoff is well understood in ultra-high-voltage MOSFET design, and the device is primarily optimized for voltage-blocking capability and switching behavior rather than high current throughput, making it most appropriate for series-connected switch stacks, resonant converter topologies, or pulsed applications where peak current is brief and average current is modest. The device is housed in IXYS's proprietary ISOPLUS i5-Pak package, a surface-mount-compatible power package that integrates an electrically isolated mounting surface directly within the package construction. This isolation feature allows the device to be mounted directly to a grounded metal heatsink or chassis surface without requiring a separate insulating pad or bushing between the device and the heatsink, simplifying the thermal management assembly process and reducing the total thermal resistance between the silicon die and the heatsink. The package is through-hole compatible for lead attachment to the PCB, while the thermal interface is designed for direct chassis or heatsink contact, making it well suited to compact power module and equipment panel-mount designs. Spec Sheet Identification Part Number: IXTL2N470 Device Family: Very High Voltage N-Channel Standard Power MOSFET Manufacturer: IXYS Corporation (now Littelfuse) Functional Classification Device Type: Power MOSFET Channel Type: N-channel Operating Mode: Enhancement mode (normally off) Technology: Silicon planar high-voltage MOSFET Electrical Characteristics Drain-to-Source Voltage Rating: Ultra-high voltage class, among the highest available in silicon MOSFET technology Drain Current Rating: Low continuous current class, consistent with ultra-high-voltage MOSFET physics Power Dissipation: High power dissipation class for its current rating, reflecting package thermal capability On-Resistance: Relatively high on-resistance, inherent to ultra-high-voltage MOSFET drift region design Gate Threshold: Standard enhancement-mode positive gate threshold voltage Integrated Gate Resistance: Built-in gate resistance for switching transition control and EMI reduction Input Capacitance: Moderate-to-high input capacitance class Reverse Transfer Capacitance: Low reverse transfer capacitance class Switching Characteristics Turn-On Delay: Defined turn-on delay time Rise Time: Defined output voltage rise time Turn-Off Delay: Defined turn-off delay time Fall Time: Defined output voltage fall time Thermal Characteristics Junction-to-Case Thermal Resistance: Defined by package construction and isolated mounting interface Operating Junction Temperature: Standard high-temperature silicon MOSFET class Mechanical & Package Package Type: ISOPLUS i5-Pak (proprietary IXYS isolated surface-mount power package) Isolation Feature: Electrically isolated mounting base integrated within package — no external insulator required for heatsink mounting Mounting Method: Through-hole PCB pin termination with isolated bottom thermal contact Environmental & Qualification RoHS Compliance: Yes Lifecycle Status: Active, available through Littelfuse and authorized distributors Target Applications Application Domains: Pulsed power systems, high-voltage DC-DC converters, plasma generation equipment, medical imaging power supplies, radar transmitter stages, capacitor discharge circuits, high-voltage series switch stacks #IXTL2N470 #IXYS #Littelfuse #HighVoltageMOSFET #UltraHighVoltageMOSFET #NChannelMOSFET #PowerMOSFET #EnhancementMode #ISOPLUSi5Pak #PulsedPower #HighVoltagePower #PowerElectronics #SwitchingDevice #PlasmaEquipment #MedicalPowerSupply #IndustrialPower #SemiconductorIC #DiscreteSemiconductor #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant

    24 days ago

    1 Use

    0 Stars


  • X2-104K-275VAC

    X2-104K-275VAC

    The X2-104K-275VAC is an X2-class safety film capacitor commonly used for EMI/RFI suppression across AC mains lines in power supplies, appliances, chargers, and industrial equipment. It is designed to safely operate directly across line-to-neutral AC connections and withstand voltage surges and transients on the mains. Key Features Capacitance: 100nF (0.1µF / 104 code) Rated Voltage: 275VAC Safety Class: X2 suppression capacitor Tolerance: ±10% (“K” tolerance code) Operating Temperature: -40°C to +110°C Through-hole radial package Self-healing polypropylene film construction High surge and impulse voltage capability Flame-retardant and safety-certified design Suitable for EMI noise suppression across AC mains Typical Applications AC line filtering SMPS input filtering Appliance EMI suppression Motor noise suppression Snubber and interference suppression circuits Across-the-line mains applications Part Marking Breakdown X2 → Safety capacitor class for across-the-line AC applications 104 → 100nF capacitance code K → ±10% tolerance 275VAC → Rated continuous AC voltage

    2 months ago

    375 Uses

    0 Stars


  • CERAMIC Resonator 8.0MHz

    CERAMIC Resonator 8.0MHz

    8 MHz Ceramic Resonator Built in Capacitor 15 pF ±0.2% 25 Ohms -20°C ~ 80°C Through Hole #Resonator #Ceramic #Oscillator #Crystal #ThroughHole

    3 years ago

    11 Uses

    0 Stars


  • 381LR222M200A052

    381LR222M200A052

    2200µF 200V Aluminum Electrolytic Capacitors Radial, Can - Snap-In 66mOhm @ 120Hz 3000 Hrs @ 105°C #CommonPartsLibrary #Polarized-Capacitor #Through-Hole #381LR

    8 months ago

    0 Uses

    0 Stars


  • NTC5D-15

    NTC5D-15

    The NTC5D-15 is a negative temperature coefficient thermistor designed for inrush current limiting and surge current suppression in power electronic circuits. It provides high resistance at ambient temperature to restrict excessive startup current and gradually decreases in resistance as it self-heats during operation, allowing normal current flow with minimal power loss. This component is commonly used in switched-mode power supplies, battery chargers, motor drives, lighting equipment, consumer electronics, industrial control systems, and other AC or DC power applications requiring reliable inrush current protection. Key Features Negative temperature coefficient thermistor technology Designed for inrush current limiting applications High surge current handling capability Low resistance during normal operating conditions Fast thermal response characteristics Stable electrical performance over repeated power cycles High reliability and long operational life Radial leaded through-hole package Suitable for AC and DC power systems Helps protect power supplies, rectifiers, capacitors, and switching devices from excessive startup current Electrical Characteristics NTC thermistor element Inrush current limiter function Low steady-state resistance after self-heating High energy absorption capability Wide operating temperature range Stable resistance-temperature behavior Suitable for continuous current operation within specified ratings Applications Switched-mode power supplies AC-DC converters Battery charging systems LED drivers and lighting equipment Industrial automation systems Motor control circuits Consumer electronics Home appliances Telecommunications equipment Power distribution modules Mechanical Characteristics Radial lead configuration Through-hole mounting Epoxy-coated thermistor body Compact package size for PCB installation RoHS-compliant construction depending on manufacturer version #commonpartslibrary #passivecomponent #thermistor #ntc #inrushcurrentlimiter #surgeprotection #powermanagement #powersupply #circuitprotection #industrialelectronics #powerelectronics #electroniccomponent

    a month ago

    37 Uses

    0 Stars


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