• TB010-508-02BE

    TB010-508-02BE

    CUI_TB010-508-02BE Manufacturer Recommendations CUI

    kaikwan

    3 years ago

    3 Uses

    0 Stars


  • PJ-320D-A

    PJ-320D-A

    HRO_PJ-320D-A HRO Electronics Co., Ltd. 5 mm Package None https://www.snapeda.com/parts/PJ-320D-A/HRO+Electronics+Co.%252C+Ltd./view-part/?ref=eda Manufacturer Recommendations B https://www.snapeda.com/parts/PJ-320D-A/HRO+Electronics+Co.%252C+Ltd./view-part/?ref=snap PJ-320D-A

    3 years ago

    4 Uses

    0 Stars


  • ESP32-MINI-1U-N4

    ESP32-MINI-1U-N4

    MODULE_ESP32-MINI-1U-N4 v1.2 Manufacturer Recommendations ESP32-MINI-1U-N4 2.55mm Espressif Systems

    2 years ago

    1 Use

    0 Stars


  • Original XBOX controller connector V2

    Original XBOX controller connector V2

    Trimmed version of the area used by the pads. It's recommended to use ENIG when producing this PCB to not ruin the XBOX's pins. These pads are only meant to be use if you're building an original xbox converter of any kind.

    2 years ago

    2 Uses

    0 Stars


  • Original XBOX controller connector

    Original XBOX controller connector

    It's recommended to use ENIG when producing this PCB to not ruin the XBOX's pins. These pads are only meant to be use if you're building an original xbox converter of any kind.

    2 years ago

    0 Uses

    1 Star


  • PAM8403DR

    PAM8403DR

    Amplifier IC 2-Channel (Stereo) Class D 16-SOP PAM8403 mini amplifier module The PAM8403DR is a filterless Class-D stereo audio amplifier IC manufactured by Diodes Incorporated, designed to deliver efficient, high-quality audio amplification in compact, battery-powered, and USB-powered consumer electronics. The device integrates two independent amplifier channels within a single integrated circuit, providing a complete stereo audio power amplification solution without requiring significant external passive components, making it one of the most widely used Class-D audio amplifier ICs in the consumer and embedded electronics market. AllDataSheet The Class-D amplification topology used in this device operates by switching the output stage rapidly between supply rail voltage states rather than linearly driving an analog output signal, resulting in significantly higher power conversion efficiency than traditional Class-AB amplifiers. This high efficiency means that the vast majority of the power drawn from the supply is delivered to the speaker loads rather than being dissipated as heat within the IC itself, which is critical in battery-powered applications where minimizing power consumption extends operating time, and in compact enclosures where thermal management is constrained. The filterless architecture allows the device to drive the speaker directly, requiring no low-pass output filters, thus saving system cost and PCB area. In conventional Class-D amplifiers, the high-frequency switching content in the output must be removed by a passive LC output filter before the signal can be applied to a speaker, adding component cost and board footprint. The PAM8403's filterless design achieves its output filtering effect through the natural inductance of the speaker voice coil itself, eliminating the external filter requirement entirely in most applications while maintaining low distortion and good audio fidelity. AllDataSheet The device incorporates protection circuitry to safeguard both itself and the connected speaker loads from fault conditions that can arise during normal use, including output short-circuit events, excessive junction temperature caused by high ambient temperature or heavy output loading, and supply voltage conditions outside the normal operating range. These protection features allow the device to recover automatically from transient fault conditions without damage or requiring manual reset, improving system reliability and reducing the risk of speaker or amplifier damage in consumer products. The device supports a wide range of load impedances, making it compatible with the majority of commonly used small speaker drivers found in portable electronics, desktop multimedia systems, educational devices, and embedded audio applications. Its wide supply voltage operating range makes it directly compatible with USB bus power, single-cell lithium-ion battery power, and regulated supply rails commonly found in embedded system designs. The PAM8403DR is supplied in a compact surface-mount small-outline package on tape-and-reel packaging suitable for automated assembly, with construction compliant to RoHS material restrictions. Note that DigiKey currently lists this part as obsolete, though the device remains available through other distribution channels. Spec Sheet Identification Part Number: PAM8403DR Device Family: PAM8403 Manufacturer: Diodes Incorporated Functional Classification Device Type: Stereo Class-D audio power amplifier IC Amplifier Topology: Class-D switching amplifier Number of Channels: Dual channel, stereo Output Architecture: Filterless, direct speaker drive Electrical Characteristics Supply Voltage Range: Wide-range supply, compatible with USB bus power and single-cell lithium battery rails Output Power Class: Low-watt stereo class, suitable for small speaker drivers Output Load Impedance: Compatible with standard small speaker load impedances Audio Quality: Low total harmonic distortion plus noise for high-quality sound reproduction Efficiency: High efficiency class-D conversion, low heat dissipation Protection Features Short-Circuit Protection: Integrated output short-circuit protection Thermal Shutdown: Automatic overtemperature protection with recovery Undervoltage Lockout: Supply undervoltage detection and output disable EMI Management Filterless Operation: Speaker voice coil inductance acts as output filter Optional EMI Mitigation: Ferrite bead filter on speaker traces recommended for long trace lengths to reduce high-frequency EMI radiation Environmental & Qualification Operating Temperature Range: Extended industrial range RoHS Compliance: Yes Lifecycle Status: Obsolete at DigiKey; available through alternate distribution channels Package Package Type: Small-outline IC package, SOP-style Mounting: Surface mount technology (SMT) Packaging Format Supply Format: Tape-and-reel #PAM8403 #PAM8403DR #DiodesIncorporated #ClassDAmp #AudioAmplifier #StereoAmp #FilterlessClassD #PowerAmplifier #AudioIC #CompactAudio #USBPowered #BatteryPowered #PortableAudio #EmbeddedAudio #ConsumerElectronics #SOIC #SurfaceMount #SemiconductorIC #EngineeringSpec #ComponentLibrary #CommonPartsLibrary #RoHSCompliant #commonpartslibrary #integratedcircuit #amplifier

    24 days ago

    142 Uses

    0 Stars


  • MAX44009EDT+T

    MAX44009EDT+T

    Optical Sensor Ambient I2C 6-UDFN Exposed Pad ## Engineering Specification ## General Description The **MAX44009EDT+T** is an Analog Devices / Maxim Integrated digital ambient light sensor designed for portable electronics, display brightness control, industrial sensors, embedded systems, and low-power optical sensing applications. It integrates an ambient light photodiode, signal conditioning, analog-to-digital conversion, and an I²C digital output interface in a compact surface-mount package. The device is suitable for systems requiring automatic brightness adjustment, low current consumption, and light measurement behavior that closely follows human-eye response. ## Device Identification Manufacturer Part Number: **MAX44009EDT+T** Manufacturer: **Analog Devices / Maxim Integrated** Product Series: **MAX44009** Device Category: **Sensor Integrated Circuit** Device Type: **Digital Ambient Light Sensor** Sensor Interface: **I²C Digital Output** Mounting Type: **Surface Mount** Package Type: **UTDFN-Opto / UDFN** ## Functional Description The device functions as a digital ambient light sensor that measures surrounding light intensity and reports the measurement through an I²C interface. It is designed to help electronic systems adjust display brightness, conserve power, improve user visibility, and respond to changes in lighting conditions. The integrated optical sensing and digital conversion circuitry reduce the need for external analog signal-conditioning components. ## Optical Sensing Description The sensor includes an on-chip photodiode with spectral response optimized to approximate human-eye sensitivity. It also incorporates infrared and ultraviolet blocking capability to improve ambient light measurement accuracy. The adaptive gain function automatically selects the appropriate measurement range, allowing the device to operate across very low-light and bright-light conditions. ## Electrical Description The **MAX44009EDT+T** operates from a low-voltage supply range and is optimized for ultra-low power consumption. It supports digital communication through an I²C interface and is suitable for battery-powered and energy-sensitive systems. Proper supply decoupling, pull-up resistor selection, and bus voltage compatibility should be considered during circuit design. ## Package and Mechanical Description The component is supplied in a compact surface-mount optical package suitable for space-constrained printed circuit board designs. The package is intended for placement where the optical sensing window has access to ambient light while maintaining proper mechanical protection from contamination, shadowing, and enclosure obstruction. ## Interface and Control Description The device communicates with a host microcontroller or processor through an I²C digital interface. The host can read ambient light data and configure device behavior through register-based communication. The selectable I²C addressing feature supports flexible integration in systems that may include multiple I²C peripherals. ## Mounting and Assembly Description The **MAX44009EDT+T** is intended for surface-mount PCB assembly using standard reflow soldering processes. PCB layout should follow the manufacturer’s recommended footprint and assembly guidance. The optical sensing area should remain unobstructed, clean, and aligned with the product enclosure opening or light pipe when used. ## Application Suitability The device is suitable for smartphones, tablets, notebooks, wearable electronics, handheld devices, display brightness control, industrial light sensing, smart home devices, battery-powered equipment, sensor modules, and embedded systems requiring digital ambient light detection. ## Design Considerations The design should account for sensor placement, optical window design, enclosure transparency, light pipe geometry, I²C bus pull-up values, supply voltage compatibility, ambient interference, temperature conditions, and contamination protection. The sensor should not be blocked by opaque materials or placed where shadows, reflections, or nearby LEDs may distort the measured ambient light level. ## Hashtags #commonpartslibrary #integratedcircuit #sensor #ambientlightsensor #digitalsensor #opticalsensor #analogdevices #maximintegrated #max44009 #max44009edt #i2csensor #lightmeasurement #brightnesscontrol #lowpowersensor #portableelectronics #displaycontrol #embeddedhardware #embeddeddesign #smdcomponent #surfacemount #utdfnpackage #uDFNpackage #pcbdesign #hardwaredesign #electronicscomponents #electronicparts #componentlibrary #engineeringparts #electronicsengineering

    a month ago

    9 Uses

    0 Stars


  • ADC0804LCN/NOPB

    ADC0804LCN/NOPB

    # ADC0804LCN/NOPB Engineering Specifications **General Description** The ADC0804LCN/NOPB is a CMOS successive-approximation analog-to-digital converter manufactured by Texas Instruments. It converts a differential analog input signal into an eight-bit digital output and is designed for direct connection to microprocessors through a parallel data interface. The device uses a differential potentiometric-ladder architecture to improve common-mode rejection and allow the analog zero-input level to be offset. Its adjustable reference input permits smaller analog voltage spans to use the converter’s full resolution. Tri-state output latches allow direct connection to a processor data bus without additional interface logic. The converter can operate as a microprocessor-controlled device or as a standalone, free-running converter. An integrated clock generator allows operation using an external resistor-capacitor network, although an external clock signal may also be used. **Engineering Specifications** **Manufacturer:** Texas Instruments **Manufacturer Part Number:** ADC0804LCN/NOPB **Component Type:** Analog-to-Digital Converter **Converter Architecture:** Successive Approximation Register **Resolution:** Eight bits **Number of Channels:** One **Input Configuration:** Differential analog input **Analog Input Range:** Zero volts to five volts with a five-volt supply **Supply Voltage Range:** Four and one-half volts to six and three-tenths volts **Typical Supply Voltage:** Five volts **Reference Type:** External, supply-based or ratiometric reference **Reference Input:** Adjustable VREF divided-by-two input **Digital Interface:** Eight-bit parallel interface **Microprocessor Compatibility:** Directly compatible with common eight-bit microprocessors **Conversion Time:** Approximately one hundred microseconds **Maximum Sampling Rate:** Approximately ten kilosamples per second **Total Unadjusted Error:** Plus or minus one least significant bit **Digital Outputs:** Latched tri-state outputs **Logic Compatibility:** TTL and MOS-compatible inputs and outputs **Clock Configuration:** Integrated clock generator with external resistor-capacitor timing or external clock input **Operating Modes:** Processor-controlled, standalone or continuous free-running operation **Operating Temperature Range:** Zero degrees Celsius to seventy degrees Celsius **Package Type:** Twenty-pin plastic dual in-line package **Mounting Style:** Through-hole mounting **Package Width:** Standard three-tenths-inch DIP format **Environmental Classification:** Lead-free and RoHS-compliant NOPB version **Lifecycle Status:** Obsolete and generally not recommended for new production designs **Typical Applications** Suitable for sensor signal conversion, temperature-monitoring systems, voltage measurement, transducer interfaces, embedded control systems, laboratory equipment, educational electronics projects and general-purpose data-acquisition circuits. #ADC0804LCN #ADC0804 #TexasInstruments #AnalogToDigitalConverter #ADC #DataAcquisition #EmbeddedSystems #ElectronicsEngineering #IntegratedCircuit #MicrocontrollerProjects #ElectronicComponents 8 Bit Analog to Digital Converter 1 Input 1 SAR 20-PDIP https://mm.digikey.com/Volume0/opasdata/d220001/medias/docus/721/ADC080x.pdf

    a month ago

    0 Uses

    0 Stars


  • SPM7054VT-150M-D

    SPM7054VT-150M-D

    TDK SPM7054VT-150M-D shielded wirewound power inductor, 15µH inductance, ±20% tolerance, 4.5A temperature-rise current, 5.0A saturation current at 20% inductance drop, 54.8mΩ typical DC resistance, metal composite magnetic core, AEC-Q200 qualified, -55°C to +155°C operating temperature, vibration resistant up to 30G, compact 7.5 x 7.0 x 6.4mm SMD package, suitable for automotive power circuits, LED, ECM, ADAS and BCM applications. Search Keywords: SPM7054VT-150M-D, TDK SPM7054VT-150M-D, SPM7054VT 150M, SPM7054VT-150M, TDK 15uH inductor, 15uH shielded inductor, 15uH power inductor 4.5A, 15uH 54.8mOhm inductor, metal composite inductor, automotive power inductor, AEC-Q200 inductor, SPM7054VT series, TDK SPM7054VT, shielded wirewound inductor, SMD power inductor 7054 Hashtags: #SPM7054VT150MD #SPM7054VT #TDKSPM7054VT #TDKInductor #15uHInductor #PowerInductor #ShieldedInductor #WirewoundInductor #MetalCompositeInductor #SMDInductor #AutomotiveInductor #AECQ200Inductor #4A5Inductor #54mOhmInductor #7054Inductor #ECMInductor #ADASInductor #BCMInductor20200702 Manufacturer Recommendations 5.4 mm TDK

    a month ago

    4 Uses

    0 Stars


  • MJ-63022B

    MJ-63022B

    6.35mm (0.250", 1/4") - Headphone Phone Jack Mono Connector Solder 6.35mm mono jack PCB The MJ-63022B is a right-angle, through-hole mounted 6.35 mm mono audio jack connector manufactured by Same Sky (formerly CUI Devices). The component is designed for PCB-mounted audio signal applications requiring a durable female phone jack interface with an internal switching mechanism. The connector supports mono audio transmission and is suitable for consumer, industrial, and embedded electronic systems where compact horizontal mounting is required. Mechanical Specification Connector type: Audio phone jack, female receptacle Audio standard: 6.35 mm (1/4 inch) mono Mounting orientation: Horizontal / right angle Mounting method: Through-hole PCB mount Number of conductors: 2 Number of contacts: 3 Internal switch configuration: Single switch / tip switch Thread size: M12 Mating depth: 31.00 mm Body color: Black Shielding: Unshielded Housing material: Polybutylene Terephthalate (PBT) Contact material: Phosphor bronze Contact plating: Silver Electrical Specification Rated voltage: 12 VDC Current rating: 1 A Signal type: Mono audio Termination type: Solder Environmental Specification Operating temperature range: -25 °C to +70 °C RoHS compliance: RoHS3 compliant REACH status: REACH unaffected Functional Features Supports standard 6.35 mm mono audio plugs Provides PCB space savings through right-angle orientation Integrated internal switch enables signal routing or detection functionality Designed for repeated insertion and removal cycles in audio applications Recommended Applications Audio amplifiers Musical instrument equipment Embedded audio systems Industrial control interfaces Consumer electronics audio input/output systems #commonpartslibrary #connector #headphone #jack

    2 months ago

    84 Uses

    0 Stars


  • ESP32-S3-WROOM-2-N16R8V

    ESP32-S3-WROOM-2-N16R8V

    2.4 GHz Wi-Fi (802.11b/g/n) and Bluetooth® 5 module Built around ESP32-S3 series of SoCs, Xtensa® dual-core 32-bit LX7 microprocessor Flash up to 32 MB (Octal), PSRAM up to 16 MB (Octal) 33 GPIOs, rich set of peripherals On-board PCB antenna1.0 Espressif Manufacturer Recommendations 3.25mm ESP32-S3-WROOM-2-N32R8V

    2 months ago

    7 Uses

    0 Stars


  • LM393N

    LM393N

    Comparator Standard (General Purpose) Open-Collector, Rail-to-Rail 8-PDIP The LM393N is a dual independent voltage comparator designed for operation from a single power supply over a wide range of voltages. It can also operate from split power supplies, allowing flexible integration into analog and mixed-signal systems. Each comparator features high gain and low input offset voltage, enabling precise comparison between two input signals. The device is optimized for low power consumption and supports open-collector outputs, making it suitable for interfacing with a variety of logic families and external circuits. Its robust design allows reliable performance across a broad temperature range, making it appropriate for industrial, automotive, and consumer applications. Functional Overview The device contains two separate comparators sharing a common power supply. Each comparator compares the voltage at its inverting and non-inverting inputs and drives the output transistor accordingly. The open-collector output stage allows wired-OR configurations and easy level shifting using an external pull-up resistor. When the non-inverting input voltage exceeds the inverting input voltage, the output transistor turns off, allowing the output to be pulled high externally. When the inverting input is higher, the transistor conducts and pulls the output low. Electrical Characteristics The LM393N operates over a wide supply voltage range and exhibits low input bias current and low input offset voltage, contributing to stable and accurate performance. The input common-mode voltage range includes ground, enabling ground-referenced sensing. The output stage is capable of sinking current sufficient to drive loads such as LEDs, relays (with appropriate buffering), or logic inputs. The device is designed for low supply current, supporting energy-efficient designs. Input and Output Behavior Inputs are high impedance and suitable for direct connection to sensors, reference voltages, or signal conditioning networks. The output requires an external pull-up resistor to define the high logic level. This configuration allows flexibility in selecting output voltage levels independent of the supply voltage, within device limits. The open-collector structure also supports multiple outputs connected together for logical operations. Thermal and Environmental Conditions The device is specified for operation across a wide temperature range, ensuring stable functionality under varying environmental conditions. Proper thermal management and adherence to recommended operating conditions ensure long-term reliability. Packaging and Pin Configuration The LM393N is typically provided in a dual in-line package suitable for through-hole mounting. The pin configuration supports two independent comparator channels, each with inverting input, non-inverting input, and output, along with shared power supply and ground connections. Applications The LM393N is suitable for voltage level detection, threshold sensing, zero-crossing detection, oscillator circuits, pulse generation, and analog-to-digital interfacing. It is commonly used in power management systems, battery monitoring, signal conditioning, and embedded control systems. Design Considerations External components such as pull-up resistors, input filtering networks, and hysteresis feedback may be required depending on the application. Careful layout and noise considerations improve performance in high-sensitivity circuits. The open-collector output requires proper configuration to ensure correct logic levels and switching behavior. #commonpartslibrary #integratedcircuit #comparator

    2 months ago

    26 Uses

    0 Stars


  • L3GD20

    L3GD20

    [Not recommended for new designs] 16-bit 3 Axis Digital MEMS Gyroscope, LGA-16 3-Axis MEMS Gyroscope LGA*4x4mm*P0.65mm*LayoutBorder4x4y*

    0 Uses

    0 Stars


  • SJ-63073E

    SJ-63073E

    CUI_SJ-63073E CUI Devices 15.7mm Manufacturer Recommendations 1.0

    4 years ago

    0 Uses

    0 Stars


  • KXTJ3-1057

    KXTJ3-1057

    KIONIX_KXTJ3-1057 4.0 KIONIX Manufacturer Recommendations Aliases: undefined

    5 years ago

    0 Uses

    0 Stars


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