I second it is a 100nF +-20% 50V MLCC capacitor. Never seen those in a see-through glass package, but have seen then in multitude of packages, including 0204 resistor-like looking packages (pink or orange base color I think), or just yellow glass package similar to DO35.
Can someone tell me what this is next to the piezo speaker? How does one go about testing this part?
Thanks in advance!
If it is a glass capacitor, as suggested above, the color banding is red-black-red. Which I would interpret as 2,0, x100 = 2000 pF.
Can someone tell me what this is next to the piezo speaker? How does one go about testing this part?
Thanks in advance!
If it is a glass capacitor, as suggested above, the color banding is red-black-red. Which I would interpret as 2,0, x100 = 2000 pF.
The '104' indicates the value in pF - it's a pretty standard marking scheme for small value caps. The first two digits are significant figures, and the last is the multiplier. 104 is 10 followed by four zeroes, for 100,000pF or 0.1uF.
-Pat
Edit to add - that's the first time I've ever seen an MLCC packaged like that.
Edit to further add - this reply was directed at the image cyberdragon posted. Looking at the original post, Nusa looks to have it right. D'oh!!
Looks like a glass cased MLC capacitor.
Why would you do that? Seems way pricier than just using a leaded cap.
Something tells me you don't actually need us to identify that.
What is the use for that small, tiny "Vortex Capacitor"? I couldn't find anything usefull after a (very) quick google search.
Hi, Does anybody know what the 323 CUA (U29) is below?
I tried looking in the few smd databases I know of but all that seems to come up for CUA are voltage regs which wouldn't make sense for the circut.
The board is an electronic distance measurement board from a surveying total station, there is an avalanche photodiode connected to a transimpedance amplifer circut (U8 - lmc64) the output of which goes to
the main microcontroller, and also connected via a capacitor and then pair of resistors to this 323 CUA.
The avalanche photodiode is used with a modulated laser diode to determine distance to physical objeccts, but currently for some reason there's some unexplained extra noise in the output of the photodiode circut that I'm trying to find the root of.
Thanks.
Hi, Does anybody know what the 323 CUA (U29) is below?
I tried looking in the few smd databases I know of but all that seems to come up for CUA are voltage regs which wouldn't make sense for the circut.
The board is an electronic distance measurement board from a surveying total station, there is an avalanche photodiode connected to a transimpedance amplifer circut (U8 - lmc64) the output of which goes to
the main microcontroller, and also connected via a capacitor and then pair of resistors to this 323 CUA.
The avalanche photodiode is used with a modulated laser diode to determine distance to physical objeccts, but currently for some reason there's some unexplained extra noise in the output of the photodiode circut that I'm trying to find the root of.
Thanks.
Appologies, it's a switch.
My googling abilities are abysymal.
What's this, please?
It's connected to three pairs of N-Channel MOSFETS (the circuit is a 3-phase motor driver).
The characters on the package are: "3PA0 1803 RPT"
I think it's some kind of 3-phase driver, because the other ICs on this board have other functions (CAN receiver, LDOs, and so on).
Anyone who knows what it is: thanks in advance!
This IC was in a socket where I was expecting a serial eprom to be located. The device is an NEC 7b pager.
However I am unable to identify it from the markings.
SPM
27C41COB
F82108
Can anyone confirm if this is an eprom and if there a way to read it in an eprom reader?
That is the Seiko Epson logo, so the part is a Seiko SPM27C41COB. Web searches turn up very little, although there was one hit in Korean that mentions it in passing. The device is listed on Octopart. With a "27C" code it appears to be a CMOS EPROM, which is not erasable without the quartz window. With only 8 pins, it must be serial, indeed.
I checked some device lists of my programmers and none has that device listed. Serial EPROMs can have three different interfaces: Microwire, I2C, and SPI. If you can determine which one the chip uses, you would select a device with the same interface and ideally the same capacity, disable Device ID in your software, and cross your fingers when reading it.
I'm trying to identify the exact type of a diode, but without much luck. Hopefully someone here can help.
It's a SOT-23 package single diode, with a marking of just "101". Well, at least, that's as far as I can make out the markings, because they're very faintly etched. Anode is on pin 1, cathode pin 3, pin 2 N.C.
I thought perhaps that maybe the last digit might be a factory/country/etc. code, so have searched for just "10*", but didn't turn anything up for that either.
This diode is only being used a simple polarity-protection diode, so at the end of the day it's not too important to me to identify it precisely, but I would like to in particular know the reverse voltage rating, and perhaps whether it's a schottky or regular type.
I'm trying to identify the exact type of a diode, but without much luck. Hopefully someone here can help.
It's a SOT-23 package single diode, with a marking of just "101". Well, at least, that's as far as I can make out the markings, because they're very faintly etched. Anode is on pin 1, cathode pin 3, pin 2 N.C.
I thought perhaps that maybe the last digit might be a factory/country/etc. code, so have searched for just "10*", but didn't turn anything up for that either.
This diode is only being used a simple polarity-protection diode, so at the end of the day it's not too important to me to identify it precisely, but I would like to in particular know the reverse voltage rating, and perhaps whether it's a schottky or regular type.
Does it look like this one?
Does it look like this one?
Cool, thanks.
Yeah, looks like that. Marking is in the same orientation as that photo too. It might just be the photo, but doesn't the body of that part look a little 'fat' for a SOT-23, though?
I'm pretty sure it won't be a random wun-hung-lo part, though, because to the best of my knowledge all the parts on the board came from Digikey, so it's likely to be a more well-known brand. Unless of course the Chinese seller you found that photo from was selling a non-Chinese part...
Does it look like this one?
Cool, thanks.
Yeah, looks like that. Marking is in the same orientation as that photo too. It might just be the photo, but doesn't the body of that part look a little 'fat' for a SOT-23, though?
I'm pretty sure it won't be a random wun-hung-lo part, though, because to the best of my knowledge all the parts on the board came from Digikey, so it's likely to be a more well-known brand. Unless of course the Chinese seller you found that photo from was selling a non-Chinese part...
I found this part on taobao.com, model A1101ELHLT-T, a Hall sensor from Allegro, it looks a little bit fat because the package is SOT23W.
https://www.allegromicro.com/~/media/Files/Datasheets/A110x-Datasheet.ashx
I found this part on taobao.com, model A1101ELHLT-T, a Hall sensor from Allegro, it looks a little bit fat because the package is SOT23W.
Ah... I think you missed the several places in my original post where I said the thing I was looking at was a
diode.
Thanks anyway.
Its great post and help me a lot. please keep continue posting articles
I'm trying to identify the exact type of a diode, but without much luck. Hopefully someone here can help.
It's a SOT-23 package single diode, with a marking of just "101". Well, at least, that's as far as I can make out the markings, because they're very faintly etched. Anode is on pin 1, cathode pin 3, pin 2 N.C.
Perhaps it's actually an SOT346 package, nearly identical, but have a look at this:
https://assets.nexperia.com/documents/data-sheet/PZM_N_SERIES.pdfJust search for "101" and it'll pull up PZM10NB1
Perhaps it's actually an SOT346 package, nearly identical, but have a look at this: https://assets.nexperia.com/documents/data-sheet/PZM_N_SERIES.pdf
Just search for "101" and it'll pull up PZM10NB1
Hmm, a candidate, but it would be pretty dumb to be using a 10V zener as a series polarity protection diode!
Unless they had some kind of mix-up during board assembly and the wrong (but still semi-functional) part got placed...