- Joined
- Jun 3, 2013
- Messages
- 12
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- 0
Hi,
I do need new safety goggles because mine have an OD higher than needed.
When using my safety goggles, I can only see the dot if projected to a white surface, and even doing this it's still very hard to see anything... let me explain :
- If i do know before using my goggles where the beam spot will be on the white wall then I will be able to see it, but it's a very dimmed spot which is way dimmer than a simple candle flamme.
- If i don't know before using my goggles where the beam spot will be on the white wall then I'm not able to find it without putting my goggles off...and i don't want to do that.
This can be dangerous because I can't have any control of what's happening.
After search i just found this :
OD = log[sub]10[/sub](E[sub]i[/sub]/E[sub]t[/sub])
But i don't understand how to calculate this, does someone can help me ?
Here is my example:
Laser Maximum Output: 230mW
Maximum Needed Transmitted Power: 1mW
OD = log[sub]10[/sub](230mW/1mW)
OD = log[sub]10[/sub](230)
OD = ??? ( i don't understand the "[sub]" and the "[/sub]" things... :yabbem: )
Other useful informations :
My red laser is a 650nm, 230mw powerchecked from Odicforce.com
My actual safety goggles are :
Eagle pair 190-380&600-760nm OD4+ CE
On a goggles certificate paper I can see:
Fourth harmonic generation, 266nm OD5
He-Ne laser emitter, 632.8nm OD4
Ruby laser emitter, 694nm OD4
Alexandrite last emitter, 755nm, OD4
I do need new safety goggles because mine have an OD higher than needed.
When using my safety goggles, I can only see the dot if projected to a white surface, and even doing this it's still very hard to see anything... let me explain :
- If i do know before using my goggles where the beam spot will be on the white wall then I will be able to see it, but it's a very dimmed spot which is way dimmer than a simple candle flamme.
- If i don't know before using my goggles where the beam spot will be on the white wall then I'm not able to find it without putting my goggles off...and i don't want to do that.
This can be dangerous because I can't have any control of what's happening.
After search i just found this :
OD = log[sub]10[/sub](E[sub]i[/sub]/E[sub]t[/sub])
But i don't understand how to calculate this, does someone can help me ?
Here is my example:
Laser Maximum Output: 230mW
Maximum Needed Transmitted Power: 1mW
OD = log[sub]10[/sub](230mW/1mW)
OD = log[sub]10[/sub](230)
OD = ??? ( i don't understand the "[sub]" and the "[/sub]" things... :yabbem: )
Other useful informations :
My red laser is a 650nm, 230mw powerchecked from Odicforce.com
My actual safety goggles are :
Eagle pair 190-380&600-760nm OD4+ CE
On a goggles certificate paper I can see:
Fourth harmonic generation, 266nm OD5
He-Ne laser emitter, 632.8nm OD4
Ruby laser emitter, 694nm OD4
Alexandrite last emitter, 755nm, OD4
