Keysight (Agilent) 86105D REPAIR and Keysight (Agilent) 86105D CALIBRATION
 
Custom-Cal has a high success rate in the repair of the Keysight (Agilent) 86105D. A calibration by Custom-Cal is performed by engineers with extensive OEM experience. We have the expertise and the necessary standards to perform the Keysight (Agilent) 86105D Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   Keysight (Agilent) 86105D   Description / Specification:    
Keysight (Agilent) 86105D 34 GHz Optical, 50 GHz Electrical Module, 750-1650 nm, MM/SM

The Keysight 86105D 34 GHz Optical, 50 GHz Electrical Module is used with the Infiniium DCA-X 86100D Wide-Bandwidth Oscilloscope Mainframe.
Specifications.

No. of optical channels: 1.
No. of electrical channels: 1.
Filtered data rates: 8.5, 9.953, 10.3125, 10.519, 10.664, 10.709, 11.096, 11.317, 14.025 Gb/s.
Mask test sensitivity: -7 dBm.

Optical channel.
Optical channel unfiltered bandwidth: 20 GHz (22 GHz), 34 GHz option 281.
Wavelength range: 750 to 1650 nm.
Calibrated wavelengths: 850 nm/1310 nm/1550 nm.
Optical sensitivity 850 nm:
  8.5 to 11.3 Gb/s, -9 dBm;
  14.025 Gb/s, -6 dBm.
Optical sensitivity 1310 nm/1550 nm:
  8.5 to 11.3 Gb/s, -12 dBm;
  14.025 Gb/s, -9 dBm.
Transition time (10 to 90% calculated from TR = 0.48/BW optical): 24 ps.
RMS noise Characteristic 850 nm:
  8.5 to 11.3 Gb/s, 10 μW;
  14.025 Gb/s, 16 μW.
RMS noise Characteristic 1310/1550 nm:
  8.5 to 11.3 Gb/s, 5 μW;
  14.025 Gb/s, 8 μW.
Scale factor (per division): 20 μW (min), 500 μW (max).
CW accuracy (single marker, referenced to average power monitor):
Single-mode;
  ± 25 μW ± 2% (8/10 Gb/s),
  4% (14 Gb/s),
  6% (Unfiltered).
Multimode;
  ± 25 μW ± 10%.
Average power monitor (specified operating range): - 30 to +3 dBm.
Average power monitor accuracy Single-mode, Multimode (characteristic): ± 5% ± 200 nW, ± Connector.
Maximum input power non-destruct average: 5 mW (7 dBm).
Fiber input: 62.5/125 μm.

Electrical channel.
Electrical channel bandwidth: 25 and 35 GHz.
Transition time (10 to 90% calculated from TR = 0.35/BW): 14 ps (25 GHz), 10 ps (35 GHz).
RMS noise Characteristic: 0.25 mV (25 GHz), 0.5 mV (35 GHz).
Scale factor (per division): 1 mV/division (min), 100 mV/division (max).
DC accuracy (single marker) 12.4 GHz: ± 0.4% of full scale ± 2 mV ± 1.5% of (reading-channel offset).
DC accuracy (single marker) 20 GHz: ± 0.4% of full scale ± 2 mV ± 3% of (reading-channel offset).
Maximum input signal: ± 2 V (+16 dBm).
Nominal impedance: 50 Ω.
Electrical input: 3.5 mm (male).

Options.
86105D-200 Remove 8.5, 9.953 to 11.317 Gb/s filters.
86105D-100 Remove 14.025 Gb/s filter.
86105D-206 Additional 20.625 Gb/s filter, 15 Gb/s filter is removed.
86105D-168 25 Gb/s TDEC filter.
86105D-IRC Provide optical channel impulse response measurement and data files for use with 86100 to provide ideal channel response.
86105D-281 34 GHz optical / 50 GHz electrical hardware.



 

Standard Calibration $1,390.00 *
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*This is a Web introductory price for one calibration of the Keysight (Agilent) 86105D. Price does not in most cases include measurement performance data. Pricing does include NIST traceable calibration and issue of a calibration certificate and calibration label. Pricing may vary slightly due to volume and location of laboratory supporting calibration. Volume pricing may apply. On-site fees may apply depending on logistics, location and volume of work to be completed during the visit.


Related Bench Equipment Terms and Definitions. For a complete list go to our  Terms and Definitions Page.

Clipping
Clipping is the limiting of a signal so that it never exceeds some threshold.

Line Regulation
Line regulation is the capability to maintain a constant output voltage level on the output channel of a power supply despite changes to the input voltage level.

Peak Envelope Power
Peak envelope power is the maximum value of the envelope power. Envelope power is measured by making the averaging time much less than 1/fm where fm is the maximum frequency component of the modulation waveform. The averaging time is therefore limited on both ends: (1) it must be small compared to the period of the highest modulation frequency, and (2) it must be large enough to be many RF cycles long.

RMS
RMS or root mean square is a statistical measure of the magnitude of a varying quantity

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