Showing results: 211 - 225 of 241 items found.
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IFB-10003-IWP -
Playing With Fusion Inc
CAN (Controller Area Network) communication has become ubiquitous in industry. It is used in automotive applications (part of OBD and many other datalinks), on-highway trucks (J1939), industrial machinery and instrumentation, and equipment applications (factory automation). This shield is designed to provide a CAN 2.0 front-end interface for 5V Arduino modules (Uno, Mega, etc). The module uses SPI to communicate to the Arduino, and requires an aditional chip select pin. An optional interrupt line to the MCP2515 and two LEDS are also provided. The chip select and interupt lines are selected via zero ohm resistors and have several configuration options for flexibility stacking additional shields. A set of stackable headers is included with this board, not installed. An optional on-board voltage regulator may be used to supply 7.5V to the Arduino's 'Vin' pin (which is regulated to 5V by the Arduino's on-board LDO). The CAN shield regulator supports a wide input range of 9V to 32V. This makes it possible to cleanly build a stand-alone CAN node (remote sensor) without the need for a separate Arduino power supply!
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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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Pickering Interfaces Ltd.
The Standard Voltage 78 Pin D-Type connector is used on PXI and LXI switching products to provide a medium density user connector solution. If you would like to develop your own cabling solutions, we offer mating connectors and connector hoods that allow you to create either your own cable based solutions, or a PCB header solution. Connector Blocks directly terminate the module connector and convert the connection to arrays of screw terminal blocks, or you can select to use a remote DIN rail mounted breakout to terminate the cables at the end of a cable assembly. You can also try our Cable Design Tool to graphically design a customized cable assembly.
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SEN-36001 -
Playing With Fusion Inc
Highly integrated breakout board for the ST Micro VL6180X Time of Flight (ToF) range finder sensor. This sensor has many uses in the robotics, cell phone and gesture recognition space. It has two programmable GPIO pins, and most importantly, measures absolute distance up to 100mm. The SEN-36001 includes a VL6180X IC centered between two 4-40 sized mounting holes with onboard 2.8V LDO and voltage translation to handle interface voltages from 3V to 5V. The board is interfaced via an I2C interface and all IC pins have been broken out to a 0.1" pin header. Example code for the Arduino platform is available below and includes code for both the proximity measurement and ambient light sensing capabilities.
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104i-COM-8SM Family -
Acces I/O Products, Inc.
The 104i-COM-8SM (PCI-104) family of multi-port, multi-protocol (RS-232, RS-422, RS-485), serial communication boards deliver up to eight high-speed serial communication ports for use in a wide variety of applications. The boards were developed for use by system integrators and manufacturers in the design of industrial and commercial systems. Based on the XR17D158, the boards have eight enhanced 16550 UARTs, each with a set of modem signals (CTS, RTS, RI, DTR, DSR, CD) in RS-232 mode. Each UART has both a 64 byte transmit and a 64 byte receive FIFO. Ports are accessed via two 40-pin IDC type right angle header connectors. 2 and 4-port versions are available, as well as RS-232 only models.
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USB Multilink ACP -
P&E Microcomputer Systems
P&E’s USB Multilink ACP is a debug probe which allows a PC/laptop access to JTAG/SWD on ARM Cortex devices from several manufacturers (see complete list below). It connects between a USB port on a Windows machine and the standard debug connector on the target. The product photos to the left of this page show how the headers can be accessed by simply flipping open the plastic case. Ribbon cables suitable for a variety of architectures are included. By using the USB Multilink ACP, the user can take advantage of the debug mode to halt normal processor execution and use a PC to control the processor. The user can then directly control the target’s execution, read/write registers and memory values, debug code on the processor, and program internal or external FLASH memory devices.
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EXC-1553PCMCIA/Px-1760 -
Excalibur Systems, Inc.
This credit card sized interface supports up to two dual redundant 1760 channels and is compatible with all common variations of MIL-STD-1760 providing a wide range of features normally found only on full size testers. Each channel of the EXC-1553PCMCIA/Px-1760 operates simultaneously as a Bus controller and/or multiple (up to 32) Remote Terminals, or as a Triggerable Bus Monitor. The card supports Checksum, SRQ bit and Header Words as well as error injection and error detection. The card’s small size and compatibility with notebook computers make it the perfect solution for performing system simulation of the MIL-STD-1553 bus, in the lab and in the field.The EXC-1553PCMCIA/Px-1760 card is supplied with C drivers, including source code, Merlin+ Windows software and may be used with Exalt, Excalibur’s Analysis and Laboratory Tools, a Windows monitoring application.
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Talon RTR 2755 -
Pentek, Inc.
- Designed to operate under conditions of shock and vibration- Records gigabit, 10-gigabit or 40-gigabit Ethernet streams- Removable shock- and vibration-resistant SSDs perform well in vehicles, ships and aircraft- TCP and UDP protocols- Copper or optical interfaces- Aggregate recording rates to 4.0 GB/sec- 4U short 19-inch rugged rackmount PC server chassis- Windows® Server 2016 workstation with high-performance Intel® Core™ i7 processor- Up to 122 terabytes of storage to NTFS RAID solid state disk array- Multiple RAID levels of 0, 1, 5, and 6- SystemFlow® GUI with Signal Viewer analysis tool- C-callable API for integration of recorder into applications- File headers include time stamping and recording parameters- Optional GPS time and position stamping- Optional 18�36 VDC power supply
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Talon RTR 2726A -
Pentek, Inc.
- Designed to operate under conditions of shock and vibration- Portable system measuring 16.0" W x 6.9" D x 13.0" H- Lightweight: just less than 30 pounds- Shock-and-vibration resistant SSDs perform well in vehicles, ships and aircraft- 200 MHz 16-bit A/Ds- 800 MHz 16-bit D/As- 80 MHz record and playback signal bandwidths- Recording & playback of IF signals up to 700 MHz- Real-time sustained recording rates of up to 3.2 GB/sec- Windows® workstation with high-performance Intel® processor- Up to 30.7 TB of SSD storage to NTFS RAID solid state disk arraySystemFlow® GUI with signal viewer analysis tool- File headers include time stamping and recording parameters- Optional GPS time and position stamping- Optional 18-36 VDC power supply
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PXIe-FC4 -
Avionics Interface Technologies
3U PXIe form factor will fit into any PXIe or hybrid slot - Supports Point-to-Point, Switched Fabric, and Arbitrated Loop topologies - Two independent Fibre Channel ports - Two SFP sockets accept fiber or copper transceivers - Each port supports 1, 2, and 4 Gbps speeds - Comprehensive decoding of FC-1, FC-2, and Upper Layer Protocol (ULP) frames - Triggering and Filtering - Error Injection on any Header or Payload Parameter - Data Capture to on-board memory or disk file - Live Capture and Current Value Monitoring - IRIG-B Time Code Encoder/Decoder for Data Correlation - In-line Port Configuration for Transparent Analyzer - Supports multiple ULPs including FC-AE-ASM, FC-AE-RDMA, FC-AE-1553, and FC-AV - Supports HS-1760E applications, including AS5653, AS5625, and AS5627fcXplorer Windows-based FC Simulator and Analyzer Test Software
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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.
