Optical Wavelength Labs (OWL), KF7+MS, Fiber OWL 7+ Quad Kit, 2.8" Color LCD, Lithium Polymer
KF7+MS Includes Only:
- Meter (singlemode):
- Fiber OWL 7+ Singlemode Tier 2 Certifier
- Meter (multimode):
- Fiber OWL 7+ Multimode Tier 2 Certifier (p/n: F7+M)
- Light Source:
- WaveSource Pro Quad (p/n: WPMS)
Features:
- Multimode and singlemode ready
- Full-featured built-in OTDR
- Visual fault location / visual fiber identification
- Color-coded PASS / FAILstatus
- Unlimited job configurations
- User-friendly Link Wizard with helpful color on-screen diagrams to help guide the setup process
- Context-sensitive help
- Auto-wavelength recognition and data storage reduces testing time and human error
- Up to 10,000 power/loss readings can be stored in memory
- Prints official certification reports via OWLView certification software, including comprehensive TriReports
- High-capacity re-chargeable Lithium Polymer batteries
- NISTTraceable
- Power meter adapters for 2.5mm (SC, ST, FC) and 1.25mm (LC) ferrule connectors
- Factory located in Heartland of America
Applications:
- Full-featured Tier 2 fiber link certification (Loss + OTDR)
- Full-featured Tier 1 fiber link certification (Loss)
- OTDR link characterization
- Optical fault location
- Visual fault location
- Visual fiber identification
- Fiber optic link length measurement
- Optical loss (attenuation) measurement
- Optical power measurement
Many fiber optic network bids and Requests For Quote (RFQ) cite national and international cabling standards which specify the guidelines that the installer must follow during installation. Adherence to such standards ensures the quality of the installation and guarantees that the network will perform as it was designed. The process of testing a network installation to ensure its adherence to such standards is called certification, and often requires hard-copy documentation as proof of adherence to standards. With the rapidly expanding need for bandwidth of fiber networks coupled with increased capability (and decreasing cost) of fiber test equipment, cabling standards have evolved to include additional fiber optic test procedures (FOTP) to reflect more thorough testing and measurement of fiber networks, for example, OTDR link characterization and/or fiber connector endface analysis. The Fiber OWL 7+ Multimode Bundle contains the tools necessary for certifying fiber optic links against a myriad of popular cabling standards in multimode networks, up to Tier 2 certification as specified in the TIA-568-3.D cabling standard. The Fiber OWL 7+ (p/n: F7+M) optical power meter enables multimode certification, up to and including Tier 2 certification as defined in the TIA-568-3.D cabling standard, with a user-friendly Fiber Link Wizard with color diagrams to guide the setup process, calculate the link budget, and set the optical reference. Thousands of LOSS/OTDR fiber runs may be stored in internal memory, and can be downloaded to a PC for report generation with OWLView software. Intelligent automated testing functions include automatic dual-wavelength storage and auto-wavelength recognition which reduce testing time and human error. The universal detector port in each Fiber OWL 7+ certifier comes with 2 adapter caps, one for 2.5mm connectors such as SC, ST, and FC, and the other for 1.25mm connectors such as LC, and the integrated OTDR port is used to measure the fiber cable length as well as characterize the fiber link. A visual fault locator is also included for basic troubleshooting of near-end faults, and check for fiber continuity and polarity. The WaveSource Pro Multimode (p/n: WPMX) fiber optic light source is designed for accurate testing and certification of multimode networks at 850nm & 1300nm). Its dual-wavelength outputs are temperature-stabilized for accurate measurements. The WPMX has a built-in auto-wavelength switching protocol designed to synchronize the power meter wavelength of the 7+ with the current output wavelength. The light source comes configured with an SC connector port. As a bundle, the VS-400-U video scope allows users to inspect and capture endface images, which can than be imported into OWLView software to produce a comprehensive Tri-Report as shown at right.
