SPI
assures volume and area of paste application.
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MIPI I3C Sensor Controller
I3C
The main purpose of MIPI I3C is to standardize sensor communication, reduce the number of physical pins used in sensor system integration and support low-power, high-speed and other critical features supported by I2C and SPI.
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Gyroscope Module 3-Axis L3G4200D
27911
The Gyroscope Module 3-Axis L3G4200D provides raw angular rate and temperature data measurements that are accessed from the selectable digital I2C or SPI interface. The small package design and SIP interface accompanied by the mounting hole make the sensor easy to integrate into your projects. Designed to be used with a variety of microcontrollers, the module has a large operating voltage window.
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Arduino CAN Shield
IFB-10003-ANP
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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Micsig Smart Oscilloscope
STO1000C/E
Shenzhen Micsig Instruments Co., Ltd.
*Up to 70Mpts memory depth, Zoom into a selected part of the captured waveforms to get more details. *Support serial triggering and decode (I2C, SPI, RS232/UART,CAN, LIN) and Aerospace and defence (MIL-STD 1553, ARINC 429). Two formats to display decoding, text and graphic.
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Voltage Output D/A Converters
Analog Devices offers a large family of resistor string and R-2R voltage output (VOUT) D/A converters (DACs). From 8 bits up to 20 bits of resolution, single to 40 channels, integrated or external reference, parallel, LVDS, serial SPI or I2C interface, with high temperature operation, we have a D/A converter to suit your application. We provide precision, buffered, and unbuffered rail-to-rail VOUT D/A converters with up to ±1 LSB INL and DNL specifications and excellent offset and gain error. Our D/A converters work well in a wide variety of open-loop or closed-loop systems—adjusting gain, offset, and many other signals.
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72 channel FPGA Logic Module
XLM72
XLM72 is a FPGA based logic module with 72 I/O ports. Featuring two 64 Mbit SPI (Serial Peripheral Interface) memories, from one of which its FPGA boots upon power-up, complex logic operations can be programmed and saved on-board.
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ARINC 429 Card
SET-1623
The SET 1623 ARINC Card has 32 Tx/Rx Channels. These 32 Tx/Rx channels are structured in 4 banks (P0.x to P3.x) 8 channels each. Each bank is controlled by a dedicated SPI (SPI0 to SPI3) located on RTI.
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Single-Channel Voltage Output D/A Converters
Analog Devices offers a broad portfolio of single-channel voltage D/A converters, which includes many leading products in performance and package size, with resolutions from 8-bit to 20-bit, low power, and a serial SPI, parallel, or I2C interface. Within the industry’s smallest packages, we offer more functionality within smaller board and module sizes. The integration of a precision reference minimizes board area and costs, eliminates the need of calibration, and reduces the number of external components to simplify the design stage.
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CyberOptics SE Series
SE Series
The CyberOptics SE Series offers the most accurate and repeatable, high speed 3D solder paste inspection in the market today. Utilizing the most advanced sensing technology, CyberOptics SPI products will provide manufacturers the reliability needed to compliment your overall screen print process improvement strategy.
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SparkFun Thermocouple Breakout
MAX31855K
The SparkFun MAX31855K Thermocouple Breakout is a simple 14-bit resolution, SPI-compatible, serial interface thermocouple digitizer that makes reading a wide range of temperatures possible. A thermocouple works by taking two wires made of dissimilar metals, connecting them at the two ends, and making a temperature gradient between one end and the other (a 'hot' end and a 'cold' one). Once this is achieved, a voltage potential is formed and current flows. The SparkFun Thermocouple Breakout takes a standard Type-K thermocouple in one end, digitizes the temperature measured and sends that data out the other end via a SPI interface, thereby interpreting the data and translating it for you to read!
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USB Protocol Analyzers
Beagle Series
Our line of Beagle Protocol Analyzers provide real-time visibility into I2C, SPI, and USB systems making them ideal tools for embedded engineers.The Beagle analyzers provide high-performance bus monitoring in a small, portable package that includes cross-platform software support making it perfect for engineers in the field and in the lab.
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Firmware for High-speed HDLC Mode
OP-FW10R
OP-FW10R is a firmware to expand the measurement speed for bit synchronous communication such as HDLC/SDLC/X.25, CC-Link and SPI communication up to 10Mbps. Processing major part of the measurement process by FPGA, it enables capturing of communication data with time stamp of micro-second unit.
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SparkFun Qwiic Micro:bit Breakout (with Headers)
The SparkFun Qwiic micro:bit Breakout is a board that connects to the BBC micro:bit and expands the capabilities of the development platform by providing access to more pins and allowing for connections to the I2C and SPI buses. We've already attached headers to this version of the board so you don't need to worry about any soldering! This breakout board for the micro:bit’s edge connector allows intermediate and advanced users to connect the micro:bit to breadboards and other Qwiic sensors, motors, LEDs and more!
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Embedded Serial Triggering and Analysis for InfiniiVision DSOX1000 Series Oscilloscopes
DSOX1EMBD
The IC, SPI, and UART/RS-232 serial decode option for InfiniiVision 1000 X-Series oscilloscopes (DSO models) displays responsive, time-aligned, on-screen decode of Inter-Integrated Circuit (IC), 3-wire Serial Peripheral Interface (SPI), and UART/RS232 serial communication buses. Because it is hardware-based, this option provides the fastest throughput solution for triggering on and analyzing IC, SPI and UART/RS-232 serial buses found in a wide variety of embedded designs.
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Beagle I2C/SPI Protocol Analyzer
TP320121
The versatile Beagle™ I2C/SPI Protocol Analyzer is the ideal tool for the embedded engineer who is developing an I2C, SPI, or MDIO based product. The Beagle analyzer provides a high performance bus monitoring solution in a small, portable package. Perfect for engineers in the field and in the lab.
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MAX31855 J-Type Thermocouple Arduino Shield
SEN-30004-J47
Four channel MAX31855 digital thermocouple Arduino Shield. Two versions of this shield are avaliable for each thermocouple type: either 'Ch 0-3' (CS pins use Uno/Mega IO pins 7-10) or 'Ch 4-7' (CS pins use Uno/Mega IO pins 3-6), with the only difference being which set of zero-ohm resistors are populated on the board. This allows use of other SPI devices that may be 'hard coded' to specific digital pins on the Arduino, or simply stacking one of each type together to get a total of eight thermocouple channels on one Arduino. The MAX31855J supports a measured temperature range of -210C-1200C with known thermal characteristics and output resolution of 0.25C. Included thermocouple connectors are type-specific to provide proper material continuity as close to the IC as possible. The SEN-30004 is interfaced via 3 or 4-wire SPI and a high-speed level shifter is included to allow the board to plug directly into an Arduino Uno or Mega
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Relay Test Set Type SP-I
Supreme Instrument Laboratories
Supreme make relay testing set is designed for site testing of protective relays which simulate in common fault conditions under which a protective relay will be called into positive function. Periodic field testing is the best way of ensuring the integrity of the protective relays. We offer our relay testing set with specific testing capacity to suit different group of protective relays. The testing set operates on single phase 230 V, A.C. 50Hz. Supply.
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MAX31855 K-Type Thermocouple Arduino Shield
SEN-30004-K03
Four channel MAX31855 digital thermocouple Arduino Shield. Two versions of this shield are avaliable for each thermocouple type: either 'Ch 0-3' (CS pins use Uno/Mega IO pins 7-10) or 'Ch 4-7' (CS pins use Uno/Mega IO pins 3-6), with the only difference being which set of zero-ohm resistors are populated on the board. This allows use of other SPI devices that may be 'hard coded' to specific digital pins on the Arduino, or simply stacking one of each type together to get a total of eight thermocouple channels on one Arduino. The MAX31855K supports a measured temperature range of -270C-1372C with known thermal characteristics and output resolution of 0.25C. Included thermocouple connectors are type-specific to provide proper material continuity as close to the IC as possible. The SEN-30004 is interfaced via 3 or 4-wire SPI and a high-speed level shifter is included to allow the board to plug directly into an Arduino Uno or Mega
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Block Up-Converter
BUC Series 5” x 2.5” x 0.6”
*Connectorized Package *Compact, Rugged Design *C, X, Ku, K, and Ka-Bands Available *L-Band Inputs (950-2150 MHz) *Internal or External Filters Available *Variable Attenuation Control via CAN +5V Logic, SPI, RS232, or I²C
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Universal Relay Driver Control - PXIe, 32 Channel Direct Relay Drivers
33011
PXI-e based universal relay control for semiconductor load boards, 32CH direct relay drivers, 2 lanes of SPI relay control interface
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MAX31855 J-Type Thermocouple Sensor Breakout
SEN-30003-J
Breakout board for the MAX31855J digital thermocouple interface ICs by Maxim. Measured temperature range is -210C-1200C with known thermal characteristics and output resolution of 0.25C. This sensor supports a larger operating range (specifically in the negative range) than its predecessors, the MAX6674 and MAX6675, though it is not pin-pin compatible. This board is interfaced with a 0.1" 2x5 pin header (8-pins used), has four vertical mini thermocouple connectors and four mounting holes for standoffs and 4-40 screws. The SEN-30003 is interfaced via 3 or 4-wire SPI with a data-ready output for specific operating modes. An LDO and a high-speed level shifter are included to allow interfacing with microcontroller devices between 3.0V and 5V (all Arduinos, Raspberry PI, etc) without sacrificing device performance (many other level shifters reduce data rates to below 500 kHz).
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MAX31855 J-Type Thermocouple Arduino Shield
SEN-30004-J03
Four channel MAX31855 digital thermocouple Arduino Shield. Two versions of this shield are avaliable for each thermocouple type: either 'Ch 0-3' (CS pins use Uno/Mega IO pins 7-10) or 'Ch 4-7' (CS pins use Uno/Mega IO pins 3-6), with the only difference being which set of zero-ohm resistors are populated on the board. This allows use of other SPI devices that may be 'hard coded' to specific digital pins on the Arduino, or simply stacking one of each type together to get a total of eight thermocouple channels on one Arduino. The MAX31855J supports a measured temperature range of -210C-1200C with known thermal characteristics and output resolution of 0.25C. Included thermocouple connectors are type-specific to provide proper material continuity as close to the IC as possible. The SEN-30004 is interfaced via 3 or 4-wire SPI and a high-speed level shifter is included to allow the board to plug directly into an Arduino Uno or Mega
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SparkFun Micro OLED Breakout
The SparkFun Micro OLED Breakout Board breaks out a small monochrome, blue-on-black OLED. It’s "micro", but it still packs a punch – the OLED display is crisp, and you can fit a deceivingly large amount of graphics on there. This breakout is perfect for adding graphics to your next Arduino project, displaying diagnostic information without resorting to serial output, and teaching a little game theory while creating a fun, Arduino-based video game. Most important of all, though, is the Micro OLED is easy to control over either an SPI or I2C interface.
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Arduino CAN Shield
IFB-10003-INP
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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MAX31856 Thermocouple Sensor Arduino Shield
SEN-30007-J
Quad channel thermocouple Arduino shield based on the MAX31856 universal digital thermocouple interface IC. This is an exciting update of the MAX31855, with improvements in resolution (19 vs 14 bits), on-board temperature reference (6 vs 4 bits), and compensation (fully compensated vs nonlinear correction required). The MAX31856 is interfaced via 4-wire SPI with options for interrupt triggering. An LDO and a high-speed level shifter are included on ALL device pins to allow interfacing with to any Arduino - both 3.3V and 5.0V variants - without sacrificing device performance in any operating condition.
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Narrow Band Filters (Single Octave)
NANO-POLE® Series
The NANO-POLE® is designed for optimal size, DC consumption, RF power handling, insertion loss, signal purity and linearity. The NANO-POLE® provides a minimum center frequency step size of 10 MHz typically but can be modified based upon request. The NANO-POLE® requires a +3.0 V supply that typically draws 5 mA when not hopping. The supply voltage should be adequately filtered as noise present on this pin will influence the RF signal purity. The NANO-POLE® uses SPI control interface.
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Evaluation Kit
ROM-3310 Development Kit
*Evaluation kit for ROM-3310*Lower power TI sitara AM3352 1GHz processor*On board DDR3 512MB memory / 4GB Flash*HW WDT for system protection*Supports 1 GbE, 1 USB 2.0, 1 USB 2.0 OTG, 2 CANbus, 10 GPIO, 4 UART,1 I2C, 1 I2S, 1 SPI, 1 SDIO*Cable pack & Panel included*Evaluative image & test utilities built-in
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PWB Visual Inspection Machine (AOI/SPI)
RV-2
PWB size: 50mm×50mm - 410mm×360mm 630mm×360mm(longer sized PWB)*. Item of inspection: Missing component,Position displacement, Polarity, Front/rear reversal, Unsoldered,Bridge, Quantity of solder, Lack of insertion component, Character recognition*
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Miniature Spectrometer
Ocean HDX
Ocean HDX is anchored by High Definition Optics for high throughput, low stray light and great thermal stability. Its X-Platform Electronics include powerful onboard processing and communications including Gigabit Ethernet, SPI and Wi-Fi. The Ocean HDX is compact, robust and ideal for integrated, industrial and research applications.
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Dual Band Block Up-Converter
DBUC Series
*Connectorized Package *Wide Choice of Frequency Ranges *Dual Band *Integrated Filters *Gain Control *CAN, RS-232, I2C, or SPI Control *Internal / External References *Low Power Consumption *Low Phase Noise *Low Spurs
