Showing results: 5041 - 5055 of 8105 items found.
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DSOX3032A -
Keysight Technologies
350 MHz2 analog channels Easily view your signals on the 8.5-inch WVGA display Capture more data with up to 4 Mpts memory See more signal detail with 1,000,000 wfms/s update rate Expand your measurement capabilities with full upgradability: Add bandwidth, memory, digital channels, 20 MHz arbitrary waveform generator, 3-digit voltmeter, serial trigger and analysis, segmented memory & mask testing at any time
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DSOX3024A -
Keysight Technologies
200 MHz4 analog channels Easily view your signals on the 8.5-inch WVGA display Capture more data with up to 4 Mpts memory See more signal detail with 1,000,000 wfms/s update rate Expand your measurement capabilities with full upgradability: Add bandwidth, memory, digital channels, 20 MHz arbitrary waveform generator, 3-digit voltmeter, serial trigger and analysis, segmented memory & mask testing at any time
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DSOX3034A -
Keysight Technologies
350 MHz4 analog channels Easily view your signals on the 8.5-inch WVGA display Capture more data with up to 4 Mpts memory See more signal detail with 1,000,000 wfms/s update rate Expand your measurement capabilities with full upgradability: Add bandwidth, memory, digital channels, 20 MHz arbitrary waveform generator, 3-digit voltmeter, serial trigger and analysis, segmented memory & mask testing at any time
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782615-01 -
NI
±10 V, 100 kS/s/ch, 16-Bit, Simultaneous Input, 16-Channel C Series Voltage Input Module - The NI‑9220 performs simultaneous differential analog inputs with 250 Vrms CAT II or 60 VDC CAT I isolation. The module is capable of generating 3.2 MB/s of data at … the maximum sampling rate. There are two connector options for the NI‑9220: a 36-position spring-terminal connector and a 37‑position D‑SUB connector.
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779087-03 -
NI
80 MHz Bandwidth, 16-Bit PXI Waveform Generator - The PXI‑5422 is a 80 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -6 V to +6 V and uses direct digital synthesis (DDS) to precisely generate waveforms. The PXI‑5422 also features advanced synchronization and data streaming capabilities.
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777145-01 -
NI
68-Pin Female VHDCI to 68-Pin Female Screw Terminal, Desktop Mount Terminal Block - The CB-68LP features 68 screw terminals for easy connection of field I/O signals to 68-pin NI data acquisition devices. It includes one 68-pin male SCSI connector for direct connection to 68-pin cables. This connector block features standoff feet for use on a desktop or mounted in a custom panel. The CB-68LP also has a vertical-mounted, 68-pin connector.
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785188-01 -
NI
±10 V, 100 kS/s/ch, 16-Bit, Simultaneous Input, 16-Channel C Series Voltage Input Module - The NI‑9220 performs simultaneous differential analog inputs with 250 Vrms CAT II or 60 VDC CAT I isolation. The module is capable of generating 3.2 MB/s of data at the maximum sampling rate. There are two connector options for the NI‑9220: a 36-position spring-terminal connector and a 37‑position D‑SUB connector.
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779176-01 -
NI
43 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXI‑5421 is a 43 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -6 V to +6 V and uses direct digital synthesis (DDS) to precisely generate waveforms. The PXI‑5421 also features advanced synchronization and data streaming capabilities.
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778697-04 -
NI
43 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXI‑5421 is a 43 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -6 V to +6 V and uses direct digital synthesis (DDS) to precisely generate waveforms. The PXI‑5421 also features advanced synchronization and data streaming capabilities.
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782615-02 -
NI
±10 V, 100 kS/s/ch, 16-Bit, Simultaneous Input, 16-Channel C Series Voltage Input Module - The NI‑9220 performs simultaneous differential analog inputs with 250 Vrms CAT II or 60 VDC CAT I isolation. The module is capable of generating 3.2 MB/s of data at the maximum sampling rate. There are two connector options for the NI‑9220: a 36-position spring-terminal connector and a 37‑position D‑SUB connector.
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DSOX3014A -
Keysight Technologies
100 MHz4 analog channels Easily view your signals on the 8.5-inch WVGA display Capture more data with up to 4 Mpts memory See more signal detail with 1,000,000 wfms/s update rate Expand your measurement capabilities with full upgradability: Add bandwidth, memory, digital channels, 20 MHz arbitrary waveform generator, 3-digit voltmeter, serial trigger and analysis, segmented memory & mask testing at any time
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ORTEC
Gross alpha/beta measurement is one of the simplest radioanalytical procedures which are applied widely as a screening technique in the field of radioecology, environmental monitoring and industrial applications. This procedure has been developed to determine whether radionuclide specific analysis is required to further characterize the water. Regular measurements of gross alpha and gross beta activity in water may be invaluable for early detection of radioactive contamination and indicate the need for supplemental data on concentrations of more hazardous radionuclides.
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Acces I/O Products, Inc.
Analog input boards are useful for measuring variably changing conditions in the real world. When we want to measure these variably changing conditions, we need analog inputs to convert these changing real world conditions to changing electrical quantities. For example, monitoring the temperature inside a wood kiln, or the water pressure on the output of a pump, or the heart rate of a medical patient. In each of these cases, you can use one of our analog input devices to convert the electrical data from a sensor or transducer into binary data that can then be used by your computer. The device that converts this data is known as an analog to digital converter (abbreviated ADC, A/D, or A to D). An analog input is a measurable electrical signal with a defined range. The analog input changes continuously in a definable manner in relation to the measured property. This data is very useful for process monitoring, process control, or simple monitoring / data collection and acquisition. ACCES' analog input boards amplify and multiplex input signals from thermocouples, strain gauges, accelerometers, photo sensors, flowmeters, RTDs, thermistors, voltage sources, millivolt sources, and current sources, just to name a few.
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Model 52610 -
Pentek, Inc.
- 32 bits of LVDS digital I/O- One LVDS clock- One LVDS data valid- One LVDS data suspend- Supports LXT and SXT Virtex-6 FPGAs- DMA controller moves data to and from system memory- Up to 2 GB of DDR3 SDRAM- PCI Express Interface- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O to the carrier board- 3U VPX form factor provides a compact, rugged platform- Compatible with several VITA standards including: VITA-46, VITA-48 and VITA-65 (OpenVPX™ System Specification)- Ruggedized and conduction-cooled versions available
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imc Test & Measurement GmbH
Whether it’s in a vehicle, on a test stand or monitoring equipment and machinery - imc data acquisition systems are easy to operate and will help you become more productive and profitable. Our products are suited for work in mechanical and mechatronic applications. They handle up to 100 kHz per channel, are compatible with almost all signal sources and sensors, and can measure nearly all physical quantities such as pressure, force, speed, vibration, noise, temperature, voltage and current. The spectrum of imc data acquisition systems ranges from simple data acquisition via integrated real-time calculations, to the integration of models and complete automation of test stands.