| [pending review revision] | [pending review revision] |
(Cette version a été marquée pour être traduite) |
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| Line 2: | Line 2: | ||
|Main_Picture=Visual_location_of_defects_on_optical_fiber_img15.jpg | |Main_Picture=Visual_location_of_defects_on_optical_fiber_img15.jpg | ||
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| − | |Description=<translate>Locate a defect on an optical fiber and identify links thanks to the VFL TED Equipment.</translate> | + | |Description=<translate><!--T:1--> Locate a defect on an optical fiber and identify links thanks to the VFL TED Equipment.</translate> |
|Categories=Work instructions | |Categories=Work instructions | ||
|Difficulty=Easy | |Difficulty=Easy | ||
| Line 20: | Line 20: | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 1 - Safety rule</translate> | + | |Step_Title=<translate><!--T:2--> Step 1 - Safety rule</translate> |
| − | |Step_Content=<translate>The visual defect locator (or optical pencil) emits red light at an output power of 10 mW. Do not directly look at the light beam or direct it at another person. Always replace the protective cap after use. | + | |Step_Content=<translate><!--T:3--> |
| + | The visual defect locator (or optical pencil) emits red light at an output power of 10 mW. Do not directly look at the light beam or direct it at another person. Always replace the protective cap after use. | ||
| + | <!--T:4--> | ||
Switch on the unit only when the protective cap is in place or a connector is attached to the outlet.</translate> | Switch on the unit only when the protective cap is in place or a connector is attached to the outlet.</translate> | ||
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img67.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img67.jpg | ||
| Line 33: | Line 35: | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 2 - Ignition and configuration</translate> | + | |Step_Title=<translate><!--T:5--> Step 2 - Ignition and configuration</translate> |
| − | |Step_Content=<translate>Press the PWR button. The locator emits a continuous or pulsed signal depending on the setting selected with the MOD button.</translate> | + | |Step_Content=<translate><!--T:6--> Press the PWR button. The locator emits a continuous or pulsed signal depending on the setting selected with the MOD button.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img73.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img73.jpg | ||
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}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 3 - Connection to the fibre</translate> | + | |Step_Title=<translate><!--T:7--> Step 3 - Connection to the fibre</translate> |
| − | |Step_Content=<translate>The visual defect locator is compatible with all connectors with a 2.5 mm ferrule. For 1.25 mm ferrules, the use of an adapter is required.</translate> | + | |Step_Content=<translate><!--T:8--> The visual defect locator is compatible with all connectors with a 2.5 mm ferrule. For 1.25 mm ferrules, the use of an adapter is required.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img88.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img88.jpg | ||
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| Line 51: | Line 53: | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 4 - Identify the length of the fibre</translate> | + | |Step_Title=<translate><!--T:9--> Step 4 - Identify the length of the fibre</translate> |
| − | |Step_Content=<translate>The locator can be used on links up to 10 km. Beyond that, whatever the power of an optical pencil, the light beam cannot be perceived.</translate> | + | |Step_Content=<translate><!--T:10--> The locator can be used on links up to 10 km. Beyond that, whatever the power of an optical pencil, the light beam cannot be perceived.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img96.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img96.jpg | ||
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| Line 59: | Line 61: | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 5 - Locating the end</translate> | + | |Step_Title=<translate><!--T:11--> Step 5 - Locating the end</translate> |
| − | |Step_Content=<translate>The end of an optical link is detected by the presence of the light signal. This is a function widely used for mixing garters in street cabinets or bays.</translate> | + | |Step_Content=<translate><!--T:12--> The end of an optical link is detected by the presence of the light signal. This is a function widely used for mixing garters in street cabinets or bays.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img100.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img100.jpg | ||
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}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 6 - Locating the defect (a curve for example)</translate> | + | |Step_Title=<translate><!--T:13--> Step 6 - Locating the defect (a curve for example)</translate> |
| − | |Step_Content=<translate>Due to the high reflection of the light as it passes through a stress (macro-curve) or when a fibre is cut, this device is widely used to correct defects (which cause significant optical losses), on the visible part of the fibres.</translate> | + | |Step_Content=<translate><!--T:14--> Due to the high reflection of the light as it passes through a stress (macro-curve) or when a fibre is cut, this device is widely used to correct defects (which cause significant optical losses), on the visible part of the fibres.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img120.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img120.jpg | ||
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| Line 73: | Line 75: | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
| − | |Step_Title=<translate>Step 7 - Turn off the device</translate> | + | |Step_Title=<translate><!--T:15--> Step 7 - Turn off the device</translate> |
| − | |Step_Content=<translate>After using the device, turn off the locator and place the protective cap on the optical output.</translate> | + | |Step_Content=<translate><!--T:16--> After using the device, turn off the locator and place the protective cap on the optical output.</translate> |
|Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img124.jpg | |Step_Picture_00=Visual_location_of_defects_on_optical_fiber_img124.jpg | ||
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Revision as of 15:46, 7 June 2019
Locate a defect on an optical fiber and identify links thanks to the VFL TED Equipment.
Difficulty
Easy
Duration
10 minute(s)
Area
Use
Business
Training
Contents
- 1 Items
- 2 Step 1 - Step 1 - Safety rule
- 3 Step 2 - Step 2 - Ignition and configuration
- 4 Step 3 - Step 3 - Connection to the fibre
- 5 Step 4 - Step 4 - Identify the length of the fibre
- 6 Step 5 - Step 5 - Locating the end
- 7 Step 6 - Step 6 - Locating the defect (a curve for example)
- 8 Step 7 - Step 7 - Turn off the device
- 9 Comments
- Items
Items
Visual locator for optical defects 
This optical pencil allows to send a light signal in any type of fibre in order to look for breaks and crushing by light leakage through the sheath or to locate defective welds in connection drawers.
Step 1 - Step 1 - Safety rule
The visual defect locator (or optical pencil) emits red light at an output power of 10 mW. Do not directly look at the light beam or direct it at another person. Always replace the protective cap after use.
Switch on the unit only when the protective cap is in place or a connector is attached to the outlet.
Step 2 - Step 2 - Ignition and configuration
Press the PWR button. The locator emits a continuous or pulsed signal depending on the setting selected with the MOD button.
Step 3 - Step 3 - Connection to the fibre
The visual defect locator is compatible with all connectors with a 2.5 mm ferrule. For 1.25 mm ferrules, the use of an adapter is required.
Step 4 - Step 4 - Identify the length of the fibre
The locator can be used on links up to 10 km. Beyond that, whatever the power of an optical pencil, the light beam cannot be perceived.
Step 5 - Step 5 - Locating the end
The end of an optical link is detected by the presence of the light signal. This is a function widely used for mixing garters in street cabinets or bays.
Step 6 - Step 6 - Locating the defect (a curve for example)
Due to the high reflection of the light as it passes through a stress (macro-curve) or when a fibre is cut, this device is widely used to correct defects (which cause significant optical losses), on the visible part of the fibres.
Step 7 - Step 7 - Turn off the device
After using the device, turn off the locator and place the protective cap on the optical output.
Published
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