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Arbitrary Waveform
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Rigol DG1022 20 MHz Function Generator with second channel
Sale Price: $454.00
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UltraWave is the custom application software of DG Series Function/Arbitrary Waveform Generator produced by RIGOL Technologies, Inc. Users can create, edit and manage waveforms through the powerful features of the waveform editor. We will give a brief introduction for the functions and features of UltraWave here in this section.? Simple, intuitive and attractive user interface The UltraWave interface is modern style design, artistic and refreshing. From the users' point of view, for the sake of habits and easy operations, UltraWave retains the traditional operation mode of menu and toolbar which covers the frequently used functions, and the buttons are very concise. UltraWave blends a perfect combination of traditional and modern, is attractive and practical, intricate and simple. As shown in the following figure, at the top of the display are the menu and tool bars, the left side is the standard waveform toolbar, the center is the waveform editing window, and at the bottom is the status bar. Multiple Interfaces UltraWave can communicate with the instrument through RS232, and USB (recommended) interfaces. Users can choose the interface freely as in need. Once communication being established, waveforms from DS series digital oscilloscopes or DG series digital signal generators can be imported. Users can also edit waveforms and send them to the generator and observe the waveform from an oscilloscope. Abundant Graphic Drawing Mode UltraWave provides nine standard waveforms to meet the most general needs of users. It provides capabilities of hand drawing, line (point by point) drawing and arbitrary points drawing thus make the generations of complex waveforms much easier. The multi-file management interface enables users to edit multiple waveforms. Moreover, UltraWave provides precise input mode for line drawing and arbitrary points editing, therefore users can draw accurate pulse, peak or jump to a specific time and point.
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Function Arbitrary Waveform Generator Aktakom
Sale Price: $389.00
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Dual channel output; Max. Output Frequency: 5MHz; Sample rate: 125 MSa/s; Wave length: 16 Kpts (channel one can choose 512Kpts); Frequency resolution: 14 Bit; Output 5 standard waveforms, 48 types of function waveform; Gaussian white noise: 5MHz bandwidth (-3dB); Modulation: AM, FM, PM, ASK, FSK, PWM, etc.; Frequency counter up to 200MHz; Size: 9in×4in×11in / 229mm×105mm×281mm (W×H×D); Weight: 6.1lb / 2.8kg.
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Tektronix AFG3022B Arbitrary/Function Generator, 25 MHz, 2 Channel
List Price: $2,990.00
Sale Price: $2,990.00
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A large screen shows all relevant waveform parameters and graphical waveshape at a single glance. This gives full confidence in the signal settings and lets you focus on the task at hand. Shortcut keys provide direct access to frequently used functions and parameters. Others can be selected conveniently through clearly structured menus. This reduces the time needed for learning and re-learning how to use the instrument. Look and feel are identical to the world's most popular TDS3000 Oscilloscopes.
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Electronics Explorer Digilent
Sale Price: $539.00
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The Digilent Electronics Explorer board (EE board) includes all of the test and measurement equipment needed to design and test analog and digital circuits of all types.
Built around a large solderless breadboard, the EE board includes oscilloscopes, waveform generators, power supplies, voltmeters, reference voltage generators, and thirty-two digital signals that can be configured as a logic analyzer, pattern generator, or any one of several static digital I/O devices. All of these instruments can be connected to circuits built on the solderless breadboards using simple jumper wires.
Designed for daily use and intended for every student to own, the EE board combines everything needed to design and test circuits in a single "all in one" device. Even in introductory classes, students can complete, test, and analyze real circuit designs as a part of every homework assignment. No more once a week labs; now every student can complete designs in virtually any setting - any residence can be a complete, 24-hour design studio!
The EE board is powered by the free, PC-based WaveFormsTM software that makes it easy to acquire, store, analyze, produce and reuse analog and digital signals. WaveFormsTM runs well on virtually any notebook PC, including low-cost Netbooks. A high-speed USB2 connection ensures all EE board instruments respond in near real-time.
WaveFormsTM data files are stored using standard formats, making it easy to share data between instruments, and to export data to word processors or graphics editors. This means well documented student lab/project reports can be completed using standard office tools, and submitted electronically.
Additional Product Information
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291-U 115V
Sale Price: $3,905.00
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291 100 MS/S Arbitrary Waveform Generator Features Single channel 100 MS/s waveform generator 100 MS/s 12 bit arbitrary waveform capability 1 M point waveform memory 40 MHz function generator capabilities using DDS (50 MHz for square waves) 10 ns pulse pattern generator Waveform sequencing with up to 1024 segments Limitless waveform storage using CF memory card Waveform Manager Plus for Windows software USB interface in addition to RS-232 and GPIB
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281-U 115V
List Price: $2,065.00
Sale Price: $2,360.00
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Fluke 281 40MS/S Universal Waveform Generator The Fluke 281 is a single channel universal waveform generator. Standard waveforms Sine Square Triangle Dc Positive and negative ramp Sine(x)/x Pulse Pulse train Cosine Haversine Havercosine
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![A fully integrated SRAM-based CMOS arbitrary waveform generator for analog signal processing.]() |
A fully integrated SRAM-based CMOS arbitrary waveform generator for analog signal processing.
List Price: $69.00
Sale Price: $69.00
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This dissertation focuses on design and implementation of a fully-integrated SRAM-based arbitrary waveform generator for analog signal processing applications in a CMOS technology. The dissertation consists of two parts: Firstly, a fully-integrated arbitrary waveform generator for a multi-resolution spectrum sensing of a cognitive radio applications, and an analog matched-filter for a radar application and secondly, low-power techniques for an arbitrary waveform generator. The fully-integrated low-power AWG is implemented and measured in a 0.18-mum CMOS technology. Theoretical analysis is performed, and the perspective implementation issues are mentioned comparing the measurement results. Moreover, the low-power techniques of SRAM are addressed for the analog signal processing: Self-deactivated data-transition bit scheme, diode-connected low-swing signaling scheme with a short-current reduction buffer, and charge-recycling with a push-pull level converter for power reduction of asynchronous design. Especially, the robust latch-type sense amplifier using an adaptive-latch resistance and fully-gated ground 10T-SRAM bitcell in a 45-nm SOI technology would be used as a technique to overcome the challenges in the upcoming deep-submicron technologies.
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Have you ever heard about signal generator? If you haven't heard about it, you need to read this article. This article will give you a short explanation about the function and types of signal devices. Signal deviceis also called as a test signal device. This device is used to produce electrical impulses. You can use this device to test, repair and test electronic and acoustic devices. This device has many types based on its function. There is no one signal device that is suitable to all devices and purposes. This device has two major categories. They are function and arbitrary waveform devices.
The simpler type is function. This type produces wave-like form. This equipment has a circuit that produces repeating wave (sine wave). This device is often used in repairing and designing electronics.
This device will send signals to test the particular circuit which is connected to an oscilloscope to measure the output signal. Since there are many kinds of electronic appliances,this device has many kinds of type and model to fulfill your needs.
Arbitrary waveform has some differences with function one. This device produces more forms than the previous device. This equipment produces many kinds of wave such as triangular, square, etc. this device is more expensive than any other signal equipment.
Before people found signal device, they use similar device to produce signal. When people build a new radio station, they will measure another radio's performance as their standard. This radio measurement is called as "golden radio".
This method is cheaper and has a lot of advantages but they have one main disadvantage. This golden radio's performance is unstable. This condition makes golden radio can't be used as reliable equipment. You need to choose modern signal device to get the most accurate, precise and specific test equipment.
You can get more information about signal generator in this site digital signal generator. You can get more complete information in RF signal generators
All You Want To Know About FM Synthesis
FM synthesis stands for Frequency Modulation synthesis. Its initial uses were in the field of radio transmission. It was in the year of 1970 that it began to be used in the field of music. It is considered important as it can create complex sounds from simple sine waves. In other words, it is a form of audio synthesis where the timbre of a simple waveform is changed by frequency. It is altered with a modulating frequency, which is also in the audio range. This further results in a more complex waveform and a dissimilar sounding tone.
However, to synthesis a harmonic sound, the modulating signal must have a harmonic relationship to the original carrier signal. It is very good in creating harmonic as well as inharmonic sound. Proper and complex FM synthesis that uses analog oscillator is not generally feasible due to the presence of inherent pitch instability. However, with the input from frequency stable phase modulation variant is uncomplicated for implementing in a digital set up.
Radio Engineers describes, when f(t) is directly proportional to the derivative of the modulating signal. Here f(t) stands for some arbitrary function added to the carrier. In FM synthesis with the increase of frequency modulation the sound too grows progressively quite complex. Also, with the use of the modulators along with the frequencies that are non integer multiples, the non harmonic signals can easily be created.
The FM synthesis is a type of distortion synthesis or better explained as nonlinear synthesis. It starts with an oscillator generating an audio frequency known as carrier waveform with a frequency of Fc. An audio frequency modulating waveform, with a frequency Fm is further applied to change or alter the frequency of the carrier oscillator. As explained before, this means that the louder the modulating signal, the more the carrier frequency changes.
A modulating waveform containing many frequencies will create many FM sidebands. The deviation is partly responsible for the power of each component of the output audio signals. You should know that the larger the deviation, the more power is shifted to the sidebands. As you vary deviation through modulation amplitude, and vary the spectrum of the modulating waveform, the resulting audio can be progressed without any further instrument complication.
FM synthesis was first discovered somewhere in the year of 1967 or 1968 at Stanford University by John Chowning. Mr. Chowning discovered it when he sped up the vibrato to the point that it started creating audible sidebands rather than faster warbling. The audible sidebands are perceived as timbral change. On the other hand the warbling is perceived as a frequency change.
In the year 1975, it was patented and licensed to Yamaha. Yamaha later patented its hardware implementation; this almost created a monopoly in the technology based areas. The patent however, expired in the year 1995.
FM synthesis is now a common part of the synthesis collection of most of the modern synthesizers. They are usually in combination with additive, subtractive and sampling techniques.
About the Author
Victor Epand is an expert consultant for guitars, drums, and synthesizers. You can find the best marketplace for guitars, drums, and synthesizers at these 3 sites: guitars, drums, drum sets, drum kits, and synthesizers set up, keyboards set up.
where can i download the software for hp 8770a?
I have been trying to find somewhere to download hp 11776a software for the 8770a arbitrary waveform generator with no luck. Does anyone have this software and can email it to me or know of a site I can download it. It came free with the instrument when purchased but I bought a used one and it didn't come with the software.
Try cheking out the website of HP for the drivers, and other programs that they are offering. Try seeking the help of their customer support!
Arbitrary Waveform Generator and Frequency Counter
Toronto, Canada - GAO Instruments (www.GAOInstruments.com) recommends its arbitrary waveform generator and frequency counter which is commonly used in most electronic labs. It directly reads the waveform data files produced by Tektronix oscilloscopes or Tektronix waveform editor software and displays the waveform. The waveform generator uses DDS technology so that it ...
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