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WX & WS835x Series

How to Simply Generate a Standard Waveform

You can use the Tabor Electronics Arbitrary Waveform Generator (AWG) front panel to create a wide variety of standard waveforms. The AWG supports the following wave shapes: Sine, Triangle, Square, Ramp (or sawtooth), Sinc (or cardinal sine), Gaussian distribution (bell curve), Exponential, Direct Current (DC), Noise and more. Here's a quick guide on how to do it.
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How to Simply Generate a Pulse

The Tabor family of Arbitrary Waveform Generators (AWGs) is designed for easy programming of pulses and pulse characteristics. Here's a quick guide on how to do it.
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How to Simply Generate a Pulse Train

A pulse train is a series of generated pulses. The pulses in a pulse train can be identical or unique. The Tabor family of Arbitrary Waveform Generators (AWGs) is designed for easy programming of pulse trains. Here's a quick guide on how to do it.
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How to Simply Generate an Arbitrary Waveform

The Tabor family of Arbitrary Waveform Generators (AWGs) allows you to program arbitrary waveform segments that can be combined in any sequence. Here's a quick guide on how to do it.
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How to Simply Generate a Normal Sequence

Sequenced waveforms are constructed from two or more arbitrary waveform segments. The Tabor family of Arbitrary Waveform Generators (AWGs) allows you to program individual segments, and then combine them using the sequencing function. Here's a quick guide on how to do it.
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How to Generate an Advanced Sequence

Sequenced waveforms are constructed from two or more arbitrary waveform segments. An advanced sequence waveform is constructed from two or more sequenced waveforms – a “sequence of sequences”. The Tabor family of Arbitrary Waveform Generators (AWGs) allows you to program individual sequences, and then combine them using the advanced sequencing function. Here's a quick guide on how to do it.
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How to Simply Use Markers

The Tabor family of Arbitrary Waveform Generators (AWGs) allows you to define markers to be used as auxiliary outputs that are fully synchronous with the output waveforms. Two markers may be defined for each output channel. Here's a quick guide on how to do it.
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How to Simply Set the Run Mode

The Tabor family of Arbitrary Waveform Generators allows you to generate output waveforms continuously, or in response to external signals. Here's a quick guide on how to do it.
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How to Simply Generate PRBS signals

Pseudo Random Bit Sequences (PRBS) are commonly used for bit error rate measurements. PRBS sequences are extremely beneficial for applications in which sequences are generated by a transmitter and are then evaluated for errors as they arrive at the receiver. Here's a quick guide on how to do it.
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How to Simply Control Clocks on the WX Series

The WX series of Arbitrary Waveform Generators (AWGs) enables independent and synchronized modes of operation in its multi-channel units. In addition, all units support operation with an external clock and an external clock reference when required. Here's a quick guide on how to do it.
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How to Simply Generate a Chirp

Chirp Modulation is required by applications in which the frequency of the signal increases or decreases with time. The Tabor family of Arbitrary Waveform Generators (AWGs) generates waveforms that “sweep” from a starting frequency to an ending frequency, while supporting an amplitude sweep as well. Here's a quick guide on how to do it.
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How to Simply Generate an FSK Modulation

Frequency Shift Key (FSK) Modulation is a method of transmitting digital information, in which data is coded in a carrier wave by shifting between discrete frequencies. The Tabor family of Arbitrary Waveform Generators (AWGs) supports binary modulation between a carrier frequency (representing 0) and a shifted frequency (representing 1). Here's a quick guide on how to do it.
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How to Simply Generate a Frequency Hop Modulation

Frequency Hop Modulation is a method of transmitting radio signals by rapidly switching a carrier wave over a series of distinct frequency channels. Frequency hop modulation causes the output waveform to “hop” from frequency to frequency in a table-defined sequence. The Tabor family of Arbitrary Waveform Generators (AWGs) allows you to easily generate a frequency hop modulation. Here's a quick guide on how to do it.
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How to Simply Generate a PSK Modulation

Phase-Shift Keying (PSK) is a technique used to transmit data by modifying the phase of a sinusoid carrier wave. The Tabor family of Arbitrary Waveform Generators (AWGs) supports PSK modulation according to the following variations: PSK, BPSK, QPSK, OQPSK, pi/4DQPSK, 8PSK, 16PSK, as well as user-defined variations. Here's a quick guide on how to do it.
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How to Simply Store and Recall Waveforms and Settings

The Tabor family of Arbitrary Waveform Generators (AWGs) is designed for easy storage and recall of waveforms and front panel settings to a “memory cell” in the AWG system or on a flash disk. Here's a quick guide on how to do it.
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-Number of Channels

-Max. Amplitude

-Max. Sample Rate

-Bandwidth

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-Large Signal Bandwidth

-Memory Size

-Gain

-Max. Amplitude (50Ω)

-Rise / Fall Time

-Max. Current

-Input Impedance

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-Output Impedance

-Digital Out (Markers)

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