E6000C Mini-OTDR Technical Data Sheet Specifications describe the instrument´s warranted performance, measured with typical PC-type connectors. Uncertainties due to the refractive index of fiber are not considered. The following section contains both Specifications and Characteristics: • • Specifications describe the instrument´s warranted performance. Characteristics and typical data provide information about the non-warranted instrument performance.
Characteristics Horizontal Parameters • Start-km: 0 km to 400 km • Span: 0.1 km to 400 km • Readout resolution: 0.1 m • Minimum sample spacing: 4 cm • Refractive index: 1.00000 to 2.00000 • Length unit: km, ft, or miles • Measurement points: up to 64000 Storage Display • • Color or monochrome VGA-LCD: 18.3 cm (7.2”) • Display points: 640 x 480 Points • Measurement update rate: two measurements per second in refresh mode • Memory Card: PCMCIA Type II.
Built-in Applications Environmental • Automatic Multi Fiber Test • Operating Temperature: 0°C to 50°C • Pass/Fail Test • Storage Temperature: –40°C to +60°C • Fiber Break Locator • Humidity: 95% R.
Module Specifications / Characteristics Specifications: Optical performance Measured at 22°C ± 3°C. Guaranteed specifications unless otherwise noted.
Notes: Module Characteristics 1 Measured with a standard single-mode fiber at SNR=1 noise level and with 3 minutes averaging time. Optimize mode: dynamic Distance Accuracy 2 Reflectance ≤ –35 dB at 10 ns pulsewidth, and with span ≤ 1000 m at 4 cm sample spacing, optimize resolution. E6003C at 5 ns pulsewidth (< –40 dB); with FW Rev. 6.41 and higher 3 Typical Specification at Reflectance ≤ –50 dB at 30 ns pulsewidth, and with span ≤ 4 km (typical value). 4 Measured with a standard 62.
Agilent E6006A Power Meter Submodule 2 Characteristics Sensor element: InGaAs Wavelength range: 800 – 1650 nm Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 nm, 1625 nm (special wavelengths upon request). Power range: +10 to –70 dBm Max. input power (damage level): +13 dBm / 20 mW Display Resolution: 0.
Agilent E6007A Visual Fault Finder Submodule 3 Characteristics Source type: Laser diode Center Wavelength: 635 nm ± 10 nm (visible red light) Output power level (CW) • 0 dBm maximum • into 9 µm fiber (typ.): –3 dBm Detection range: up to 5 km Optical output: User-exchangeable Connector Interface Supplementary Performance Characteristics • Continuous Wave and Blink Mode (1 Hz for better visibility). • Single-mode and multimode fibers applicable. General Specifications: Dimensions: ca.
Accessories The Agilent Technologies E6000C is a high performance time domain reflectometer. It is available in various configurations for the best possible match to the most common applications.
Modules Agilent Product E6003A Opt Description 1310/1550 nm standard performance single-mode module 021 with straight connector interface 022 with angled connector interface E6003B 1310/1550 nm high performance single-mode module 021 with straight connector interface 022 with angled connector interface E6003C 1310/1550 nm very high performance single-mode module 021 with straight connector interface 022 with angled connector interface E6004A E6005A 1310/1550 nm economy single-mode module
Warranty, Service & Calibration Plan For all Agilent Mini-OTDRs, the following support options are available. • • R1280A – Return to Agilent Warranty and Service Plan. Available for 36 months (3 years) or 60 months (5 years). R1282A – Return to Agilent Calibration Plan. Available for 36 months (3 years) or 60 months (5 years). All modules come with a commercial calibration certificate.
Connector Interfaces If you want your Mini-OTDR supplied with an angled connector, please order option #022. (Option #022 is only available for singlemode modules). Straight connector interfaces must be ordered with option #021. Optical Connectors Agilent Model No.
Safety Information All laser sources specified by this data sheet are classified as class 1M or class 2 according to IEC 60825–1 (2001). All laser sources comply with FDA 21 CFR 1040.10 except for deviations pursuant to Laser Notice No. 50, dated 2001-July-26.
