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FrozenGate by Avery

12x BR DIODES

Got another 12X Lite On sled yesterday from Rayfoss. Extracted the diode and decided to run another bench test before I found a home for it. This diode surprised me. It seems to be much less efficient. It runs at a higher voltage and lower output. I guess there is some variation in efficiency from diode to diode. The test was done giving 60 seconds between readings. I did also go back and run the test @ 100mA intervals after an hour.

mA@V=mW

40@3.8=20
50@4.1=39
60@4.2=48
70@4.3=61
80@4.5=83
90@4.6=92
100@4.6=101 =104
110@4.7=117
120@4.8=130
130@5.0=148
140@5.0=160
150@5.1=175
160@5.2=188
170@5.2=203
180@5.3=223
190@5.4=240
200@5.5=255 =257
210@5.5=265
220@5.6=285
230@5.6=301
240@5.6=315
250@5.6=328
260@5.7=342
270@5.7=350
280@5.8=369
290@5.8=386
300@5.8=401 =398
310@5.8=411
320@5.9=426
330@5.9=435
340@6.0=449
350@6.0=464
360@6.0=478
370@6.0=494
380@6.0=508
390@6.1=524
400@6.1=533 =529
410@6.1=545
420@6.1=555
430@6.2=574
440@6.2=588
450@6.2=598
460@6.2=607
470@6.2=621
480@6.2=629
490@6.2=642
500@6.2=654 =652
510@6.3=670
520@6.3=679
530@6.3=684
540@6.4=700
550@6.4=719
560@6.4=731
570@6.4=752
580@6.4=764
590@6.4=774
600@6.4=788 =784
 





Nice info DTR. Keep it coming.;) I'm following this thread closely for my upcoming sled from Morgan.
 
DTR said:
Got another 12X Lite On sled yesterday from Rayfoss. Extracted the diode and decided to run another bench test before I found a home for it. This diode surprised me. It seems to be much less efficient. It runs at a higher voltage and lower output. I guess there is some variation in efficiency from diode to diode. The test was done giving 60 seconds between readings. I did also go back and run the test @ 100mA intervals after an hour.
Click to expand...

Did this sled have "SF-BW512L " printed on the circuit?

or

Did it have "PCMK-M1X" printed on it

It looks like we have two different sleds (or at least two different runs) here. The diodes could be different

Peace,
dave
 
daguin said:
Did this sled have "SF-BW512L " printed on the circuit?

or

Did it have "PCMK-M1X" printed on it

It looks like we have two different sleds (or at least two different runs) here. The diodes could be different

Peace,
dave
Click to expand...

That is a great question. I was unaware that there were two sleds for this drive. I have the sled at the house and will check tonight when I get off work.:beer:
 
DTR said:
That is a great question. I was unaware that there were two sleds for this drive. I have the sled at the house and will check tonight when I get off work.:beer:
Click to expand...

I just became aware of the numbering/model number difference today. I just got one with "PCMK-M1X" printed on it instead of the SF-BW number.

Peace,
dave
 
daguin said:
I just became aware of the numbering/model number difference today. I just got one with "PCMK-M1X" printed on it instead of the SF-BW number.

Peace,
dave
Click to expand...

Did it come from Rayfoss? That is where I got the two sleds that I have harvested these diodes from.
 
DTR said:
Got another 12X Lite On sled yesterday from Rayfoss. Extracted the diode and decided to run another bench test before I found a home for it. This diode surprised me. It seems to be much less efficient. It runs at a higher voltage and lower output. I guess there is some variation in efficiency from diode to diode. The test was done giving 60 seconds between readings. I did also go back and run the test @ 100mA intervals after an hour.

mA@V=mW

40@3.8=20
50@4.1=39
60@4.2=48
70@4.3=61
80@4.5=83
90@4.6=92
100@4.6=101 =104
110@4.7=117
120@4.8=130
130@5.0=148
140@5.0=160
150@5.1=175
160@5.2=188
170@5.2=203
180@5.3=223
190@5.4=240
200@5.5=255 =257
210@5.5=265
220@5.6=285
230@5.6=301
240@5.6=315
250@5.6=328
260@5.7=342
270@5.7=350
280@5.8=369
290@5.8=386
300@5.8=401 =398
310@5.8=411
320@5.9=426
330@5.9=435
340@6.0=449
350@6.0=464
360@6.0=478
370@6.0=494
380@6.0=508
390@6.1=524
400@6.1=533 =529
410@6.1=545
420@6.1=555
430@6.2=574
440@6.2=588
450@6.2=598
460@6.2=607
470@6.2=621
480@6.2=629
490@6.2=642
500@6.2=654 =652
510@6.3=670
520@6.3=679
530@6.3=684
540@6.4=700
550@6.4=719
560@6.4=731
570@6.4=752
580@6.4=764
590@6.4=774
600@6.4=788 =784
Click to expand...



Great information there...

I guess it's just a given that the numbers are using a 405-G-1?
 
Here is the circuit board.
p1010418g.jpg
 
The number difference is interesting.

Any side by side comparisons on these yet?

M
:)
 
"All 12x Owners" datasheet has been updated with the entrance of extelon and plexus!

DTR: What about your first 453 mA setting? And what's the P.O. relevant to the new 540 and 580 mA?
 
FrancoRob said:
"All 12x Owners" datasheet has been updated with the entrance of extelon and plexus!

DTR: What about your first 453 mA setting? And what's the P.O. relevant to the new 540 and 580 mA?
Click to expand...

I set the original black 18650 to 580mA after the bench test and It puts out 783mW. I have also moved it to a MXDL host.

p1010475e.jpg





I also have a SS C3 Jayrob kit with the new diode powered by a microboost that is set to 560mA and puts out 736mW. REVIEW

p1010508.jpg


 
Last edited:
Dumb question: are these diodes still single-mode?
 
Last edited:
DTR said:
Single mode. From what I have read multimode diodes would not work for an optical drive.
Click to expand...

Wow, that's pretty impressive. If it's possible for 1 W 405 nm lasers to be single-mode, then high-powered (>1 W) single-mode 445 nm lasers may not be too far off!

By the way, it seems that my prediction wasn't too far off!

September 2010 - class IV violet lasers are becoming common

Violet lasers first broke the 500 mW barrier in late 2009. Due to the development of more powerful diodes, class IV violet lasers are becoming very common. However, most of them are DIY lasers built by hobbyists; it will be some time before companies start mass-producing them.
Click to expand...
 
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