Low Phase Noise Amplifiers
HX2410 Series
The HX2410 CW to CMOS Conversion Amplifier is intended for use as a peripheral component in precision oscilloscope test applications. The HX2410 eliminates trigger induced jitter that is caused by the low slew rate of low frequency sinusoidal (CW) trigger signals, ultimately resulting in inaccurate oscilloscope measurements. The proprietary architecture maintains the integrity of an ultra low phase noise sinusoidal (CW) signal while converting it to a CMOS Logic level exhibiting the absolute lowest jitter available. Holzworth products are 100% finalperformance tested for phase noise (jitter) verification.
The HX2410 CW to CMOS Conversion Amplifier is also available with Maury multi-channel RF Synthesizer products as an integrated option. Inquire directly with Maury or a Sales Representative for more information.
Key Features
Models
Specifications
Input Frequency Range
Input Power Range
Additive Phase Noise
5 MHz to 500 MHz
0 to 12 dBm
-160 dBc/Hz (100MHz, 10kHz Offset, PIN=+10dBm)
Features & Benefits
- Convert Sinusoid (CW) to CMOS Logic
- Reduce effects of Trigger Jitter
- Increase Oscilloscope Accuracy
- Trigger Frequency: 5MHz to 500MHz
- Integrated Ultra Low Noise Bias Network
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Related Resources
01
Understanding Phase Noise Measurements Poster
The poster, “Understanding Phase Noise Measurements,” provides a clear and concise overview of key phase noise concepts, including its impact on system performance, measurement techniques, cross correlation, confidence factor vs. noise floor, and advanced analysis solutions.