Showing results: 1171 - 1185 of 3398 items found.
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SEN-30103-J0 -
Playing With Fusion Inc
Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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SEN-30103-J1 -
Playing With Fusion Inc
Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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SEN-30103-K0 -
Playing With Fusion Inc
Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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SEN-30103-K1 -
Playing With Fusion Inc
Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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SEN-39001 -
Playing With Fusion Inc
Breakout board for the AS3935 digital lightning sensor based on the AMS reference design. Includes specially tuned antenna, SPI or I2C interfacing, and a wide 2.4V to 5.5V standard operating range. This innovative sensor is designed to interface with most current development systems and boards, including all current Arduino modules. The breakout board features an inductor (antenna) specially designed for this application, and the board ships fully calibrated. This ensures that you don't have to write a massive back-end to support low-level IC calibration, just focus on your final application!
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PicoZed Family -
AVNET
Computer on Modules and System on Modules are complete embedded computers with a computer processor, chipset, memory, and peripherals designed into a single board with a small footprint. They integrate the complete functions of a computer in to a single module. Both COMs and SOMs are types of single board computers except the fact that both of these are required to be mounted on a carrier board/base board which breaks the bus out to standard peripheral connectors as COM/SOM lacks the standard connectors for any input/output peripherals to be attached directly to the board. Carrier boards can implement special I/O interfaces, additional memory devices, and connectors according to the application requirements. COM examples include COM-Express Basic, COM-Express Compact, COM-Express Mini, QSeven, ETX etc. SOM examples are NOVSOM, MitySOM, and SOM CM7120 etc.
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AdvancedTCA® CO1 -
Comtel Electronics
The AdvancedTCA® CO1, 1-slot chassis, DC version is an entry card into the ATCA world. It allows to build dedicated applications based on a single front board or to do bring-up / debugging of a front board in a lab environment.
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K8212B -
Keysight Technologies
Boundary scan is a method for testing interconnections on printed circuit boards. Keysight’s Interconnect Plus Boundary Scan feature enables all the tools required to develop and execute this foundational test method on the board under test.
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K8212A -
Keysight Technologies
Boundary scan is a method for testing interconnections on printed circuit boards. Keysight’s Interconnect Plus Boundary Scan feature enables all the tools required to develop and execute this foundational test method on the board under test.
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SKU-066-0X -
Amfeltec Corp.
Flexible MiniPCI Express to MiniPCI Bus Adapter (Adapter) was designed to convert motherboard MiniPCI Express bus into a standard MiniPCI bus. It allows connection of a standard 124-pin MiniPCI add-in board to a motherboard’s MiniPCI Express connector via full- or half-size MiniPCI Express host board.Adapter includes MiniPCI Adapter board, MiniPCI Express host board and flat PCI Express Cable.
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Arduino llc
The MKR Family is a series of boards, shields & carriers that can be combined to create amazing projects without any additional circuitry. Each board is equipped with a radio module (except MKR Zero), that enables Wi-Fi, Bluetooth®, LoRa®, Sigfox, NB-IoT communication. All boards in the family are based on the Cortex-M0 32-bit SAMD21 low power processor, and are equipped with a crypto chip for secure communication.
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IMPS-4400 -
Sensortech Systems, Inc.
The Sensortech Instant Moisture Profiling System (IMPS-4400) is a non-contact RF moisture profiling system for board manufacturers to improve and optimize production processes and meet quality standards, reduce energy costs, increase productivity, and generate revenue. The IMPS-4400 utilizes radio frequency antennas to analyze board moisture characteristics below the surface, which is critical information to ensure consistent quality of finished boards.
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NIT Laboratory
NITOS team has made mobile nodes using "iRobot Create" with a custom designed tray to hold the system board. The board is an "Alix Board" of "PC Engines" company . Commands are sent to the robot over a serial port and the whole system is powered from the robot's battery. The upward facing camera is used to recognise specific patterns on the ceiling, which help the robot navigate around the room.
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