Agilent / HP / Keysight 83496B
83496B Optical / Electrical Clock Recovery Module with Phase Noise Analysis
Description
The 83496B Clock Recovery Module with Phase Noise Analysis provides increased eye-mask and jitter measurement accuracy with breakthrough performance in clock recovery circuitry. It provides ideal performance for waveform analysis with the 86100C Digital Communications Analyzer and can derive a clock from NRZ signals with rates as low as 50 Mb/s, as high as 13.5 Gb/s, and any rate in between. At under 300 femtoseconds rms, the residual jitter of the output clock is virtually negligible, allowing accurate measurements of very low levels of signal jitter.
Key Points
Inputs & outputs: 9/125 µm (single-mode) to 62.5/125 µm (multimode) (Option 101)
Wavelength range: 1250-1650 nm (single-mode), 750-1330 nm (multimode) (Option101)
Minimum optical modulation amplitude: -11 dBm (1310/1550 single-mode), -10 dBm (1310 multimode), -8 dBm (850 multimode) (Option 101)
Inputs: single-ended or differential, 3.5 mm (m) connectors (Option 100)
Outputs (option 100 only): single-ended or differential, 3.5 mm (m) connectors (Option 100)
Minimum electrical input level: 75 mVpp (Option 100)
Golden PLL operation (option 300) with a tunable loop bandwidth from 15 KHz to 10 MHz
Ultra low residual jitter: < 300 fs rms (characteristic at 10 Gb/s)
High gain for tracking spread-spectrum signals
Phase noise analysis of clock or data signals
Specifications
Optical clock recovery (option 101 only):
Inputs & outputs: 9/125 µm (single-mode) to 62.5/125 µm (multimode)
Wavelength range: 1250-1650 nm (single-mode), 750-1330 nm (multimode)
Minimum optical modulation amplitude: -11 dBm (1310/1550 single-mode), -10 dBm (1310 multimode), -8 dBm (850 multimode)
Electrical clock recovery (option 100 only):
Inputs: single-ended or differential, 3.5 mm (m) connectors
Outputs (option 100 only): single-ended or differential, 3.5 mm (m) connectors
Minimum electrical input level: 75 mVpp