Arbitrary Wave Generator AWG-4000
AWG 4012
- 1.2 GS / s, 14-bit vertical resolution
- Minimum edge time down to 1.1 ns
- Maximum dynamic range up to 12Vpp (50 ohms)
- Up to 128 Mpts per channel
- 8 digital channels synchronized with analog generation
- SW User Interface: Expert Rider for AWG mode and Simple Rider for AFG mode.
AWG 4022
- 2.5 GS / s, 14-bit vertical resolution
- Minimum edge time down to 350 ps
- Maximum dynamic range up to 5Vpp (50 ohms)
- Up to 64 Mpts per channel
- 16-32 digital channels synchronized with analog generation
- Multi-instrument synchronization: up to 8 analog channels
- SW User Interface: Expert Rider for AWG mode and Simple Rider for AFG mode.
- SW User Interface: Simple Rider for AFG mode and Simple True Arb for AWG mode.
| mould | Simulation Channel | Digital Channels | Sampling Rate | Record Length | vertical resolution | Maximum Frequency | Maximum Output Voltage | Output Voltage Window |
|---|---|---|---|---|---|---|---|---|
| AWG5062 | 2 | 8 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 5 Ohpp on 50 Ohms | 10Vpp |
| AWG5062D | 2 | 8 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 1.5 Ohpp on 50 Ohm | 5.5Vpp |
| AWG5064 | 4 | 16 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 5 Ohpp on 50 Ohms | 10Vpp |
| AWG5064D | 4 | 16 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 1.5 Ohpp on 50 Ohm | 5.5Vpp |
| AWG5068 | 8 | 32 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 5 Ohpp on 50 Ohms | 10Vpp |
| AWG5068D | 8 | 32 (optional) | 6.16 Gs / sec | 2 or 4 Gpts | 16-bit | 2GHz | 1.5 Ohpp on 50 Ohm | 5.5Vpp |
Description
Arb Rider AWG-4000 Arbitrary Waveform Generator
Time to Reinvent the Advanced Signal Generator
The ARB Rider AWG-4000 Series is a collection of powerful 2-, 4- and 8-channel AFGs (Arbitrary Function Generators) and AWGs (Arbitrary Waveform Generators) from Active Technologies.1 GHzBandwidth up toOutput of 12VppScope and height128 Msample'sThe depth of storage makes the series aautomobile,Aerospace and Defense,large-scale physics和Semiconductor TestIdeal for applications.
Up to 8 analog channels and 32 digital lines per unit (TTL or LVDS standard) allow the user to create mixed signal generation setups to generate both analog and digital excitations.The AWG-4000 is ideal for use as a multi-channel arbitrary waveform generator.
| mould | Simulation Channel | Digital Channels | Sampling Rate | Record Length | vertical resolution | Maximum degree of freedom | Maximum Output Voltage | Output Voltage Window |
|---|---|---|---|---|---|---|---|---|
| AWG-4012 | 2 | 8 (optional) | 1.2 GS / sec | 2 to 128 Mpts | 14-bit | 300 MHz | 6Vpp-12Vpp (optional) | 24Vpp |
| AWG-4014 | 4 | 8 or 16 (optional) | 1.2 GS / sec | 2 to 128 Mpts | 14-bit | 300 MHz | 6Vpp-12Vpp (optional) | 24Vpp |
| AWG-4018 | 8 | 8, 16 or 32 (optional) | 1.2 GS / sec | 2 to 128 Mpts | 14-bit | 300 MHz | 6Vpp-12Vpp (optional) | 24Vpp |
| AWG-4022 | 2 | 8, 16 or 32 (optional) | 2.5 GS / sec | 1 to 64 Mpts | 14-bit | 600 MHz / 1 GHz | 0.8 to 5 Vpp | 10Vpp |
4-IN-1 Instrument
The AWG-4000 series instruments are multi-function signal generators that combine four functions in one instrument, including a function generator, an arbitrary waveform generator, a digital mode generator, and a serial data mode generator.
These four different functions extend the flexibility of the hardware using two different technologies: improved DDS in AFG mode and variable clock in AWG mode, True Arbitrary technology.
The AFG mode allows users to change all parameters that preserve the waveform shape in real time and create/generate waveforms at a glance.
AWG mode allows users to create complex waveforms in analog and numeric modes, insert them in sequential order, apply loops, jumps and conditional branches.
The Serial Data Mode mode is designed to generate binary information streams.SPG has up to 8 data stream channels with built-inPRBS Sequence, Modulation Function, Transition ShapingAnd the flexibility of a powerful analog front-end makes it the ideal tool for the most challenging applications.
emphasize that
- Up to 128 Mpoint waveform storage per channel
- 16384 sequencer entry
- 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 AWG-4000 series of 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, X-ray flash radiography, illumination pulse simulators, and high power microwave modulators.
emphasize that
- Generates radar test signals with excellent spurious performance
- Create complex electronic warfare scenarios using up to 16,384 sequencer entries and Advanced Sequencer conditional/unconditional jumps.
- 50 ohm pulse amplitude up to 12Vpp with ±2.5V hardware offset
- Fast Rise Time Pulse: up to 350 ps rise/fall time
Automotive, Internet of Things and Industry 4.0
Today's automobiles include many highly complex electronic control units (ECUs) with very sensitive electronic components. 16-bit vertical resolution combined with a high sampling rate and an output amplitude range of 12Vpp (24Vpp at high impedance loads) make the AWG-4000 series instruments indispensable for successfully solving 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 becoming more and more important and critical to business and mission, placing very stringent demands on reliability, latency and security.
In these cases, the AWG-4000 series waveform generators enable you to emulate complex RF I/Q modulations for simulation and testing on wireless devices or working on the Internet of Things for Industry 4.0 applications.
emphasize that
- CAN, CAN-FD, LIN, Flexray, SENT Simulation and Troubleshooting
- 100BASE-T1, 1000BASE-T1, BroadR-Reach emulation and resistance to interference signals and noise
- Power Integrity Testing of Low Voltage Automotive Electrical and Electronic Components
- Sensor Signal Generation: Simulate an ideal signal or generate a realistic signal after acquisition using a high-definition oscilloscope.
- MOSFET gate drive amplitude signal simulation for MOSFET characterization and optimization
- Electrical standard emulation up to 24 V
Semiconductor Testing and Research Center
Research needs to simulate signals with increasing amplitude and time-varying defects in an accurate, detailed and reproducible controlled manner. Physics, electronics, chemistry, mechanics and other disciplines can benefit from the ultra-intuitive user interface and hardware flexibility.
The most challenging settings in the test can be solved in a few minutes.
Today's ICs, components, electronic circuits and sensors require a high degree of reliability to extend the operating range of many variables.
Simulation of complex signals that contain noise or distortion can be a great way to help semiconductor engineers by providing consistent component testing.
emphasize that
- Clock generation for component overclocking behavior, operating range limitation and stress testing
- Power-up sequence for IC using low impedance function (5Ω output impedance)
- Emulating the source adds noise and known modulation distortion.
- quantum computation
- Modulated and driven laser diode with detailed waveform generation
- Generation/playback of real signals previously captured by oscilloscopes and imported into AWG-4000 series generators.
- Dual-pulse test setups in seconds to measure switching parameters and evaluate dynamic performance of MOSFET and IGBT power devices
- Simulating Long PRBS Sequences with SPG Options
- Generate multi-level and multi-edge long waveforms with the SPG option.
Multi-Instrument Synchronization
You can synchronize up to 4 units to build a system of 32 analog and 128 digital channels that are fully synchronized and integrated with True-Arb software.
emphasize that
- Synchronization of up to 4 units: 32 analog channels and 128 digital channels
- Easy-to-use multi-instrument control via True-Arb software
- Solve modern applications that require a large number of channels
- Quantum computing system with multiple quantum bits
