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VXI Technology is one of the leading suppliers worldwide of modular test solutions, offering a broad selection of instruments capable of meeting widely varying customer needs and applications. We develop high-performance instrumentation with a focus on density, modularity and price/performance.
All of our products come with industry standard drivers. These include driver source code and executable soft front panels for interactive control with the instruments.
VXI Technology provides the following types of instruments:
1. Single function, single-slot VXIbus modules
2. Multi-function instruments based on our VMIP™ platform
3. VMEbus instrumentation
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Generating E- and H-fields orthogonally in a ratio and conformation typical of free space, the AT5000 adds a new and needed dimension to shielded room or anechoic chamber testing.
Essentially a 2.4 x 1 meter section of parallel conductor transmission line, the AT5000 offers the 377-ohm wave impedance of free space and extends the frequency range of field generators nearly two octaves - to 100 MHz.
The open area between conductors accommodates entire assemblies within the maximum field volume. Test items too large for insertion between the elements can be brought near the parallel conductors and radiated - the AT5000 easily rotates to any horizontal, vertical or diagonal position.
The AT5000M3 version comes with a special stand which allows rotation of the field generator in three axis as well as height adjustment. Rotation accommodates test items that can't fit between conductors.
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Complex signals have been pre-programmed (ROM) on the GX 1010 and can be accessed as and when necessary. Up to 5 additional signals can be loaded (in RAM) from digital interfaces - RS232 or IEEE.
# Frequencies from 0.1mHz to 10MHz
# Signals: Sine, square, triangle, TTL, pulse,
ramp, noise, arbitrary signals etc.
# Digital display, 20-character LCD screen, 4 lines
# Output level - 5mV to 20 VDC
# Wobble (Ext, Int, Lin or Log), modulation (AM, FM,
FSK)
# Programmable RS232, IEEE, creation of specific signals by SX-GENE software
# Power supply: 198-264V or 99-132V
# Safety: IEC 61010-1, Cat.I, 50V
The SX-GENE software extends the potential applications of the GX 1010 by exploiting all its abitrary functionalities:
# parameter setting from a PC
# storage and transmission of the configurations to the GX 1010
# importation of signals from the GX 1010 and from OX 8000 oscilloscopes
# graphical, mathematical and bitmap processing of the wave forms
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The GP1616H function generator is a programmable instrument capable of generating predefined Sine, Square, Triangle, Ramp, Haversine, Haver triangle and Pulse waveforms as well as a programmable DC output. The firmware is customized to be fully compatible with the Hewlett Packard 8116A GPIB command set. Software test procedures using the original HP8116A instrument require no code modification when upgrading to the GP1616H.
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Specifications:
Mini Manual pulse generator for frontpanel built in.
Pulses: 100
Channel: A + B
Supply voltage: 5... 24V DC
Output circuit: Push-Pull
Protection: IP 50
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General description : High-quality laser timing and laser synchronizing at affordable pricing, the 9530 Pulse Generator is the first pulse generator on the market.
The 9530 Pulse Generator incorporates laser timing and laser synchronization to effectively produce any series of events. The 9530 is ideal for laser timing applications with eight independent outputs, dual laser trigger/gate inputs and external laser clock reference input.
The 9530 can accept a low amplitude 20mV, 100MHz clock frequency, which offers the ability to synch directly to a laser photodiode signal and allows for system timing with low jitter laser timing.
The 9530 can be used as a master time base to other delay generators or equipment with a 50 Ohm load. Precision laser timing is the foundation for the 9530 Pulse Generator - offering 50pS internal jitter and 250pS Delay and Width resolution.
The following features allow the users to set up an intricate experiment or synchronizing multiple timed events: Ethernet/USB interface, complex burst sequences, Divide-by-N, Setting Profiles, Dual Triggers, Clock Divider, Pulse Picking and Negative Delays
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General description :
The model 9528 Pulse Generator takes pulse generator and digital delay technology to new levels. Cost effective, yet extremely capable, this instrument provides solutions to generate and synchronize multiple pulses and triggers for a wide variety of applications from simple to complex.
The 9528 provides up to eight fully independent digitally controlled channels having width, delay, rate and amplitude control on each output. For automated test sequencing, all common computer interfaces are available such as RS232, USB, GPIB and Ethernet.
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General description :
The Model 9518+ Digital Delay Pulse Generator with 8 independent outputs is designed to provide cutting edge, yet cost-effective solutions to generate and synchronize multiple pulses for a variety of applications. The delay and pulsewidth for each channel are independent and digitally controlled which makes this pulse generator ideal for situations that require synchronizing a number of different events. Flexible operating modes allow complete control of pulse outputs, including continuous, duty cycle, burst and single shot with external trigger/gate. Advanced features, such as Multiplexing, allow the timing of all or several channels to be combined for complex pulse patterns. For automated test equipment, complete control of the instrument is provided through the standard RS232, USB and GPIB Interface.
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General description :
The Model 9618+ Digital Delay-Pulse Generator with 8 independent outputs is our most affordable digital delay/pulse generator - Ideal for applications that require moderate precision and multi-channel capability. The delay and pulsewidth for each channel are independent with 2-20 volt output range, allowing the user to drive a wide range of load circuitry. This pulse generator offers several operating modes, including continuous, burst, single shot and external trigger/gate, allowing complete control of the pulse outputs. With precise control of the delay periods and quick recall of up to 6 system configurations, the instrument is instantly ready for use. For automated test equipment, complete control of the instrument is provided through the standard RS232 interface.
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The 60 Pole Pair Magnet Wheel is a ferro-magnetic nylon wheel with 120 alternating magnetic poles infused within the material. It is 3-3/4 inches in diameter, with the magnetic surface on the outside circumference of the wheel. The magnets are rectangular and are evenly spaced with very small non-magnetized spaces between them. The wheel is typically mounted on a shaft, up to 3 inches in diameter. These shaft mount wheels are custom bored to slide snugly onto the shaft, and are secured to the shaft with two set screws. Many standard hub sizes are in stock, including popular NEMA C Frame Motor sizes. These Wheels are also available in end-of-shaft mount versions.
Features:
- Custom Mounting Hubs
- Produces 60 or 120 pulses per revolution
- Over the Shaft Mount or End-Of-Shaft Mount
- NEMA-C Flange Ring Kit Compatible
- Non-Contact Sensing
- 10,000 rpm Maximum Speed
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The GP1550 series features:
- pulse widths from 10nS to 10S
- delays from 0nS to 10S with up to 6-digits resolution.
- Output levels are from -10V to +10V, with pulse amplitudes from 0.5V to 10Vp-p into a 50 Ohm load.
The GP1612H features:
- variable pulse widths from 10 ns to 10 s,
- delays from 0 ns to 10 s with up to 6 digits resolution
- adjustable output levels from -8V to +8V, with pulse amplitudes from .1V to 16Vp-p into 50 ohms load (.2V to 32Vp-p into open circuit).
These Pulse Generators also feature selectable complementary pulse and double pulse, in continuous, triggered, gated and counted burst modes.
They allow selection of predefined amplitude and offset for critical stimulus and testing of major semiconductor technologies as TTL, CMOS and ECL.
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The MTI Instruments Model 1510A Precision Signal Source features dual-channel Direct Digital Synthesis (DSS) that produces high accuracy signals over a wide amplitude and frequency range in a compact, portable device. It generates both voltage and charge (pC) signals to simulate a variety of transducers and sensors. With multiple wave shapes, adjustable frequency, amplitude and phase, a sweep function, and 40 memory locations, it’s the ideal tool for all your test and calibration needs. The 1510A also includes a new low-voltage bridge mode that generates 5-100,000µV, with closed-loop control, allowing accurate calibration of strain gage circuits and similar sensors.
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The GC1300 is a single-channel PCI-based Arbitrary Waveform Generator. It is a high performance waveform generator that combines many powerful functions in one small package. Supplied free with the instrument is Arbconnection software, which is used for controlling the GC1300 and for generating, editing and downloading waveforms from a remote computer.
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Arbitrary waveform generator with four independently controllable channels
Even for Complex Signals, Evaluation is made easy
Easy Touch Panel Operation
Multiple Channels, 4CH (7075 ), 2CH (7075-01)
Large 128,000-Word/Channel Memory, Sweep Sequence Functions
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National Instruments PXI and PCI signal generators include versatile arbitrary waveform generators, function generators, and RF vector signal generators. Whether generating simple sine and clock signals or complex I/Q modulated communications waveforms, the broad NI offering of signal generators can improve your prototyping and test systems by offering world-class generation performance and higher system throughput.
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The R&S®SMU200A has been designed to meet all requirements encountered in research and development of modern communication systems as well as in their production. The R&S®SMU200A Vector Signal Generator not only combines up to two independent signal generators in one cabinet of only four height units, it also offers unrivalled RF and baseband characteristics.
Two signal generators in one
* Frequency options from 100 kHz to 2.2/3/4/6 GHz for the first RF path
* Optional second RF path up to 2.2 GHz or 3 GHz
* Up to two complete baseband paths
* Lossless combination of baseband signals in the digital domain (e.g. for testing multistandard base stations)
Outstanding signal quality
* I/Q modulator with 200 MHz RF bandwidth
* Very low SSB phase noise of typ. -135 dBc (f = 1 GHz, 20 kHz carrier offset, 1 Hz measurement bandwidth), typ. -139 dBc with the enhanced phase noise performance option
* Wideband noise of typ. -153 dBc (CW, f = 1 GHz, >10 MHz carrier offset, 1 Hz measurement bandwidth)
* Excellent ACLR of typically +70 dB for 3GPP FDD
* Very high level repeatability of 0.05 dB
* High output power up to +19 dBm (PEP), overrange + 26 dBm
* High-stability reference oscillator as standard
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Performance:
The CDX dual frequency RF generator comes in a 1000 or 2000 watt design. The high frequency (HF) section of the CDX provides 600 or 1000 watts of power, with optional frequencies from 2 to 60 MHz. The low frequency (LF) section can deliver 600 or 1000 watts, with optional fixed or variable frequencies ranging from 20 kHz to 2 MHz.
Applications:
This solid-state generator is ideal for plasma applications including bias, etch, deposition and ashing.
Features:
Compact packaging reduces space, service (electrical and plumbing), and spare inventory requirements
Complies to CE-Mark standards and is ETL Marked and SEMI F47 compliant
Protection circuits safeguard the amplifiers from over-voltage, over-current and over-power operating conditions
Gain-control circuitry stabilizes output power against line and load variations, and limits power during high VSWR conditions
Unique power monitoring in the low-frequency section measures delivered power into any impedance load
Optional phase locked output in the low- frequency section eliminates the need for a matching network in many applications
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Function Generators
AFG3000 Series Arbitrary/Function Generators
The AFG3000 Arbitrary/Function Generator Series, with its large color display and intuitive user interface, is both easy to learn and easy to use. Operation is just as intuitive as Tektronix oscilloscopes, speeding design and time to market. Dual channel models allow a completely independent selection of waveforms and frequencies and represent a big advantage in versatility and cost. The front panel memory USB connectivity makes it easy to save and transfer waveforms and settings.
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The DTG5000 Series combines the power of a data generator with the capabilities of a pulse generator, shortens the duration of building complex test procedures and simplifies the generation of low-jitter, high-accuracy clock and serial data signals across multiple channels.
Features & Benefits
* Versatile Platform Combines Features of Data Generator, Pulse Generator, and DC Source
* Up to 3.35 Gb/s Data Rate
* From 1 to 96 Data Channels (Master/Slave)
* Class Leading Delay Resolution of 0.2 ps (DTG5274/DTG5334), 1 ps (DTG5078), up to 600 ns of Total Delay
* Modular Architecture Helps to Protect Your Investment and Allows the Instrument to Expand With Your Growing Needs
* Advanced Control Over Signal Parameters to Meet Most Current Testing Needs, Including Stressed Eye Generation
o External Jitter Injection (DTGM31, DTGM32 Modules)
o Level Control with 5 mV Resolution
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The V375 is a versatile VME four-channel arbitrary waveform generator. The module architecture was designed in cooperation with major aircraft engine and power systems manufacturers to provide the features needed for accurate simulation of real-world sensor inputs.
The V375 is ideal for:
* Simulation of sensor signals from complex rotating machines
* Generation of pure and distorted polyphase AC waveforms, with all waveshape parameters (frequency, amplitude, phase, distortion components) smoothly variable in real time
* Generation of complex pulse trains with realtime control of relative pulse positions and amplitudes
* Shake table, servo, or actuator drive
The V375 builds on its predecessor, the Model V370, by extending the output bandwidth to 300 kHz and adding four inputs for user waveforms to sum into the channel outputs. A new burst mode allows software or external input to trigger generation of one or more waveform cycles.
Features:
* Four independent DDS frequency sources allow smooth variation of waveform scan rates without requiring table reloads
* Four versatile, memory-table-driven waveform generators scan up to 65,536 discrete points per waveform at up to 15 MHz point step rate
* 16-bit amplitude resolution; 32-bit frequency resolution
* Programmable waveform jump and triggered burst capability
* Channels may be synchronized within a module or across multiple modules
* Programmable lowpass filters are provided to smooth discrete sample points
* Onboard microprocessor performs macro commands: Fourier synthesis, pulse train generation, sweeping, and test functions
More Waveform Generators:
http://www.highlandtechnology.com/Pages/prodind2.html#Anchor-Arb
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Smaller than a paperback, the T346 outperforms rackmount instruments costing far more. It features four output channels capable of generating standard and arbitrary waveforms from microHz to 32 MHz, and four additional internal channels usable as modulation and summing sources. Channels can also be pulse/PWM and Gaussian noise sources, and can be summed with or modulate one another in any combination. Modulations include AM, FM, PM, and PWM. The T344 version is a four channel ARB without modulations.
The T344 and T346 have evolved from the budget-priced 2 MHz T340 waveform generator, and the parallel V340-series VME modules.
Additional Waveform Generators:
T340 Embedded sine wave generator
http://www.highlandtechnology.com/DSS/T340DS.html
T344 Waveform generator
http://www.highlandtechnology.com/DSS/T344DS.html
V340 VME sine wave PWM/pulse generator
http://www.highlandtechnology.com/DSS/V340DS.html
V346 VME complex waveform generator
http://www.highlandtechnology.com/DSS/V346DS.html
V350 VME analog and digital waveform generator
http://www.highlandtechnology.com/DSS/V350DS.html
V370 VME arbitrary waveform generator
http://www.highlandtechnology.com/DSS/V370DS.html
V375 VME arbitrary waveform generator
http://www.highlandtechnology.com/DSS/V375DS.html
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* 14 bit arbitrary waveform generator
* 2 synchronous channels with seperate D/A
* Maximum output rate 125 MS/s on 2 channels
* Output up to ±3 V in 50 Ohm
* Amplifier module with ±10 V output level as an option
* Programmable Offset and Amplitude
* Up to 256 MSample memory
* Continuous FIFO mode
* 32 Bit CompactPCI 6U interface
* Compatible with 3,3V and 5V PCI I/O-Voltage
The MC.60xx series offer 8 different versions of arbitrary waveform generators for the CompactPCI bus. With these boards it is possible to generate free definable waveforms on several channels synchronously. There are up to four channels on one board with a maximum sampling rate of 125 MS/s. The internal standard Sync-bus allows the setup of synchronous multi channel systems with higher channel numbers. It is also possible to combine the arbitrary waveform generator with other boards of the MC product family like analogue or digital acquisition boards. With the up to 256 MSample large on-board memory long waveforms could be generated even with high sampling rates. The memory could also be used as a FIFO buffer to make continuously data transfer from PC memory or hard disk.
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* 14 bit arbitrary waveform generator
* Maximum output rate 125 MS/s on one channel
* Output up to ±3 V in 50 Ohm
* Amplifier module with ±10 V output level as an option
* Programmable Offset and Amplitude
* Up to 64 MSample memory
* Continuous FIFO mode
* 32 Bit PXI / CompactPCI 3U interface
* Software SPEasyGenerator included
The MX.60xx series offers 4 different versions of arbitrary waveform generators for the CompactPCI bus. With these boards it is possible to generate free definable waveforms on several channels synchronously. There are one or two channels on one board with a maximum sampling rate of 125 MS/s. The internal standard Sync-bus allows the setup of synchronous multi channel systems with higher channel numbers. It is also possible to combine the arbitrary waveform generator with other boards of the MX product family like analogue or digital acquisition boards. With the up to 64 MSample large on-board memory long waveform could be generated even with high sampling rates. The memory could be used also as a FIFO buffer to make continuous data transfer from PC memory or hard disk.
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* 14 bit arbitrary waveform generator
* 4 synchronous channels with seperate D/A
* Maximum output rate 20 MS/s on 4 channels
* 32 Bit 66 MHz PCI interface available
* PCI Express x1 interface available
* Output up to ±3 V in 50 Ohm
* Amplifier module with ±10 V output level as an option
* Programmable Offset and Amplitude
* Software SPEasyGenerator included
* Up to 4 GSample memory
* Synchronisation to multi-board system possible
The M2i.60xx series offer 8 different versions of arbitrary waveform generators for the PCI bus. With these boards it is possible to generate free definable waveforms on several channels synchronously. There are up to four channels on one board with a maximum sampling rates of 125 MS/s. The internal standard Syncbus allows the setup of synchronous multi channel systems with higher channel numbers. It is also possible to combine the arbitrary waveform generator with other boards of the M2i product family like analogue or digital acquisition boards.
With the up to 2 GSample large on-board memory long waveforms could be generated even with high sampling rates. The memory could also be used as a FIFO buffer to make continuously data transfer from PC memory or hard disk.
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* Pattern generator with programmable levels
* 32 bit data width at 40 MS/s
* 32 Bit 66 MHz PCI interface available
* PCI Express x1 interface available
* High and low level programmable to -2 V up to +10 V
* Level individually for each 4 bit programmable
* Outputs can be individually disabled
* Differntial outputs in hardware
* Capable of driving 110 ohm termination
* Up to 4 GSample memory
* Synchronisation to multi-board system possible
* Edge/pulse width/delay trigger
* Synchronization option available for up to 16 cards
* Options: ABA mode, Multiple Recording/Replay, Gated Sampling/Replay, BaseXIO
The M2i.72xx pattern generator series gives the user the possibility to generate digital data with a wide range of output levels. For every 4 bit the LOW and HIGH levels can be programmed from -2.0 V up to +10.0 V. Even at high speeds you are not limited concerning the maximum output swing. This enables the user to drive devices of nearly any logic family, like ECL, PECL, TTL, LVDS, LVTTL, CMOS or LVCMOS. The potentially necessary differential signals are generated in hardware, so that only one data bit is used for each pair of differential signals.
All outputs can be separately disabled allowing the easy connection with digital acquisition boards and the adaption to a wide range of test setups. The internal standard synchronisation bus allows synchronisation of several M2i.xxxx boards. Therefore the M2i.72xx board could be used as an enlargement to any digital or analog board.
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* 14 bit arbitrary waveform generator
* Maximum output rate 125 MS/s on one channel
* 32 Bit 66 MHz PCI interface available
* PCI Express x1 interface available
* Output up to ±3 V in 50 Ohm
* Amplifier module with ±10 V output level as an option
* Programmable Offset and Amplitude
* Software SPEasyGenerator included
* Up to 4 GSample memory
* Synchronisation to multi-board system possible
The M2i.60xx series offer 8 different versions of arbitrary waveform generators for the PCI bus. With these boards it is possible to generate free definable waveforms on several channels synchronously. There are up to four channels on one board with a maximum sampling rates of 125 MS/s. The internal standard Syncbus allows the setup of synchronous multi channel systems with higher channel numbers. It is also possible to combine the arbitrary waveform generator with other boards of the M2i product family like analogue or digital acquisition boards.
With the up to 2 GSample large on-board memory long waveforms could be generated even with high sampling rates. The memory could also be used as a FIFO buffer to make continuously data transfer from PC memory or hard disk.
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The Function Generator is a full-featured, 30 MHz instrument that uses an innovative Direct Digital Synthesis (DDS) architecture. It generates many standard waveforms with excellent frequency resolution (1 µHz), and has versatile modulation capabilities including AM, FM, Burst, PM and frequency sweeps. It also generates arbitrary waveforms with a fast 40 Msample/s update rate.
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Model 5061 represents the company’s next generation of products in the field of function, pulse and arbitrary waveform generators. This instrument is superior and far more versatile than any existing equivalent weather it is an analog or digital product. As a waveform source, this model can replace analog generators in almost every application. The Instrument combines high-frequency performance, versatility and compact size in a boxed format. Featuring signal output in the range of 1mHz to 25MHz and 14-bit vertical DAC resolution and up to 1M arbitrary waveform buffer, these instruments exhibit performance and provide solutions to the most demanding test stimulus challenge.
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The GX1110 is a high performance, single-channel PXI arbitrary waveform generator that offers function generator and arbitrary waveform generator functionality within one instrument. Built-in waveforms are available for use with both the DDS or AWG modes of operation and include Sine, Triangle, Ramp, Noise, Gaussian pulse and Sinx/x. A flexible sequencer is also available as part of the AWG's architecture, supporting the generation of complex waveforms.
The GX1200/1201 is a single-channel PXI-based Arbitrary Waveform Generator. The GX1200/1201 is a high performance waveform generator that combines many powerful functions in one small package.
The GX1200/1201 is a single-channel PXI-based Arbitrary Waveform Generator. The GX1200/1201 is a high performance waveform generator that combines many powerful functions in one small package.
The GC1300 is a single-channel PCI-based Arbitrary Waveform Generator. It is a high performance waveform generator that combines many powerful functions in one small package. Supplied free with the instrument is Arbconnection software, which is used for controlling the GC1300 and for generating, editing and downloading waveforms from a remote computer.
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Arbitrary Waveform Generators
Arbitrary waveform generators offer a degree of versatility that few other instruments can match. In addition to creating standard waveforms, they can generate "real world" signals with all the glitches, drift, noise and other anomalies that a device-under-test will encounter when it leaves the lab or manufacturing floor.
With their ability to produce all the types of waveforms that you can imagine, these mixed signal generator instruments embrace applications that include serial data communication simulation, wireless network stress testing, disk drive testing and much more. Key capabilities include:
* Analog, digital and mixed signal generation
* Up to 4 analog outputs, 28 digital outputs, and 4 variable level marker outputs
* Industry-leading performance: up to 20 GS/s sample rate; up to 5.8 GHz bandwidth
* Up to 14-bit vertical resolution
* Real-time sequencing control to create infinite waveform loops, jumps, patterns and conditional branches
* Integrated PC, large color display, touch screen, removable hard drive, CD/DVD drive, USB ports, Ethernet and GPIB, providing flexibility to enhance productivity.
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