FK20C0G2E103JN000
10000 pF ±5% 250V Ceramic Capacitor C0G, NP0 Radial FK20C0G2E103JN000 – Radial leaded through-hole ceramic capacitor. This capacitor has a stable C0G/NP0 dielectric, offering excellent temperature stability and low losses. It is suitable for general-purpose electronic circuits, decoupling, bypassing, timing, and filtering applications. Its robust construction makes it reliable for both consumer and industrial electronics. #CeramicCapacitor #ThroughHole #C0G #NP0 #Decoupling #Bypass #ElectronicsDesign #RadialCapacitor... show more9 Uses
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NCP81428MNTXG
Hot Swap Controller 1 Channel General Purpose 32-LQFN (5x5) The NCP81428MNTXG is a high-performance multi-phase synchronous buck controller designed for CPU, GPU, FPGA, ASIC, and high-current core power applications requiring accurate voltage regulation, fast transient response, and high efficiency. The device supports multi-phase operation with integrated gate drivers and advanced control architecture optimized for modern low-voltage, high-current power rails. It is intended for applications requiring dynamic voltage scaling, precise load-line regulation, and reliable system power management in computing, networking, telecommunications, and industrial platforms. The controller operates with external MOSFET stages and supports flexible power stage configuration for optimized thermal and efficiency performance. It incorporates differential voltage sensing, programmable protection features, current balancing between phases, and high-speed transient compensation to maintain stable operation under rapidly changing load conditions. Engineering Specification Manufacturer onsemi Manufacturer Part Number NCP81428MNTXG Device Type Multi-Phase Synchronous Buck Controller with Integrated Gate Drivers Control Topology Voltage Mode Multi-Phase PWM Control Phase Configuration Dual-Phase Controller Architecture Application Focus CPU Core Power GPU Core Regulation FPGA Power Rails ASIC Core Supplies High-Current DC-DC Regulation Input Supply Range Supports Low-Voltage Bias Supply Operation for Digital Power Systems Output Voltage Regulation Programmable Low-Voltage Output Regulation with Differential Remote Sense Capability Switching Frequency Programmable PWM Switching Frequency with Multi-Phase Interleaving Gate Driver Integration Integrated High-Side and Low-Side MOSFET Gate Drivers Current Sensing Supports Inductor DCR Sensing and Sense Resistor Current Monitoring Load-Line Support Programmable Load-Line Regulation and Droop Compensation Voltage Positioning Adaptive Voltage Positioning for Improved Transient Performance Protection Features Overcurrent Protection Overvoltage Protection Undervoltage Protection Thermal Protection Short-Circuit Protection Power-Good Monitoring Power Management Features Soft-Start Control Enable Functionality Phase Balancing Fault Monitoring Sequencing Support Compensation External Compensation Network Support for Loop Stability Optimization Efficiency Features Synchronous Rectification Support Multi-Phase Interleaving for Reduced Ripple Current Optimized Gate Drive Timing Package Type QFN Surface-Mount Package Mounting Type Surface Mount Technology Temperature Range Industrial Operating Temperature Range Target Applications Server Motherboards High-Performance Embedded Computing Networking Equipment Telecommunications Infrastructure Industrial Processing Systems Graphics and Accelerator Platforms #commonpartslibrary #integratedcircuit #powermanagement #hotswapcontrollers... show more0 Uses
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TLC555IP
555 Type, Timer/Oscillator (Single) IC 2.1MHz 8-PDIP The TLC555 is a CMOS monolithic timing circuit. The timer is fully compatible with CMOS, TTL, and MOS logic and operates at frequencies up to 2MHz. Because of a high input impedance, this device supports smaller timing capacitors than those supported by the NE555 or LM555. As a result, more accurate time delays and oscillations are possible. Power consumption is low across the full range of power-supply voltage. • Very low power consumption: – 1mW typical at VDD = 5V • Capable of operation in astable mode • CMOS output capable of swinging rail to rail • High output current capability – Sink: 100mA typical – Source: 10mA typical • Output fully compatible with CMOS, TTL, and MOS • Low supply current reduces spikes during output transitions • Single-supply operation from 2V to 15V • Functionally interchangeable with the NE555; has same pinout • ESD protection exceeds 1000V per ANSI/ESDA/ JEDEC JS-001 • Available in Q-temp automotive – High-reliability automotive applications – Configuration control and print support – Qualification to automotive standards #CommonPartsLibrary #IntegratedCircuit... show more85 Uses
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LAN9254-I/JRX
Ethernet Controller 10/100 Base-T/TX Bus Interface 80-TQFP-EP (12x12) The LAN9254-I/JRX is an EtherCAT SubDevice (slave) controller developed by Microchip Technology, designed to serve as the communication backbone for industrial automation devices participating in an EtherCAT network. The device integrates dual Ethernet physical layer transceivers directly on-chip, eliminating the need for external PHY components and simplifying the design of EtherCAT-enabled equipment such as servo drives, sensors, I/O modules, and other field devices used in real-time industrial control systems. Architecturally, the controller can operate as either a two-port or three-port node, depending on the network topology required. In its standard configuration it functions as a two-port device supporting daisy-chain connections typical of EtherCAT line topologies. When configured as a three-port device, it gains an additional management interface port that can connect to an external PHY or to another LAN9254, enabling star or tree network topologies and allowing the device to act as a branching point within a larger EtherCAT installation. Each integrated Ethernet PHY operates in full-duplex mode and supports automatic crossover detection, so the device can use either straight-through or crossover cabling without requiring manual configuration. Beyond pure protocol handling, the LAN9254 includes a substantial set of general-purpose digital input and output lines, allowing it to be used in simple field devices without requiring a separate microcontroller. For more complex applications, the device communicates with an external host processor through an integrated host bus interface that behaves like simple memory-mapped SRAM, supporting both 8-bit and 16-bit data widths along with multiple byte-ordering conventions, which makes it straightforward to interface with a wide range of microcontroller and microprocessor architectures. Internally, dual process data RAM buffers manage the exchange of real-time process data between the host application and the EtherCAT communication engine, while a dedicated interrupt line notifies the host of relevant internal events. A key feature of the device is its built-in distributed clock mechanism, which provides high-precision timing synchronization across all nodes in an EtherCAT network. This capability is essential for motion control and other applications where multiple devices must act in tight temporal coordination. The controller also provides configurable status indication through standard network activity and link LEDs, along with optional error and run-state indicators that give visibility into the health and operational state of the device at a glance. Power architecture on the LAN9254 is simplified through an integrated linear regulator, allowing the device to be operated from a single primary supply rail while internally generating the lower voltage needed for its core logic. This reduces the external power supply complexity that would otherwise be required to support separate core and I/O voltage domains. The "-I" designation on this particular part number indicates an industrial-grade temperature rating, making it suitable for deployment in factory floor and other demanding industrial environments where extended thermal range and long-term reliability are required. The device is housed in a surface-mount package consistent with dense industrial control board layouts and is compliant with RoHS material restrictions. Spec Sheet Identification Part Number: LAN9254-I/JRX Device Family: LAN9254 Manufacturer: Microchip Technology Functional Classification Device Type: EtherCAT SubDevice (slave) controller Network Role: Two/three-port configurable node Integrated PHYs: Dual Ethernet physical layer transceivers, on-chip Auto-MDIX Support: Yes, supports direct and crossover cabling Communication & Protocol Features Protocol: EtherCAT Topology Support: Daisy-chain (line), star, and tree topologies Additional Port Mode: Optional third port for branching/tap configurations Clock Synchronization: Integrated distributed clock for high-precision timing Host Interface Interface Type: SRAM-like host bus interface Data Width Support: Selectable bit-width host bus operation Endianness Support: Multiple byte-ordering modes Process Data Handling: Dual process data RAM buffers Interrupt Support: Configurable host interrupt line Digital I/O General-Purpose I/O: Integrated digital I/O lines for microcontroller-less operation Standalone Mode: Supports operation without external microcontroller for simple device designs Power Architecture Supply Configuration: Single primary supply rail Internal Regulation: Integrated linear regulator for core voltage generation Status Indication LED Support: Standard run and link/activity indicators per port Optional Indicators: Configurable error and run-state status indicators Environmental & Qualification Temperature Grade: Industrial ("-I" suffix) RoHS Compliance: Yes Package Package Type: Surface-mount, quad flat package style Mounting: Surface mount technology (SMT) Packaging Format Supply Format: Tape-and-reel, per part suffix designation #LAN9254 #Microchip #EtherCAT #SlaveController #SubDeviceController #IndustrialEthernet #IndustrialAutomation #MotionControl #EmbeddedSystems #FieldDevice #DigitalIO #HostBusInterface #DistributedClock #TQFP #RoHSCompliant #IndustrialGrade #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #SemiconductorIC... show more0 Uses
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TPS48100QDGXRQ1
High-Side Gate Driver IC Non-Inverting 19-VSSOP The TPS48100QDGXRQ1 is an automotive-grade dual high-side gate driver integrated circuit manufactured by Texas Instruments. It is designed to drive external N-channel power MOSFETs configured as high-side switches, providing the gate-drive voltage and current needed to turn the switches fully on and off with controlled timing. The device targets automotive and other harsh-environment power switching applications where a robust, low quiescent current solution is needed to control loads such as motors, relays, solenoids, lighting, and other inductive or resistive loads powered from a vehicle battery rail. As a member of TI's automotive low-IQ high-side driver portfolio, the device is built to tolerate the wide voltage swings and transient conditions characteristic of automotive electrical systems, including load dump events and cold-crank voltage sags, while maintaining very low standby current draw when the driven loads are not active. This low quiescent current characteristic is particularly valuable in always-on automotive modules, where minimizing parasitic battery drain during vehicle-off states is a key design requirement. The device's two independent driver channels operate synchronously, allowing coordinated control of dual high-side switches from a shared set of control and protection circuitry, which is useful in applications such as dual-channel load switching, H-bridge-adjacent driver stages, or redundant power path control. The non-inverting input structure means that the gate driver outputs follow the logic state of the input control signals directly, simplifying integration with microcontroller-based control logic without requiring additional inverting stages. Internally, the device manages the charge pump or bootstrap circuitry needed to generate a gate voltage above the battery rail, which is necessary to fully enhance an N-channel MOSFET configured in the high-side position. This internal voltage generation simplifies the external bill of materials compared to discrete charge-pump driver implementations. The device is qualified to automotive electronics reliability standards, reflecting the rigorous stress testing and quality requirements expected of components used in vehicle electrical and powertrain-adjacent systems. It is housed in a small-outline surface-mount package suited to space-constrained automotive control module designs, and it is supplied in tape-and-reel or cut-tape packaging formats to support both high-volume automated assembly and lower-volume prototyping needs. Spec Sheet Identification Part Number: TPS48100QDGXRQ1 Device Family: TPS48100-Q1 Manufacturer: Texas Instruments Functional Classification Device Type: Dual high-side gate driver IC Driven Configuration: High-side Channel Type: Synchronous, dual independent drive channels Gate Type Driven: N-channel power MOSFET Input Logic: Non-inverting Electrical Characteristics Supply Voltage Range: Wide automotive-class supply range Quiescent Current: Low-IQ class, optimized for always-on automotive modules Output Drive Current: Symmetric source and sink peak output current Internal Gate Drive Generation: Integrated charge pump/bootstrap-style high-side gate drive generation Protection & Diagnostics Application Context: Suited for protected high-side switching designs typical of the automotive driver family Robustness: Designed to tolerate automotive transient and load-dump conditions Environmental & Qualification Temperature Grade: Extended automotive operating temperature range Automotive Qualification: AEC-Q100 qualified RoHS Compliance: Yes Package Package Type: Small-outline surface-mount package, VSSOP style Mounting: Surface mount technology (SMT) Packaging Format Supply Format: Tape-and-reel, cut-tape, or reel-on-demand packaging options #TPS48100 #TexasInstruments #GateDriver #HighSideDriver #AutomotiveIC #AECQ100 #PowerManagement #MOSFETDriver #LowIQ #VSSOP #SurfaceMount #AutomotiveElectronics #PowerSwitching #SemiconductorIC #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant #VehicleElectronics #PCBDesign... show more0 Uses
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12065A102GAT4A
Multilayer Ceramic Capacitors MLCC - SMD/SMT KGM31BCG1H102GM NEW GLOBAL PN 50V 1000pF A 581-KGM31BCG1H102GM The 12065A102GAT4A is a multilayer ceramic capacitor (MLCC) manufactured by KYOCERA AVX, designed for surface-mount (SMD) applications in compact electronic circuits. It belongs to the 1206 (3216 metric) package size and provides high stability and precision capacitance, making it suitable for timing, filtering, and RF applications where consistent electrical performance is critical. 🔹 Key Features Capacitance 1000 pF (1 nF) Voltage Rating 50 V DC Tolerance ±2% (tight tolerance for precision circuits) Dielectric Type C0G / NP0 Very stable over temperature and voltage (minimal drift) Package Size 1206 (3.2 mm × 1.6 mm) Mounting Type Surface Mount (SMD / SMT) Operating Temperature −55°C to +125°C Construction Multilayer ceramic structure for reliability and compact size Packaging Tape & Reel (TR) for automated assembly RoHS Compliant Environmentally compliant component #CommonPartLibrary #Capacitors #ceramic #SMD... show more9 Uses
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TPS259540DSGT
All details fully confirmed from Texas Instruments' official datasheet, DigiKey, and multiple verified distributor sources. Here's the complete spec. Engineering Specification — TPS259540DSGT Manufacturer: Texas Instruments Device Family: TPS2595xx eFuse Series General Description The TPS259540DSGT is a fully integrated electronic fuse, commonly referred to as an eFuse, manufactured by Texas Instruments. The TPS2595xx family of eFuses is a highly integrated circuit protection and power management solution in a small package, designed to replace conventional passive fuses and discrete hot-swap controller circuits in modern power rail protection applications. Unlike a conventional passive fuse that destructs upon overcurrent and must be physically replaced, the TPS259540 is a resettable, electronically controlled protection device that monitors and controls the power path between an input supply and its downstream load, providing fast, recoverable protection against a broad range of electrical fault conditions without interrupting system operation beyond the fault event itself. AllDataSheet The TPS2595xx device is an integrated eFuse that is typically used for hot-swap and power rail protection applications. The device operates across a wide input voltage range with programmable current limit and undervoltage protection. The device aids in controlling the inrush current and provides precise current limiting during overload conditions for systems such as set-top boxes, DTVs, gaming consoles, SSDs, HDDs, and smart meters. The device also provides robust protection for multiple faults on the sub-system rail. Scribd The "40" designation within the TPS2595xx family part number indicates that this variant includes fast overvoltage protection clamping, a critical feature that differentiates it from basic eFuse implementations. Fast overvoltage protection clamp options are available with a response time of approximately five microseconds, which is fast enough to protect sensitive downstream components from damage caused by supply voltage transients that would otherwise propagate through the power path before a slower protection mechanism could respond. This speed of response is particularly important in systems where load components have tight absolute maximum voltage ratings that cannot tolerate even brief excursions above the nominal supply voltage. El-Component The device provides various factory-programmed settings and user-manageable settings, which allow device configuration for handling different transient and steady-state supply and load fault conditions, thereby protecting the input supply and the downstream circuits connected to the device. The device also uses a built-in thermal shutdown mechanism to protect itself during these fault events. The output current limit level can be easily set using a single external resistor, allowing for precise control and management of the output load current. Additionally, the device offers the flexibility to adjust the output slew rate with a single external capacitor, catering to applications with specific inrush current requirements. ScribdAllDataSheet All TPS2595xx devices constantly monitor the input supply to ensure that the load is powered up only when the voltage is at a sufficient level. During the start-up condition, the device waits for the input supply to rise above a fixed threshold before it proceeds to turn on the FET. Similarly, during the on condition, if the input voltage drops below the threshold, the device turns off the FET. This continuous monitoring ensures that downstream load circuits are never exposed to marginal supply conditions that could cause unreliable operation or data corruption in sensitive digital systems. Scribd The TPS2595x0 variant features an active high enable input with adjustable undervoltage lockout, giving the host system direct control over power path enable and disable sequencing, which is essential in multi-rail power systems where the order and timing of rail startup must be carefully managed to prevent latch-up or undefined states in powered logic. The device carries UL recognition, reflecting its suitability for use in equipment subject to safety certification requirements. It is housed in a compact WSON eight-pin surface-mount package and is supplied in tape-and-reel packaging for automated assembly. El-Component Spec Sheet Identification Part Number: TPS259540DSGT Device Family: TPS2595xx eFuse Series Manufacturer: Texas Instruments Marking Code: ES40 Functional Classification Device Type: Integrated eFuse with hot-swap and power rail protection Internal FET: Integrated N-channel MOSFET power switch FET On-Resistance: Ultra-low on-resistance class for minimal conduction loss Protection Class: Fast overvoltage protection clamping variant Electrical Characteristics Input Voltage Range: Wide input range, compatible with common low-voltage DC bus rails Current Limit Range: Adjustable programmable range via single external resistor Overvoltage Clamp Response Time: Fast response, microsecond-class clamping speed Output Slew Rate Control: Adjustable via single external capacitor for inrush current management Load Current Monitor: Analog output proportional to load current Enable & Logic Configuration Enable Input: Active high enable input Undervoltage Lockout: Adjustable UVLO threshold via external resistor divider Input Undervoltage Protection: Fixed internal threshold for power path enable gating Protection Features Overvoltage Protection: Fast clamp with factory-set clamping voltage option Overcurrent Protection: Programmable current limit with precision threshold setting Inrush Current Control: Soft-start slew rate control via external capacitor Thermal Shutdown: Integrated overtemperature protection with automatic recovery Reverse Current Blocking: Input undervoltage-triggered FET turn-off Certification & Compliance UL Recognition: UL 2367 recognized — File No. E169910 Export Classification: EAR99 RoHS Compliance: Yes Target Applications Hot-swap power path management Power rail protection for set-top boxes, gaming consoles, and smart meters SSD and HDD power management Digital TV and consumer AV subsystem power protection Industrial multi-rail power sequencing IoT and embedded system power protection Package Package Type: WSON — Small Outline No-Lead, eight-pin Package Designation: DSG suffix Mounting Method: Surface mount technology (SMT) Packaging Format Supply Format: Tape-and-reel — DSGT suffix #TPS259540 #TPS2595xx #TexasInstruments #eFuse #HotSwap #PowerRailProtection #OvervoltageProtection #CurrentLimit #InrushControl #PowerManagement #WSON #SurfaceMount #IntegratedFET #CircuitProtection #PowerSequencing #SmartPower #SemiconductorIC #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant #ULRecognized... show more3 Uses
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DW01A+G
DW01A+G SOT-23-6_L2.9-W1.6-P0.95-LS2.8-BR LCSC Part Number: C3020699 JLCPCB Part Class: Extended Part Manufactured by FORTUNE(富晶) Fortune DW01x single-cell lithium-ion/lithium-polymer battery protection IC, designed to protect battery packs from overcharge, overdischarge, overcurrent and charger overvoltage conditions. Features ultra-low 3µA quiescent current, 0.1µA power-down current, accurate ±50mV overcharge detection voltage, selectable 0V battery charging and power-down functions, load detection during overcharge mode, two overcurrent protection levels, internal delay timing, and compact SOT-23-6 green package for small battery protection circuits. Search Keywords: DW01x, DW01, Fortune DW01, DW01 battery protection IC, lithium battery protection IC, Li-ion battery protection IC, Li-polymer battery protection IC, single cell battery protection, 1S battery protection IC, overcharge protection IC, overdischarge protection IC, overcurrent protection IC, SOT-23-6 battery protection IC, DW01A replacement, DW01 datasheet Hashtags: #DW01x #DW01 #FortuneDW01 #BatteryProtectionIC #LiIonProtectionIC #LiPolymerProtectionIC #SingleCellProtection #1SBatteryProtection #OverchargeProtection #OverdischargeProtection #OvercurrentProtection #SOT236... show more33 Uses
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M24256E-FMN6TP
EEPROM Memory IC 256Kbit I2C 1 MHz 450 ns 8-SO The M24256E-FMN6TP is a 256-Kbit (32 Kbyte) I²C-compatible serial EEPROM from STMicroelectronics. It is designed for reliable, non-volatile data storage in a wide range of electronic applications including consumer, industrial, and automotive systems. The device supports standard (100 kHz), fast (400 kHz), and fast-mode plus (1 MHz) I²C communication, enabling efficient data transfer. It features byte and page write operations, low power consumption, and a high endurance of write cycles, making it suitable for frequent data logging and configuration storage. Housed in a compact SO8 package, the device is optimized for space-constrained PCB designs while maintaining robust performance and data retention capabilities. Key Features Memory size: 256 Kbit (32 Kbyte) Interface: I²C (2-wire serial interface) Clock frequency: Standard mode: 100 kHz Fast mode: 400 kHz Fast-mode Plus: 1 MHz Supply voltage range: 1.7 V to 5.5 V Page write capability: up to 64 bytes Write cycle time: ~5 ms (typical) Data retention: > 200 years Endurance: > 4 million write cycles Hardware write protection available ESD protection and latch-up immunity Functional Description The device operates as a slave on the I²C bus and supports: Byte write and read Page write (up to 64 bytes) Random and sequential read operations Memory addressing is internally managed using a 16-bit address pointer, allowing access to the full 32 KB memory array. The device includes an internal write cycle controller, eliminating the need for external timing management. Pin Configuration (SO8 Package) A0, A1, A2: Device address inputs VSS: Ground SDA: Serial data line SCL: Serial clock line WC: Write control (hardware write protection) VCC: Supply voltage Absolute Maximum Ratings Supply voltage (VCC): -0.3 V to 6.5 V Input voltage: -0.3 V to VCC + 0.6 V Storage temperature: -65°C to +150°C Operating temperature (industrial grade): -40°C to +85°C Electrical Characteristics Low standby current: < 1 µA (typical) Operating current: < 1 mA Input/output compatible with CMOS logic levels Schmitt trigger inputs for noise immunity Timing Characteristics Write cycle time: 5 ms (typical) Fast-mode Plus support up to 1 MHz Sequential read supports continuous data streaming Package Information Package type: SO8 (8-lead Small Outline) Mounting: Surface-mount (SMD) Tape & reel packaging (TP suffix) Applications Configuration storage Calibration data storage Data logging systems Industrial control systems Consumer electronics Embedded systems requiring non-volatile memory Advantages High endurance and long data retention Wide voltage range (ideal for mixed-voltage systems) Compact footprint High-speed I²C compatibility (up to 1 MHz) #commonpartslibrary #integratedcircuit #memory... show more7 Uses
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LM1881N/NOPB
Video Separator IC NTSC, PAL, SECAM 8-PDIP Package # LM1881N/NOPB Engineering Specifications **General Description** The LM1881N/NOPB is a precision video synchronization separator integrated circuit manufactured by Texas Instruments. It is designed to extract timing information from composite video signals and generate synchronization outputs required for video processing, display control, video capture, and television signal applications. The device separates composite sync, vertical sync, burst or back-porch timing, and odd/even field information from standard analog video formats. It operates with both monochrome and color composite video signals and is commonly used in video synchronization systems, frame grabbers, video overlays, video switching equipment, and display synchronization circuits. The integrated circuit simplifies video timing recovery by eliminating the need for complex discrete-component sync separation circuits. Its low-power bipolar architecture provides reliable operation across a wide range of video applications while maintaining accurate synchronization detection. **Engineering Specifications** **Manufacturer:** Texas Instruments **Manufacturer Part Number:** LM1881N/NOPB **Component Type:** Video synchronization separator integrated circuit **Function:** Composite video sync extraction and timing separation **Technology:** Bipolar analog integrated circuit **Video Signal Compatibility:** Composite video input **Supported Video Formats:** NTSC, PAL and SECAM composite video systems **Input Signal Type:** Composite video **Composite Sync Output:** Available **Vertical Sync Output:** Available **Burst or Back-Porch Output:** Available **Odd/Even Field Output:** Available **Synchronization Detection:** Automatic extraction of video timing signals **Power Supply Configuration:** Single-supply operation **Supply Voltage Range:** Wide operating voltage range suitable for video processing systems **Power Consumption:** Low-power operation **Output Configuration:** TTL and CMOS compatible synchronization outputs **Input Coupling:** AC-coupled composite video input **Noise Immunity:** High immunity to video signal disturbances and noise **Signal Processing Capability:** Composite sync, vertical sync and field identification extraction **Applications Compatibility:** Video displays, frame grabbers, video processors, video switching systems and synchronization controllers **Operating Temperature Range:** Commercial temperature range **Package Type:** Plastic dual in-line package **Package Configuration:** Through-hole mounting package **Pin Configuration:** Standard DIP package layout **Mounting Style:** Through-hole **Environmental Compliance:** Lead-free and RoHS compliant NOPB version **Reliability Features:** Stable synchronization extraction and accurate timing recovery **Typical Applications** Video synchronization circuits Video capture equipment Frame grabber systems Television signal processing Video overlay generators Video switching equipment Security and surveillance video systems Display synchronization controllers Industrial video monitoring equipment Embedded video processing systems #LM1881N #LM1881NNOPB #TexasInstruments #VideoSyncSeparator #CompositeVideo #VideoProcessing #EmbeddedSystems #SignalProcessing #FrameGrabber #VideoElectronics #AnalogIC #ElectronicComponents #EngineeringSpecifications #VideoSynchronization... show more0 Uses
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C2220C102JDGACTU
1000 pF ±5% 1000V (1kV) Ceramic Capacitor C0G, NP0 2220 (5750 Metric) KEMET high-voltage C0G MLCC surface-mount ceramic capacitor, temperature-compensating Class I dielectric, capacitance range from 1pF to 0.15µF, voltage ratings from 500V to 10kV, extremely low ESR and ESL, high ripple current capability, negligible capacitance shift with temperature and voltage, no piezoelectric noise, -55°C to +125°C operating temperature, RoHS/REACH compliant, suitable for resonant circuits, high-frequency power converters, snubbers, SiC/GaN wide-bandgap systems, timing and filtering applications. Search Keywords: KEMET high voltage C0G MLCC, KEMET C0G capacitor, high voltage MLCC, C0G ceramic capacitor, Class I MLCC, temperature compensating capacitor, low ESR MLCC, high frequency MLCC, snubber capacitor, resonant capacitor, SiC GaN capacitor, 500V MLCC, 1kV MLCC, 2kV MLCC, 3kV MLCC, 10kV MLCC Hashtags: #KEMETC0G #HighVoltageMLCC #C0GCapacitor #CeramicCapacitor #MLCC #ClassICapacitor #LowESRCapacitor #SnubberCapacitor #ResonantCapacitor #HighFrequencyCapacitor #SiCCapacitor #GaNCapacitor #500VCapacitor #1kVCapacitor #10kVCapacitor... show more0 Uses
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SLW-864574-5A-RA-N-D
Slide Switch SPDT Through Hole, Right Angle The SLW-864574-5A-RA-N-D, manufactured by Same Sky (formerly CUI Devices), is a single-pole double-throw (SPDT) slide switch with a right-angle, through-hole mounting configuration. It features a raised actuator for easy manual operation and is intended for PCB-based applications where space is limited but dependable switching is required. Key Features Switch Type: Slide switch (manual) Circuit Configuration: SPDT (Single Pole Double Throw) Switch Function: ON–ON (selects between two circuits) Contact Timing: Non-shorting (break-before-make) Mounting Type: Through-hole, right-angle Actuator: Raised slide, ~5 mm height Electrical & Mechanical Characteristics Rated Voltage: 50 VDC Rated Current: up to 500 mA Contact Resistance: ≤ 100 mΩ Insulation Resistance: ≥ 100 MΩ Operating Temperature: -20°C to +70°C Mechanical/Electrical Life: ~10,000 cycles Physical Characteristics Dimensions: approx. 8.6 × 4.5 × 6–7 mm Actuator Travel: ~2 mm Termination: PC pins (through-hole soldering) Orientation: Horizontal (right-angle insertion into PCB) #CommonPartsLibrary #Switch... show more13 Uses
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ES9082Q
Audio D/A Converter ICs SABRE 8 Channel Smart DAC with Line Drivers, ASP2, 7mmx7mm, 48-QFN The ES9082Q is a high-performance stereo digital-to-analog converter (DAC) developed by ESS Technology for premium audio applications requiring exceptional sound quality, low power consumption, and compact integration. It utilizes the patented HyperStream® architecture and Time Domain Jitter Eliminator technology to deliver highly accurate audio reproduction with ultra-low distortion and noise characteristics. The device supports high-resolution PCM and DSD audio formats, making it suitable for portable audio devices, USB DACs, digital media players, automotive infotainment systems, wireless audio products, and professional audio equipment. The ES9082Q integrates advanced digital filtering, low-jitter clock management, and flexible audio interface support while maintaining efficient power operation for battery-powered applications. Designed for compact embedded audio systems, the ES9082Q provides excellent dynamic range and signal fidelity while minimizing external component requirements. Its architecture enables high-quality playback performance across a wide range of consumer and industrial audio applications. Electrical Characteristics Supply voltage supports low-voltage digital and analog power domains optimized for portable and embedded applications. The device operates with low power consumption while maintaining high audio performance. Integrated power management supports efficient system-level implementation. Audio Performance The converter supports high-resolution stereo audio output with advanced oversampling and noise shaping technology. It delivers ultra-low total harmonic distortion plus noise performance and high dynamic range suitable for high-fidelity audio playback systems. PCM audio data rates support standard and high-resolution formats up to 32-bit depth with sampling frequencies extending to high-definition audio ranges. Native DSD playback capability is also supported for audiophile-grade applications. Digital Audio Interface The ES9082Q supports industry-standard serial audio interfaces including I²S, left-justified, and related digital audio communication protocols. Flexible master and slave clocking configurations enable compatibility with a wide variety of host processors and audio controllers. Integrated jitter suppression circuitry improves clock stability and minimizes timing-induced audio artifacts. Integrated Features The device incorporates digital interpolation filters, volume control functions, soft mute capability, and programmable audio processing features. Internal PLL and clock management circuitry reduce external timing component requirements. Built-in low-noise analog output stages simplify audio signal chain design and reduce overall PCB footprint. Package Information The ES9082Q is provided in a compact surface-mount package optimized for space-constrained audio products. The package supports automated assembly and high-density PCB layouts commonly used in portable and embedded systems. Typical Applications Applications include portable audio players, USB DAC modules, wireless speakers, automotive audio systems, headphones, digital amplifiers, embedded multimedia devices, smart home audio equipment, and professional audio playback systems. #commonpartslibrary #integratedcircuit #audioic #dac #stereodac #esstechnology #es9082q #highresolutionaudio #audiophile #digitalaudio #analogaudio #i2s #dsd #pcm #embeddedaudio #consumerelectronics #portableaudio #usbdac #hifi #signalprocessing #lownoise #lowdistortion #electronicsdesign #pcbdesign #hardwareengineering #electroniccomponents #semiconductor #mixedsignal #audioelectronics #soundquality... show more0 Uses
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ABM8G-24.000MHZ-18-D2Y-T
24 MHz ±20ppm Crystal 18pF 60 Ohms 4-SMD, No Lead The ABM8G-24.000MHZ-18-D2Y-T is a compact 24.000 MHz surface-mount quartz crystal from Abracon's ABM8G series, designed to provide a stable and accurate clock reference for digital electronic systems. Housed in a miniature 3.2 × 2.5 mm, 4-pad SMD package, it is optimized for space-constrained applications while delivering reliable frequency performance over a wide operating temperature range. This crystal is commonly used in microcontrollers, wireless modules, communication equipment, networking devices, industrial electronics, and precision timing circuits. It operates in the fundamental mode with an 18 pF load capacitance, making it suitable for a broad range of oscillator circuits. Key Features 24.000 MHz fundamental-mode quartz crystal Compact 3.2 × 2.5 × 1.0 mm 4-pad SMD package 18 pF load capacitance ±20 ppm frequency tolerance ±30 ppm frequency stability Maximum 60 Ω ESR Wide operating temperature range: −40°C to +85°C Glass-sealed ceramic package for high reliability Compatible with standard IR reflow soldering processes Low-profile design suitable for compact PCB layouts Ideal for embedded systems, communications, wireless devices, and clock generation applications. #Abracon #QuartzCrystal #24MHz #ABM8G #SMDCrystal #TimingDevice #ClockSource #EmbeddedSystems #WirelessElectronics #IndustrialElectronics #PCBDesign #ElectronicsComponents... show more12 Uses
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TPS16850VMAR
Hot Swap Controller 1 Channel General Purpose 23-LQFN-CLIP (6x5) The TPS16850VMAR is an automotive-grade integrated hot-swap and protection controller designed for robust power-path management in low-voltage DC systems. The device provides comprehensive protection features including overvoltage protection, undervoltage protection, reverse current blocking, inrush current control, overcurrent protection, and short-circuit protection. It is intended for applications requiring controlled power delivery and fault isolation in harsh electrical environments. The device integrates dual back-to-back MOSFET control to support bidirectional current blocking and safe power switching. Adjustable protection thresholds and timing parameters allow flexible system configuration for various power rail requirements. The TPS16850VMAR supports operation across a wide supply voltage range and is optimized for automotive and industrial systems requiring high reliability and transient immunity. The controller includes fault reporting and system status monitoring functions to support intelligent power management architectures. Soft-start capability minimizes inrush current during startup, reducing stress on connectors, power supplies, and downstream circuitry. Integrated thermal protection enhances system safety during abnormal operating conditions. The TPS16850VMAR is qualified for automotive applications and complies with AEC-Q100 requirements. The device is provided in a compact VQFN package suitable for space-constrained designs and high-density PCB layouts. Key Features Automotive-qualified hot-swap and eFuse controller Wide operating input voltage range Adjustable overvoltage and undervoltage protection Reverse current and reverse polarity protection Inrush current control with programmable soft-start Adjustable overcurrent and short-circuit protection Fault monitoring and reporting outputs Integrated thermal shutdown protection Back-to-back MOSFET control architecture Fast fault response and isolation Support for controlled power sequencing Designed for harsh automotive electrical environments AEC-Q100 qualified for automotive applications Compact VQFN surface-mount package Applications Automotive electronic control units Infotainment and telematics systems ADAS and camera modules Industrial power distribution Hot-swappable system power rails Battery-powered embedded systems Power-path management systems Protection for sensitive downstream electronics Electrical Characteristics Operates from low-voltage DC power rails Supports programmable protection thresholds Integrated current sensing and fault detection High transient immunity for automotive environments Low standby current operation Fast response to overload and fault conditions Mechanical Characteristics Surface-mount VQFN package Compact footprint for dense PCB layouts RoHS-compliant package construction Suitable for automated assembly processes Environmental and Reliability Specifications Automotive AEC-Q100 qualified Extended operating temperature range ESD protection on interface pins Designed for high-reliability applications Supports operation in electrically noisy environments #commonpartslibrary #integratedcircuit #powermanagement #hotswapcontrollers... show more40 Uses
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MAX-F10S-00B
u-blox MAX-F10S high-precision dual-band GNSS receiver module based on u-blox F10 technology, supporting simultaneous L1 and L5 GNSS signals with advanced multipath mitigation for meter-level positioning accuracy in urban environments. Features configurable 1PPS time pulse output (0.25Hz to 10MHz), 30ns RMS timing accuracy, operation up to 80,000m altitude and 500m/s velocity, designed for navigation, asset tracking, timing synchronization, industrial positioning and IoT applications. Search Keywords: MAX-F10S, u-blox MAX-F10S, F10 GNSS receiver, dual band GNSS module, L1 L5 GNSS receiver, high precision GPS module, u-blox F10, GNSS timing module, 1PPS GNSS receiver, GPS Galileo GLONASS BeiDou receiver, positioning module, navigation module Hashtags: #MAXF10S #uBlox #GNSS #GPSModule #DualBandGNSS #L1L5GNSS #GNSSReceiver #NavigationModule #PositioningModule #AssetTracking #TimePulse #1PPS #GPSReceiver #Galileo #BeiDou #GLONASS #HighPrecisionGNSS #uBloxF10... show more1 Use
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Si8271GBD-IS
4A Gate Driver RF Coupling 2500Vrms 1 Channel 8-SOIC Confirmed — this is a Skyworks (formerly Silicon Labs) Si827x-family isolated gate driver, single-channel, with deglitch and UVLO, in the "GBD" variant (3V UVLO threshold). Here's the spec. Engineering Specification — Si8271GBD-IS Manufacturer: Skyworks Solutions, Inc. (formerly Silicon Labs) Device Family: Si827x ISOdriver General Description The Si8271GBD-IS is a single-channel isolated gate driver integrated circuit manufactured by Skyworks Solutions, designed to drive power switching devices such as MOSFETs, IGBTs, and wide-bandgap SiC or GaN FETs in power conversion applications. The device uses Skyworks' proprietary silicon-based galvanic isolation technology rather than the optical isolation used in traditional optocoupler-based gate drivers, providing a more robust, longer-lasting, and more precisely matched isolation barrier between the low-voltage control circuitry and the high-voltage power switching stage. This isolation approach delivers several advantages over legacy optocoupler solutions, including significantly higher common-mode transient immunity, which allows the device to maintain reliable signal integrity even when subjected to the very fast voltage transients generated by high-speed switching in modern power converters. The device's high noise immunity prevents these switching-induced transients from corrupting the gate drive signal, eliminating a common failure mode in less robust isolated driver designs where fast edge rates can cause spurious switching or loss of control. The silicon isolation technology also provides tighter timing specifications, reduced timing variation across temperature and device lifetime, and better part-to-part matching than optocoupler-based alternatives, all of which contribute to more predictable and efficient power stage operation. The device includes an integrated de-glitch filtering circuit on its input, which screens out short noise spikes or unwanted transitions on the control input before they can be passed through to the gate drive output, improving overall system robustness in electrically noisy environments. Undervoltage lockout protection is built into the device, automatically disabling the gate drive output if the supply voltage falls below a safe operating threshold, protecting the driven power switch from being driven with insufficient gate voltage, which could otherwise lead to excessive conduction losses or device damage. The device also provides a dead-time programming feature, allowing designers to precisely tune the timing margin between switching transitions in half-bridge or similar topologies, helping to prevent shoot-through conditions while minimizing unnecessary dead time that would otherwise reduce converter efficiency. The Si8271GBD-IS operates from a wide input supply voltage range and supports drive voltages suitable for a broad range of gate drive requirements, making it adaptable to many different power switch types and converter topologies. It is built to operate reliably across a wide ambient temperature range, supporting use in demanding industrial, telecom, and renewable energy power conversion environments. The device is housed in a compact surface-mount package suited to dense power converter board layouts, and its construction reflects the long-life, high-reliability design philosophy that distinguishes silicon-isolation-based gate drivers from optocoupler-based alternatives. Spec Sheet Identification Part Number: Si8271GBD-IS Device Family: Si827x ISOdriver series Manufacturer: Skyworks Solutions (formerly Silicon Labs) Functional Classification Device Type: Single-channel isolated gate driver Isolation Technology: Proprietary silicon-based galvanic isolation Driven Device Types: MOSFETs, IGBTs, SiC FETs, GaN FETs Output Configuration: Separate pull-up/pull-down driver outputs Isolation & Noise Performance Isolation Withstand Voltage: High-voltage reinforced isolation rating per UL1577 and VDE0884 standards Common-Mode Transient Immunity (CMTI): High-performance CMTI rating for fast-switching robustness Input Filtering: Integrated de-glitch circuit for noise rejection Protection & Control Features Undervoltage Lockout (UVLO): Integrated UVLO fault protection with driver shutdown Dead-Time Control: Precision dead-time programmability via dedicated control pin Input Logic: TTL-level compatible input with wide noise-margin hysteresis Electrical Characteristics Input Supply Voltage Range: Wide-range low-voltage logic supply Drive Supply Voltage: Higher-voltage gate drive supply rail support Propagation Delay: Fast, tightly specified propagation timing Environmental & Qualification Operating Temperature Range: Extended industrial temperature range RoHS Compliance: Yes Lifecycle Status: Active production Package Package Type: Narrow-body small-outline surface-mount package (SOIC-8) Mounting: Surface mount technology (SMT) Packaging Format Supply Format: Tube or tape-and-reel packaging options #Si8271 #Si827x #Skyworks #SiliconLabs #IsolatedGateDriver #ISOdriver #GateDriverIC #MOSFETDriver #IGBTDriver #SiCFET #GaNDriver #PowerElectronics #GalvanicIsolation #CMTI #SOIC #SurfaceMount #SemiconductorIC #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant... show more0 Uses
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K104K15X7RF53H5
K104K15X7RF53H5 CAP-TH_L4.0-W2.6-P5.00-D0.5 LCSC Part Number: C1620174 JLCPCB Part Class: Extended Part Manufactured by VISHAY(威世) Vishay BCcomponents radial leaded multilayer ceramic capacitor (MLCC) series for automotive and high-reliability applications. Available with Class 1 (C0G/NP0) and Class 2 (X7R) dielectric materials, supporting rated voltages of 50V, 100V and 200V DC. Designed for stable capacitance, high temperature operation up to +160°C (depending on version), low loss, high reliability and AEC-Q200 automotive qualification. Radial through-hole construction with epoxy-coated body and tinned copper leads. Suitable for automotive electronics, industrial control systems, power supplies, filtering, decoupling, timing, resonant circuits and general-purpose high-reliability electronic designs. Search Keywords: Vishay radial MLCC, Vishay BCcomponents capacitor, automotive ceramic capacitor, radial ceramic capacitor, C0G capacitor, NP0 capacitor, X7R capacitor, AEC-Q200 capacitor, through-hole MLCC, radial multilayer ceramic capacitor, high reliability capacitor, 50V ceramic capacitor, 100V ceramic capacitor, 200V ceramic capacitor, automotive grade capacitor, Vishay ceramic capacitor Hashtags: #Vishay #BCcomponents #MLCC #CeramicCapacitor #RadialCapacitor #C0G #NP0 #X7R #AECQ200 #AutomotiveElectronics #ThroughHole #PassiveComponents #Capacitor #PowerElectronics #IndustrialElectronics #Filtering #Decoupling #HighReliability #ElectronicComponents #CircuitDesign... show more35 Uses
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DW01A
The DW01A is a compact single-cell lithium-ion/lithium-polymer battery protection IC designed to safeguard rechargeable batteries from unsafe operating conditions such as overcharge, overdischarge, overcurrent, and short circuits. It is widely used in battery packs, power banks, TP4056 charging modules, portable electronics, and IoT devices because of its low power consumption and minimal external component requirements. Key Features Single-cell Li-ion/Li-Po battery protection Overcharge protection (typically 4.3V) Overdischarge protection (typically 2.4V) Overcurrent and short-circuit protection Ultra-low quiescent current (~3µA typical) Very low standby/discharge current Drives external dual MOSFETs for charge/discharge control Internal delay timers for noise immunity No external timing capacitors required Compact SOT-23-6 package Wide operating voltage range Automatic recovery after fault removal Typical Applications 18650 battery protection boards Power banks Bluetooth devices Wearables Portable consumer electronics DIY battery-powered projects TP4056 charging modules with protection circuitry #CommonPartsLibrary #IntegratedCircuit #PowerManagement... show more657 Uses
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MCP3204-CI/SL
12 Bit Analog to Digital Converter 2, 4 Input 1 SAR 14-SOIC The MCP3204-CI/SL specification defines the engineering requirements for a multi-channel analog-to-digital converter integrated circuit designed to provide high-accuracy conversion of analog signals into digital data for embedded electronic systems. This specification establishes the functional, electrical, mechanical, thermal, environmental, and quality requirements necessary to ensure precise signal acquisition, reliable data conversion, and long-term operational stability. The device is intended for use in embedded control systems, industrial automation, instrumentation, data acquisition equipment, sensor interfaces, medical electronics, and portable devices requiring accurate analog signal measurement. It supports multiple analog input channels and serial digital communication, enabling efficient integration with microcontrollers and digital processing systems. Engineering Requirements The analog-to-digital converter shall be manufactured using qualified semiconductor fabrication processes and high-quality materials to ensure consistent conversion accuracy, low power consumption, and dependable long-term reliability. The device shall maintain stable operation under specified voltage, temperature, and environmental conditions. Electrical characteristics shall provide accurate analog-to-digital conversion with low noise, excellent linearity, and stable reference performance. The converter shall maintain repeatable sampling characteristics and consistent digital output while supporting reliable serial communication with compatible host controllers. The conversion architecture shall provide predictable sampling behavior, low conversion error, and reliable channel selection while maintaining signal integrity throughout the specified operating range. The device shall support continuous and intermittent data acquisition without degradation of conversion performance. Thermal performance shall support continuous operation within the specified junction temperature range while maintaining electrical characteristics and long-term 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, timing diagrams, application guidelines, qualification reports, inspection records, reliability data, 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 release to ensure continued compliance with design intent and applicable engineering standards. #EngineeringSpecification #AnalogToDigitalConverter #ADC #DataAcquisition #SignalConditioning #EmbeddedSystems #IndustrialElectronics #Semiconductor #QualityAssurance #EngineeringDocumentation... show more0 Uses
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