List of Electronic Measuring Instruments products
- classification:Electronic Measuring Instruments
2521~2535 item / All 5113 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
A digitizer and an arbitrary waveform generator (AWG) can be mounted on the NVIDIA Jetson (an ARM-based embedded computer board).
- oscilloscope
Spectrum Inc. in Germany has started supporting NVIDIA Jetson (ARM-based embedded computer boards).
On March 17, 2021, Spectrum, a German company, began supporting drivers for NVIDIA Jetson (ARM-based embedded computer boards) in response to numerous requests received. This allows Spectrum's 65 types of digitizers, AWGs (Arbitrary Waveform Generators), and digital IO products with PCIe interfaces to be used with the compact, power-efficient, and powerful NVIDIA Jetson. NVIDIA Jetson consists of an ARM CPU and NVIDIA's CUDA-based GPU, enabling supercomputer-level parallel computing and featuring a PCIe slot. This allows for the application of supercomputer-level parallel computing performance from NVIDIA GPUs to the vast amounts of data generated by Spectrum's PCIe products. Spectrum has traditionally supported NVIDIA CUDA-based GPUs through the SCAPP (Spectrum's CUDA Access for Parallel Processing) option.
New release: 16 or 32 channels, ~125MS/s, PCIe half-length (168mm x 107mm) digital IO card.
- Other electronic measuring instruments
New release: 16 or 32 channels, ~125MS/s, PCIe half-length (168mm x 107mm) digital IO card.
On April 21, 2021, the German company Spectrum released the PCIe half-length (168mm x 107mm) digital IO card M2p.7515-x4, featuring 16 or 32 channels and a sampling rate of ~125MS/s. The new digital IO card M2p.7515-x4 has been added to the M2p series, which already includes the digitizer M2p.59xx-x4 and the arbitrary waveform generator (AWG) M2p.65xx-x4, expanding the lineup of the M2p series. Since the M2p.7515-x4 is a PCIe half-length card (168mm x 107mm), it enables digital signal acquisition, generation, and output of 32 channels on most desktop PCs. M2p.7515-x4 card summary specifications: - Number of input or output channels: 16 or 32 - Sampling frequency: ~125MHz - Input level: 3.3V TTL, 5V TTL compatible - Output level: Low < 0.2V, High > 2.8V to high impedance
The digitizers, AWG (arbitrary waveform generator), and digital IO from Germany's Spectrum company can be used from the programming language "Julia."
- oscilloscope
Germany's Spectrum Corporation has launched support for the programming language "Julia" (SDK).
The German company Spectrum launched support for the programming language "Julia" (SDK) on May 5, 2021, ahead of the world. You can use Spectrum's digitizers, AWG (Arbitrary Waveform Generators), and digital IO from "Julia." "Julia" is a relatively new programming language developed at MIT. It combines the performance speed of "C" with the expressiveness of "Python" and "MATLAB," and is rapidly gaining popularity in the fields of science and technology as well as numerical computation. - Digitizer 16bit, ~250MS/s, 14bit, ~500MS/s, 8bit ~5GS/s Maximum bandwidth: ~1.5GHz Number of input channels: 2, 4, 8 (50Ω, 1MΩ) - Arbitrary Waveform Generator (AWG) 16bit ~125MS/s (8 channels), ~625MS/s (4 channels), 16bit ~1.25GS/s (2 channels) Number of output channels: 2, 4, 8 (50Ω) - Digital IO Number of input or output channels: 16 or 32 Sampling frequency: ~125MHz Input level: 3.3V (5V) TTL
[Application Example] Scan atoms with an integrated micro-cantilever!
- oscilloscope
To protect operators and equipment from high magnetic fields, the digitizer system can be operated remotely!
- oscilloscope
Experiment regarding a single atom! We used Spectrum's arbitrary waveform generator.
- oscilloscope
Spectrum's PC card plays a crucial role in the new MRI for babies!
- oscilloscope
M2p measurement card capable of generating analog signals, collecting them, and synchronously measuring digital I/O signals!
- Other electronic measuring instruments
PXIe platform, boasting a maximum of 5GS/s, 8 bits, and a maximum bandwidth of 1.5GHz, Spectrum's flagship model.
- oscilloscope
PXIe, 16-bit, maximum 1.25 GS/s, 400 MHz bandwidth, high-speed, high-resolution AWG (Arbitrary Waveform Generator) from Spectrum.
- Signal Generator
AWG Network Box that can be easily connected to desktops and laptops via Ethernet and can be easily used from the included GUI.
- Signal Generator
A multi-channel digitizer net box that can be easily used from the included GUI by simply connecting to a computer via Ethernet.
- oscilloscope
A multi-channel high-speed high-resolution digitizer net box that can be easily used from the included GUI just by connecting to a computer via Ethernet.
- oscilloscope
A multi-channel AWG network box that can be easily connected to a computer via Ethernet and can be used immediately from the included GUI.
- Signal Generator
Spectrum's AWG (Arbitrary Waveform Generator) with a resolution of 16 bits, a maximum sample rate of 1.25 GS/s, and a maximum bandwidth of 400 MHz.
- Signal Generator
The 2021 edition of the comprehensive catalog from Spectrum GmbH in Germany has been completed.
Spectrum GmbH is a comprehensive manufacturer of digitizers, arbitrary waveform generators (AWG), and digital I/O cards based in Germany. This is the 2021 edition of Spectrum's comprehensive catalog. - Digitizers Resolution: 8 ~ 16 bit Sample Rate: ~ 100KHz ~ 5GHz Number of Input Channels: 1 ~ 48 ~ 128 (when using PCIe expansion box) Frequency Bandwidth: ~ 1.5GHz - AWG Resolution: 14 ~ 16 bit Sample Rate: ~ 100KHz ~ 1.25GS/s Number of Channels: 1 ~ 24 ~ 64 (when using PCIe expansion box) Frequency Bandwidth: ~ 400MHz - Digital I/O Sample Rate: ~ 100KHz ~ 720MHz Number of Channels: ~ 4 ~ 32 ~ 64 ~ 256 (when using PCIe expansion box) - hybridNETBOX A revolutionary new type of measuring instrument that combines an arbitrary waveform generator and a digitizer. It can be easily connected to a computer via an LXI (Ethernet) interface, allowing for easy control of the instrument and real-time analysis of measurement data from the computer.