• SN74AHCT125PWR

    SN74AHCT125PWR

    Buffer, Non-Inverting 4 Element 1 Bit per Element 3-State Output 14-TSSOP

    jecstronic

    3 years ago

    25 Uses

    0 Stars


  • SN74LVC125ADT

    SN74LVC125ADT

    Buffer, Non-Inverting 4 Element 1 Bit per Element 3-State Output 14-SOIC #commonpartslibrary #integratedcircuit #buffer

    2 years ago

    12 Uses

    0 Stars


  • 74AHC1G125GV,125

    74AHC1G125GV,125

    Buffer, Non-Inverting 1 Element 1 Bit per Element 3-State Output SC-74A #commonpartslibrary #integratedcircuit #logicbuffer

    2 years ago

    12 Uses

    0 Stars


  • CD4010BE

    CD4010BE

    Buffer, Non-Inverting 6 Element 1 Bit per Element Push-Pull Output 16-PDIP #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver

    3 years ago

    21 Uses

    0 Stars


  • 74HC4050D,653

    74HC4050D,653

    Buffer, Non-Inverting 6 Element 1 Bit per Element Push-Pull Output 16-SO #commonpartslibrary #integratedcircuit #buffer

    a year ago

    8 Uses

    0 Stars


  • DAC80501MDGSR

    DAC80501MDGSR

    16 Bit Digital to Analog Converter 1 10-VSSOP The DAC80501MDGSR is a high-precision, single-channel digital-to-analog converter developed by Texas Instruments for industrial, instrumentation, and embedded control applications requiring accurate voltage output generation. The device integrates a low-drift voltage reference, precision output buffer, and serial peripheral interface communication into a compact low-power solution optimized for high-resolution signal generation. Designed for applications such as programmable power supplies, process control systems, automated test equipment, and sensor calibration, the device delivers excellent linearity, low noise performance, and stable output characteristics across varying environmental conditions. The integrated architecture minimizes external component requirements while maintaining high accuracy and long-term reliability. The converter supports rail-to-rail output operation and offers flexible reference configurations to accommodate different system architectures. Its SPI-compatible digital interface enables straightforward integration with microcontrollers, processors, and FPGA-based systems. Electrical Characteristics The device operates from a single analog supply and supports precision voltage output generation with monotonic performance across the full operating range. Integrated precision reference circuitry provides low temperature drift and stable output characteristics suitable for high-accuracy measurement and control systems. Low glitch energy, low offset error, and low gain error characteristics improve output stability during code transitions. The output amplifier is capable of driving moderate capacitive loads while maintaining signal integrity and settling performance. Interface and Control Communication is implemented through a high-speed SPI-compatible serial interface supporting standard synchronous digital communication protocols. The interface allows direct programming of DAC output codes and internal configuration registers. The device supports daisy-chain capable serial communication architecture for simplified expansion in multi-device systems. Internal registers provide control of reference operation, power management, and output configuration functions. Power Management The DAC80501MDGSR incorporates low-power operating modes intended for energy-sensitive applications. Integrated power-down functionality reduces current consumption during inactive system states while preserving configuration integrity. Internal circuitry is optimized for low quiescent current operation without compromising output precision or dynamic response performance. Package Information The device is supplied in a compact VSSOP surface-mount package suitable for space-constrained industrial and embedded designs. The package configuration supports automated assembly processes and standard PCB manufacturing techniques. Typical Applications Typical applications include industrial automation, programmable voltage sources, data acquisition systems, sensor simulation, instrumentation equipment, motor control systems, and precision calibration platforms. The device is particularly suitable for systems requiring stable and repeatable analog voltage generation with minimal external circuitry. #commonpartslibrary #integratedcircuit #analog #digital #converter

    2 months ago

    7 Uses

    0 Stars


  • ADXL345TCCZ-EP

    ADXL345TCCZ-EP

    Accelerometer X, Y, Z Axis ±2g, 4g, 8g, 16g 0.05Hz ~ 1.6kHz 14-LGA (3x5) The ADXL345-EP is an extended performance version of the ADXL345, which is a small, thin, ultralow power, 3-axis accelerometer with high resolution (13-bit) measurement at up to ±16 g. Digital output data is formatted as 16-bit twos complement and is accessible through either a SPI (3- or 4-wire) or I2 C digital interface. The ADXL345-EP is well suited for extended temperature range industrial and aerospace equipment. It measures the static acceleration of gravity in tilt-sensing applications, as well as dynamic acceleration resulting from motion or shock. Its high resolution (3.9 mg/LSB) enables measurement of inclination changes less than 1.0°. Several special sensing functions are provided. Activity and inactivity sensing detect the presence or lack of motion by comparing the acceleration on any axis with user-set thresholds. Tap sensing detects single and double taps in any direction. Freefall sensing detects if the device is falling. These functions can be mapped individually to either of two interrupt output pins. An integrated memory management system with a 32-level first in, first out (FIFO) buffer can be used to store data to minimize host processor activity and lower overall system power consumption. Low power modes enable intelligent motion-based power management with threshold sensing and active acceleration measurement at extremely low power dissipation. The ADXL345-EP is supplied in a small, thin, 3 mm × 5 mm × 1 mm, 14-lead, enhanced plastic package. Ultralow power: as low as 23 µA in measurement mode and 0.1 µA in standby mode at VS = 2.5 V (typical) Power consumption scales automatically with bandwidth User-selectable resolution from 10 to 13 bits 4 mg/LSB scale factor in all g ranges 32-sample FIFO minimizes host processor load Single tap, double tap, and free-fall detection Activity/inactivity monitoring Supply voltage range: 2.0 V to 3.6 V I/O voltage range: 1.7 V to VS SPI (3- and 4-wire) and I2C digital interfaces Flexible interrupt modes mappable to either interrupt pin Measurement ranges selectable via serial command Bandwidth selectable via serial command 10,000 g shock survival Pb free/RoHS compliant #commonpartslibrary #integratedcircuit #accelerometer

    2 months ago

    7 Uses

    0 Stars


  • CDCLVC1108PWR

    CDCLVC1108PWR

    Clock Fanout Buffer (Distribution) IC 1:8 250 MHz 16-TSSOP (0.173", 4.40mm Width) #CommonPartsLibrary #IntegratedCircuit #Clock/Timing #Buffer #Driver #CDCLVC1108

    3 years ago

    18 Uses

    0 Stars


  • CD4050BDR

    CD4050BDR

    Buffer, Non-Inverting 6 Element 1 Bit per Element Push-Pull Output 16-SOIC #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver #CD4050 #4000B

    2 years ago

    5 Uses

    0 Stars


  • 74LVC1G07GS,132

    74LVC1G07GS,132

    Buffer, Non-Inverting 5.5V 1 Element 1 Bit per Element Open Drain Output 6-XSON, SOT1202 (1x1) #commonpartslibrary #integratedcircuit #buffer #noninverting

    3 years ago

    6 Uses

    0 Stars


  • SN74LVC1G07DSF2

    SN74LVC1G07DSF2

    Buffer, Non-Inverting 1 Element 1 Bit per Element Open Drain Output 6-SON (1x1) #commonpartslibrary #integratedcircuit #buffer #noninverting

    3 years ago

    6 Uses

    0 Stars


  • ADN4624BRNZ

    ADN4624BRNZ

    5.7 kV RMS/1.5 kV RMS, Quad-Channel LVDS 2.5 Gigabit Isolator (0 Reverse Channels) LVDS Digital Isolator 5700Vrms 4 Channel 2.5Gbps 40kV/µs CMTI 28-BSSOP (0.295", 7.50mm Width) The ADN4624 is a quad-channel, signal isolated, low voltage differential signaling (LVDS) buffer that operates at up to 2.5 Gbps with very low jitter. The device integrates Analog Devices, Inc., iCoupler® technology, enhanced for high speed operation to provide drop-in galvanic isolation of LVDS signal chains. AC coupling and/or level shifting to the LVDS receivers and from the LVDS drivers allows isolation of other high speed signals such as current mode logic (CML). The ADN4624 includes a refresh mechanism to monitor the input and output states and ensure they remain the same in the absence of data transitions (for example, at power-on). For lower power consumption and high speed operation with low jitter, the LVDS and isolator circuits rely on 1.8 V supplies. The ADN4624 is fully specified over a wide industrial temperature range and is available in a 28-lead, wide-body, finer pitch SOIC_W_FP package with 8.3 mm creepage and clearance (for 5.7 kV rms or 8 kVPEAK surge and impulse voltages and reinforced insulation at ac mains voltages) or 6 mm × 6 mm LFCSP package with 1.27 mm creepage and clearance (for basic/functional isolation). FEATURES ► 5.7 kV rms and 1.5 kV rms LVDS isolators ► Complies with TIA/EIA-644-A LVDS signal levels ► Quad-channel configuration ► Any data rate up to 2.5 Gbps switching with low jitter ► 10 Gbps total bandwidth across four channels ► 2.15 ns typical propagation delay ► Typical jitter: 0.82 ps rms random, 40 ps total peak ► Lower power 1.8 V supplies ► ±8 kV IEC 61000-4-2 ESD protection across isolation barrier ► High common-mode transient immunity: 100 kV/μs typical ► Safety and regulatory approvals (28-lead SOIC_W_FP package) ► UL (pending): 5700 V rms for 1 minute per UL 1577 ► CSA Component Acceptance Notice 5A (pending) ► VDE certificate of conformity (pending) ► DIN V VDE V 0884-11 (VDE V 0884-11):2017-01 ► VIORM = 849 VPEAK (working voltage) ► Enable or disable refresh (low speed output correctness check) ► Operating temperature range: −40°C to +125°C ► 28-lead, wide-body, finer pitch SOIC_W_FP package with 8.3 mm creepage and clearance or 6 mm × 6 mm LFCSP package with 1.27 mm creepage and clearance APPLICATIONS ► Isolated video and imaging data ► Analog front-end isolation ► Data plane isolation ► Isolated high speed clock and data links ► Multi-gigabit serialization/deserialization (SERDES) ► Board-to-board optical replacement (for example, short reach fiber) #CommonPartsLibrary #ADN4624BRNZ #DigitalIsolator #LVDS #AnalogDevices #HighSpeedInterface #GalvanicIsolation #LVDSIsolator #DigitalIsolation #IndustrialElectronics #HighSpeedData #SERDES #SignalIntegrity #EmbeddedSystems #ElectronicsDesign #InterfaceICs

    a month ago

    0 Uses

    0 Stars


  • SN754410NE

    SN754410NE

    Half-H Driver 2 Element 2 Bit per Element 3-State Output 16-PDIP #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver #SN754410

    2 years ago

    3 Uses

    0 Stars


  • ADAQ7767-1BBCZ

    ADAQ7767-1BBCZ

    +/-24V PGA I/P 24-BIT 256KSPS DA The ADAQ7767-1BBCZ is a high-performance, precision data acquisition (DAQ) µModule® system from Analog Devices. It integrates a 24-bit sigma-delta analog-to-digital converter (ADC), signal conditioning, and essential analog front-end components into a compact package. Designed for high accuracy and ease of use, it significantly reduces design complexity, layout effort, and noise sensitivity in precision measurement systems. This device is optimized for applications requiring high resolution, low noise, and excellent DC performance, such as industrial automation, instrumentation, and test equipment. Key Features 24-bit resolution sigma-delta ADC Integrated analog front end (AFE) Low noise, high dynamic range performance Programmable gain amplifier (PGA) Wide input bandwidth Low drift and high linearity SPI-compatible serial interface Internal reference and buffer options Compact system-in-package (SiP) design Electrical Characteristics Resolution: 24 bits Sampling Rate: Up to 256 kSPS (depending on configuration) Input Type: Differential Input Voltage Range: ±VREF (dependent on configuration) Signal-to-Noise Ratio (SNR): ~108 dB (typical) Total Harmonic Distortion (THD): Low distortion performance Reference Voltage: Internal or external supported Power Requirements Analog Supply Voltage (AVDD): 4.5 V to 5.5 V (typical) Digital Supply Voltage (DVDD): 1.8 V to 3.3 V Power Consumption: Optimized for precision applications Interface Communication: SPI-compatible serial interface Data Output: Serial digital output Control: Register-based configuration Package Information Package Type: µModule® (BGA) Package Code: BBCZ Mounting Type: Surface mount Compact footprint for space-constrained designs Operating Conditions Operating Temperature Range: -40°C to +85°C (industrial grade) Storage Temperature Range: -65°C to +150°C Applications Industrial process control Data acquisition systems Precision instrumentation Test and measurement equipment Medical instrumentation Energy monitoring systems Advantages Reduces PCB design complexity Minimizes noise and parasitic effects Factory-optimized signal chain performance Faster time-to-market

    3 months ago

    1 Use

    0 Stars


  • OPA4391PWR

    OPA4391PWR

    Standard (General Purpose) Amplifier 4 Circuit Push-Pull, Rail-to-Rail 14-TSSOP The OPA4391PWR is a precision quad operational amplifier designed for low-noise, high-speed signal conditioning in a wide range of analog applications. It integrates four independent amplifier channels within a single compact package, making it suitable for space-constrained designs that require consistent performance across multiple signal paths. The device offers a combination of low offset voltage, wide bandwidth, and fast slew rate, enabling accurate amplification of both small and rapidly changing signals. It is commonly used in instrumentation, data acquisition systems, active filtering, and audio signal processing where stability and signal integrity are critical. Functional Overview The device consists of four matched operational amplifiers that share common power supply connections while maintaining independent signal paths. Each amplifier is capable of operating in standard configurations such as inverting, non-inverting, differential, and buffer modes. The architecture supports rail-to-rail output swing, allowing efficient use of the available supply voltage. Internal design optimization ensures low distortion and stable operation across a broad range of load conditions. Electrical Characteristics The OPA4391PWR is optimized for low input offset voltage and low input bias current, contributing to high accuracy in precision applications. It features wide gain bandwidth and a high slew rate, supporting fast transient response and high-frequency operation. The amplifier maintains low noise performance, making it suitable for sensitive analog front-end designs. Power consumption is balanced to provide efficient operation without compromising dynamic performance. Operating Conditions The device operates over a wide supply voltage range, supporting both single-supply and dual-supply configurations. It is designed to function reliably across an extended temperature range, ensuring consistent performance in varying environmental conditions. Proper decoupling and layout practices are recommended to maintain stability and minimize noise coupling. Package and Mechanical Characteristics The OPA4391PWR is provided in a compact surface-mount package suitable for automated assembly processes. The package is designed to facilitate efficient thermal dissipation and reliable electrical connections. Pin configuration allows straightforward integration into standard PCB layouts for quad operational amplifiers. Applications This device is intended for use in precision analog circuits including signal conditioning, sensor interfaces, active filters, audio amplification, and data acquisition systems. Its combination of low noise, high speed, and multi-channel integration makes it well-suited for both industrial and consumer electronics applications. Design Considerations Careful PCB layout is recommended to optimize performance, including short signal paths, proper grounding, and adequate power supply decoupling. Input and output traces should be routed to minimize interference and crosstalk between channels. Thermal management should be considered in high-performance or high-density designs to ensure long-term reliability. #commonpartslibrary #integratedcircuit #linearamplifier #opamp

    2 months ago

    2 Uses

    0 Stars


  • SN74LVC125AQDRQ1

    SN74LVC125AQDRQ1

    Buffer, Non-Inverting 4 Element 1 Bit per Element 3-State Output 14-SOIC #commonpartslibrary #integratedcircuit #buffer

    2 years ago

    2 Uses

    0 Stars


  • 74LVC8T245BQ,118

    74LVC8T245BQ,118

    Translation Transceiver 1 Element 8 Bit per Element 3-State Output 24-DHVQFN (5.5x3.5) #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver #74LVC8T245

    3 years ago

    12 Uses

    0 Stars


  • SN74LS244N

    SN74LS244N

    Buffer, Non-Inverting 2 Element 4 Bit per Element 3-State Output 20-PDIP #commonpartslibrary #integratedcircuit #logicbuffer

    2 years ago

    1 Use

    1 Star


  • AFE881H1RRUR

    AFE881H1RRUR

    2 Channel AFE 16 Bit 24-UQFN (4x4) The AFE881H1RRUR is a highly integrated analog front-end (AFE) designed for multi-channel data acquisition systems. It combines precision analog signal conditioning with high-speed analog-to-digital conversion, making it suitable for applications such as medical instrumentation, industrial measurement, and test and measurement equipment. The device integrates low-noise amplifiers, programmable gain stages, anti-aliasing filters, and high-resolution ADCs into a compact package, reducing system complexity and board space. Key Features Multi-channel analog front-end integration High-resolution analog-to-digital conversion Low-noise input stage for precision measurements Programmable gain amplifier (PGA) Integrated anti-aliasing filters High sampling rate capability Serial digital interface (SPI-compatible) Low power consumption for portable systems Compact surface-mount package Electrical Characteristics (Typical – refer to datasheet for exact values) Supply Voltage: ~1.8 V to 3.3 V (analog/digital domains) Input Voltage Range: Dependent on configuration Resolution: Up to 16-bit or higher (device dependent) Sampling Rate: Up to several MSPS (depending on mode) Power Consumption: Optimized for performance/power balance Functional Blocks Low-noise input buffer Programmable gain amplifier (PGA) Anti-aliasing filter High-speed ADC core Digital control interface (SPI) Clock management circuitry Package Information Package Type: QFN / VQFN (exact variant per TI RRU package code) Mounting Type: Surface Mount Pin Count: Typically 40+ pins (refer to datasheet for exact count) Applications Medical imaging and instrumentation Industrial data acquisition systems Oscilloscopes and test equipment Communication systems Precision sensor interfaces Advantages High integration reduces external components Improved signal integrity due to low-noise design Flexible configuration via programmable gain Compact footprint for dense PCB layouts Notes Exact electrical parameters, pin configuration, and performance metrics must be verified in the official Texas Instruments datasheet. Proper PCB layout (grounding, shielding, and decoupling) is critical for optimal performance. #commonpartslibrary #integratedcircuit

    3 months ago

    1 Use

    0 Stars


  • MC74VHCT125ADR2G

    MC74VHCT125ADR2G

    Buffer, Non-Inverting 4 Element 1 Bit per Element 3-State Output 14-SOIC #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver #74VHCT125

    2 years ago

    0 Uses

    0 Stars


  • CDCM1804RGET

    CDCM1804RGET

    Clock Fanout Buffer (Distribution), Divider, Multiplexer IC 1:3 800 MHz 24-VFQFN Exposed Pad #commonpartslibrary #integratedcircuit #clock #fanout #buffer

    2 years ago

    0 Uses

    0 Stars


  • CDCLVC1104PWR

    CDCLVC1104PWR

    Clock Fanout Buffer (Distribution) IC 1:4 250MHz 8-TSSOP (0.173", 4.40mm Width)#CommonPartsLibrary #IntegratedCircuit #Clock/Timing #Buffer #Driver #CDCLVC1104

    3 years ago

    13 Uses

    0 Stars


  • AD9513BCPZ

    AD9513BCPZ

    Clock Fanout Buffer (Distribution), Divider IC 1:3 800 MHz 32-VFQFN Exposed Pad, CSP #commonpartslibrary #integratedcircuit #clockbuffer

    3 years ago

    0 Uses

    0 Stars


  • 74LVC07APW,118

    74LVC07APW,118

    Buffer, Non-Inverting 6 Element 1 Bit per Element Open Drain Output 14-TSSOP #commonpartslibrary #integratedcircuit #buffer #nexperia

    2 years ago

    0 Uses

    0 Stars


  • SN754410NE

    SN754410NE

    Half-H Driver 2 Element 2 Bit per Element 3-State Output 16-PDIP #CommonPartsLibrary #IntegratedCircuit #Logic #Buffer #Driver #Receiver #Transceiver #SN754410

    2 years ago

    11 Uses

    0 Stars


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