NIPXI-2546 NI [National Instruments Corporation], NIPXI-2546 Datasheet - Page 3

NIPXI-2546

Manufacturer Part Number

NIPXI-2546

Description

Dual-channel, differential I/Q signal generation

Manufacturer

NI [National Instruments Corporation]

Datasheet

1.NIPXI-2546.pdf (6 pages)

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400 MS/s, 16-Bit I/Q Signal Generator

• Independent I and Q prefilter gain and offset – Adds gain and

Figure 5. LO leakage and poor image rejection of a quadrature modulator cause

undesired RF emissions.

Figure 6. On-the-fly-adjustable parameters on the NI PXIe-5450 correct for the

quadrature modulator impairments seen in Figure 5.

• Pulse-shaping finite impulse response (FIR) filter – Shapes and

• Numerically controlled oscillator (NCO) – Produces sinusoidal

offset imbalance impairments and I and Q prefilter gain. You can adjust

the offset before or during the generation of an output signal (Figures 5, 6).

interpolates the waveform data. FIR filter types include flat, raised

cosine, and root raised cosine, with a programmable

Digital interpolation factors range from 2 to 32,768 times.

waveform data for complex (I/Q) frequency shifts before or during

generation with up to a ±86 MHz shift and 710 nHz resolution.

NCO tuning time is 250 µs.

parameter.

• Baseband interpolation – Generates smooth baseband signals.

Waveform Sequencing and Triggering

You also can program the NI PXIe-5450 to sequence and loop a set of

waveforms. You can choose from several methods to step through the

sequence of waveforms. In cases when you know the duration of each

waveform in advance, you can program the generator to loop them a

specified number of times. When you do not know the duration before

the start of generation, you can use a hardware or software trigger to

advance the generator to the next waveform in the sequence. The

NI PXIe-5450 implements advanced triggering behavior with four trigger

modes: single, continuous, burst, and stepped. In addition, scripting

provides the ability to link and loop multiple waveforms together, managing

triggers and markers. For a detailed discussion of these modes, consult

the NI Signal Generators Help guide available at ni.com/manuals.

multiple sequences and their associated waveforms in the generator’s

onboard memory (see Figure 7). In automated test applications involving

multiple tests, each requiring a different waveform sequence, you can

download all of the sequences and waveforms once at the beginning

of the test cycle and store them in the generator’s memory for the entire

session. By downloading all required waveforms and sequences once to

an SMC-based generator instead of repeatedly reloading them for each

test, you save time and improve throughput.

Figure 7. NI SMC-based arbitrary waveform generators increase test throughput by

storing all the waveforms and sequences required for a set of tests in onboard memory.

Timing and Synchronization

Using NI T-Clock (TClk) synchronization technology, you can synchronize

multiple NI PXIe-5450 modules for applications requiring a greater

number of channels, such as I/Q signal generation for MIMO systems.

Because it is built into the SMC, TClk can synchronize the NI PXIe-5450

with SMC-based vector signal analyzers and generators, high-speed

digitizers, and digital waveform generators and analyzers for tight

correlation of analog and digital stimulus and response. Using onboard

calibration measurements and compensation, TClk can automatically

Waveform

You can use the NI PXIe-5450 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 device’s image suppression filter greatly

suppresses them without disturbing the signal’s amplitude response

or phase information.

NI SMC-based generators have the unique capability of storing

Waveform

BUY ONLINE at ni.com or CALL 800 813 3693 (U.S.)

• • •

Waveform

Instructions

Sequence

Instructions

Sequence

• • •

Instructions

Sequence

Memory

Free

NIPXI-2546 NI [National Instruments Corporation], NIPXI-2546 Datasheet - Page 3

NIPXI-2546

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