OE695G
Optical to Electrical Converter
Optical to Electrical Converters
| OE425 - Optical-to-Electrical Converter, 500-870 nm ProBus BNC Connector | | OE455 - Optical-to-Electrical Converter, 950-1630 nm ProBus BNC Connector | | OE525 - Optical-to-Electrical Converter, 500-870 nm ProLink BMA Connector Limited Availability | | OE555 - Optical-to-Electrical Converter, 950-1630 nm ProLink BMA Connector Limited Availability | | OE6250G-M - O-E converter, 25 GHz Bessel-Thomson response, 36 GHz flat response | | OE695G - Optical to Electrical Converter | These wide- band multi-mode optical-to-electrical converters are designed for measuring optical communications signals. They connect to Teledyne LeCroy real-time oscilloscopes and provide capability for physical layer signal assessment using a variety of oscilloscope tools, such as SDAIII-CompleteLinQ Serial Data Eye, Jitter, Noise and Crosstalk Analysis, mask testing, serial triggering and decoding, and other compliance and debug tools. Maximum data rate test capability is >11.317 Gb/s with reference receiver, or 12.5 Gb/s without. Key Features - Frequency range DC to 9.5 GHz (electrical, -3 dB)
- Reference receiver support from 8GFC to 10GFC FEC, or Custom (<12.5 Gb/s)
- 62.5/125 µm multi-mode or single-mode fiber input
- Broad wavelength range (750 to 1650 nm)
- +7 dBm (5 mW) max peak optical power
- Low noise (as low as 25 pW/√Hz)
Reference Receiver Support  The OE695G contains built-in software reference receiver filters for common Fibre Channel, Ethernet, and ITU telecom standards
Broad Wavelength Range  Broad wavelength range (750 to 1650 nm and frequency range DC to 9.5 GHz (electrical, -3 dB)).
| Optical Wavelength Range | 780 to 1550 nm (calibrated range)
750 to 1650 nm (usable range) | | Maximum Modulation Bandwidth | DC to 8.625 GHz (-3 dBe, electrical)
DC to 11.64 GHz (-3 dBo, optical)
(Reference Receiver Applied)
DC to 9.5 GHz (-3 dBe)
DC to 12 GHz (-6 dBe)
DC to 17 GHz (-14 dBe)
(+/-1 dBe passband variations typical, no Reference Receiver Applied) | | Reference Receiver Uncertainty | ±1.6 dBe up to Fref =0.75*bit rate
±4 dBe 2*bitrate setting (typical)
±0.85 dBe up to Fref =0.75*bit rate
±4 dBe 2*bit rate setting
(on matched oscilloscope input channel 4 with 11, 17, 20, 30, 39, 50, 75, 90, or 100 mV/div gain ranges) with purchase of OE695G-REFCAL) | | Reference Receiver Settings | 8GFC, OC192/STM64, 10GBASE-W, 10GBASE-R, 10GFC, ITU-T G.975 FEC, ITU-T G.709 FEC, 10GbE FEC, 10GFC FEC, Custom (622 Mb/s to 12.5 Gb/s), None (Maximum Bandwidth) | | Noise Equivalent Power | 25 pW/√Hz @ 1310 nm (typical)
50 pW/√Hz @ 850 nm (typical)
Average noise spectral density 0-10 GHz using most sensitive vertical scale | | Rise Time (10-90%) | 33 ps (typical, no reference receiver applied) | | Connector Type | FC/PC, compatible with 62.5/125 µm Multi-Mode fiber, or mechanically compatible Single-Mode fiber | | Maximum Optical Linear Input (1 dB compression point) | -2 dBm (typical), -3 dBm (minimum) at 1550/1310 nm
+4 dBm (typical), +3 dBm (minimum) at 850 nm | | Maximum Optical Power | +7 dBm (5 mW) Peak | | Conversion Gain (typical) | 0.17 V/mW (785 nm)
0.21 V/mW (850 nm)
0.33 V/mW (1310 nm)
0.33 V/mW (1550 nm) | | Optical Input Return Loss | -30 dB (typical), -27 dB (maximum) for 1310/1550 nm, single-mode
-16 dB (typical), -14 dB (maximum) for 850 nm, multi-mode | | Dark Calibration Accuracy | 1 µW (typical, depending on gain setting) | | Dark Calibration Level Variation With Temperature | -2 µW/ °C (typical) | | Vertical Level Power Accuracy | 5% typical, 10% maximum at 780, 850, 1310, 1550 nm
Linearly interpolated gain at other values | | Temperature (Operating) | 5°C to 40°C | | Temperature (Non-Operating) | -20°C to 60°C | | Humidity (Operating) | 5% to 80% relative humidity (non-condensing) up to +31°C.
Upper limit derates to 50% relative humidity (non-condensing) at +40°C | | Humidity (Non-Operating) | 5% to 95% relative humidity (non-condensing) as tested per MIL-PRF-28800F | | Altitude (Operating) | Up to 10,000 ft (3049 m) at or below +25°C | | Random Vibration (Operating) | 0.5 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes | | Random Vibration (Non-Operating) | 2.4 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes | | Functional Shock | 20 gpeak, half sine, 11 ms pulse, 3 shocks (positive and negative) in each of three orthogonal axes, 18 shocks total |
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