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You are here: Home / Automotive and Aerospace / High-Speed, High-Res PXIe Digitizers feature Fast Data Transfers

High-Speed, High-Res PXIe Digitizers feature
Fast Data Transfers

June 20, 2016 By WTWH Editor Leave a Comment

New High-Speed, High-Resolution PXIe Digitizers Feature Fast Data Transfers
With analog bandwidth up to 250 MHz, the digitizers are suited to use in ATE systems where electronic signals in the 1 to 200 MHz range need to be acquired and measured with the best possible speed and precision.

Spectrum Instrumentation has released its first high-speed digitizer product line based on the popular PXIe (PXI Express) modular instrumentation standard. The M4x.44xx series consists of six new products each packaged in a dual-width 3U module and incorporating a four lane PCI Express Generation 2 interface. The high-performance interface allows data transfer speeds in excess of 1.7 GB/s making the cards ideal for use in today’s fastest PXIe mainframe systems.

High-performance measurement

The new digitizers include versions with two and four fully synchronous channels in resolutions of either 14 bits, for sampling at rates up to 500 MS/s, or 16 bits for sampling at rates up to 130 or 250 MS/s. With analog bandwidth up to 250 MHz, the digitizers are suited to use in ATE systems where electronic signals in the 1 to 200 MHz range need to be acquired and measured with the best possible speed and precision. Typical applications are semiconductor and component testing, radar, wireless communications, medical science, automotive, power, physics, surveillance, aerospace and defense.

Designed so that they can be used with the widest range of signals, the M4x.44xx series cards feature an oscilloscope style front-end. Each channel has its own separate monolithic ADC and low noise signal conditioning circuitry.

Fully programmable, the cards provide six gain input ranges (±200 mV up to ±10 V), selectable input impedance of 50 Ω or 1 MΩ and AC or DC coupling. Furthermore, an internal bandwidth filter can be activated in situations where high frequency noise, which may mask signals, needs to be suppressed.

Accurate signal capture

The flexible front-end circuitry is complemented by a powerful trigger system and versatile clock. The trigger source can be any of the input channels, either of the two external trigger inputs, any of the eight PXI trigger lines or the PXI star trigger. Trigger modes include positive or negative edge, both edges (window), software and rearm. In addition, logic triggering can be implemented based on the state of the channel and the external trigger inputs.

The clocking system of the digitizers is precise and advanced. The clock can be internally or externally generated (including as source the 100 MHz PXIe differential clock and the 10 MHz PXI clock). It has a built-in 10 MHz reference and, if required, it can be synchronized with other reference sources.

A fine-resolution mode is also available that allows clock rates to be selected with 1 Hz resolution. The feature makes it possible to program the sampling rate of the digitizers to match that of other devices or to setup acquisitions for specialized input signal conditions.

Robust on-board resources

All the digitizers come with a standard 4 GByte (2 Giga-Samples) of on-board acquisition memory. The large memory makes it easy to acquire long and complex signals.

The capability is further expanded by a host of data acquisition and readout modes. These include single-shot capture (transient recording), streaming (FIFO), segmented (Multiple Recording), gated (Gated Sampling) or the combination of segmented acquisition of fast signals in parallel with slow continuous data recording (ABA mode). All trigger events can be time stamped, making it simple to know when they occurred and to determine the time between events.

With their low noise front-ends, high-resolution ADCs and accurate clocks, these PXIe digitizers deliver outstanding dynamic performance. For example signal-to-noise ratios (SNR) are typically over 70 dB, spurious free dynamic range (SFDR) is better than 90 dB and total harmonic distortion (THD) is less than -70 dB. The combination not only makes it possible to detect small signals on large ones, but it also produces better measurement repeatability, precision and accuracy.

Enhanced mechanical design

The new PXIe products are based on Spectrums proven M4i line of standard PCIe products and combine the advanced features and signal quality of this series with the industrial standard of PXIe. The M4x products are two slots wide and fit into any PXIe chassis.

Compared with the PCIe standard, PXIe systems come with superior mechanical design, better connectors and a defined air flow for cooling. All these features make it an ideal platform for industrial and mobile applications including those found in aerospace and defense or transportation. As Spectrums M4x platform is based on a modular concept it will also allow the release of several new PXIe products within a short time, all programmed through a common software interface that is similar to existing PCIe, PCI and PXIe products.

Improved control and analysis

Another advantage of sharing technology among platforms is that the new PXIe modules can immediately use the FPGA-based firmware options that already exist for the PCIe cards. Block averaging and block statistics packages are available for high trigger rate applications that require hardware-based processing functions. Block averaging can be used to reduce signal noise and improve measurement resolution while block statistics performs a peak detection process that yields a waveforms maximum, minimum and average values.

To control and operate the digitizers, Spectrum makes available its powerful SBench 6 program. SBench 6 supports all the key functions of the digitizer as well as provides data display, storage, analysis and documentation. The program offers both oscilloscope and transient recording modes, including data streaming. A base version of SBench 6 is provided free of charge to enable out-of-the box operation of the digitizers.

Users who want to develop their own programs can use the proven Spectrum drivers (available for Windows and Linux), which are included in the delivery. A set of standard programming examples is provided to illustrate the cards main signal capture functions. Extensive support includes Visual C++, Borland C++, Gnu C++, LabVIEW, MATLAB, IVI, Visual Basic, VB.NET, C#, J# and Delphi code.

The new M4x series cards are available with 4 to 6 week delivery and come complete with software drivers and a two year manufacturer’s warranty. Technical support, including software and firmware updates, is available free of charge.

Spectrum Instrumentation
spectrum-instrumentation.com

Filed Under: Automotive and Aerospace, Instrumentation, PC-based Test Equipment Tagged With: spectruminstrumentation

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