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Avision 16-bit, 1.2 GS/s, 24 V Desktop
Arbitrary Waveform Generator TS-AWG4000 Series
TS-AWG4000 Series
The TS-AWG4000 series is a powerful suite of 2, 4, and 8 channel Arbitrary Function Generators (AFGs) and Arbitrary Waveform Generators (AWGs).The TS-AWG4000 offers output ranges of up to 24 Vpp and memory depths of up to 1024 MSample, making the series ideal for automotive, aerospace and defense, macrophysics, and semiconductor test applications. The AWG4000 is available with up to 24 Vpp output range and up to 1024 MSample memory depth making the series ideal for automotive, aerospace and defense, large physics and semiconductor test applications.
2, 4 and 8 Channel Arbitrary Waveform Generators
Up to 8 analog channels and up to 32 digital lines per unit (TTL or LVDS standard) allow users to create mixed signal generation setups to generate analog and digital stimuli.The TS-AWG4000 is ideal for use as a multi-channel arbitrary waveform generator.
- 1.2 GS/s, 16-bit vertical resolution
- Minimum Edge Time: <700ps @1Vpp|<900 ps@5 Vpp
- Maximum dynamic range up to 12 Vpp (50 ohms)
- Up to 1024 Mpts per channel
- 8 digital channels synchronized with analog generation
- Software user interface: Expert Rider for AWG mode and Simple Rider for AFG mode.
Intuitive software user interface
Simple Rider AFG
- Touch screen display and soft keyboard
- Easily Create Waveforms and Pulses with Simple Rider UI
The Simple Rider UI is designed as a quick touch driver that simplifies the operation of the generator by optimizing the capacitive touch screen display technology used on today's tablets or smartphones. Thanks to the intuitive and simple waveform generator user interface, the most complex waveform scenes can be created with just a few screen touches. arb Rider supports a standard Ethernet interface for remote control and easy customization of instrument programming.
Select the Arbitrary Waveform Generator that's right for you
| Model | Analog Channel | Optional digital channels | Maximum Sampling Rate | Buffer Depth | vertical resolution | Maximum Frequency | Maximum Output Voltage | Output Voltage Window |
|---|---|---|---|---|---|---|---|---|
| TS-AWG4012-128M | 2 channels | 8 channels | 1.2 GSample/s | 128 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4012-1G | 2 channels | 8 channels | 1.2 GSample/s | 1024 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4012-2M | 2 channels | 8 channels | 1.2 GSample/s | 2 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4012-64M | 2 channels | 8 channels | 1.2 GSample/s | 64 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4014-128M | 4 channels | 8/16 channels | 1.2 GSample/s | 128 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4014-1G | 4 channels | 8/16 channels | 1.2 GSample/s | 1024 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4014-2M | 4 channels | 8/16 channels | 1.2 GSample/s | 2 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4014-64M | 4 channels | 8/16 channels | 1.2 GSample/s | 64 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4018-128M | 8 channels | 8/16/32 channels | 1.2 GSample/s | 128 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4018-1G | 8 channels | 8/16/32 channels | 1.2 GSample/s | 1024 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4018-2M | 8 channels | 8/16/32 channels | 1.2 GSample/s | 2 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
| TS-AWG4018-64M | 8 channels | 8/16/32 channels | 1.2 GSample/s | 64 MS | 16 bits | 300 MHz | Standard6 Vpp Optional12 Vpp | 24 Vpp |
wide range of applications
4-in-1 Instrument
The TS-AWG4000 series are multifunction signal generators that combine four functions in one instrument, including a function generator, an arbitrary waveform generator, a digital code-type generator, and a serial data code-type generator. These four different functions extend hardware flexibility through two different technologies: improved DDS in AFG mode and variable clock in AWG mode, which allows users to dynamically change all parameters without interference, preserve waveform shapes and create/generate waveforms instantly, and AWG mode, which allows users to create overlay waveforms in both analog and digital modes, insert them into sequences, and apply loops, skips, and conditional branches. Conditional Branching. Serial Data Mode is designed to generate binary information streams. SPG is the perfect tool for the most challenging applications with up to 8 data stream channels, built-in PRBS sequences, modulation functions, conversion shaping, and the flexibility of a powerful analog front-end.
Main characteristics
Up to 1024 Mpoints of waveform memory per channel
16384 sequencer entries
Full synchronization of analog and digital signals
Serial Data Pattern Generation
Aerospace and Defense
Electronic warfare signals driven by radar or sonar systems are a perfect match for the TS-AWG4000 series generators, which can be used in digital modulation systems for radio applications or other I/Q signal modulation. In addition, pulses can be easily generated for applications such as pulsed electron beam or X-ray sources, flash X-ray photography, illumination pulse simulators, and high-power microwave modulators.
Main characteristics
Generates radar test signals with excellent spurious performance
Create complex electronic warfare scenarios with up to 16,384 sequencer entries and advanced sequencer conditions/unconditional jumps.
50 ohm pulse amplitude up to 12 Vpp with ±2.5 V hardware offset
Fast Rise Time Pulse: Up to 900 ps rise/fall time
Automotive, Internet of Things and Industry 4.0
Today's automobiles are equipped with many highly complex electronic control units (ECUs), as well as very sensitive electronic components. 16-bit vertical resolution combined with a high sampling rate and an output amplitude range of 12 Vpp (24 Vpp on high impedance loads) make the TS-AWG4000 series instruments indispensable for successfully meeting new automotive testing challenges. Wireless technology is driving the next industrial revolution, taking productivity and efficiency to new levels. Manufacturing is becoming smarter, more flexible and dynamic. As a result, wireless connectivity is key to projects with very stringent requirements for reliability and security. Based on these scenarios, the TS-AWG4000 series waveform generators enable you to simulate complex RFI/Q modulations for simulation and testing on wireless devices or working on the Internet of Things for Industry 4.0 applications.
Main characteristics
CAN, CAN-FD, LIN, Flexray, SENT Simulation and Troubleshooting
100BASE-T1, 1000BASE-T1, BroadR-Reach emulation as well as interference signal and noise immunity
Power Integrity Testing of Electrical and Electronic Components for Low Voltage Motor Vehicles
Sensor Signal Generation: Simulate ideal signals or generate real-world signals after acquisition with a high-definition oscilloscope.
MOSFET Gate Drive Amplitude Signal Simulation for MOSFET Characterization and Optimization
Electrical standard emulation up to 24 V
MEMS Sensor Testing: Up to 24 V-2.5 ns Rise and Fall Times
Semiconductor Testing and Research
Research requires the ability to simulate signals that add amplitude and timing variations to defects in an accurate, detailed and reproducible controlled manner. Applications in physics, electronics, chemistry, mechanics and other disciplines can benefit from the TS-AWG5000's ultra-intuitive user interface and hardware flexibility, and the most challenging setups for your tests can be solved in minutes. Today's ICs, components, electronic circuits and sensors require highly reliable equipment that extends the operating range of many variables. Simulating overlay signals that contain noise or distortion has become a great way to help semiconductor engineers by providing compliant component testing.
Main characteristics
Clock generation for component overclocking behavior as well as operating range limitation and stress testing
Use the low impedance feature (5 Ω output impedance) to power up the IC sequence.
Simulates sources with added noise and known modulation distortion.
Modulate and drive laser diodes through detailed waveform generation.
Use an oscilloscope to capture and import the real signal from the TS-AWG4000 series generator before generating/playing back.
Dual-pulse test setup measures switching parameters and evaluates the dynamic behavior of MOSFET and IGBT power devices in seconds.
Simulating Long PRBS Sequences with SPG Options
Generate multi-level and multi-side pulsed long waveforms using SPG options.
Multi-Instrument Synchronization
You can synchronize up to 4 devices to build a system of 32 analog and 128 digital channels that are fully synchronized and integrated with True-Arb software.
Main characteristics
Synchronize up to 4 devices: 32 analog channels and 128 digital channels
Easy access to multi-instrument control via True-Arb software
Satisfies modern applications requiring a large number of channels
Quantum computing system with multiple quantum bits
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