Model 675 & Model 676High Performance Arbitrary Waveform Generators
The Model 675 and 676 offer premium signal integrity with an easy to use and robust touch-screen display interface. The output voltage can be adjusted in amplified mode up to 5 Volts pk-pk into a 50 Ω load, with the possibility--thanks to the analog bandwidth of 1 GHz--of performing edges down to 350 ps with minimal overshoot and ringing. The Disruptive and innovative architecture provides the possibility to generate unmatched performance, versatile functionality, outstanding usability, and upgradability during the life of the instrument.
OVERVIEW
Quick Specs
Applications
Channels: 2 Analog
Resolution: 1.2 GS/s 14 Bit Vertical
Accuracy: ±(1% of setting [Vpp] + 5 mV)
Jitter: <20 ps
Voltage: Up to 24 Vpp Output
Memory: 128 Mpts Waveform per channel
Automotive
Research Applications
Aerospace and Defense
IoT and Ind 4.0
Semiconductors Test
KEY SPECIFICATIONS
Model
675
676
Frequency range
300 MHz sine, 6Vpp
600 MHz sine, 5Vpp
Sample rate
1 S/s - 1.6 GS/s
100 S/s - 2.5 GS/s
Optional Digital output
0-8
0/8/16
Marker outputs
1
2
Modulating frequency
500 µHz - 48 Mhz Internal
8Mhz Max External
500 µHz - 50 MHz Internal
10 MHz Max External
AUTOMOTIVE
Today’s cars include many highly sophisticated electronic control units with sensitive electronic components. The Model 675 Arb combines 1.2 GS/s with a 14 vertical resolution, making it an ideal tool for successfully addressing the new testing challenges in automotive.
CAN, CAN-FD,LIN, Flexray, SENT emulation
EMI debugging, troubleshooting and testing
Electrical standards emulation up to 24V
Power MOSFET circuitry in automotive electronics optimization
IOT AND IND 4.0
Arb and Function Riders will be the iconic instrument for these applications. The possibility to emulate complex RF I/Q modulation for simulation, and Test vs wireless devices, for working on Internet of Things or industry 4.0 applications, will prove invaluable. Engineers may use the functionality to import waveforms to emulate devices under test, then impose distortion on waveforms (such as noise) to test the ability of devices to be compliant with the standards.
UNIVERSITY AND INSTITUTE RESEARCH
Research centers and Universities are key users of the Model 675 and 676 Arb generator series. Complex waveform and/or sophisticated Pulses emulation based on variable edges or multilevel could be perfectly created. The combination of fast edge generation, excellent dynamic range and easy to use user interface meet perfectly scientists and engineers working on large experiments such as Accelerators, Tokamak or synchrotrons to emulate signals without creating specifics test boards.
Emulation of detectors
Emulation of signal sources adding noise
Generation/playback of real-world signals
Emulation of long PRBS sequences
Modulating and driving laser diode
AEROSPACE AND DEFENSE
Electronics warfare signals driven by Radar or Sonar systems perfectly match with these generators. Large BW Riders can be used on digital modulation systems for radio applications or other I/Q signal modulation. Pulses may be easily generated for applications such as pulse electron beams, X ray sources, flash X-ray radiography, lighting pulse simulators, and high power microwave modulators.
Frequency response, intermodulation distortion and noise-figure measurements
Phase Locked Loop (PLL) pull-in and hold range characterization
Radar base-band signals emulation
SEMICONDUCTOR TESTS
Emulation of complex signals generated with the inclusion of noise or distortions may become an excellent way to provide the Compliance Components Test to help semiconductor engineers. The fast edges and pulse generation can be used to provide characterization in fast power devices.
Clock and Sensor signals generation
MOSFET gate drive amplitude signal emulation
Power up sequences of IC using the low impedance feature (5 Ω output impedance)
SPECIFICATIONS
CHANNELS RISE/FALL TIME (20%-80%)
(TYPICAL)AMPLITUDE BASELINE OFFSET MIN. PULSE WIDTH 2
@ 1Vpp < 700 ps
@ 5Vpp < 900 ps6 Vp-p into 50 Ohm (std)
12Vp-p into 50 Ohm (HV Opt.)6Vpp (std)
12Vpp (HV Opt.)2.5 ns
AFG MODE
300 MHz Sine Waveforms
1.2 GS/s fixed, 14-bit vertical resolution
Amplitude up to 12 Vp-p into 50 Ω load
Programmable hardware offset: ± 6V into 50 Ohm
Improved DDS based technology
AWG MODE
1.2 GS/s Variable Clock, 14-bit vertical resolution
8-bit digital channels
Up to 128 Mpts Waveform Memory per Channel
318 MHz Calculated Bandwidth
Amplitude up to 12 Vp-p into 50 Ω load
Programmable hardware offset: ± 6V into 50 Ohm
描述 [描述] 提供优质的信号完整性,易于使用和强大的触摸屏显示界面。