Keysight Technologies E8257D in Los Angeles, CA, USA
Used
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Specifications
- Condition
- used
- Form factor
- Benchtop
- Feature
- Parameter
- Frequency options
- 13, 20, 31.8, 40, 50, 67 GHz, Extend to 1.1 THz
- Performance level
- ◆◆◆◆◆◇
- Output power @1 ghz
- n/a
- Phase noise @1 ghz (20 khz offset)
- n/a
- Frequency switching (typical)
- n/a
- Harmonics @1 ghz
- n/a
- Non-harmonics @1 ghz
- n/a
- Sweep mode
- n/a
- Baseband generator mode
- n/a
- Software-general purpose
- AM, FM, PM Pulse
- Software-cellular/wireless connectivity
- n/a
- Software-audio/video broadcasting
- n/a
- Software-detection/positioning/tracking/navigation
- n/a
- Waveform playback memory
- n/a
- Frequency modulation-maximum deviation @1 ghz
- n/a
- Frequency modulation-rate @100 khz deviation
- n/a
- Phase modulation-maximum deviation
- n/a
- Phase modulation-maximum deviation in high-bw mode
- n/a
- Amplitude modulation-maximum depth
- n/a
- Amplitude modulation-rate
- n/a
- Analog
- Yes
- E8257d
- PSG RF Analog Signal Generator
- E8257d-1sm *
- Scan modulation (Option 513 and 520 only
- Category
- Test Generators in USA
- Subcategory
- Test equipment
- Subcategory 2
- Rf generators >=40 ghz
- Subcategory 3
- Rf & microwave signal generators
- Listing ID
- 93098945
Description
PSG Series Analog Signal Generator
Metrology-grade analog signal generator offering industry-leading output power, level accuracy, and phase noise, with frequency coverage from 100 kHz to 67 GHz (extendable to 500 GHz) for testing advanced RF and microwave radar.
The Keysight E8257D PSG analog signal generator delivers industry-leading output power, level accuracy, and phase noise performance up to 67 GHz (operational to 70 GHz). The PSG analog signal generator's high output power and superior level accuracy often eliminates the need of an external amplifier for testing high power devices and minimizes test uncertainty to identify errors early in the design process.
The world-class phase noise performance (typically -126 dBc/Hz @ 10 GHz carrier and 10 kHz offset) is ideal for local oscillator, low jitter clock substitution and adjacent channel selectivity tests.