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Function / Arbitrary Waveform Generators
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Function / Arbitrary Waveform Generators
- 33250A Function / Arbitrary Waveform Generator, 80 MHz
1-24 of 24
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33210A/20A/50A Function/Arbitrary Waveform Generators - Quick Fact Sheet
This is a one-page Quick Fact heet that describes key features and includes options/accessories for the 33200 Function/Arbitrary Waveform Generator Series of products.
Promotional Materials 2013-01-15 |
PDF
172 KB
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33250A Data Sheet
Description and technical specifications for the Agilent 33250A.
Data Sheet 2011-11-29 |
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Declaration of Conformity
Search Agilent Regulatory database for most recent Declaration of Conformity statement for your product.
Help File 2010-10-15 |
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Function / Arbitrary Waveform Generators in Systems (10 MHz to 80 MHz)
Function generators & arbitrary waveform generators,10, 15, 20, & 80 MHz.
Technical Overview 2010-08-27 |
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Function/Arbitrary Waveform Generator Selection Guide
Selection Guide 2010-05-06 |
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Transferring Arbitrary Waveform Data to the 33200A Family of Function/Arbitrary Waveform Generators
This application note will review three methods of transferring arbitrary waveform data to 33200A Function/Arbitrary Waveform Generators: front panel, Agilent IntuiLink Waveform Editor, and programming.
Application Note 2009-05-19 |
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Adding DC Offsets to a Function Generator's Output
A variety of electronic test applications require a DC offset to be added to the output of a function generator.
Application Note 2009-03-09 |
PDF
383 KB
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Using MATLAB in conjuction with an AWG to create complex repetitive waveforms
A variety of electronic test applicatioEngineers often need to generate complex test signals that go far beyond a simple sine, square or triangle waveform. They typically use an arbitrary waveform generator or “arb” to generate these signals..
Application Note 2009-03-09 |
PDF
623 KB
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Synchronizing multiple function generators to produce phase-related signals
Function/arbitrary waveform generators are useful for creating standard or complex waveforms that allow you to test the performance of a design using a known good signal.
Application Note 2009-03-09 |
PDF
410 KB
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Using Pulse-Width Modulation to Control Signals
The use of pulse-width modulation (PWM) has become an increasingly popular technique for controlling analog circuits with a digital signal.
Application Note 2008-10-30 |
PDF
296 KB
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Waveform capture, modification and playback using a function generator
Function generators are used to simulate real-world signals on a device.
Application Note 2008-10-30 |
PDF
280 KB
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10 Hints for Getting More from Your Function Generator (AN 1497)
The 10 hints in this application note will help you take advantage of the features of your function/arbitrary waveform generator so you can get your job done more easily.
Application Note 2008-07-16 |
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Generating Narrow Pulses with a Function Generator
Testing basic digital signals, such as triggers, clock signals, and logic control, doesn't always require the performance of a dedicated pulse generator.
Application Note 2008-04-16 |
PDF
288 KB
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Create a Variety of Frequency Sweeps, Including Stepped Sweep Using Frequency Modulation
Some applications require a variation of frequency sweep such as a stepped sweep. This application note covers how to create a variety of frequency sweeps using frequency modulation.
Application Note 2004-05-07 |
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Creating Arbitrary Waveforms Using Direct Digital Synthesis (DDS)
Modern arbitrary waveform generators frequently use direct digital synthesis (DDS) for creating waveforms. This application note provides some guidance when using a DDS generator to output arbitrary waveforms.
Application Note 2004-05-07 |
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Create Music using Frequency Modulation
Each musical note has a different frequency associated with it. To play a specific piece of music, you play the different frequencies for a certain duration and in a certain sequence. By modulating a sine wave with an arbitrary...
Application Note 2004-03-22 |
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Characterizing Camera Battery Performance with Low Cost Test Equipment
View a streaming video of digitizing, modifying and generating a waveform to determine the batteries best suited for a new digital camera.
Case Study 2004-02-13 |
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How to capture, save, and reproduce arbitrary waveforms
This 6-page application note provides techniques for capturing, saving and reproducing current waveforms and profiles.
Application Note 2003-11-21 |
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33250A User's Guide
Contains a description of the features and functions of the instrument, including programming information, application examples, and technical specifications.
User Manual 2003-03-01 |
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33250A Service Guide
Contains a description of the calibration procedures, theory of operation, servicing information, parts lists, schematic diagrams, and technical specifications. Available in English only.
Service Manual 2003-03-01 |
PDF
6.16 MB
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Using a Function/Arbitrary Waveform Generator to Generate Pulses (AN 1437)
A function generator can be a low cost alternative for creating simple pulses. This application note describes several techniques for creating pulses using a function generator.
Application Note 2002-12-13 |
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33250A Standard Shipped Components
A standard Agilent 33250A Function/Arbitrary Waveform Generator ships with the following items:
Reference Guide 2002-09-20 |
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33250A Quick Reference Guide
Contains a summary of the SCPI commands used to program the instrument. Available only in English.
Reference Guide 2002-08-01 |
PDF
353 KB
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33250A Demonstration
Learn more about the Agilent 33250A features by reviewing this flash demonstration.
Demo 2002-06-19 |
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