EEVblog Electronics Community Forum
Electronics => Beginners => Topic started by: Mechatrommer on April 22, 2017, 04:31:04 pm
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are metal film resistor NTC or PTC?
resistor like this http://www.ebay.com.my/itm/New-Metal-Film-Resistor-1-2W-0-5W-1-Tolerance-0-1-Ohm-to-910-Ohm-/222468134823?var=&hash=item33cc2257a7:m:m1e2lS_6S6_mdCfYTil3d9w (http://www.ebay.com.my/itm/New-Metal-Film-Resistor-1-2W-0-5W-1-Tolerance-0-1-Ohm-to-910-Ohm-/222468134823?var=&hash=item33cc2257a7:m:m1e2lS_6S6_mdCfYTil3d9w)
are carbon film resistor NTC or PTC?
resistor like this http://www.ebay.com.my/itm/0-1R-270R-2W-Watt-Carbon-Film-Resistors-5-0-1-to-750-Ohm-Free-P-P-Kits-/222359157874?var=&hash=item33c5a37c72:m:mEZ0D56w3n40wiKx1FI8aRA (http://www.ebay.com.my/itm/0-1R-270R-2W-Watt-Carbon-Film-Resistors-5-0-1-to-750-Ohm-Free-P-P-Kits-/222359157874?var=&hash=item33c5a37c72:m:mEZ0D56w3n40wiKx1FI8aRA)
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Ordinary resistors are made so that their value does not change when the temperature changes. Cheap resistors made "over there" might change their value a little with temperature changes.
I cannot remember if too much rice in a resistor causes it to be NTC or PTC.
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are metal film resistor NTC or PTC?
resistor like this http://www.ebay.com.my/itm/New-Metal-Film-Resistor-1-2W-0-5W-1-Tolerance-0-1-Ohm-to-910-Ohm-/222468134823?var=&hash=item33cc2257a7:m:m1e2lS_6S6_mdCfYTil3d9w (http://www.ebay.com.my/itm/New-Metal-Film-Resistor-1-2W-0-5W-1-Tolerance-0-1-Ohm-to-910-Ohm-/222468134823?var=&hash=item33cc2257a7:m:m1e2lS_6S6_mdCfYTil3d9w)
are carbon film resistor NTC or PTC?
resistor like this http://www.ebay.com.my/itm/0-1R-270R-2W-Watt-Carbon-Film-Resistors-5-0-1-to-750-Ohm-Free-P-P-Kits-/222359157874?var=&hash=item33c5a37c72:m:mEZ0D56w3n40wiKx1FI8aRA (http://www.ebay.com.my/itm/0-1R-270R-2W-Watt-Carbon-Film-Resistors-5-0-1-to-750-Ohm-Free-P-P-Kits-/222359157874?var=&hash=item33c5a37c72:m:mEZ0D56w3n40wiKx1FI8aRA)
Carbon resistors are likely to NTC because carbon is a semiconductor and its resistance decreases, with increasing temperature. Metal film resistors are more likely to be PTC, since the resistance of all metals increases with increasing temperature.
However in practise the above could be incorrect, since resistors are quite likely to be made from mixtures of different materials, with cancelling temperature coefficients. I suspect, whether it's PTC or NTC depends on the type of resistor and its value, with there being a certain sweet-value, with the lowest temperature coefficient.
Note: I haven't done any research into this. Check the datasheet, for more information.
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Ordinary resistors are made so that their value does not change when the temperature changes. Cheap resistors made "over there" might change their value a little with temperature changes.
I cannot remember if too much rice in a resistor causes it to be NTC or PTC.
I take it you've never actually checked.
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I take it you've never actually checked.
It depends on why we are having this discussion. In virtually all cases, we take for granted that a resistor should live within its specified tolerance (10%, 5%, 2%, 1%, etc.) over the "normal" (0~100°C?) temperature range.
Circuits that need to be particularly stable and/or operate over a wider temperature range should be designed for that purpose and not rely on "jelly-bean" components and specs. Otherwise, the question seems rather "goofy" to me.
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i was going to use the 2W 0.1ohm carbon film resistor as load balancing in parallel mosfets working in linear region (emitter follower, or "source" follower). but after reading the net and here, the weight is more heavy on the answer that the jelly-bean resistor is a NTC, so its not suitable for the job. hence i ditch out the idea of load balancing and just connect the mosfets source pin together. thanks all guys for your reply.
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i was going to use the 2W 0.1ohm carbon film resistor as load balancing in parallel mosfets working in linear region (emitter follower, or "source" follower). but after reading the net and here, the weight is more heavy on the answer that the jelly-bean resistor is a NTC, so its not suitable for the job. hence i ditch out the idea of load balancing and just connect the mosfets source pin together. thanks all guys for your reply.
Carbon will be NTC, metal will be PTC.
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metal will be PTC.
They won't. First of all tempco is usually specified as +/-, like +-100ppm/C. Tempco is not linear and depending on temperature and can even change from positive to negative. Not to say you can get mostly positive or negative tempco depending on type, value, particular batch, particular resistor.
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metal will be PTC.
They won't. First of all tempco is usually specified as +/-, like +-100ppm/C. Tempco is not linear and depending on temperature and can even change from positive to negative. Not to say you can get mostly positive or negative tempco depending on type, value, particular batch, particular resistor.
Interesting, fair point. It's an alloy in film resistors, so it will vary.
My experience is power resistors (usually wirewound) are positive whenever I've looked, at any rate.
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metal will be PTC.
They won't. First of all tempco is usually specified as +/-, like +-100ppm/C. Tempco is not linear and depending on temperature and can even change from positive to negative. Not to say you can get mostly positive or negative tempco depending on type, value, particular batch, particular resistor.
Interesting, fair point. It's an alloy in film resistors, so it will vary.
My experience is power resistors (usually wirewound) are positive whenever I've looked, at any rate.
It's not just an alloy. In the case of thick film resistors, it's a composite consisting of metal alloy powder and insulating particles mixed together, applied on the substrate and then baked.
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Carbon resistors are usually NTC.
With metal film resitors it depends, they can have both a positive or negative TC. One can even have resistors from the same type one with positive and one with negative TC. The cheap one are usually -100 ... +100 ppm/K.
There are a some low ohms power resitors with PTC behaviour in all cases (e.g. +100-500 ppm/K) - they are especially useful for load sharing.
I doubt you get 0.1 Ohms as carbon film. Resistors in this range are usually wire type.
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The resistors are cheap ones from China. The manufacturer is unknown so there is no datasheet.
I would never buy cheap resistors with no datasheet from ebay.
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I did a test years ago of about 100 metal film resistors (3k9 1W I think from memory) from a batch from one supplier and found the coefficients all over the place within the +/- 50ppm spec. The majority were NTC. I was hoping the coefficients would be similar and they were not. There were some PTC, some NTC and some that went from PTC to NTC over a 0 deg C to 50 deg C range.
I was also hoping that they would be much better then 50ppm/C, but a handful would have made a 20ppm/C spec. When they say +/- 50ppm/C, they mean +/- 50ppm/C. I seem to remember that most were worse then +/- 40ppm/C.
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That was likely because the better parts were selected out from there, leaving the outliers as your parts.
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really? or none at all? who cares selecting 1 cent part produced in millions? or how it even possible to do it in timely economically?