Guidance wanted on illumination stability
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Gordon Scott |
Guidance wanted on illumination stability
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Guys, I'm looking at ways to further improve the performance and efficiency of our light sources. There are always tradeoffs when doing this and I'd like to better understand what tradeoffs are acceptable for real microscopy users. Our present illumination sources all use a switched-mode pre-regulation and a linear final regulation for the LED power, so ripple is very low, but at a cost for us of some power wasted in the linear stages. I can improve that efficiency and reduce the waste by foregoing the linear stage and regulating directly with the switching mode, but the tradeoffs are a longer On/Off switching time than is feasible with linear, and a high-frequency ripple. My simulations suggest switch-on and switch-off times of around 50us and a ripple of around 25% at 100kHz, which would be reasonable from an electrical/energy point of view. The question is, of course, would any of the people likely to use it find that performance difficult or unacceptable? I've copied to the list rather than posting direct, so hopefully the replies will come to me rather than cluttering the list. Thanks for considering the question, even if you need not, or choose not, to answer. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK This message has been scanned by MailController - www.MailController.altohiway.com This message and any attachments are strictly confidential and intended solely for the addressee. Any unauthorized use or disclosure, in whole or in part, is prohibited. E-mails are subject to possible alteration. Custom Interconnect Ltd and the sender decline any liability if this message and/or any attachments have been altered, changed or falsified. If you are not the intended recipient of this message, please delete it and notify the sender immediately. Custom Interconnect Limited is a limited company registered in England and Wales. Registered number: 2026753. Registered office: CIL House 48 Charlton road Andover, Hampshire United Kingdom SP103JL. |
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Craig Brideau |
Re: Guidance wanted on illumination stability
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** It really depends on your acquisition and what you are trying to see. For instance if you are using a camera with long exposure time then the ripples will average out in the image and you won't have a problem. On the other hand if you are sampling at say ~120 Hz you will have alternating dim and slightly brighter images. This may be a problem your users can live with, depending on what they are looking for. Finally, if you are aware of the noise and its frequency AND it is consistent then you can probably subtract it out post-processing. Craig On Mon, Nov 29, 2010 at 8:33 AM, Gordon Scott <[hidden email]>wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Guys, > > I'm looking at ways to further improve the performance and efficiency of > our light sources. > > There are always tradeoffs when doing this and I'd like to better > understand what tradeoffs are acceptable for real microscopy users. > > Our present illumination sources all use a switched-mode pre-regulation > and a linear final regulation for the LED power, so ripple is very low, > but at a cost for us of some power wasted in the linear stages. > > I can improve that efficiency and reduce the waste by foregoing the > linear stage and regulating directly with the switching mode, but the > tradeoffs are a longer On/Off switching time than is feasible with > linear, and a high-frequency ripple. > > My simulations suggest switch-on and switch-off times of around 50us and > a ripple of around 25% at 100kHz, which would be reasonable from an > electrical/energy point of view. > > > > The question is, of course, would any of the people likely to use it > find that performance difficult or unacceptable? > > > > I've copied to the list rather than posting direct, so hopefully the > replies will come to me rather than cluttering the list. > > Thanks for considering the question, even if you need not, or choose > not, to answer. > > Kind regards, > Gordon. > -- > Gordon Scott Design Engineering > Custom Interconnect Ltd. http://www.cil-uk.co.uk > CoolLED http://www.coolled.com > CoolLED is a division of Custom Interconnect Ltd. > Phone +44-1264-321321 > CIL House, Charlton Road, Andover SP10 3JL, UK > > > This message has been scanned by MailController - > www.MailController.altohiway.com > > This message and any attachments are strictly confidential and intended > solely for the addressee. Any unauthorized use or disclosure, in whole or in > part, is prohibited. E-mails are subject to possible alteration. Custom > Interconnect Ltd and the sender decline any liability if this message and/or > any attachments have been altered, changed or falsified. If you are not the > intended recipient of this message, please delete it and notify the sender > immediately. > > Custom Interconnect Limited is a limited company registered in England and > Wales. Registered number: 2026753. Registered office: CIL House 48 Charlton > road Andover, Hampshire United Kingdom SP103JL. > |
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In reply to this post by Gordon Scott
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Gordon, Your strategy of copying to the list didn't seem to work. Anyway, I think that lots of list members, having seen the question, like to see the answers. If someone is taking conventional images with a 1 second exposure 100kHz ripple will not be noticeable. But if you are taking video at 25 fps 525 line (international video) your line rate is about 13 kHz (US video about 14kHz) so I'd imagine there would be rather unwelcome diagonal stripes on the image and you'd be getting angry phone calls from your customers. You haven't told us the other side of the trade-off. Do you want to eliminate the linear stage to save money - if so, how much cheaper would it make a CooLED illuminator? Or is it to save power? How much would that save? Given that an LED source already uses hugely less power that an HBO 100 mercury lamp, would anyone care? Guy Optical Imaging Techniques in Cell Biology by Guy Cox CRC Press / Taylor & Francis http://www.guycox.com/optical.htm ______________________________________________ Associate Professor Guy Cox, MA, DPhil(Oxon) Australian Centre for Microscopy & Microanalysis, Madsen Building F09, University of Sydney, NSW 2006 Phone +61 2 9351 3176 Fax +61 2 9351 7682 Mobile 0413 281 861 ______________________________________________ http://www.guycox.net -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Gordon Scott Sent: Tuesday, 30 November 2010 2:34 AM To: [hidden email] Subject: Guidance wanted on illumination stability ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Guys, I'm looking at ways to further improve the performance and efficiency of our light sources. There are always tradeoffs when doing this and I'd like to better understand what tradeoffs are acceptable for real microscopy users. Our present illumination sources all use a switched-mode pre-regulation and a linear final regulation for the LED power, so ripple is very low, but at a cost for us of some power wasted in the linear stages. I can improve that efficiency and reduce the waste by foregoing the linear stage and regulating directly with the switching mode, but the tradeoffs are a longer On/Off switching time than is feasible with linear, and a high-frequency ripple. My simulations suggest switch-on and switch-off times of around 50us and a ripple of around 25% at 100kHz, which would be reasonable from an electrical/energy point of view. The question is, of course, would any of the people likely to use it find that performance difficult or unacceptable? I've copied to the list rather than posting direct, so hopefully the replies will come to me rather than cluttering the list. Thanks for considering the question, even if you need not, or choose not, to answer. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK This message has been scanned by MailController - www.MailController.altohiway.com This message and any attachments are strictly confidential and intended solely for the addressee. Any unauthorized use or disclosure, in whole or in part, is prohibited. E-mails are subject to possible alteration. Custom Interconnect Ltd and the sender decline any liability if this message and/or any attachments have been altered, changed or falsified. If you are not the intended recipient of this message, please delete it and notify the sender immediately. Custom Interconnect Limited is a limited company registered in England and Wales. Registered number: 2026753. Registered office: CIL House 48 Charlton road Andover, Hampshire United Kingdom SP103JL. |
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Gordon Scott |
Re: Guidance wanted on illumination stability
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In reply to this post by Craig Brideau
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Craig, Oh, my apologies, I'm inadvertently misleading the list here, sorry. I'm part of CoolLED and I'm looking at how we improve and move forward our illumination products. My concern is that what we think might be acceptable in a new product may not be acceptable to end users. My suspicion and also your 120Hz sampling comment suggests that it quite possibly isn't and that I need to keep the linear control. 100kHz/25% ripple at 120fps would appear to be a brightness range around 0.025%, which should be invisible, I think. On the other hand if the camera scans lines for whole frames, that jumps to, say, 16% (640 lines), which is very likely intolerable. I'm also concerned about it in techniques like FLIM where time performance is significant. Thanks fro you comments. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK > -----Original Message----- > From: Confocal Microscopy List > [mailto:[hidden email]] On Behalf Of Craig Brideau > Sent: 29 November 2010 17:56 > To: [hidden email] > Subject: Re: Guidance wanted on illumination stability > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > It really depends on your acquisition and what you are trying > to see. For instance if you are using a camera with long > exposure time then the ripples will average out in the image > and you won't have a problem. On the other hand if you are > sampling at say ~120 Hz you will have alternating dim and > slightly brighter images. This may be a problem your users > can live with, depending on what they are looking for. > Finally, if you are aware of the noise and its frequency AND > it is consistent then you can probably subtract it out > post-processing. > > Craig > > > On Mon, Nov 29, 2010 at 8:33 AM, Gordon Scott > <[hidden email]>wrote: > > > ***** > > To join, leave or search the confocal microscopy listserv, go to: > > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > > ***** > > > > Hi Guys, > > > > I'm looking at ways to further improve the performance and > efficiency > > of our light sources. > > > > There are always tradeoffs when doing this and I'd like to better > > understand what tradeoffs are acceptable for real microscopy users. > > > > Our present illumination sources all use a switched-mode > > pre-regulation and a linear final regulation for the LED power, so > > ripple is very low, but at a cost for us of some power > wasted in the linear stages. > > > > I can improve that efficiency and reduce the waste by foregoing the > > linear stage and regulating directly with the switching > mode, but the > > tradeoffs are a longer On/Off switching time than is feasible with > > linear, and a high-frequency ripple. > > > > My simulations suggest switch-on and switch-off times of > around 50us > > and a ripple of around 25% at 100kHz, which would be > reasonable from > > an electrical/energy point of view. > > > > > > > > The question is, of course, would any of the people likely > to use it > > find that performance difficult or unacceptable? > > > > > > > > I've copied to the list rather than posting direct, so > hopefully the > > replies will come to me rather than cluttering the list. > > > > Thanks for considering the question, even if you need not, > or choose > > not, to answer. > > > > Kind regards, > > Gordon. > > -- > > Gordon Scott Design Engineering > > Custom Interconnect Ltd. http://www.cil-uk.co.uk > > CoolLED http://www.coolled.com > > CoolLED is a division of Custom Interconnect Ltd. > > Phone +44-1264-321321 > > CIL House, Charlton Road, Andover SP10 3JL, UK > > > > > > This message has been scanned by MailController - > > www.MailController.altohiway.com > > > > This message and any attachments are strictly confidential and > > intended solely for the addressee. Any unauthorized use or > disclosure, > > in whole or in part, is prohibited. E-mails are subject to possible > > alteration. Custom Interconnect Ltd and the sender decline any > > liability if this message and/or any attachments have been altered, > > changed or falsified. If you are not the intended recipient of this > > message, please delete it and notify the sender immediately. > > > > Custom Interconnect Limited is a limited company registered > in England > > and Wales. Registered number: 2026753. Registered office: > CIL House 48 > > Charlton road Andover, Hampshire United Kingdom SP103JL. > > > |
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Gordon Scott |
Re: Guidance wanted on illumination stability
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In reply to this post by Guy Cox-2
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Guy, No the copy strategy didn't work. Of course one only finds that out after the event. Ho Hum. :-( My original thoughts on video were as yours, however I _think_ most cameras take a full image and then the lines are downloaded sequentially, but I'm also very aware that that may not be the whole, or even the correct story. If the line rate _is_ important, and I guess if the data is downloaded from the camera `live' line-by-line, rather than as a complete image, then 100kHz will definitely show artefacts and the case is closed .. I need to keep the linear control. The main aim is actually to avoid unnecessary waste heat, though saving money is always nice. I'm not sure it would make a particularly significant effect on price, but it may. Any waste heat I have I then have to get rid of. LEDs must not get as hot as bulbs and indeed we actively cool them to get the best out of them, so getting the excess heat out of the boxes needs heat sinks and fans or similar. At present that waste heat puts a frustrating limit on what's feasible with the units, and I'd like to remove that frustration. Thanks for your comments. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK > -----Original Message----- > From: Guy Cox [mailto:[hidden email]] > Sent: 29 November 2010 23:15 > To: Confocal Microscopy List > Cc: Gordon Scott > Subject: RE: Guidance wanted on illumination stability > > Gordon, > > Your strategy of copying to the list didn't seem to work. > Anyway, I think that lots of list members, having seen the > question, like to see the answers. > > If someone is taking conventional images with a 1 > second exposure 100kHz ripple will not be noticeable. But if > you are taking video at 25 fps 525 line (international video) > your line rate is about > 13 kHz (US video about 14kHz) so I'd imagine there would be > rather unwelcome diagonal stripes on the image and you'd be > getting angry phone calls from your customers. > > You haven't told us the other side of the > trade-off. Do you want to eliminate the linear stage to save > money - if so, how much cheaper would it make a CooLED > illuminator? Or is it to save power? > How much would that save? Given that an LED source already > uses hugely less power that an HBO 100 mercury lamp, would > anyone care? > > Guy > > Optical Imaging Techniques in Cell Biology > by Guy Cox CRC Press / Taylor & Francis > http://www.guycox.com/optical.htm > ______________________________________________ > Associate Professor Guy Cox, MA, DPhil(Oxon) Australian > Centre for Microscopy & Microanalysis, Madsen Building F09, > University of Sydney, NSW 2006 > > Phone +61 2 9351 3176 Fax +61 2 9351 7682 > Mobile 0413 281 861 > ______________________________________________ > http://www.guycox.net > > > -----Original Message----- > From: Confocal Microscopy List > [mailto:[hidden email]] > On Behalf Of Gordon Scott > Sent: Tuesday, 30 November 2010 2:34 AM > To: [hidden email] > Subject: Guidance wanted on illumination stability > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Guys, > > I'm looking at ways to further improve the performance and > efficiency of our light sources. > > There are always tradeoffs when doing this and I'd like to > better understand what tradeoffs are acceptable for real > microscopy users. > > Our present illumination sources all use a switched-mode > pre-regulation and a linear final regulation for the LED > power, so ripple is very low, but at a cost for us of some > power wasted in the linear stages. > > I can improve that efficiency and reduce the waste by > foregoing the linear stage and regulating directly with the > switching mode, but the tradeoffs are a longer On/Off > switching time than is feasible with linear, and a > high-frequency ripple. > > My simulations suggest switch-on and switch-off times of > around 50us and a ripple of around 25% at 100kHz, which would > be reasonable from an electrical/energy point of view. > > > > The question is, of course, would any of the people likely to > use it find that performance difficult or unacceptable? > > > > I've copied to the list rather than posting direct, so > hopefully the replies will come to me rather than cluttering the list. > > Thanks for considering the question, even if you need not, or > choose not, to answer. > > Kind regards, > Gordon. > -- > Gordon Scott Design Engineering > Custom Interconnect Ltd. http://www.cil-uk.co.uk > CoolLED http://www.coolled.com > CoolLED is a division of Custom Interconnect Ltd. > Phone +44-1264-321321 > CIL House, Charlton Road, Andover SP10 3JL, UK > > > This message has been scanned by MailController - > www.MailController.altohiway.com > > This message and any attachments are strictly confidential > and intended solely for the addressee. Any unauthorized use > or disclosure, in whole or in part, is prohibited. E-mails > are subject to possible alteration. > Custom Interconnect Ltd and the sender decline any liability > if this message and/or any attachments have been altered, > changed or falsified. > If you are not the intended recipient of this message, please > delete it and notify the sender immediately. > > Custom Interconnect Limited is a limited company registered > in England and Wales. Registered number: 2026753. Registered > office: CIL House 48 Charlton road Andover, Hampshire United > Kingdom SP103JL. > |
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Jeremy Adler-3 |
Re: Guidance wanted on illumination stability
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** It might also be useful to have pulsatile LEDs operating in the nanosecond range - there was a Stefan Hell paper that showed very significant reductions in photobleaching when the gap between pulses was longer than the fluorescent lifetime. Is this possible with LEDs ? Quoting Gordon Scott <[hidden email]>: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Guy, > > No the copy strategy didn't work. Of course one only finds that out > after the event. Ho Hum. :-( > > My original thoughts on video were as yours, however I _think_ most > cameras take a full image and then the lines are downloaded > sequentially, but I'm also very aware that that may not be the whole, or > even the correct story. If the line rate _is_ important, and I guess if > the data is downloaded from the camera `live' line-by-line, rather than > as a complete image, then 100kHz will definitely show artefacts and the > case is closed .. I need to keep the linear control. > > The main aim is actually to avoid unnecessary waste heat, though saving > money is always nice. I'm not sure it would make a particularly > significant effect on price, but it may. Any waste heat I have I then > have to get rid of. LEDs must not get as hot as bulbs and indeed we > actively cool them to get the best out of them, so getting the excess > heat out of the boxes needs heat sinks and fans or similar. At present > that waste heat puts a frustrating limit on what's feasible with the > units, and I'd like to remove that frustration. > > Thanks for your comments. > > Kind regards, > Gordon. > -- > Gordon Scott Design Engineering > Custom Interconnect Ltd. http://www.cil-uk.co.uk > CoolLED http://www.coolled.com > CoolLED is a division of Custom Interconnect Ltd. > Phone +44-1264-321321 > CIL House, Charlton Road, Andover SP10 3JL, UK > > >> -----Original Message----- >> From: Guy Cox [mailto:[hidden email]] >> Sent: 29 November 2010 23:15 >> To: Confocal Microscopy List >> Cc: Gordon Scott >> Subject: RE: Guidance wanted on illumination stability >> >> Gordon, >> >> Your strategy of copying to the list didn't seem to work. >> Anyway, I think that lots of list members, having seen the >> question, like to see the answers. >> >> If someone is taking conventional images with a 1 >> second exposure 100kHz ripple will not be noticeable. But if >> you are taking video at 25 fps 525 line (international video) >> your line rate is about >> 13 kHz (US video about 14kHz) so I'd imagine there would be >> rather unwelcome diagonal stripes on the image and you'd be >> getting angry phone calls from your customers. >> >> You haven't told us the other side of the >> trade-off. Do you want to eliminate the linear stage to save >> money - if so, how much cheaper would it make a CooLED >> illuminator? Or is it to save power? >> How much would that save? Given that an LED source already >> uses hugely less power that an HBO 100 mercury lamp, would >> anyone care? >> >> Guy >> >> Optical Imaging Techniques in Cell Biology >> by Guy Cox CRC Press / Taylor & Francis >> http://www.guycox.com/optical.htm >> ______________________________________________ >> Associate Professor Guy Cox, MA, DPhil(Oxon) Australian >> Centre for Microscopy & Microanalysis, Madsen Building F09, >> University of Sydney, NSW 2006 >> >> Phone +61 2 9351 3176 Fax +61 2 9351 7682 >> Mobile 0413 281 861 >> ______________________________________________ >> http://www.guycox.net >> >> >> -----Original Message----- >> From: Confocal Microscopy List >> [mailto:[hidden email]] >> On Behalf Of Gordon Scott >> Sent: Tuesday, 30 November 2010 2:34 AM >> To: [hidden email] >> Subject: Guidance wanted on illumination stability >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> Hi Guys, >> >> I'm looking at ways to further improve the performance and >> efficiency of our light sources. >> >> There are always tradeoffs when doing this and I'd like to >> better understand what tradeoffs are acceptable for real >> microscopy users. >> >> Our present illumination sources all use a switched-mode >> pre-regulation and a linear final regulation for the LED >> power, so ripple is very low, but at a cost for us of some >> power wasted in the linear stages. >> >> I can improve that efficiency and reduce the waste by >> foregoing the linear stage and regulating directly with the >> switching mode, but the tradeoffs are a longer On/Off >> switching time than is feasible with linear, and a >> high-frequency ripple. >> >> My simulations suggest switch-on and switch-off times of >> around 50us and a ripple of around 25% at 100kHz, which would >> be reasonable from an electrical/energy point of view. >> >> >> >> The question is, of course, would any of the people likely to >> use it find that performance difficult or unacceptable? >> >> >> >> I've copied to the list rather than posting direct, so >> hopefully the replies will come to me rather than cluttering the list. >> >> Thanks for considering the question, even if you need not, or >> choose not, to answer. >> >> Kind regards, >> Gordon. >> -- >> Gordon Scott Design Engineering >> Custom Interconnect Ltd. http://www.cil-uk.co.uk >> CoolLED http://www.coolled.com >> CoolLED is a division of Custom Interconnect Ltd. >> Phone +44-1264-321321 >> CIL House, Charlton Road, Andover SP10 3JL, UK >> >> >> This message has been scanned by MailController - >> www.MailController.altohiway.com >> >> This message and any attachments are strictly confidential >> and intended solely for the addressee. Any unauthorized use >> or disclosure, in whole or in part, is prohibited. E-mails >> are subject to possible alteration. >> Custom Interconnect Ltd and the sender decline any liability >> if this message and/or any attachments have been altered, >> changed or falsified. >> If you are not the intended recipient of this message, please >> delete it and notify the sender immediately. >> >> Custom Interconnect Limited is a limited company registered >> in England and Wales. Registered number: 2026753. Registered >> office: CIL House 48 Charlton road Andover, Hampshire United >> Kingdom SP103JL. >> > Jeremy Adler Genetics & Pathology Rudbeckslaboratoriet Daghammersköljdsväg 20 751 85 Uppsala Sweden 0046 (0)18 471 4607 |
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Knecht, David |
Re: Guidance wanted on illumination stability
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** It is not only possible, but Thorlabs sells an LED controller that modulates LED intensity in this way up to 10kHz which I think should be adequate for the effect discussed in the Hell paper. I have not had a chance to try it yet and see if it works to reduce bleaching. Dave http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=4003 On Nov 30, 2010, at 10:26 AM, Jeremy Adler wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > It might also be useful to have pulsatile LEDs operating in the > nanosecond range - there was a Stefan Hell paper that showed very > significant reductions in photobleaching when the gap between pulses > was longer than the fluorescent lifetime. Is this possible with LEDs ? > > > Quoting Gordon Scott <[hidden email]>: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> Hi Guy, >> >> No the copy strategy didn't work. Of course one only finds that out >> after the event. Ho Hum. :-( >> >> My original thoughts on video were as yours, however I _think_ most >> cameras take a full image and then the lines are downloaded >> sequentially, but I'm also very aware that that may not be the whole, or >> even the correct story. If the line rate _is_ important, and I guess if >> the data is downloaded from the camera `live' line-by-line, rather than >> as a complete image, then 100kHz will definitely show artefacts and the >> case is closed .. I need to keep the linear control. >> >> The main aim is actually to avoid unnecessary waste heat, though saving >> money is always nice. I'm not sure it would make a particularly >> significant effect on price, but it may. Any waste heat I have I then >> have to get rid of. LEDs must not get as hot as bulbs and indeed we >> actively cool them to get the best out of them, so getting the excess >> heat out of the boxes needs heat sinks and fans or similar. At present >> that waste heat puts a frustrating limit on what's feasible with the >> units, and I'd like to remove that frustration. >> >> Thanks for your comments. >> >> Kind regards, >> Gordon. >> -- >> Gordon Scott Design Engineering >> Custom Interconnect Ltd. http://www.cil-uk.co.uk >> CoolLED http://www.coolled.com >> CoolLED is a division of Custom Interconnect Ltd. >> Phone +44-1264-321321 >> CIL House, Charlton Road, Andover SP10 3JL, UK >> >> >>> -----Original Message----- >>> From: Guy Cox [mailto:[hidden email]] >>> Sent: 29 November 2010 23:15 >>> To: Confocal Microscopy List >>> Cc: Gordon Scott >>> Subject: RE: Guidance wanted on illumination stability >>> >>> Gordon, >>> >>> Your strategy of copying to the list didn't seem to work. >>> Anyway, I think that lots of list members, having seen the >>> question, like to see the answers. >>> >>> If someone is taking conventional images with a 1 >>> second exposure 100kHz ripple will not be noticeable. But if >>> you are taking video at 25 fps 525 line (international video) >>> your line rate is about >>> 13 kHz (US video about 14kHz) so I'd imagine there would be >>> rather unwelcome diagonal stripes on the image and you'd be >>> getting angry phone calls from your customers. >>> >>> You haven't told us the other side of the >>> trade-off. Do you want to eliminate the linear stage to save >>> money - if so, how much cheaper would it make a CooLED >>> illuminator? Or is it to save power? >>> How much would that save? Given that an LED source already >>> uses hugely less power that an HBO 100 mercury lamp, would >>> anyone care? >>> >>> Guy >>> >>> Optical Imaging Techniques in Cell Biology >>> by Guy Cox CRC Press / Taylor & Francis >>> http://www.guycox.com/optical.htm >>> ______________________________________________ >>> Associate Professor Guy Cox, MA, DPhil(Oxon) Australian >>> Centre for Microscopy & Microanalysis, Madsen Building F09, >>> University of Sydney, NSW 2006 >>> >>> Phone +61 2 9351 3176 Fax +61 2 9351 7682 >>> Mobile 0413 281 861 >>> ______________________________________________ >>> http://www.guycox.net >>> >>> >>> -----Original Message----- >>> From: Confocal Microscopy List >>> [mailto:[hidden email]] >>> On Behalf Of Gordon Scott >>> Sent: Tuesday, 30 November 2010 2:34 AM >>> To: [hidden email] >>> Subject: Guidance wanted on illumination stability >>> >>> ***** >>> To join, leave or search the confocal microscopy listserv, go to: >>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >>> ***** >>> >>> Hi Guys, >>> >>> I'm looking at ways to further improve the performance and >>> efficiency of our light sources. >>> >>> There are always tradeoffs when doing this and I'd like to >>> better understand what tradeoffs are acceptable for real >>> microscopy users. >>> >>> Our present illumination sources all use a switched-mode >>> pre-regulation and a linear final regulation for the LED >>> power, so ripple is very low, but at a cost for us of some >>> power wasted in the linear stages. >>> >>> I can improve that efficiency and reduce the waste by >>> foregoing the linear stage and regulating directly with the >>> switching mode, but the tradeoffs are a longer On/Off >>> switching time than is feasible with linear, and a >>> high-frequency ripple. >>> >>> My simulations suggest switch-on and switch-off times of >>> around 50us and a ripple of around 25% at 100kHz, which would >>> be reasonable from an electrical/energy point of view. >>> >>> >>> >>> The question is, of course, would any of the people likely to >>> use it find that performance difficult or unacceptable? >>> >>> >>> >>> I've copied to the list rather than posting direct, so >>> hopefully the replies will come to me rather than cluttering the list. >>> >>> Thanks for considering the question, even if you need not, or >>> choose not, to answer. >>> >>> Kind regards, >>> Gordon. >>> -- >>> Gordon Scott Design Engineering >>> Custom Interconnect Ltd. http://www.cil-uk.co.uk >>> CoolLED http://www.coolled.com >>> CoolLED is a division of Custom Interconnect Ltd. >>> Phone +44-1264-321321 >>> CIL House, Charlton Road, Andover SP10 3JL, UK >>> >>> >>> This message has been scanned by MailController - >>> www.MailController.altohiway.com >>> >>> This message and any attachments are strictly confidential >>> and intended solely for the addressee. Any unauthorized use >>> or disclosure, in whole or in part, is prohibited. E-mails >>> are subject to possible alteration. >>> Custom Interconnect Ltd and the sender decline any liability >>> if this message and/or any attachments have been altered, >>> changed or falsified. >>> If you are not the intended recipient of this message, please >>> delete it and notify the sender immediately. >>> >>> Custom Interconnect Limited is a limited company registered >>> in England and Wales. Registered number: 2026753. Registered >>> office: CIL House 48 Charlton road Andover, Hampshire United >>> Kingdom SP103JL. >>> >> > > > > Jeremy Adler > Genetics & Pathology > Rudbeckslaboratoriet > Daghammersköljdsväg 20 > 751 85 Uppsala > Sweden > > 0046 (0)18 471 4607 Dr. David Knecht Department of Molecular and Cell Biology Co-head Flow Cytometry and Confocal Microscopy Facility U-3125 91 N. Eagleville Rd. University of Connecticut Storrs, CT 06269 860-486-2200 860-486-4331 (fax) |
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Craig Brideau |
Re: Guidance wanted on illumination stability
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In reply to this post by Gordon Scott
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Yeah, the bottom line is as long as your 'flicker' is not visible within the time-frame of acquisition you should be fine. Regarding the power supply comments, shouldn't it be possible to build a sufficiently stable current source for the LEDs? Of course I suppose for a commercial product you want to keep the costs down. Some data acquisition gear I've seen runs off dual rechargeable batteries. They produce pure DC so no ripple, and while one battery runs the equipment the other charges off wall current. They switch off as necessary to keep the gear running. Again though this may be unnecessarily complex if the ripple proves not to be a problem. Craig On Tue, Nov 30, 2010 at 2:49 AM, Gordon Scott <[hidden email]>wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Craig, > > Oh, my apologies, I'm inadvertently misleading the list here, sorry. > > I'm part of CoolLED and I'm looking at how we improve and move forward > our illumination products. > > > My concern is that what we think might be acceptable in a new product > may not be acceptable to end users. My suspicion and also your 120Hz > sampling comment suggests that it quite possibly isn't and that I need > to keep the linear control. 100kHz/25% ripple at 120fps would appear to > be a brightness range around 0.025%, which should be invisible, I think. > On the other hand if the camera scans lines for whole frames, that jumps > to, say, 16% (640 lines), which is very likely intolerable. I'm also > concerned about it in techniques like FLIM where time performance is > significant. > > Thanks fro you comments. > > Kind regards, > Gordon. > -- > Gordon Scott Design Engineering > Custom Interconnect Ltd. http://www.cil-uk.co.uk > CoolLED http://www.coolled.com > CoolLED is a division of Custom Interconnect Ltd. > Phone +44-1264-321321 > CIL House, Charlton Road, Andover SP10 3JL, UK > > > > -----Original Message----- > > From: Confocal Microscopy List > > [mailto:[hidden email]] On Behalf Of Craig Brideau > > Sent: 29 November 2010 17:56 > > To: [hidden email] > > Subject: Re: Guidance wanted on illumination stability > > > > ***** > > To join, leave or search the confocal microscopy listserv, go to: > > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > > ***** > > > > It really depends on your acquisition and what you are trying > > to see. For instance if you are using a camera with long > > exposure time then the ripples will average out in the image > > and you won't have a problem. On the other hand if you are > > sampling at say ~120 Hz you will have alternating dim and > > slightly brighter images. This may be a problem your users > > can live with, depending on what they are looking for. > > Finally, if you are aware of the noise and its frequency AND > > it is consistent then you can probably subtract it out > > post-processing. > > > > Craig > > > > > > On Mon, Nov 29, 2010 at 8:33 AM, Gordon Scott > > <[hidden email]>wrote: > > > > > ***** > > > To join, leave or search the confocal microscopy listserv, go to: > > > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > > > ***** > > > > > > Hi Guys, > > > > > > I'm looking at ways to further improve the performance and > > efficiency > > > of our light sources. > > > > > > There are always tradeoffs when doing this and I'd like to better > > > understand what tradeoffs are acceptable for real microscopy users. > > > > > > Our present illumination sources all use a switched-mode > > > pre-regulation and a linear final regulation for the LED power, so > > > ripple is very low, but at a cost for us of some power > > wasted in the linear stages. > > > > > > I can improve that efficiency and reduce the waste by foregoing the > > > linear stage and regulating directly with the switching > > mode, but the > > > tradeoffs are a longer On/Off switching time than is feasible with > > > linear, and a high-frequency ripple. > > > > > > My simulations suggest switch-on and switch-off times of > > around 50us > > > and a ripple of around 25% at 100kHz, which would be > > reasonable from > > > an electrical/energy point of view. > > > > > > > > > > > > The question is, of course, would any of the people likely > > to use it > > > find that performance difficult or unacceptable? > > > > > > > > > > > > I've copied to the list rather than posting direct, so > > hopefully the > > > replies will come to me rather than cluttering the list. > > > > > > Thanks for considering the question, even if you need not, > > or choose > > > not, to answer. > > > > > > Kind regards, > > > Gordon. > > > -- > > > Gordon Scott Design Engineering > > > Custom Interconnect Ltd. http://www.cil-uk.co.uk > > > CoolLED http://www.coolled.com > > > CoolLED is a division of Custom Interconnect Ltd. > > > Phone +44-1264-321321 > > > CIL House, Charlton Road, Andover SP10 3JL, UK > > > > > > > > > This message has been scanned by MailController - > > > www.MailController.altohiway.com > > > > > > This message and any attachments are strictly confidential and > > > intended solely for the addressee. Any unauthorized use or > > disclosure, > > > in whole or in part, is prohibited. E-mails are subject to possible > > > alteration. Custom Interconnect Ltd and the sender decline any > > > liability if this message and/or any attachments have been altered, > > > changed or falsified. If you are not the intended recipient of this > > > message, please delete it and notify the sender immediately. > > > > > > Custom Interconnect Limited is a limited company registered > > in England > > > and Wales. Registered number: 2026753. Registered office: > > CIL House 48 > > > Charlton road Andover, Hampshire United Kingdom SP103JL. > > > > > > |
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Ignatius, Mike-2 |
Re: Guidance wanted on illumination stability
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In reply to this post by Jeremy Adler-3
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Prior to Dr. Hell's excellent 2007 paper cited below using laser light pulses in the ns range, Dr. Nishigaki et al, in 2006 used the LED approach successfully, though with more modest gains. They custom built a pulsed diode with broader duty cycle (0.5 to 2ms) that reduced bleaching of organic dyes and associated cell toxicity. Apparently driving diodes much faster than this raises heating concerns. Or is this no longer true? Stroboscopic illumination using light-emitting diodes reduces phototoxicity in fluorescence cell imaging. Nishigaki T, Wood CD, Shiba K, Baba SA, Darszon A. Biotechniques. 2006 Aug;41(2):191-7. Mike Ignatius Molecular Probes, Life Technologies -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Jeremy Adler Sent: Tuesday, November 30, 2010 7:27 AM To: [hidden email] Subject: Re: Guidance wanted on illumination stability ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** It might also be useful to have pulsatile LEDs operating in the nanosecond range - there was a Stefan Hell paper that showed very significant reductions in photobleaching when the gap between pulses was longer than the fluorescent lifetime. Is this possible with LEDs ? Quoting Gordon Scott <[hidden email]>: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Guy, > > No the copy strategy didn't work. Of course one only finds that out > after the event. Ho Hum. :-( > > My original thoughts on video were as yours, however I _think_ most > cameras take a full image and then the lines are downloaded > sequentially, but I'm also very aware that that may not be the whole, or > even the correct story. If the line rate _is_ important, and I guess if > the data is downloaded from the camera `live' line-by-line, rather than > as a complete image, then 100kHz will definitely show artefacts and the > case is closed .. I need to keep the linear control. > > The main aim is actually to avoid unnecessary waste heat, though saving > money is always nice. I'm not sure it would make a particularly > significant effect on price, but it may. Any waste heat I have I then > have to get rid of. LEDs must not get as hot as bulbs and indeed we > actively cool them to get the best out of them, so getting the excess > heat out of the boxes needs heat sinks and fans or similar. At present > that waste heat puts a frustrating limit on what's feasible with the > units, and I'd like to remove that frustration. > > Thanks for your comments. > > Kind regards, > Gordon. > -- > Gordon Scott Design Engineering > Custom Interconnect Ltd. http://www.cil-uk.co.uk > CoolLED http://www.coolled.com > CoolLED is a division of Custom Interconnect Ltd. > Phone +44-1264-321321 > CIL House, Charlton Road, Andover SP10 3JL, UK > > >> -----Original Message----- >> From: Guy Cox [mailto:[hidden email]] >> Sent: 29 November 2010 23:15 >> To: Confocal Microscopy List >> Cc: Gordon Scott >> Subject: RE: Guidance wanted on illumination stability >> >> Gordon, >> >> Your strategy of copying to the list didn't seem to work. >> Anyway, I think that lots of list members, having seen the >> question, like to see the answers. >> >> If someone is taking conventional images with a 1 >> second exposure 100kHz ripple will not be noticeable. But if >> you are taking video at 25 fps 525 line (international video) >> your line rate is about >> 13 kHz (US video about 14kHz) so I'd imagine there would be >> rather unwelcome diagonal stripes on the image and you'd be >> getting angry phone calls from your customers. >> >> You haven't told us the other side of the >> trade-off. Do you want to eliminate the linear stage to save >> money - if so, how much cheaper would it make a CooLED >> illuminator? Or is it to save power? >> How much would that save? Given that an LED source already >> uses hugely less power that an HBO 100 mercury lamp, would >> anyone care? >> >> Guy >> >> Optical Imaging Techniques in Cell Biology >> by Guy Cox CRC Press / Taylor & Francis >> http://www.guycox.com/optical.htm >> ______________________________________________ >> Associate Professor Guy Cox, MA, DPhil(Oxon) Australian >> Centre for Microscopy & Microanalysis, Madsen Building F09, >> University of Sydney, NSW 2006 >> >> Phone +61 2 9351 3176 Fax +61 2 9351 7682 >> Mobile 0413 281 861 >> ______________________________________________ >> http://www.guycox.net >> >> >> -----Original Message----- >> From: Confocal Microscopy List >> [mailto:[hidden email]] >> On Behalf Of Gordon Scott >> Sent: Tuesday, 30 November 2010 2:34 AM >> To: [hidden email] >> Subject: Guidance wanted on illumination stability >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> Hi Guys, >> >> I'm looking at ways to further improve the performance and >> efficiency of our light sources. >> >> There are always tradeoffs when doing this and I'd like to >> better understand what tradeoffs are acceptable for real >> microscopy users. >> >> Our present illumination sources all use a switched-mode >> pre-regulation and a linear final regulation for the LED >> power, so ripple is very low, but at a cost for us of some >> power wasted in the linear stages. >> >> I can improve that efficiency and reduce the waste by >> foregoing the linear stage and regulating directly with the >> switching mode, but the tradeoffs are a longer On/Off >> switching time than is feasible with linear, and a >> high-frequency ripple. >> >> My simulations suggest switch-on and switch-off times of >> around 50us and a ripple of around 25% at 100kHz, which would >> be reasonable from an electrical/energy point of view. >> >> >> >> The question is, of course, would any of the people likely to >> use it find that performance difficult or unacceptable? >> >> >> >> I've copied to the list rather than posting direct, so >> hopefully the replies will come to me rather than cluttering the list. >> >> Thanks for considering the question, even if you need not, or >> choose not, to answer. >> >> Kind regards, >> Gordon. >> -- >> Gordon Scott Design Engineering >> Custom Interconnect Ltd. http://www.cil-uk.co.uk >> CoolLED http://www.coolled.com >> CoolLED is a division of Custom Interconnect Ltd. >> Phone +44-1264-321321 >> CIL House, Charlton Road, Andover SP10 3JL, UK >> >> >> This message has been scanned by MailController - >> www.MailController.altohiway.com >> >> This message and any attachments are strictly confidential >> and intended solely for the addressee. Any unauthorized use >> or disclosure, in whole or in part, is prohibited. E-mails >> are subject to possible alteration. >> Custom Interconnect Ltd and the sender decline any liability >> if this message and/or any attachments have been altered, >> changed or falsified. >> If you are not the intended recipient of this message, please >> delete it and notify the sender immediately. >> >> Custom Interconnect Limited is a limited company registered >> in England and Wales. Registered number: 2026753. Registered >> office: CIL House 48 Charlton road Andover, Hampshire United >> Kingdom SP103JL. >> > Jeremy Adler Genetics & Pathology Rudbeckslaboratoriet Daghammersköljdsväg 20 751 85 Uppsala Sweden 0046 (0)18 471 4607 |
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Jeremy Adler-3 |
Re: Guidance wanted on illumination stability
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In reply to this post by Knecht, David
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** re bleaching and pulse duration, the rationale for nanosecond pulses with similar interval between pulses was to avoid second photon hits during the time the fluorophore was in the excited state - which means that 10kHz is way off the mark. Quoting David Knecht <[hidden email]>: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > It is not only possible, but Thorlabs sells an LED controller that > modulates LED intensity in this way up to 10kHz which I think should > be adequate for the effect discussed in the Hell paper. I have not > had a chance to try it yet and see if it works to reduce bleaching. > Dave > http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=4003 > > On Nov 30, 2010, at 10:26 AM, Jeremy Adler wrote: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> It might also be useful to have pulsatile LEDs operating in the >> nanosecond range - there was a Stefan Hell paper that showed very >> significant reductions in photobleaching when the gap between pulses >> was longer than the fluorescent lifetime. Is this possible with LEDs ? >> >> >> Quoting Gordon Scott <[hidden email]>: >> >>> ***** >>> To join, leave or search the confocal microscopy listserv, go to: >>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >>> ***** >>> >>> Hi Guy, >>> >>> No the copy strategy didn't work. Of course one only finds that out >>> after the event. Ho Hum. :-( >>> >>> My original thoughts on video were as yours, however I _think_ most >>> cameras take a full image and then the lines are downloaded >>> sequentially, but I'm also very aware that that may not be the whole, or >>> even the correct story. If the line rate _is_ important, and I guess if >>> the data is downloaded from the camera `live' line-by-line, rather than >>> as a complete image, then 100kHz will definitely show artefacts and the >>> case is closed .. I need to keep the linear control. >>> >>> The main aim is actually to avoid unnecessary waste heat, though saving >>> money is always nice. I'm not sure it would make a particularly >>> significant effect on price, but it may. Any waste heat I have I then >>> have to get rid of. LEDs must not get as hot as bulbs and indeed we >>> actively cool them to get the best out of them, so getting the excess >>> heat out of the boxes needs heat sinks and fans or similar. At present >>> that waste heat puts a frustrating limit on what's feasible with the >>> units, and I'd like to remove that frustration. >>> >>> Thanks for your comments. >>> >>> Kind regards, >>> Gordon. >>> -- >>> Gordon Scott Design Engineering >>> Custom Interconnect Ltd. http://www.cil-uk.co.uk >>> CoolLED http://www.coolled.com >>> CoolLED is a division of Custom Interconnect Ltd. >>> Phone +44-1264-321321 >>> CIL House, Charlton Road, Andover SP10 3JL, UK >>> >>> >>>> -----Original Message----- >>>> From: Guy Cox [mailto:[hidden email]] >>>> Sent: 29 November 2010 23:15 >>>> To: Confocal Microscopy List >>>> Cc: Gordon Scott >>>> Subject: RE: Guidance wanted on illumination stability >>>> >>>> Gordon, >>>> >>>> Your strategy of copying to the list didn't seem to work. >>>> Anyway, I think that lots of list members, having seen the >>>> question, like to see the answers. >>>> >>>> If someone is taking conventional images with a 1 >>>> second exposure 100kHz ripple will not be noticeable. But if >>>> you are taking video at 25 fps 525 line (international video) >>>> your line rate is about >>>> 13 kHz (US video about 14kHz) so I'd imagine there would be >>>> rather unwelcome diagonal stripes on the image and you'd be >>>> getting angry phone calls from your customers. >>>> >>>> You haven't told us the other side of the >>>> trade-off. Do you want to eliminate the linear stage to save >>>> money - if so, how much cheaper would it make a CooLED >>>> illuminator? Or is it to save power? >>>> How much would that save? Given that an LED source already >>>> uses hugely less power that an HBO 100 mercury lamp, would >>>> anyone care? >>>> >>>> Guy >>>> >>>> Optical Imaging Techniques in Cell Biology >>>> by Guy Cox CRC Press / Taylor & Francis >>>> http://www.guycox.com/optical.htm >>>> ______________________________________________ >>>> Associate Professor Guy Cox, MA, DPhil(Oxon) Australian >>>> Centre for Microscopy & Microanalysis, Madsen Building F09, >>>> University of Sydney, NSW 2006 >>>> >>>> Phone +61 2 9351 3176 Fax +61 2 9351 7682 >>>> Mobile 0413 281 861 >>>> ______________________________________________ >>>> http://www.guycox.net >>>> >>>> >>>> -----Original Message----- >>>> From: Confocal Microscopy List >>>> [mailto:[hidden email]] >>>> On Behalf Of Gordon Scott >>>> Sent: Tuesday, 30 November 2010 2:34 AM >>>> To: [hidden email] >>>> Subject: Guidance wanted on illumination stability >>>> >>>> ***** >>>> To join, leave or search the confocal microscopy listserv, go to: >>>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >>>> ***** >>>> >>>> Hi Guys, >>>> >>>> I'm looking at ways to further improve the performance and >>>> efficiency of our light sources. >>>> >>>> There are always tradeoffs when doing this and I'd like to >>>> better understand what tradeoffs are acceptable for real >>>> microscopy users. >>>> >>>> Our present illumination sources all use a switched-mode >>>> pre-regulation and a linear final regulation for the LED >>>> power, so ripple is very low, but at a cost for us of some >>>> power wasted in the linear stages. >>>> >>>> I can improve that efficiency and reduce the waste by >>>> foregoing the linear stage and regulating directly with the >>>> switching mode, but the tradeoffs are a longer On/Off >>>> switching time than is feasible with linear, and a >>>> high-frequency ripple. >>>> >>>> My simulations suggest switch-on and switch-off times of >>>> around 50us and a ripple of around 25% at 100kHz, which would >>>> be reasonable from an electrical/energy point of view. >>>> >>>> >>>> >>>> The question is, of course, would any of the people likely to >>>> use it find that performance difficult or unacceptable? >>>> >>>> >>>> >>>> I've copied to the list rather than posting direct, so >>>> hopefully the replies will come to me rather than cluttering the list. >>>> >>>> Thanks for considering the question, even if you need not, or >>>> choose not, to answer. >>>> >>>> Kind regards, >>>> Gordon. >>>> -- >>>> Gordon Scott Design Engineering >>>> Custom Interconnect Ltd. http://www.cil-uk.co.uk >>>> CoolLED http://www.coolled.com >>>> CoolLED is a division of Custom Interconnect Ltd. >>>> Phone +44-1264-321321 >>>> CIL House, Charlton Road, Andover SP10 3JL, UK >>>> >>>> >>>> This message has been scanned by MailController - >>>> www.MailController.altohiway.com >>>> >>>> This message and any attachments are strictly confidential >>>> and intended solely for the addressee. Any unauthorized use >>>> or disclosure, in whole or in part, is prohibited. E-mails >>>> are subject to possible alteration. >>>> Custom Interconnect Ltd and the sender decline any liability >>>> if this message and/or any attachments have been altered, >>>> changed or falsified. >>>> If you are not the intended recipient of this message, please >>>> delete it and notify the sender immediately. >>>> >>>> Custom Interconnect Limited is a limited company registered >>>> in England and Wales. Registered number: 2026753. Registered >>>> office: CIL House 48 Charlton road Andover, Hampshire United >>>> Kingdom SP103JL. >>>> >>> >> >> >> >> Jeremy Adler >> Genetics & Pathology >> Rudbeckslaboratoriet >> Daghammersköljdsväg 20 >> 751 85 Uppsala >> Sweden >> >> 0046 (0)18 471 4607 > > Dr. David Knecht > Department of Molecular and Cell Biology > Co-head Flow Cytometry and Confocal Microscopy Facility > U-3125 > 91 N. Eagleville Rd. > University of Connecticut > Storrs, CT 06269 > 860-486-2200 > 860-486-4331 (fax) > Jeremy Adler Genetics & Pathology Rudbeckslaboratoriet Daghammersköljdsväg 20 751 85 Uppsala Sweden 0046 (0)18 471 4607 |
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Gordon Scott |
Re: Guidance wanted on illumination stability
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In reply to this post by Jeremy Adler-3
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Jeremy, > [mailto:[hidden email]] On Behalf Of Jeremy Adler > It might also be useful to have pulsatile LEDs operating in > the nanosecond range - there was a Stefan Hell paper that > showed very significant reductions in photobleaching when the > gap between pulses was longer than the fluorescent lifetime. > Is this possible with LEDs ? Pulses of multiple nanoseconds duration should be feasible enough, though not with the architecture of our present products, which are speed constrained due to the smoothing/linearisation we use. Our present units run to around 10kHz and we know we can make them run to around 300kHz with some modest changes that will likely roll out in the standard product in the moderately near future. To do nanosecond pulses really needs a product designed specifically for that kind of speed and the smoothing/linearisation becomes irrelevant. At those speeds, one changes from linear control to packets of energy. I'd like to better understand what the constraints, limits and future potentials are in the technique. There are some physics constraints at present on the intensity levels that are feasible with LEDs, which might leave the technique in the realm of lasers for a while. Thanks for the feedback. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK This message has been scanned by MailController - www.MailController.altohiway.com This message and any attachments are strictly confidential and intended solely for the addressee. Any unauthorized use or disclosure, in whole or in part, is prohibited. E-mails are subject to possible alteration. Custom Interconnect Ltd and the sender decline any liability if this message and/or any attachments have been altered, changed or falsified. If you are not the intended recipient of this message, please delete it and notify the sender immediately. Custom Interconnect Limited is a limited company registered in England and Wales. Registered number: 2026753. Registered office: CIL House 48 Charlton road Andover, Hampshire United Kingdom SP103JL. |
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Gordon Scott |
Re: Guidance wanted on illumination stability
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In reply to this post by Craig Brideau
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Craig, > -----Original Message----- > Yeah, the bottom line is as long as your 'flicker' is not > visible within the time-frame of acquisition you should be fine. Having contacted one of the camera manufacturers to discuss this further, they're now talking of cameras possibly to 10k fps, by which time the ripple would be significant. It's still only a few percent though, so it may be feasible to compensate. I'm not yet really sure how realistic that speed is, though. The cameras are only so sensitive and that speed normally needs a lot of light. > Regarding the power supply comments, shouldn't it be possible > to build a sufficiently stable current source for the LEDs? Our present units are clean and stable. I was looking to see if there was a slightly less-clean trade-off that I could use to reduce waste heat. At present I preregulate digitally and then final regulate linearly, but that costs heat and it's heat I then have to get rid of. It's much less heat than from a bulb, but then I can't possibly run at hundreds of degrees temperature like they do. > Of course I suppose for a commercial product you want to keep > the costs down. Always good, provided it doesn't compromise the product :-) > Some data acquisition gear I've seen runs > off dual rechargeable batteries. They produce pure DC so no > ripple, and while one battery runs the equipment the other > charges off wall current. They switch off as necessary to > keep the gear running. Again though this may be > unnecessarily complex if the ripple proves not to be a problem. In the LED context a very small ripple at a high frequency is clearly tolerable. It's really whether I can increase that ripple without it becoming intolerable. Kind regards, Gordon. -- Gordon Scott Design Engineering Custom Interconnect Ltd. http://www.cil-uk.co.uk CoolLED http://www.coolled.com CoolLED is a division of Custom Interconnect Ltd. Phone +44-1264-321321 CIL House, Charlton Road, Andover SP10 3JL, UK This message has been scanned by MailController - www.MailController.altohiway.com This message and any attachments are strictly confidential and intended solely for the addressee. Any unauthorized use or disclosure, in whole or in part, is prohibited. E-mails are subject to possible alteration. Custom Interconnect Ltd and the sender decline any liability if this message and/or any attachments have been altered, changed or falsified. If you are not the intended recipient of this message, please delete it and notify the sender immediately. Custom Interconnect Limited is a limited company registered in England and Wales. Registered number: 2026753. Registered office: CIL House 48 Charlton road Andover, Hampshire United Kingdom SP103JL. |
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James Pawley |
Re: Guidance wanted on illumination stability
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In reply to this post by Ignatius, Mike-2
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** >***** >To join, leave or search the confocal microscopy listserv, go to: >http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >***** > >Prior to Dr. Hell's excellent 2007 paper cited >below using laser light pulses in the ns range, >Dr. Nishigaki et al, in 2006 used the LED >approach successfully, though with more modest >gains. They custom built a pulsed diode with >broader duty cycle (0.5 to 2ms) that reduced >bleaching of organic dyes and associated cell >toxicity. Apparently driving diodes much >faster than this raises heating concerns. > >Or is this no longer true? > >Stroboscopic illumination using light-emitting >diodes reduces phototoxicity in fluorescence >cell imaging. Nishigaki T, Wood CD, Shiba K, >Baba SA, Darszon A. Biotechniques. 2006 >Aug;41(2):191-7. > >Mike Ignatius >Molecular Probes, Life Technologies Hi Mike, Actually, I have some reservations about your interpretation of this paper. I am not sure that was a fair fight. First of all, according to the authors, the Hg arc used for continuous illumination was originally designed for UV uncaging. This means that, except for the excitation filter and the dichroic BS, the optics were capable of conveying UV to the specimen". I would have liked to see a UV absorbing filter in there somewhere just to be sure. Hg produces a lot of UV and it can reflect around (or even through) filter systems that aren't properly designed. More to the point, as I understand it, the LED was only on during 1ms of the 2ms that the CCD camera was recording the image at a rate of 10 images/second (i.e., for only 1% of each second of recording time). The Hg source seems to have been on for the full 7 minutes even though the camera was still on for only the same 10, 2ms exposures per second. Quote: The difference between the two samples is therefore most likely due to the 100- fold increase in overall exposure time to illumination light from the mercury lamp (images/s = 10; duration of individual LED pulse = 1 ms; therefore total exposure to LED illumination/s = 10 ms, compared with full 1000 ms exposure to mercury lamp). In the Discussion, the authors mention that one might expect improvements if one used the mechanical shutter on the Hg source to turn off the excitation except during the 20ms/second when the the camera was recording but that they hadn't done so to reduce vibration of the system and wear-and-tear on the shutter. I agree. If you use 100x more light, you will do more damage. I don't think that pulse-length was important. What was important was duty cycle. In the LED case, they "used" all (ok, not all, but all they could collect) of the light that they excited. In the Hg case they didn't. In other quibbles, they didn't attempt to measure the number of mW.s or excitation light at the specimen from the two sources but assumed that they must be similar if they produced a similar level of exposure in their camera, given a fixed 2ms exposure. While this may be convenient and probably true, we can all think of a number of factors that may have made this assumption unsafe. But not unsafe on the same order as a 100x change in total light dose. So I think that this paper just restates what we have known for some time (certainly as far back as the time that time-lapse was recorded on 16mm film), namely that it is better to turn off the light when we aren't recording the image. And in addition, that if your object is moving so fast that you must record 10 frames/s, the easiest way to do this is with an LED source rather than a Hg arc plus an Ultrablitz mechanical shutter (On the other hand, a suitably synchronized rotary shutter might do fine.). Cheers, Jim P. ********************************************************************************* Prof. James B. Pawley, Ph. 608-263-3147 Room 223, Zoology Research Building, FAX 608-265-5315 1117 Johnson Ave., Madison, WI, 53706 [hidden email] 3D Microscopy of Living Cells Course, June 11-23, 2011, UBC, Vancouver Canada Info: http://www.3dcourse.ubc.ca/ Applications still being accepted "If it ain't diffraction, it must be statistics." Anon. > >-----Original Message----- >From: Confocal Microscopy List >[mailto:[hidden email]] On >Behalf Of Jeremy Adler >Sent: Tuesday, November 30, 2010 7:27 AM >To: [hidden email] >Subject: Re: Guidance wanted on illumination stability > >***** >To join, leave or search the confocal microscopy listserv, go to: >http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >***** > >It might also be useful to have pulsatile LEDs operating in the >nanosecond range - there was a Stefan Hell paper that showed very >significant reductions in photobleaching when the gap between pulses >was longer than the fluorescent lifetime. Is this possible with LEDs ? > > >Quoting Gordon Scott <[hidden email]>: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> Hi Guy, >> >> No the copy strategy didn't work. Of course one only finds that out >> after the event. Ho Hum. :-( >> >> My original thoughts on video were as yours, however I _think_ most >> cameras take a full image and then the lines are downloaded >> sequentially, but I'm also very aware that that may not be the whole, or >> even the correct story. If the line rate _is_ important, and I guess if >> the data is downloaded from the camera `live' line-by-line, rather than >> as a complete image, then 100kHz will definitely show artefacts and the >> case is closed .. I need to keep the linear control. >> >> The main aim is actually to avoid unnecessary waste heat, though saving >> money is always nice. I'm not sure it would make a particularly >> significant effect on price, but it may. Any waste heat I have I then >> have to get rid of. LEDs must not get as hot as bulbs and indeed we >> actively cool them to get the best out of them, so getting the excess >> heat out of the boxes needs heat sinks and fans or similar. At present >> that waste heat puts a frustrating limit on what's feasible with the >> units, and I'd like to remove that frustration. >> >> Thanks for your comments. >> >> Kind regards, >> Gordon. > > -- >> Gordon Scott Design Engineering >> Custom Interconnect Ltd. http://www.cil-uk.co.uk >> CoolLED http://www.coolled.com >> CoolLED is a division of Custom Interconnect Ltd. >> Phone +44-1264-321321 >> CIL House, Charlton Road, Andover SP10 3JL, UK >> >> >>> -----Original Message----- >>> From: Guy Cox [mailto:[hidden email]] >>> Sent: 29 November 2010 23:15 >>> To: Confocal Microscopy List >>> Cc: Gordon Scott >>> Subject: RE: Guidance wanted on illumination stability >>> >>> Gordon, >>> >>> Your strategy of copying to the list didn't seem to work. >>> Anyway, I think that lots of list members, having seen the >>> question, like to see the answers. >>> >>> If someone is taking conventional images with a 1 >>> second exposure 100kHz ripple will not be noticeable. But if >>> you are taking video at 25 fps 525 line (international video) >>> your line rate is about >>> 13 kHz (US video about 14kHz) so I'd imagine there would be >>> rather unwelcome diagonal stripes on the image and you'd be >>> getting angry phone calls from your customers. >>> >>> You haven't told us the other side of the >>> trade-off. Do you want to eliminate the linear stage to save >>> money - if so, how much cheaper would it make a CooLED >>> illuminator? Or is it to save power? >>> How much would that save? Given that an LED source already >>> uses hugely less power that an HBO 100 mercury lamp, would >>> anyone care? >>> >>> Guy >>> >>> Optical Imaging Techniques in Cell Biology >>> by Guy Cox CRC Press / Taylor & Francis >>> http://www.guycox.com/optical.htm >>> ______________________________________________ >>> Associate Professor Guy Cox, MA, DPhil(Oxon) Australian >>> Centre for Microscopy & Microanalysis, Madsen Building F09, > >> University of Sydney, NSW 2006 >>> >>> Phone +61 2 9351 3176 Fax +61 2 9351 7682 >>> Mobile 0413 281 861 >>> ______________________________________________ >>> http://www.guycox.net >>> >>> >>> -----Original Message----- >>> From: Confocal Microscopy List >>> [mailto:[hidden email]] >>> On Behalf Of Gordon Scott >>> Sent: Tuesday, 30 November 2010 2:34 AM >>> To: [hidden email] >>> Subject: Guidance wanted on illumination stability >>> >>> ***** >>> To join, leave or search the confocal microscopy listserv, go to: >>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >>> ***** >>> >>> Hi Guys, >>> >>> I'm looking at ways to further improve the performance and >>> efficiency of our light sources. >>> >>> There are always tradeoffs when doing this and I'd like to >>> better understand what tradeoffs are acceptable for real >>> microscopy users. >>> >>> Our present illumination sources all use a switched-mode >>> pre-regulation and a linear final regulation for the LED >>> power, so ripple is very low, but at a cost for us of some >>> power wasted in the linear stages. >>> >>> I can improve that efficiency and reduce the waste by >>> foregoing the linear stage and regulating directly with the >>> switching mode, but the tradeoffs are a longer On/Off >>> switching time than is feasible with linear, and a >>> high-frequency ripple. >>> >>> My simulations suggest switch-on and switch-off times of >>> around 50us and a ripple of around 25% at 100kHz, which would >>> be reasonable from an electrical/energy point of view. >>> >>> >>> >>> The question is, of course, would any of the people likely to >>> use it find that performance difficult or unacceptable? >>> >>> >>> >>> I've copied to the list rather than posting direct, so >>> hopefully the replies will come to me rather than cluttering the list. >>> >>> Thanks for considering the question, even if you need not, or >>> choose not, to answer. >>> >>> Kind regards, >>> Gordon. >>> -- >>> Gordon Scott Design Engineering >>> Custom Interconnect Ltd. http://www.cil-uk.co.uk >>> CoolLED http://www.coolled.com >>> CoolLED is a division of Custom Interconnect Ltd. >>> Phone +44-1264-321321 >>> CIL House, Charlton Road, Andover SP10 3JL, UK >>> > >> >>> This message has been scanned by MailController - >>> www.MailController.altohiway.com >>> >>> This message and any attachments are strictly confidential >>> and intended solely for the addressee. Any unauthorized use >>> or disclosure, in whole or in part, is prohibited. E-mails >>> are subject to possible alteration. >>> Custom Interconnect Ltd and the sender decline any liability >>> if this message and/or any attachments have been altered, >>> changed or falsified. >>> If you are not the intended recipient of this message, please >>> delete it and notify the sender immediately. >>> >>> Custom Interconnect Limited is a limited company registered >>> in England and Wales. Registered number: 2026753. Registered >>> office: CIL House 48 Charlton road Andover, Hampshire United >>> Kingdom SP103JL. >>> >> > > > >Jeremy Adler >Genetics & Pathology >Rudbeckslaboratoriet >Daghammersköljdsväg 20 >751 85 Uppsala >Sweden > >0046 (0)18 471 4607 -- ********************************************************************************* Prof. James B. Pawley, Ph. 608-263-3147 Room 223, Zoology Research Building, FAX 608-265-5315 1117 Johnson Ave., Madison, WI, 53706 [hidden email] 3D Microscopy of Living Cells Course, June 11-23, 2011, UBC, Vancouver Canada Info: http://www.3dcourse.ubc.ca/ Applications still being accepted "If it ain't diffraction, it must be statistics." Anon. |
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In reply to this post by Ignatius, Mike-2
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Mike We, and our customers, are finding it increasingly difficult to find 100 nm beads in a variety of colors. In particular we are getting stuck for AF647/Cy5 range beads. No one has anything that is a good match in this range. I don't want to waste my time talking to Life Tech about a custom job as it's a joke but is there anything in the pipeline. With the advent of super resolution systems the PS-Speck beads are now too large for this purpose and the 40 nm beads not bright enough. Ian Clements Product Manager - DeltaVision OMX Systems This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Apologies to group for mis-directed message but happy to hear from anyone who has a source of these. Ian This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** What about 0.1 micrometer TetraSpeck beads from Molecular Probes? They are about 110 +/- 6 nm in size (might depend on the batch) and light up in all channels inclusive the far red. However they seem to loose their fluorescence over time and are useless after a month or so. best wishes Andreas -----Original Message----- From: Clements, Ian <[hidden email]> To: [hidden email] Sent: Thu, 2 Dec 2010 21:56 Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Apologies to group for mis-directed message but happy to hear from anyone who has a source of these. Ian This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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In reply to this post by Clements, Ian
G'Day Ian, have your tried Polysciences? I know they have a good range of beads..
Kind Regards, Grace Grace Chojnowski Flow Cytometry and Confocal Microscopy Laboratory Manager Queensland Institute of Medical Research Brisbane, QLD, AUSTRALIA [hidden email] +61 7 3362 0314. 6+61 414 956 752 +61 7 3362 0107 http://www.qimr.edu.au/flow -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Clements, Ian Sent: Friday, 3 December 2010 7:52 AM To: [hidden email] Subject: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Mike We, and our customers, are finding it increasingly difficult to find 100 nm beads in a variety of colors. In particular we are getting stuck for AF647/Cy5 range beads. No one has anything that is a good match in this range. I don't want to waste my time talking to Life Tech about a custom job as it's a joke but is there anything in the pipeline. With the advent of super resolution systems the PS-Speck beads are now too large for this purpose and the 40 nm beads not bright enough. Ian Clements Product Manager - DeltaVision OMX Systems This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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As I recall they also own Bangs now but will check them out.
Ian Clements Product Manager - DeltaVision OMX Systems -----Original Message----- From: Grace Chojnowski [mailto:[hidden email]] Sent: Thursday, December 02, 2010 2:18 PM To: [hidden email] Subject: Re: 100 nm PSF kit G'Day Ian, have your tried Polysciences? I know they have a good range of beads.. Kind Regards, Grace Grace Chojnowski Flow Cytometry and Confocal Microscopy Laboratory Manager Queensland Institute of Medical Research Brisbane, QLD, AUSTRALIA [hidden email] +61 7 3362 0314. 6+61 414 956 752 +61 7 3362 0107 http://www.qimr.edu.au/flow -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Clements, Ian Sent: Friday, 3 December 2010 7:52 AM To: [hidden email] Subject: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Mike We, and our customers, are finding it increasingly difficult to find 100 nm beads in a variety of colors. In particular we are getting stuck for AF647/Cy5 range beads. No one has anything that is a good match in this range. I don't want to waste my time talking to Life Tech about a custom job as it's a joke but is there anything in the pipeline. With the advent of super resolution systems the PS-Speck beads are now too large for this purpose and the 40 nm beads not bright enough. Ian Clements Product Manager - DeltaVision OMX Systems This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We do use these but for certain applications we need single color beads. Also the TetraSpecks are not quite as bright but it may be all we can do right now. Ian Clements Product Manager - DeltaVision OMX Systems -----Original Message----- From: Andreas Bruckbauer [mailto:[hidden email]] Sent: Thursday, December 02, 2010 2:10 PM To: [hidden email] Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** What about 0.1 micrometer TetraSpeck beads from Molecular Probes? They are about 110 +/- 6 nm in size (might depend on the batch) and light up in all channels inclusive the far red. However they seem to loose their fluorescence over time and are useless after a month or so. best wishes Andreas -----Original Message----- From: Clements, Ian <[hidden email]> To: [hidden email] Sent: Thu, 2 Dec 2010 21:56 Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Apologies to group for mis-directed message but happy to hear from anyone who has a source of these. Ian This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** The funny thing is that Bangs list, in their spectra, "Far out red" which seems to be exactly the colour you want - but they don't seem to offer many (any?) actual beads with this dye. Guy Optical Imaging Techniques in Cell Biology by Guy Cox CRC Press / Taylor & Francis http://www.guycox.com/optical.htm ______________________________________________ Associate Professor Guy Cox, MA, DPhil(Oxon) Australian Centre for Microscopy & Microanalysis, Madsen Building F09, University of Sydney, NSW 2006 Phone +61 2 9351 3176 Fax +61 2 9351 7682 Mobile 0413 281 861 ______________________________________________ http://www.guycox.net -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Clements, Ian Sent: Friday, 3 December 2010 10:27 AM To: [hidden email] Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We do use these but for certain applications we need single color beads. Also the TetraSpecks are not quite as bright but it may be all we can do right now. Ian Clements Product Manager - DeltaVision OMX Systems -----Original Message----- From: Andreas Bruckbauer [mailto:[hidden email]] Sent: Thursday, December 02, 2010 2:10 PM To: [hidden email] Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** What about 0.1 micrometer TetraSpeck beads from Molecular Probes? They are about 110 +/- 6 nm in size (might depend on the batch) and light up in all channels inclusive the far red. However they seem to loose their fluorescence over time and are useless after a month or so. best wishes Andreas -----Original Message----- From: Clements, Ian <[hidden email]> To: [hidden email] Sent: Thu, 2 Dec 2010 21:56 Subject: Re: 100 nm PSF kit ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Apologies to group for mis-directed message but happy to hear from anyone who has a source of these. Ian This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. This email message, together with any attachments, is for the sole use of the intended recipient(s) and is the confidential information of Applied Precision Inc. If you are not the intended recipient, your review, use, disclosure, copying or dissemination of this email message or its attachments, or the information contained therein, is strictly prohibited. If you are not the intended recipient or if you think this email was sent to you in error, please notify the sender by reply email and delete this message and its attachments, as well as all copies, from your system. |
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