SALUKI S2108 OTDR Optical Network Tester User Manual

SALUKI S2108 OTDR Optical Network Tester

PREFACE

Thank you very much for buying and using S2108 series optical network tester. This manual mainly contains the commonly used operating safety instructions, basic interface and operation introduction, as well as common troubleshooting guidelines and other information. In order to facilitate your use, before operating this instrument, please read the contents of this manual carefully and follow the instructions in the book correctly. This manual is limited to use in conjunction with this instrument. No unit or individual may alter, copy or disseminate the contents of this manual for commercial purposes without the authorization of the Company. The contents of this manual are subject to change without prior notice. If you have any questions, please call the supplier. We will do our best to provide you with the best service.

Overview

S2108 series optical network tester is the first smart and high-precision optical test instrument with cloud wireless transmission, an intelligent cloud platform and other functions. S2108 series integrates 18 standard functional modules internally, including OTDR, Intelligent optical network map iONM, LS, VFL, OPM, Optical end face detection, Multi-core measurement, Optical loss test, File management, Data wireless transmission, RJ45 cable tracker, Laser ranging, Remote assistance, One-key repair, Camera, Bluetooth, WiFi, GPS&BDS (on developing).
S2108 series has a 0.8m event blind zone, maximum 45dB dynamic range, 1650nm online test (50dB isolation), 8G storage which can store 200,000 curves. It adopts a 7-inch capacitive touch screen and supports multi-point touch. Compared to previous versions, it supports a smart cloud platform, iONM, Multi-core measurement, and Bluetooth. WIFI, 4G LTE SIM and GPS (on developing), and test data can be uploaded to the cloud wirelessly. PDF reports can be generated on the device and transmitted to the mobile terminal via WiFi & Bluetooth. S2108 series supports multi-task simultaneous operation, and VFL, OPM, LS functions can run in the background.

OTDR Interface,function introduction

• Mini USB connection： Connect the computer for data export, or connect the power bank to charge the device
• USB connection： Accessing USB flash disk to export data, used as a power bank function to charge other devices
• DC charging port： Charging voltage range 12V~19V

Note: the main page is a sliding page, and the second page appears on the left

iONM Interface,function introduction

• Through multi-wavelength and multi-pulse width combination test technology, the accurate analysis of various events is realized.

Multi-core measurement

• The purpose of multi-core measurement to help customers manage and maintain multi-core optical cable data, Through the establishment of the project, to help customers more intuitive Manage and maintain fiber optic data. From the core matrix, the state of all the cores can be seen intuitively, Including whether it has been tested, does the test pass. Each fiber core contains OTDR data, optical fiber end face data, optical power data and test field pictures

Optical fiber end face detection

• The core diameter of a single-mode fiber is about 9um, It’s thinner than human hair, If the end face is polluted, it will cause great connection loss, which leads to an unstable communication state. It has great influence on the confidence of OTDR test results, therefore, the end face of optical fiber is tested, and cleaning is very necessary

Laser Source

• Power adjustable stable laser source
• Output CW/270Hz/330Hz/1kHz/2kHz mode
• Support automatic wavelength recognition function, wavelength ID mode，
  Combined with optical power meter module of series equipment for automatic wavelength identification

Optical power meter

• Support frequency identification function Support pass / fail threshold setting
• Support Tone Detect function,
• namely frequency identification function

OPM data acquisition interface

• User calibration
• Data acquisition
• Automatic wavelength recognition

Visual fault location

• Fault location and identification for short-distance optical fiber

Laster ranging

• Length measurement for optical cable laying and broadband installation

RJ45 tracker

• RJ45 digital radar tracking function can be used for digital line finding of network line, telephone line and other cables

Camera

• Take pictures of the test site and link them to the OTDR test data

File brows

• Browse device files
• Export files through USB flash disk
• File add delete move rename
• File upload to cloud platform

System settings

Software upgrade

• Insert the U disk of storage upgrade software to upgrade the system
• Connect WiFi remote upgrade

Fiber-iot OTDR advanced simulation tools

• You can log in directly via fiber-iot web or Scan QR code， Imagine the advanced simulation tool of OTDR， view OTDR data and generate reports Fiberiot web: www.fiber-iot.com/tools/index.action

Fiber-iot OTDR advanced simulation tools

• OTDR data can be viewed through cloud analysis, and generated reports. Powerful OTDR data report generation using smart cloud, add event map, annotation, on-site test photos, optical fiber end face photos and other detailed information in the report

Common Problems and Solutions

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