tag:blogger.com,1999:blog-3300702123878659843.post1328750553914353109..comments2024-03-26T05:25:50.831-04:00Comments on University of Ottawa NMR Facility Blog: Electronics for Simple Single Frequency NMR ProbesGlenn Faceyhttp://www.blogger.com/profile/05146575170575279335noreply@blogger.comBlogger9125tag:blogger.com,1999:blog-3300702123878659843.post-65878727351575893882011-08-25T05:22:21.949-04:002011-08-25T05:22:21.949-04:00There are many different resonators considered as ...There are many different resonators considered as an NMR circuits. At low frequency NMR as long as you need quit high inductance in order to optimize the resonance I prefer to use the balanced capacitive network [(Ground---CT/2---L/2---L/2---CT/2---Ground ) === CM---Signal )] where you can divide the inductance and the tuning capacitor in 2 halves. One has to calculate the values of inductance L/2 and the CT/2 before building the circuit in order to be able to set the voltage across the two half tuning capacitors equal in amplitude and opposite in phase, one of the tuning capacitors should be trimmer (tunable), but of course the values have to be calculated in advance, I am using my self-programmed software to calculate (simulate) the values for any given frequency, but one can use a simple software called mini ring core calculator, be sure you use R-L-C analyzer to watch the voltage phase and the quality factor of the circuit (phase difference less than 155 degree is reduce QF a lot). Use high quality capacitors with reasonable tolerance, avoid the dielectric capacitors, ceramic capacitors are preferable in order to overcome the poor SN ratio at low frequency NMR.<br />At high freq. NMR one can use single inductance circuits but double have matching capacitors in balance with the voltage amplitude and the opposition in the phase. <br />I am preparing publication in this work while I have developed NMR resonator at permanent NMR magnets (low frequencies). <br />Write me for any further questions<br /><br />AHMADAnonymousnoreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-21427847677895587972011-06-17T08:02:56.027-04:002011-06-17T08:02:56.027-04:00Anonymous,
There are many different configuration...Anonymous,<br /><br />There are many different configurations of probe circuits and I am certainly not an electronics expert so cannot provide you with an answer to your question. <br /><br />GlennGlenn Faceyhttps://www.blogger.com/profile/05146575170575279335noreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-47007908774983456482011-06-16T12:29:27.010-04:002011-06-16T12:29:27.010-04:00I have seen a probe with capacitor attached betwee...I have seen a probe with capacitor attached between the ground and the coil to raise the frequency. Does it have particular disadvantages or side effects ?Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-5976840587036014382010-01-18T11:04:02.591-05:002010-01-18T11:04:02.591-05:00Magdalena,
Yes, these coils can be used to change...Magdalena,<br /><br />Yes, these coils can be used to change the Q of the probe or even the tuning range. You can think of the coil (an inductor) as an element of the circuit. If you change the number of turns or shape of the coil you will affect both the matching and tuning of the circuit. The diagram in this BLOG post is only meant to represent the very simplest of probe circuits.<br /><br />GlennGlenn Faceyhttps://www.blogger.com/profile/05146575170575279335noreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-85125875276443495692010-01-14T16:16:58.142-05:002010-01-14T16:16:58.142-05:00Hi,
I am not sure what it is called, but I have s...Hi,<br /><br />I am not sure what it is called, but I have seen coils (ranging from 1 to 5 turns and various sizes) connected in parallel with the matching capacitor (I mispoke earlier). It is supposed to improve Q - factor? I am just not sure how. Any thoughts?<br /><br />MagdalenaMagdalenanoreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-82568961529274660502010-01-14T15:53:44.601-05:002010-01-14T15:53:44.601-05:00Magdalena,
I'm not sure what you mean by a co...Magdalena,<br /><br />I'm not sure what you mean by a coil being in parallel with the coax. I have certainly seen coils in parallel with capacitors as tuning elements.<br /><br />GlennGlenn Faceyhttps://www.blogger.com/profile/05146575170575279335noreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-89140610729703528032010-01-14T11:54:43.761-05:002010-01-14T11:54:43.761-05:00I have sometimes seen a small coil connected in pa...I have sometimes seen a small coil connected in parallel with the coax. Do you have any idea what this is for? I have heard that it is a matching coil? How does that help circuit? <br /><br />MagdalenaMagdalenanoreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-56724518686582504622009-09-29T08:30:41.676-04:002009-09-29T08:30:41.676-04:00Anonymous,
I have never calculated the values of ...Anonymous,<br /><br />I have never calculated the values of capacitance myself. I used to do it by trial and error with a sweep generator and scope. The ranges will probably be 3 - 100 pF. Two books which you may find usefula are:<br /><br />Fukushima and Roeder "Experimental Pulse NMR"<br /><br />and<br /><br />Malmstadt, Enke and Crouch " Electronics and Instrumentation for Scientists"<br /><br />GlennGlenn Faceyhttps://www.blogger.com/profile/05146575170575279335noreply@blogger.comtag:blogger.com,1999:blog-3300702123878659843.post-83138851092151351772009-09-28T18:08:46.240-04:002009-09-28T18:08:46.240-04:00Could you recommend a book that would help one cal...Could you recommend a book that would help one calculate the correct range of tuning and matching capacitance for a given frequency and inductance?Anonymousnoreply@blogger.com