Thank you. Do you have a plot of the effect on impedance due to hook out into high frequencies, measured on a real world material? It would tell me a lot.


 On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote:

     Hook is merely a manifestation of the variation of dielectric constant with frequency.

     It affects the frequency response and transient of resistive attenuators by requiring more complex compensation than merely adjusting a trimmer cap to equalise the low frequency and high frequency attenuation. Since the dielectric "constant" (relative permittivity) of all dielectrics is frequency dependent all dielectrics will exhibit hook to some extent. Some PCB substrates like some versions of FR4 and G10 exhibit a significant variation in the dielectric constant from the dc value to a somewhat lower value for frequencies even in he audio range let alone frequencies of several MHz. Achieving a flat frequency response where the dielectric associated with circuit board capacitances exhibits significant hook is a complex task. Circuit board hook even affects the impedance of printed transmission lines (eg stripline, microstrip, CPW etc).

     Bruce

         On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com mailto:cheater00@gmail.com > wrote:

         Are conformal coatings the right way to handle this?

         I understand there are kinds of FR4 and G10 that don't have hook. What does
         one do about hook - how are those substrates improved? How does hook
         manifest in circuits?

         On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com mailto:davidwhess@gmail.com > wrote:

             FR4 has problems with consistency. Samples can have problems with
             hook, dielectric absorption, leakage, and sensitivity to humidity.

             On Sun, 16 Apr 2017 12:08:07 +0100, you wrote:

                 Hi Chuck

                 But the context is "PCBs with ceramic substrates". Are any of *those*
                 tough? They may well be, perhaps you know of some? It does not help us
                 with the subject much if there are ceramics with these amazing
                 properties if they are not available as PCBs.

                 There is also the question of exactly what properties of FR4 are
                 limiting for "metrology" use.

                 John

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There's little out there on the frequency dependence of dielectric constant at audio and sub audio frequencies. A bit more for 10MHz and above like: http://www.edn.com/design/analog/4398951/2/What-PCB-material-do-I-need-to-use-for-RF- http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc There's also the article in The October 8 1978 issue of electronics on Getting rid of hook: The hidden pc-board capacitance by authors from Tektronix and Norplex. This article is in the files section of the Tekscopes yahoo group. Otherwise there are various values given in the literature and on the web for the low frequency relative permittivity of FR4 which are all noticeably higher than the value at 10MHz. Bruce > On 17 April 2017 at 14:31 cheater00 cheater00 <cheater00@gmail.com> wrote: > > > Thank you. Do you have a plot of the effect on impedance due to hook out into high frequencies, measured on a real world material? It would tell me a lot. > > > On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote: > > > > > > Hook is merely a manifestation of the variation of dielectric constant with frequency. > > > > It affects the frequency response and transient of resistive attenuators by requiring more complex compensation than merely adjusting a trimmer cap to equalise the low frequency and high frequency attenuation. Since the dielectric "constant" (relative permittivity) of all dielectrics is frequency dependent all dielectrics will exhibit hook to some extent. Some PCB substrates like some versions of FR4 and G10 exhibit a significant variation in the dielectric constant from the dc value to a somewhat lower value for frequencies even in he audio range let alone frequencies of several MHz. Achieving a flat frequency response where the dielectric associated with circuit board capacitances exhibits significant hook is a complex task. Circuit board hook even affects the impedance of printed transmission lines (eg stripline, microstrip, CPW etc). > > > > Bruce > > > > > > > > > > On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com mailto:cheater00@gmail.com > wrote: > > > > > > Are conformal coatings the right way to handle this? > > > > > > I understand there are kinds of FR4 and G10 that don't have hook. What does > > > one do about hook - how are those substrates improved? How does hook > > > manifest in circuits? > > > > > > On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com mailto:davidwhess@gmail.com > wrote: > > > > > > > > > > > > > > FR4 has problems with consistency. Samples can have problems with > > > > hook, dielectric absorption, leakage, and sensitivity to humidity. > > > > > > > > On Sun, 16 Apr 2017 12:08:07 +0100, you wrote: > > > > > > > > > > > > > > > > > > Hi Chuck > > > > > > > > > > But the context is "PCBs with ceramic substrates". Are any of *those* > > > > > tough? They may well be, perhaps you know of some? It does not help us > > > > > with the subject much if there are ceramics with these amazing > > > > > properties if they are not available as PCBs. > > > > > > > > > > There is also the question of exactly what properties of FR4 are > > > > > limiting for "metrology" use. > > > > > > > > > > John > > > > > > > > > > _______________________________________________ > > > > > volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com > > > > > To unsubscribe, go to > > > > > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > > > > > and follow the instructions there. > > > > > > > > > > > > > > > > > > _______________________________________________ > > > > volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com > > > > To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > > > > and follow the instructions there. > > > > > > > > > > > > > > > > > > >

Thanks, that second article had exactly what I had in mind. I would love to see that permittivity vs freq graph in more detail around one of the flat crossings of the saw graph with the smooth fitted curve, maybe +/- 10 MHz around that crossing (not around the steep jump) If ceramic is fragile and FR4 can be hook less then I assume FR4 is better, testing anyways doesn't hurt. The periodicity of the "saw" graph is telling. Could this have to do with the size of layers created by the fibers, or the size of fibers themselves or their spacing? Maybe a random fiber dimension (diameter, spacing) would be better here than using a constant dimension of fibers. On Mon, 17 Apr 2017 05:35 Bruce Griffiths, <bruce.griffiths@xtra.co.nz> wrote: > There's little out there on the frequency dependence of dielectric > constant at audio and sub audio frequencies. > > A bit more for 10MHz and above like: > > > http://www.edn.com/design/analog/4398951/2/What-PCB-material-do-I-need-to-use-for-RF- > > > http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc > > > There's also the article in The October 8 1978 issue of electronics on > > Getting rid of hook: The hidden pc-board capacitance by authors from > Tektronix and Norplex. > > This article is in the files section of the Tekscopes yahoo group. > > Otherwise there are various values given in the literature and on the web > for the low frequency relative permittivity of FR4 which are all noticeably > higher than the value at 10MHz. > > Bruce > > On 17 April 2017 at 14:31 cheater00 cheater00 <cheater00@gmail.com> wrote: > > Thank you. Do you have a plot of the effect on impedance due to hook out > into high frequencies, measured on a real world material? It would tell me > a lot. > > On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz> > wrote: > > Hook is merely a manifestation of the variation of dielectric constant > with frequency. > > It affects the frequency response and transient of resistive attenuators > by requiring more complex compensation than merely adjusting a trimmer cap > to equalise the low frequency and high frequency attenuation. Since the > dielectric "constant" (relative permittivity) of all dielectrics is > frequency dependent all dielectrics will exhibit hook to some extent. Some > PCB substrates like some versions of FR4 and G10 exhibit a significant > variation in the dielectric constant from the dc value to a somewhat lower > value for frequencies even in he audio range let alone frequencies of > several MHz. Achieving a flat frequency response where the dielectric > associated with circuit board capacitances exhibits significant hook is a > complex task. Circuit board hook even affects the impedance of printed > transmission lines (eg stripline, microstrip, CPW etc). > > Bruce > > On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com> wrote: > > Are conformal coatings the right way to handle this? > > I understand there are kinds of FR4 and G10 that don't have hook. What does > one do about hook - how are those substrates improved? How does hook > manifest in circuits? > > On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com> wrote: > > FR4 has problems with consistency. Samples can have problems with > hook, dielectric absorption, leakage, and sensitivity to humidity. > > On Sun, 16 Apr 2017 12:08:07 +0100, you wrote: > > Hi Chuck > > But the context is "PCBs with ceramic substrates". Are any of *those* > tough? They may well be, perhaps you know of some? It does not help us > with the subject much if there are ceramics with these amazing > properties if they are not available as PCBs. > > There is also the question of exactly what properties of FR4 are > limiting for "metrology" use. > > John > > _______________________________________________ > volt-nuts mailing list -- volt-nuts@febo.com > To unsubscribe, go to > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > and follow the instructions there. > > _______________________________________________ > volt-nuts mailing list -- volt-nuts@febo.com > To unsubscribe, go to > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > and follow the instructions there. > >

 Thanks, that second article had exactly what I had in mind. I would love to see that permittivity vs freq graph in more detail around one of the flat crossings of the saw graph with the smooth fitted curve, maybe +/- 10 MHz around that crossing (not around the steep jump)

 If ceramic is fragile and FR4 can be hook less then I assume FR4 is better, testing anyways doesn't hurt.

 The periodicity of the "saw" graph is telling. Could this have to do with the size of layers created by the fibers, or the size of fibers themselves or their spacing? Maybe a random fiber dimension (diameter, spacing) would be better here than using a constant dimension of fibers.


 On Mon, 17 Apr 2017 05:35 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote:

     There's little out there on the frequency dependence of dielectric constant at audio and sub audio frequencies.

     A bit more for 10MHz and above like:

     http://www.edn.com/design/analog/4398951/2/What-PCB-material-do-I-need-to-use-for-RF-

     http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc


      There's also the article in The October 8 1978 issue of electronics on

     Getting rid of hook: The hidden pc-board capacitance by authors from Tektronix and Norplex.

     This article is in the files section of the Tekscopes yahoo group.

     Otherwise there are various values given in the literature and on the web for the low frequency relative permittivity of FR4 which are all noticeably higher than the value at 10MHz.

     Bruce 

         Thank you. Do you have a plot of the effect on impedance due to hook out into high frequencies, measured on a real world material? It would tell me a lot.


         On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote:

             Hook is merely a manifestation of the variation of dielectric constant with frequency.

             It affects the frequency response and transient of resistive attenuators by requiring more complex compensation than merely adjusting a trimmer cap to equalise the low frequency and high frequency attenuation. Since the dielectric "constant" (relative permittivity) of all dielectrics is frequency dependent all dielectrics will exhibit hook to some extent. Some PCB substrates like some versions of FR4 and G10 exhibit a significant variation in the dielectric constant from the dc value to a somewhat lower value for frequencies even in he audio range let alone frequencies of several MHz. Achieving a flat frequency response where the dielectric associated with circuit board capacitances exhibits significant hook is a complex task. Circuit board hook even affects the impedance of printed transmission lines (eg stripline, microstrip, CPW etc).

             Bruce

                 On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com mailto:cheater00@gmail.com > wrote:

                 Are conformal coatings the right way to handle this?

                 I understand there are kinds of FR4 and G10 that don't have hook. What does
                 one do about hook - how are those substrates improved? How does hook
                 manifest in circuits?

                 On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com mailto:davidwhess@gmail.com > wrote:

                     FR4 has problems with consistency. Samples can have problems with
                     hook, dielectric absorption, leakage, and sensitivity to humidity.

                     On Sun, 16 Apr 2017 12:08:07 +0100, you wrote:

                         Hi Chuck

                         But the context is "PCBs with ceramic substrates". Are any of *those*
                         tough? They may well be, perhaps you know of some? It does not help us
                         with the subject much if there are ceramics with these amazing
                         properties if they are not available as PCBs.

                         There is also the question of exactly what properties of FR4 are
                         limiting for "metrology" use.

                         John

                         _______________________________________________
                         volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com
                         To unsubscribe, go to
                         https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts
                         and follow the instructions there.

                     _______________________________________________
                     volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com
                     To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts
                     and follow the instructions there.

When the glass fibre bunch periodicity approaches a significant fraction of a wavelength the periodic spatial modulation of the substrate dielectric constant under or surrounding transmission lines has interesting effects on the properties of the transmission line. At even higher frequencies the surface texture of the copper also becomes an issue. Ditching glass fibre in favour of small ceramic particles eliminates the effect of the periodic spatial modulation of the substrate dielectric constant. Just as with dielectric absorption it should be possible to fit a Cole-Coles or similar model to the variation of dielectric properties (including loss) with frequency. Bruce > On 17 April 2017 at 15:54 cheater00 cheater00 <cheater00@gmail.com> wrote: > > > Thanks, that second article had exactly what I had in mind. I would love to see that permittivity vs freq graph in more detail around one of the flat crossings of the saw graph with the smooth fitted curve, maybe +/- 10 MHz around that crossing (not around the steep jump) > > If ceramic is fragile and FR4 can be hook less then I assume FR4 is better, testing anyways doesn't hurt. > > The periodicity of the "saw" graph is telling. Could this have to do with the size of layers created by the fibers, or the size of fibers themselves or their spacing? Maybe a random fiber dimension (diameter, spacing) would be better here than using a constant dimension of fibers. > > > On Mon, 17 Apr 2017 05:35 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote: > > > > > > There's little out there on the frequency dependence of dielectric constant at audio and sub audio frequencies. > > > > A bit more for 10MHz and above like: > > > > http://www.edn.com/design/analog/4398951/2/What-PCB-material-do-I-need-to-use-for-RF- > > > > http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc > > > > > > There's also the article in The October 8 1978 issue of electronics on > > > > Getting rid of hook: The hidden pc-board capacitance by authors from Tektronix and Norplex. > > > > This article is in the files section of the Tekscopes yahoo group. > > > > Otherwise there are various values given in the literature and on the web for the low frequency relative permittivity of FR4 which are all noticeably higher than the value at 10MHz. > > > > Bruce > > > > > > > On 17 April 2017 at 14:31 cheater00 cheater00 <cheater00@gmail.com mailto:cheater00@gmail.com > wrote: > > > > > > > > > Thank you. Do you have a plot of the effect on impedance due to hook out into high frequencies, measured on a real world material? It would tell me a lot. > > > > > > > > > On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz mailto:bruce.griffiths@xtra.co.nz > wrote: > > > > > > > > > > > > > > Hook is merely a manifestation of the variation of dielectric constant with frequency. > > > > > > > > It affects the frequency response and transient of resistive attenuators by requiring more complex compensation than merely adjusting a trimmer cap to equalise the low frequency and high frequency attenuation. Since the dielectric "constant" (relative permittivity) of all dielectrics is frequency dependent all dielectrics will exhibit hook to some extent. Some PCB substrates like some versions of FR4 and G10 exhibit a significant variation in the dielectric constant from the dc value to a somewhat lower value for frequencies even in he audio range let alone frequencies of several MHz. Achieving a flat frequency response where the dielectric associated with circuit board capacitances exhibits significant hook is a complex task. Circuit board hook even affects the impedance of printed transmission lines (eg stripline, microstrip, CPW etc). > > > > > > > > Bruce > > > > > > > > > > > > > > > > > > On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com mailto:cheater00@gmail.com > wrote: > > > > > > > > > > Are conformal coatings the right way to handle this? > > > > > > > > > > I understand there are kinds of FR4 and G10 that don't have hook. What does > > > > > one do about hook - how are those substrates improved? How does hook > > > > > manifest in circuits? > > > > > > > > > > On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com mailto:davidwhess@gmail.com > wrote: > > > > > > > > > > > > > > > > > > > > > > FR4 has problems with consistency. Samples can have problems with > > > > > > hook, dielectric absorption, leakage, and sensitivity to humidity. > > > > > > > > > > > > On Sun, 16 Apr 2017 12:08:07 +0100, you wrote: > > > > > > > > > > > > > > > > > > > > > > > > > > Hi Chuck > > > > > > > > > > > > > > But the context is "PCBs with ceramic substrates". Are any of *those* > > > > > > > tough? They may well be, perhaps you know of some? It does not help us > > > > > > > with the subject much if there are ceramics with these amazing > > > > > > > properties if they are not available as PCBs. > > > > > > > > > > > > > > There is also the question of exactly what properties of FR4 are > > > > > > > limiting for "metrology" use. > > > > > > > > > > > > > > John > > > > > > > > > > > > > > _______________________________________________ > > > > > > > volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com > > > > > > > To unsubscribe, go to > > > > > > > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > > > > > > > and follow the instructions there. > > > > > > > > > > > > > > > > > > > > > > > > > > _______________________________________________ > > > > > > volt-nuts mailing list -- volt-nuts@febo.com mailto:volt-nuts@febo.com > > > > > > To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > > > > > > and follow the instructions there. > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > > >

Indeed, someone I asked elsewhere hinted that ceramic filled PTFE is a good idea for curbing hook. On Mon, 17 Apr 2017 06:20 Bruce Griffiths, <bruce.griffiths@xtra.co.nz> wrote: > When the glass fibre bunch periodicity approaches a significant fraction > of a wavelength the periodic spatial modulation of the substrate dielectric > constant under or surrounding transmission lines has interesting effects > on the properties of the transmission line. At even higher frequencies the > surface texture of the copper also becomes an issue. Ditching glass fibre > in favour of small ceramic particles eliminates the effect of the periodic > spatial modulation of the substrate dielectric constant. Just as with > dielectric absorption it should be possible to fit a Cole-Coles or similar > model to the variation of dielectric properties (including loss) with > frequency. > > Bruce > > On 17 April 2017 at 15:54 cheater00 cheater00 <cheater00@gmail.com> wrote: > > Thanks, that second article had exactly what I had in mind. I would love > to see that permittivity vs freq graph in more detail around one of the > flat crossings of the saw graph with the smooth fitted curve, maybe +/- 10 > MHz around that crossing (not around the steep jump) > > If ceramic is fragile and FR4 can be hook less then I assume FR4 is > better, testing anyways doesn't hurt. > > The periodicity of the "saw" graph is telling. Could this have to do with > the size of layers created by the fibers, or the size of fibers themselves > or their spacing? Maybe a random fiber dimension (diameter, spacing) would > be better here than using a constant dimension of fibers. > > On Mon, 17 Apr 2017 05:35 Bruce Griffiths, <bruce.griffiths@xtra.co.nz> > wrote: > > There's little out there on the frequency dependence of dielectric > constant at audio and sub audio frequencies. > > A bit more for 10MHz and above like: > > > http://www.edn.com/design/analog/4398951/2/What-PCB-material-do-I-need-to-use-for-RF- > > > http://ac.els-cdn.com/S1474667015373043/1-s2.0-S1474667015373043-main.pdf?_tid=2e1d6d30-231a-11e7-84ab-00000aab0f26&acdnat=1492398280_a0295abea04d2b08db9f227ee52506fc > > > There's also the article in The October 8 1978 issue of electronics on > > Getting rid of hook: The hidden pc-board capacitance by authors from > Tektronix and Norplex. > > This article is in the files section of the Tekscopes yahoo group. > > Otherwise there are various values given in the literature and on the web > for the low frequency relative permittivity of FR4 which are all noticeably > higher than the value at 10MHz. > > Bruce > > On 17 April 2017 at 14:31 cheater00 cheater00 <cheater00@gmail.com> wrote: > > Thank you. Do you have a plot of the effect on impedance due to hook out > into high frequencies, measured on a real world material? It would tell me > a lot. > > On Mon, 17 Apr 2017 04:19 Bruce Griffiths, <bruce.griffiths@xtra.co.nz> > wrote: > > Hook is merely a manifestation of the variation of dielectric constant > with frequency. > > It affects the frequency response and transient of resistive attenuators > by requiring more complex compensation than merely adjusting a trimmer cap > to equalise the low frequency and high frequency attenuation. Since the > dielectric "constant" (relative permittivity) of all dielectrics is > frequency dependent all dielectrics will exhibit hook to some extent. Some > PCB substrates like some versions of FR4 and G10 exhibit a significant > variation in the dielectric constant from the dc value to a somewhat lower > value for frequencies even in he audio range let alone frequencies of > several MHz. Achieving a flat frequency response where the dielectric > associated with circuit board capacitances exhibits significant hook is a > complex task. Circuit board hook even affects the impedance of printed > transmission lines (eg stripline, microstrip, CPW etc). > > Bruce > > On 17 April 2017 at 13:54 cheater00 cheater00 <cheater00@gmail.com> wrote: > > Are conformal coatings the right way to handle this? > > I understand there are kinds of FR4 and G10 that don't have hook. What does > one do about hook - how are those substrates improved? How does hook > manifest in circuits? > > On Mon, 17 Apr 2017 03:48 David, <davidwhess@gmail.com> wrote: > > FR4 has problems with consistency. Samples can have problems with > hook, dielectric absorption, leakage, and sensitivity to humidity. > > On Sun, 16 Apr 2017 12:08:07 +0100, you wrote: > > Hi Chuck > > But the context is "PCBs with ceramic substrates". Are any of *those* > tough? They may well be, perhaps you know of some? It does not help us > with the subject much if there are ceramics with these amazing > properties if they are not available as PCBs. > > There is also the question of exactly what properties of FR4 are > limiting for "metrology" use. > > John > > _______________________________________________ > volt-nuts mailing list -- volt-nuts@febo.com > To unsubscribe, go to > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > and follow the instructions there. > > _______________________________________________ > volt-nuts mailing list -- volt-nuts@febo.com > To unsubscribe, go to > https://www.febo.com/cgi-bin/mailman/listinfo/volt-nuts > and follow the instructions there. > >