Cookies Use on AFL Website We use cookies to give you the best online experience. By using our website you agree to our use of cookies in accordance with our privacy policy. Agree
SMLP4-4
SMLP4-4

SMLP4-4 & SMLP5-5 SM/MM Loss Test Kits with Wave ID

Features:

  • 5-Year Product Warranty
  • Encircled Flux Compliant - with optional mode conditioner
  • Auto-detect transmitted wavelength (reduces errors)
  • Test two wavelengths simultaneously (faster testing)
  • Test single-mode and multimode networks
  • TRM® 3.0 Reporting Software (Windows® compatible)
  • Certification Testing and Report Generation

Applications:

  • Certify multimode and single-mode links per TIA/EIA standards
  • Fiber identification prior to splicing
  • Passive Optical Networks (PON) testing
Displaying results 1-1 (of 13)
  < 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10  > 

Product Description

Single-Mode and multimode Loss Test Kit with Wave ID and Set Reference

SMLP4-4 & SMLP5-5 are rugged loss test kits for testing and certifying fiber networks to industry standards. Each SMLP4-4 Kit includes an OLS4 quad light source plus OPM4 optical power meter.  Each SMLP5-5 Kit includes a OLS4 quad optical light source plus OPM5 optical power meter.  The OPM backlit display is easily viewed in both direct sunlight and dimly lit environments. Interchangeable adapters connect to common optical network interfaces and provide easy access for cleaning launch and receive ports.   

OLS4 Quad Source is an integrated two-port LED (850 and 1300 nm) and laser (1310 and 1550 nm) light source designed for performing insertion loss measurements on both multimode or single-mode fiber optic links. Each port can transmit highly stabilized output (single or dual wavelength) ensuring accurate insertion loss test results per current TIA/EIA requirements. Equipped with industry standard 2 kHz test tone, the OLS4 is an ideal tool to pair with an optical fiber identifier (OFI-BI/PM or OFI-400) for use in fiber identification.

OPM4-2D Optical Power Meter provides accurate power and loss measurements, reference storage for each calibrated wavelength, and detects multiple test tones for fiber identification. Set-Ref feature allows the OPM4 to display measured power levels relative to a stored, measured level.

OPM5-2D Optical Power Meter provides everything OPM4-2D offers, and provides in-unit data storage. The simple to use interface allows for easy separation of test results into files. Integrated file management provides access to results and keeps cable/job results separated for fast customer report generation. Quickly transfer test results to PC via USB interface. 

Automatic wavelength identification significantly increases efficiency

Standard Wave ID feature automatically detects and sets the receive wavelength(s), preventing setup and measurement errors.  It significantly increases efficiency and reduces technician errors, saving test time by eliminating the need to test each wavelength individually.
 

Optical References Storage

The OPM4 stores optical references for each calibrated wavelength and offers multiple test tone detection for fiber identification.

Test Results Storage, Transfer, and Post Processing with TRM® 3.0 

OPM5 File Management system allows technicians to organize test results into multiple files.  Stored OPM results may be transferred to PC via USB port for viewing, analysis, and professional report generation using the included Windows® compatible TRM® 3.0 Basic Test Results Manager software.  TRM® 3.0 allows users to apply standards-based rules to test results and create comprehensive certification reports complete with Pass/Fail results and calculated headroom.
 

50 and 62.5 µm Fiber Mandrels Included

Mandrels condition test fibers to obtain more accurate loss measurements when certifying 50 or 62.5 µm fiber links for current and planned high bit rate applications, such as Gigabit Ethernet and 10 Gigabit Ethernet.  Mandrels are installed on launch jumpers in seconds without tools to ensure loss measurements are performed per the TIA/EIA-568-B standard.


Encircled Flux Compliance

International standards bodies established Encircled Flux (EF) guidelines (TIA-568-14-B and IEC 61280-1-4) to improve measurement repeatability by reducing loss measurement variation to within a target range of ± 10%.

EF Mode Conditioners attach to the output of your multimode source ensuring the "conditioned output" meets Encircled Flux specifications.  Compliance requires matching the output fiber size to the network fiber under test. AFL offers both 50 µm and 62.5 µm EF Mode Conditioners.  See below for list of available fiber and connector combinations. 

 

Key Specifications

 

OLS4 Quad Source

  • SM Wavelengths: 1310 and 1550 nm
  • SM Output Power 0 dBm
  • MM Wavelengths: 850 and 1300 nm
  • MM Output Power -20 dBm
  • Test Tones: 270 Hz, 330 Hz, 1 kHz, 2 kHz

OPM4-2D & OPM5-2D Optical Power Meter

  • Detector: Germanium
  • Calibrated Wavelengths: 850, 1300, 1310, 1490, 1550 nm
  • Measurement Units: dB, dBm, μW
  • Power: 2 x AA batteries
  • Battery Life: >300 hours

Ordering Information

 
Model number: SMLP4-4xx (xx = FC, SC, ST, or LC)
The SMLP4-4 combines one (1) OLS4 Quad MM/SM Source and one (1) OPM4-2D Power Meter.

Model number: SMLP5-5xx (xx = FC, SC, ST, or LC)
The SMLP5-5 combines one (1) OLS4 Quad MM/SM Source and one (1) OPM5 Power Meter.
 

OLS4 Accessories and Connector Adapters

Model
Description
2900-50-0002MR
FC adapter
2900-50-0003MR
SC adapter
2900-50-0004MR
ST adapter
2900-50-0006MR
LC adapter
8800-00-0072PR
Universal flip-top dust cap for UCI outputs
4050-00-0119PR
100-240 VAC to 9 VDC

 

 

OPM4 & OPM5 Accessories

 

Model Description
8800-00-0200 FC adapter
8800-00-0209 SC adapter
8800-00-0202 ST adapter
8800-00-0225 LC adapter
6000-00-0024MR Cable, USB-MINI B connect to PC

Encircled Flux Mode Conditioners
AFL Part Number  Fiber Size  Connectors
8700-06-0001MR  50/125 µm  FC/FC
8700-06-0002MR  62.5/125 µm  FC/FC
8700-06-0003MR  50/125 µm  SC/SC
8700-06-0004MR  62.5/125 µm  SC/SC
8700-06-0005MR  50/125 µm  SC/LC
8700-06-0006MR  62.5/125 µm  SC/LC

Related Content