PXIE-5442 Datasheet, PDF(2/6 Page) National Instruments Corporation – 100 MS/s, 16-Bit Arbitrary Waveform Generator with Onboard Signal Processing

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PXIE-5442 Datasheet, PDF (2/6 Pages) National Instruments Corporation – 100 MS/s, 16-Bit Arbitrary Waveform Generator with Onboard Signal Processing

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100 MS/s, 16-Bit Arbitrary Waveform Generator with Onboard Signal Processing

â¢ Pulse-shaping finite impulse response (FIR) filter â Shapes

and interpolates the waveform data. The FIR filter coefficients are

programmable and include flat, raised cosine, and root raised cosine.

Digital interpolation factors range from one to 16,384 times.

â¢ Numerically controlled oscillator (NCO) â Produces sine and

cosine waveform data for quadrature digital upconversion and

features 355 nHz frequency resolution and 0.0055 deg phase

resolution for precise control of impairments such as frequency error

and quadrature skew. You can adjust NCO frequency and phase before

or during waveform generation.

â¢ Quadrature digital upconversion with impairments â Upconverts

signals, models channel effects, and tests receiver robustness. In

quadrature upconversion, I and Q complex waveform data is stored in

waveform memory and is passed to the OSP block. OSP then shapes

and interpolates the baseband signal and upconverts it to a carrier

frequency of up to 43 MHz. You can choose to suppress the lower or

upper modulation sideband by adjusting the NCO in-phase and

quadrature output phase settings. For modeling channel effects and

testing the robustness of a receiver, you can use OSP to add several

impairments to the signal during waveform generation. Add IQ gain

imbalance and DC offset impairments by adjusting the per-filter gain

and offset settings, and introduce quadrature skew and frequency

error by adjusting the I or Q carrier phase and frequency.

â¢ Baseband interpolation â Generates smooth baseband signals.

You can use the NI PXIe-5442 OSP block to interpolate low-sample-

rate waveforms to a much higher sample rate, thereby improving the

output frequency spectrum by relocating zero-order sample-and-hold

reconstruction images to higher frequencies. With the images at

higher frequencies, the NI PXIe-5442 seventh-order lowpass analog

filter can greatly suppress them without disturbing the signalsâ

amplitude response or phase information. For example, you can

interpolate a waveform created at a 10 kS/s sample rate to

10.24 MS/s by using 1024 times digital interpolation in the OSP.

The upsampled signal is then passed to the DAC, which can also

interpolate by two, four, or eight times, resulting in an effective

sampling rate of 81.92 MS/s (eight times DAC interpolation).

Because you sample the original waveform at only 10 kS/s, rather

than 81.92 MS/s, you achieve a 1:8,192 compression ratio,

resulting in dramatically faster waveform computation and download

times. Alternatively, you can use the resulting compression to

efficiently store data in the NI PXIe-5442 onboard memory to gain

significantly longer playback times. Extended generation is essential

for improving the statistical significance of many communications

measurements and displays such as bit error rate, trellis plots, and

constellation plots.

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Frequency (MHz)

Figure 2. The NI PXIe-5442 with onboard signal processing digitally upconverts and

generates the frequency spectrum of a W-CDMA physical layer signal. (external sample

clock = 92.16 MHz)

â¢ Amplitude modulation (AM) â Generates AM radio signals. By

using only the in-phase (I) path of the OSP block, you can generate an

AM radio signal by directly downloading the message signal into

onboard memory. The message signal scales the amplitude of the

NCO programmable frequency output.

â¢ Single tone and function generation â Generates standard,

user-defined waveforms. Using the OSP block NCO, the NI PXIe-5442

can generate sine, square, triangle, ramp, and other standard and

user-defined waveforms just as a function generator does. You may

adjust the frequency of the output waveform during generation with

355 nHz resolution for generating phase-continuous frequency sweeps

and hops. You also can adjust the phase relative to other synchronized

instruments, the PXI 10 MHz reference clock, or an externally supplied

reference clock.

DAC Interpolation

The NI PXIe-5442 uses digital interpolation to improve the output signal

quality of smooth waveforms. Every DAC produces reconstruction images

in the frequency domain as a result of the conversion process. Appearing

at |fo Â± nfs|, where fo is the frequency of the desired signal and fs is the

sampling rate, reconstruction images are undesirable for smooth signals,

such as sine waves.

Typically, arbitrary waveform generators suppress the reconstruction

images by using high-order lowpass filters with a cutoff frequency near

the generatorâs Nyquist frequency (50 MHz for a 100 MS/s sample rate).

By using a high-order filter with such a low cutoff frequency, the filterâs

nonidealities, such as passband ripple and nonlinear phase, significantly

affect generator performance. The NI PXIe-5442 uses digital

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