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Originally posted by green
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Eric.
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Here is a page from an Analog Devices tutorial MT-090 that gives the basic idea. It also shows a second switch from line to ground as dbanner had a question about in the nickel/quarter thread. I think I have more info and will look it up tomorrow.
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Thanks, first two are for normal integrator. Last is MPP integrator with a constant input. Same result as I got with constant input. Played with spice some more. Got what I thought simulated target decay during sample. Increasing sample time caused the signal to be less where signal increases for longer TC targets when increasing sample time with a 1C integrator . Maybe I'm doing something wrong?Originally posted by Altra View Post
Changing sample time or sample rate changes integrator TC with the track hold differential integrator but not with 1C integrator. Maybe not a problem?Comment
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Originally posted by Carl-NC View Post
Yes talking about the strip magnets, I was not convinced my testing was working properly , so I will get some ceramic magnet's and try, thanks for the tip.Comment
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Not so easy is this MPP integrator. I have only vague understanding. I suspect having the feedback resistor disconnected from the input when the fet is off makes huge difference to C(hold).Originally posted by green View Post
A fixed Vin with various sample widths won't show up the true nature of this beast. I couldn't imagine doing a dynamic analysis using old school slide rules and pen and paper, much respect to the engineers of old.
Young players have it so easy with powerful simulation software nowadays.Comment
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Carl, I think it may be in one of Electronics magazine?s case books.Comment
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Pulling the lines before the fets to ground is bound to change things, but I'm not sure what will be the effect, especially with respect to the intended purpose of the circuit collaboration with the sample switches and it's intended functionality.Comment
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Carl will have to pull out the heavy artillery from his bag of tricks and give us long awaited analysis of the MPP integrator.Comment
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: I ran a simulation whereby the lines were pulled to ground during the off periods. V(out) looking much the same. I suppose more dynamic testing is needed.Comment
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Got a packet of eight 20mm ceramic magnet's, quite strong for the size.ceramic magnet'sComment
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If VIN goes enough negative, the fets would turn on. Pulling the lines to ground should prevent them from turning on. Other wise not much difference.Originally posted by dbanner View PostComment
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We used ceramic magnets taped to prop shafts with hall effect pickup for recording prop speed in dusty environments. Purchased a pack of magnets that didn't work. Had N and S on same side, if I remember right they were quite strong. Don't remember if we could tell by looking at them, could easily see if looking at signal on a scope as prop rotated.Originally posted by 6666 View Post
Not sure it matters if pulling magnet away from center of coil causes a signal when adjusting for EF and magnet doesn't cause a signal change when placed on coil.Comment
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In the MPP integrator, the input is coupled to the output during the off period via feedback resistor. Don't know if it matters in this application. Pulling the input before the fet to ground may have some advantages. Not sure.Comment
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I had remembered the fridge magnet giving a signal. Tried this morning with target response tester, scoped amplifier out no integrator. 8inch figure8 coil. Couldn't see change with fridge magnet. Ceramic hobby magnet easy to see signal as I pulled magnet away from coil. Neodymium magnets gave a similar response but they are a short TC targets static. Must have done something wrong when I tried adjusting EF with the fridge magnet before.Comment
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Is the input coupled to the output during the off period via feedback resistor?Originally posted by dbanner View PostComment
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Looked up definition of coupled. Something that joins or connects two things together Input is coupled to output. Was think that it meant a change on input could be seen as a change on output, wrong.Originally posted by green View PostComment
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