Mini 2
View 500
View 600

VIEW 600—Modular OTDR with high performance.

The INNO Instrument View 600 can handle all measurement tasks in optical networks. Thanks to its modular design, it can be equipped with 13 different modules and therefore leaves nothing to be desired. In addition to the extremely precise measurement results, the very powerful CPU allows a very short reaction time.

In combination with the high-quality capacitive touch screen and the intuitive user interface, already known from other devices, the View 600 convinces in every respect.

  • 13 modules applicable

  • SOLA (Smart Optical Link Analyzer)

  • 7″ Touch screen with smart GUI

  • 8 GB storage with internal SD Card & external USB memory

  • Built-In VFL, light source and OPM

Inno Instrument View 600: Ports and connectors
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Product sheet View 600

Current product sheet “Inno Instrument View 600 OTDR”.

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Manual View 600

Current manual in english.
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Inno Instrument View 600: Device overview
Inno Instrument View 600: Optical time domain reflectometer

OTDR (Optical Time Domain Reflectometer)

OTDR mode allows you to measure distance, loss, reflectance, attenuation, ORL and sum on an optical fiber. In Auto mode, the test is automatically performed without further adjustments. Test results can be stored in 3 types of formats (image, SOR, PDF).

SOLA (Smart Optical Link Analyzer)

SOLA (Smart Optical Link Analyzer), an application that simplifies the measurement process, shows you accurate test results using an advanced algorithm and an optimal multiple pulse width. You do not need to set complicated parameters, which means that even unskilled workers can perform measurements with great ease.

Inno Instrument View 600: Smart optical link analyzer
Inno Instrument View 600: VFL Visual fault locator

VFL (Visual Fault Locator)

VFL (Visual Fault Locator) visually identifies the location of the bending point, defective connector or splice point by emitting a bright red laser (it can reach a maximum of 10 km), and this is an essential function for field technicians.

Fiber microscope

Testing the end-face of the fiber on connectors with a fiber optic microscope is very important, as a contaminated or damaged connector can cause critical damage to the test results as well as to the test port.

Inno Instrument View 600: Fiber microscope
Inno Instrument View 600: Optical power meter

OPM (Optical Power Meter)

OPM (Optical Power Meter) is used to accurately measure optical power on fiber optic networks operating at 850 nm, 1,300 nm, 1,310 nm, 1,490 nm, 1,550 nm, 1,610 nm and 1,625 nm.

Light source

Invisible light source (1,310 / 1,550 nm) can provide the following sources of light: CW, 1 kHz, 2 kHz modulated and 1 kHz & 2 kHz blink.

Inno Instrument View 600: VFL Light source

Specifications

Model

View 600

Display

7 inches, high brightness TFT LCD, resolution of 800 × 480 px

Distance units

m / km / mile / ft

Range settings (km)

1.3, 2.5, 5, 10, 20, 40, 80, 120, 160, 360 km

Range settings (mile)

0.81, 1.55, 3.11, 6.22, 12.4, 24.8, 49.6, 74.6, 99.4, 232.7 mile

Pulse width

5 ns, 10 ns, 20 ns, 50 ns, 100 ns, 200 ns, 500 ns, 1 μs, 2 μs, 10 μs, 20 μs

Distance accuracy

± (1 m + distance × 2.5 × 10−5 + sampling resolution)

Linearity

0.03 dB

Sampling points

256,000 points

Refractive index

1.000000—2.000000 (step: 0.000001)

Splitting ratio

Up to 1:128 splitter

Resolution

0.04 m ~ 10.24 m

Loss readout resolution

0.001 dB

Battery capacity

Operating time: Up to 12 hours

File format

SOR, BMP, JPG, GDM, SOLA, PDF

External connection

2× USB 2.0

Compatible connector

APC (FC, SC, LC), UPC (FC, SC, LC, ST)

Power supply

AC Input 100—240 V, 50—60 Hz / DC Input 19 V, 3.42 A

VFL port

2.5 mm ferrule type

VFL wavelength

650 nm ± 10 nm

VFL distance

Up to 10 km

VFL output power

20 mW

Light source

Operating wavelength: 1,310 nm / 1,550nm ± 10 nm

Light source output power

−5 dBm

Wave lenght

1,310 nm / 1,550 nm

Wavelength calibration (OPM)

850 / 1,300 / 1,310 / 1,490 / 1,550 / 1,625 / 1,650

Power range (OPM)

−70 to +6 dBm (Accuracy: 0.01 dB)

Software features

Softwareupdate

Simple update with USB memory stick

Auto mode

Automatic optimization of parameters and test process

INNO PC Program

A tool for analyzing and revising the test results of OTDR and SOLA

PDF reporting

Providing the test report in PDF format

PDF viewer

PDF file can be viewed on the screen

Transmission via USB / Wi-fi

Quick transmission of test results via USB and Wi-Fi

Link with printer

Printing by connected printer

Distance editing

Manually changing distance on OTDR mode

Identifying macro-bending

Identifying micro-bending on OTDR or SOLA mode

Operation with mouse

Easy operation with mouse (linked to USB port)

OTDR modules

Module 1

Wavelength (nm): 1,310 / 1,550
Dynamic range (dB): 30 / 28
Event dead zone (m): 1
Attenuation dead zone (m): 4
PON dead zone (m): 35

Module 2

Wavelength (nm): 1,310 / 1,550 / 1,625
Dynamic range (dB): 30 / 28 /28
Event dead zone (m): 1
Attenuation dead zone (m): 4
PON dead zone (m): 35

Module 3

Wavelength (nm): 1,310 / 1,550 / 1,625 live port
Dynamic range (dB): 30 / 28 /28
Event dead zone (m): 1
Attenuation dead zone (m): 4
PON dead zone (m): 35

Module 4

Wavelength (nm): 1,310 / 1,550
Dynamic range (dB): 36 / 35
Event dead zone (m): 0.7
Attenuation dead zone (m): 3
PON dead zone (m): 35

Module 5

Wavelength (nm): 1,310 / 1,550 / 1,625 live port
Dynamic range (dB): 36 / 35 / 35
Event dead zone (m): 0.7
Attenuation dead zone (m): 3
PON dead zone (m): 35

Module 6

Wavelength (nm): 850 / 1,300
Dynamic range (dB): 27 / 29
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 35

Module 7

Wavelength (nm): 850 / 1,300 / 1,310 / 1,550
Dynamic range (dB): 27 / 29 / 36 / 35
Event dead zone (m): SM: 0.7 / MM: 0.5
Attenuation dead zone (m): SM: 3 / MM: 3
PON dead zone (m): 35

Module 8

Wavelength (nm): 1,310 / 1,550
Dynamic range (dB): 39 / 38
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

Module 9

Wavelength (nm): 1,310 / 1,550 / 1,625
Dynamic range (dB): 39 / 38 / 39
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

Module 10

Wavelength (nm): 1,310 / 1,550 / 1,625 live port
Dynamic range (dB): 39 / 38 / 39
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

Module 11

Wavelength (nm): 1,310 / 1,550 / 1,650 live port
Dynamic range (dB): 39 / 38 / 39
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

Module 12

Wavelength (nm): 1,625 live port
Dynamic range (dB): 39
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

Module 13

Wavelength (nm): 1,650 live port
Dynamic range (dB): 39
Event dead zone (m): 0.5
Attenuation dead zone (m): 3
PON dead zone (m): 30

General specifications

Inno Instrument View 600: Device dimensions
  • Dimension: 6.25 H × 8.58 W × 2.75 D inches
    (159 H × 218 W × 70 D mm, excluding rubber bumper)

  • Weight: 3.75 pounds (1.70 kg with battery)

  • Operating conditions: −10 ~ 50 °C

  • Storage conditions: −20 ~ 60 °C

  • Relative humidity: 0 ~ 95 % (Noncondensing)

Delivery contents

  • OTDR View 600

  • Power cable / AC adapter: ACC-25 / JS-180300

  • Carrying case with shoulder strap: Soft case

  • Touch pen

  • Calibration certificate

APC connector

To improve test efficiency and optimize the OTDR function, it is recommended to use the APC connector and plug it to the MINI 2 SM port, due to the low reflectance it causes. The reflection coefficient is the key parameter that will affect OTDR performance and particularly the dead zone (APC connector performance is better than UPC connector performance).

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OTDR PC-Software

With the PC software from Inno Instrument that is suitable for the OTDR, you can also call up all reports on your computer and analyze them in detail again afterwards.
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