Showing results: 1621 - 1635 of 3348 items found.
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K8214B -
Keysight Technologies
Keysight’s Silicon Nails feature enables all the tools required to develop and execute tests on non-compliant boundary scan devices that are connected to boundary scan compliant devices on the printed circuit board.
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K8214A -
Keysight Technologies
Keysight’s Silicon Nails feature enables all the tools required to develop and execute tests on non-compliant boundary scan devices that are connected to boundary scan compliant devices on the printed circuit board.
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ELMA Electronic, Inc.
To support the full need of the application Elma offers a comprehensive range of system level accessories to include: I/O solutions, HMI Displays, System/Power Management, Test/Development Boards, and Mechanical Mounting products.
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116FFE6018-012XR -
ELMA Electronic, Inc.
the VME form factor extender 6U 180 mm with P0 allows to adapt boards for use in the same VMEbus system. It maintain the correct depth dimensions and allow the front panel to be aligned.
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TCC 1800-UE -
TEST-OK BV
The TCC1800-UE Test Controller Card is a generic control board for production testing of printed circuit boards (PCBs). The board is controlled by a command language on a PC to which it is connected via Ethernet.The TCC1800-UE is designed to work with positive voltages up to 24V. The card provides extensive IO: Analog and digital interfacing, counters, PWM outputs, bidirectional I/O, ethernet-, CAN, USB, SPI and I2C interfacing.
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MikroElektronika D.O.O.
Magnetic Rotary 3 Click is a compact add-on board for accurate magnet-position sensing. This board features the AS5147, an SPI-configurable high-resolution rotary position sensor for fast absolute angle measurement over a full 360-degree range from ams AG. The AS5147 position sensor suppresses the influence of any homogenous external stray magnetic field, equipped with a revolutionary integrated dynamic angle error compensation (DAEC™) with almost zero latency. It also comes with onboard headers reserved for incremental and commutation signals of their respective A/B/I and U/V/W signals alongside embedded self-diagnostics, including magnetic field strength too high, magnetic field strength too low or lost magnet, and other related diagnostic features. This Click board™ has been designed to support BLDC motor commutation for the most challenging automotive applications.
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CAPA843 -
Axiomtek Co., Ltd.
The CAPA843, a fanless 3.5-inch embedded board, features quad-core Intel® Celeron® processor J1900 SoC (codename: Bay Trail). A pair of SO-DIMM sockets supports up to 8GB of DDR3L 1066/1333MHz RAM. The compact size embedded board CAPA843 was designed with emphasis on expandability, offering two full-size PCI Express Mini Card slots, as well as an exclusive Axiomtek ZIO connector. With excellent thermal design, the 146 x 102mm embedded SBC can handle operating temperatures from -20°C to 70°C, and runs on +10V to +24V DC input. The 3.5” fanless embedded board provides three display interfaces with dual-display operation: HDMI, LVDS and VGA. The Axiomtek CAPA843 is an excellent choice for applications in IoT/M2M-related, industrial control, self-serve terminal, gaming, digital signage, POS, and kiosk.
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SEN-36003 -
Playing With Fusion Inc
Highly integrated breakout board for the ST Micro VL53L0X Time of Flight (ToF) range finder sensor, which builds on the absolute ranging technology introduced with the VL6180X. The VL53L0X drops the ambient light sensing capability of it's predecessor for a 10X improvement in absolute ranging capability, bringing the maximum possible range to 2 meters! As a result, this sensor has even more uses in the robotics, cell phone and gesture recognition space. The SEN-36003 includes the VL53L0X IC mounted between two 4-40 sized mounting holes with on board 2.8V LDO and high-speed signal translation to handle interface voltages from 3V to 5V. The board is interfaced via an I2C interface and function pins have been broken out to a 0.1" pin header. All pins are translated to allow interfacing with any microcontroller in the 3V to 5V operating range.
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SEN-36004 -
Playing With Fusion Inc
Fully integrated carrier board designed to get the most out of the TMD37003 cRGB (color with IR compensation) and Proximity Sensor from AMS. This means that the board includes a 1.8V-5V input range LDO and high-speed signal voltage translation on all IO pins. In addition, we've added a high output white LED that is tuned to the light temperature range of the TMD37003 IC. This makes sensing color of close-proximity objects possible, such as in robotic color sorting operations. As on many of our boards, we've included 4-40 sized mounting holes to make installation easy. The IC functions are interfaced via a 0.1" header, which includes power (Vdd and GND), I2C interface (again, fully translated) and a 3.3V input to power the proximity (IR) LED. The on-board LED is turned on with a logic 'HIGH' applied to the LED pin and is powered with Vdd.
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Model 2307 -
ICS Electronics
* 2307 Board provides 32 digital I/O lines, 4 analog outputs, 6 analog inputs, 6 relay driver outputs and 4 temperature inputs.* Firmware supports ASCII command strings, Addressed commands for RS-485 networks and packet protocol. * Operates as a RS-232 as a RS-485 to Data Acquisition Board. * DE-9 connector has both RS-232 and RS-485 signals.* SCPI commands and IEEE 488.2 compatibility provide GPIB like operation over the serial link. * Runs on 5 Vdc power.
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ACS723 (Low Current) -
SparkFun Electronics
The low current version of the SparkFun Current Sensor Breakout is a high accuracy board that utilizes the ACS723 for low to moderate AC and DC current sensing applications. The ACS723 sensor uses a Hall effect sensor to output a voltage relative to the current flowing through the IP+ and IP- pins on the board. The advantage of using a Hall effect sensor, specifically, is that the circuit being sensed and the circuit reading the sensor are electrically isolated meaning that, although your Arduino is running on 5V, the sensed circuit can be operating at higher DC or AC voltages!
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SparkFun Electronics
The SparkFun MicroMod Teensy Processor leverages the awesome computing power of the NXP iMXRT1062 chip and pairs it with the M.2 MicroMod connector to allow you to plug it into your choice of compatible MicroMod Carrier Board. With the M.2 MicroMod connector, connecting your Teensy Processor is a breeze. Simply match up the key on your processor's beveled edge connector to the key on the M.2 connector and secure it with a screw (included with all Carrier Boards). Adding a Teensy to your desired project has never been easier!
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ISL29125 -
SparkFun Electronics
If you’ve had ideas for a project that depends on the ability to sense different spectrums of visible light and react based on those measurements, the ISL29125 breakout board may be just what you need. The ISL29125 breakout board makes it very easy to sense and record the light intensity of the general red, green, and blue spectrums of visible light while rejecting IR from light sources. You can then use these color sensor readings for the purposes of logging and finding patterns, or creatively calculate and make control decisions in your electronic projects.
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Model 78611 -
Pentek, Inc.
Model 78611 is a member of the Cobalt® family of high performance PCIe boards based on the Xilinx Virtex-6 FPGA. A multichannel, gigabit serial interface, it is idealfor interfacing to Serial FPDP data converter boards or as a chassis-to-chassis data link. The 78611 is fully compatible with the VITA 17.1 Serial FPDP specification. Its built-in data transfer features make it a complete turnkey solution. For users who require application-specific functions, the 78611 serves as a flexible platform for developing and deploying custom FPGAprocessing IP
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APCI-3003 -
TEAM SOLUTIONS, INC.
With the new fast A/D converter board APCI-3003, the user can achieve high data transfer rates by a simultaneous conversion of 4 channels at once. The board has 4 differential input channels. Each channel has its own A/D converter. The transfer rate can be set in a flexible way from 100 kHz for each channel, when 16 channels are set, to 400 kHz for each channel, when 4 channels are set. All 4 channels are optically separated from each other up to 500 V.