MAX-M10S-00B
MAX-M10 RF Receiver BeiDou, Galileo, GLONASS, GPS, GNSS 1.561GHz, 1.575GHz, 1.602GHz -167dBm 921.6kbps Not Included Module The MAX-M10S-00B is a professional-grade, ultra-low-power GNSS positioning module from u-blox based on the u-blox M10 platform. It is designed for battery-powered applications such as asset trackers, wearables, IoT devices, and navigation systems. The module supports simultaneous reception of multiple GNSS constellations, providing high positioning availability, fast acquisition times, and excellent sensitivity even in challenging urban or weak-signal environments. It integrates a TCXO, LNA, and SAW filter to improve RF performance while maintaining very low power consumption. Key Features Multi-constellation GNSS receiver: GPS Galileo GLONASS BeiDou QZSS SBAS support (WAAS, EGNOS, MSAS, GAGAN) Concurrent tracking of up to four GNSS constellations for improved position availability and accuracy. Ultra-low power consumption: Approximately 25 mW in continuous tracking mode, making it ideal for battery-powered devices. High RF sensitivity: Tracking sensitivity up to −167 dBm for reliable operation in weak-signal conditions. High positioning accuracy: Typical position accuracy of approximately 1.5 m CEP under suitable conditions. Navigation update rate: Up to 10 Hz for responsive tracking applications. Integrated RF front-end: Built-in LNA (Low Noise Amplifier) Built-in SAW filter Integrated TCXO for stable operation. Supports Assisted GNSS services: AssistNow Online AssistNow Offline AssistNow Autonomous CloudLocate support for low-power IoT positioning. Communication interfaces: UART I²C NMEA and UBX protocols supported. Wide operating temperature range: −40°C to +85°C. Supply voltage: 1.76 V to 3.6 V. Typical Applications Asset tracking devices Wearable electronics Fleet management systems Industrial IoT Smart meters Drone and robotics navigation Personal navigation devices Timing and synchronization systems Package Information Package Type: Surface-mount LCC module Dimensions: 9.7 mm × 10.1 mm × 2.5 mm (typical module size) #Commonpartslibrary #RF #Wireless #RFreceivers #MAXM10S #uBlox #GNSS #GPS #Galileo #GLONASS #BeiDou #QZSS #NavigationModule #GNSSModule #GPSTracking #AssetTracking #IoT #IndustrialIoT #WearableTech #FleetManagement #DroneNavigation #EmbeddedSystems #ElectronicsDesign #PCBDesign #HardwareEngineering #LowPowerDesign #LocationTracking #Geolocation #RFDesign #LNA #SMTModule... show more265 Uses
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AS7341-DLGM
11-Channel Spectral Sensor Frontend The AS7341-DLGM is a multi-channel spectral sensor developed by ams OSRAM, designed for advanced color measurement, spectral analysis, and ambient light sensing applications. The device integrates multiple optical channels covering visible and near-infrared wavelengths, enabling precise detection of light characteristics across a broad spectrum. Its compact surface-mount package, integrated analog front-end, and digital processing capabilities make it suitable for consumer electronics, industrial instrumentation, smart lighting systems, display calibration, agricultural sensing, and portable analytical devices. The sensor features highly sensitive photodiodes combined with optical filters that allow accurate spectral discrimination. Communication is performed through a standard digital interface, facilitating integration with microcontrollers, embedded systems, and IoT platforms. The AS7341 supports configurable measurement modes, programmable gain control, and interrupt functions for efficient system-level implementation. Key Features Multi-channel spectral sensing architecture Visible and near-infrared light detection capability Integrated optical interference filters High-sensitivity photodiode array Ambient light sensing functionality Advanced color measurement and analysis Programmable gain and integration settings Digital output with I²C communication interface Low-power operating characteristics Integrated interrupt and event detection functions Compact surface-mount package Suitable for portable and battery-powered designs High accuracy across varying lighting conditions Supports spectral identification and classification applications Optimized for display, lighting, and environmental monitoring systems Applications Color measurement instruments Spectral analysis equipment Smart lighting control systems Display color calibration Industrial automation sensors Agricultural monitoring devices Ambient light sensing applications Consumer electronics Wearable devices IoT sensing platforms Scientific and laboratory instruments Optical monitoring systems Electrical and Functional Characteristics Multi-channel optical sensing engine Digital signal processing architecture Configurable integration timing Adjustable sensitivity and gain control Low-noise measurement performance High dynamic range operation Fast measurement response capability Integrated spectral filtering technology Embedded register-based configuration Interrupt-driven event monitoring support Mechanical Characteristics Compact surface-mount package PCB-friendly footprint RoHS-compliant construction Suitable for automated assembly processes Optimized optical window design #commonpartslibrary #sensor #opticalsensor #spectralsensor #colorsensor #ambientlightsensor #amsosram #embeddedsystems #industrialelectronics #iot #measurement #environmentalsensing #consumerelectronics #smartlighting #electronicsdesign... show more38 Uses
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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... show more0 Uses
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DS1023S
8-bit Programamble Delay Line / Timing Element, 5V supply, SOIC-16W package. Delay Line SOIC*W?7.5x10.3mm*P1.27mm*... show more0 Uses
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ADF5355BCPZ
IC 13.6GHz 1 32-WFQFN Exposed Pad, CSP #CommonPartsLibrary #IntegratedCircuit #CLOCK #Timing5 Uses
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