I came across that Polish Hesta site a few months back, I got my friend in Poland to communicate with them and they said they do not actually have stock, those pages are just there as placeholders or for Google to find their site
Unfortunately several of these part procurement sites are like that: full of "vapourware"...
I have a consumer DAC chip I can't identify. Takes both coax and optical inputs. Does 24b/192khz. Says 1618 A9D1D on the 28 pin SSOP. Any ideas?
Good try but no dice. The 1681 is 8 channel but this dac is 2 channel. Also this one takes digital from the right and spits analog out to the left whereas most TI's do the opposite.
I'll have to trace the pinouts but yes I think it might be an Analog Devices clone of some kind or maybe a Cirrus. The board has a 2019 date on the silkscreen but I am certain it's an obsolete part that was cloned.
Does anyone recognise this type of encoder please? It's an Alps brand quadrature but I can't seem to find it on the 'net. The only markings are the "Alps" name and "140r" but Google doesn't throw up anything useful.
Looks a potentiometer to me... 140 Ohm perhaps, though it seems a weird value. A simple test with an Ohm meter would tell.
@nali: This really look like a potentiometer, you sure that is an encoder (continuous rotation and giving pulses) and not a variable resistor, I've never seen this this stile of ALps encoders, even for the panel mounts ?
https://wittko.eu/product-alpha-rv16af-potentiometer-16mm-10k-lin-achse-6x15mm-metall
Could you measure in between the side contacts and/or center and one side with an ohmeter and rotate the shat ?
Nope, it's 100% a quadrature encoder. I've had them in my parts bin for ages, and used them for breadboarding but now I wanted to use them for a project so was hoping to find a datasheet mainly to get the mechanical details of the locating pin for a panel I'm 3D printing.
Mechanical details are trivial. One shaft, one locating pin. Three measurements (shaft diameter, pin diameter, distance between them) with a caliper will give you everything you need to know to drill a panel. Test on some scrap to be sure, and if it's right you just made a template.
Mechanical details are trivial. One shaft, one locating pin. Three measurements (shaft diameter, pin diameter, distance between them) with a caliper will give you everything you need to know to drill a panel. Test on some scrap to be sure, and if it's right you just made a template.
Sure, and that's what I'll do - if I don't find a datasheet. I'll be 3D printing BTW not drilling so it's measure / print / try /change... much easier if one has the dimensions to start with
Sure, and that's what I'll do - if I don't find a datasheet. I'll be 3D printing BTW not drilling so it's measure / print / try /change... much easier if one has the dimensions to start with
Looks like manufacturers have done away with the circular tab, most likely because flat tabs that fit in circular holes (or even slots the width of the locator) should work just fine.
So I got to thinking (after looking at dozens of pots with similar pins) that these anti-rotation pins are most likely going to fit the same hole pattern regardless of functionality. Why reinvent the wheel? So I found a couple of images with dimensions and thought perhaps one would be a match...
Thanks... but unfortunately they don't
These encoders are a bit larger than most pots and the dimensions don't match. It's not a huge problem as I can measure them as accuately as I need to in order to be able to mount them, I was really just hoping someone might recognise the part which would let me find a datasheet.
Can anyone ID the card edge connector on this board on Amazon? I'd like to spin a custom board to interface to these power supplies. I'd like to use an edge connector thats 90 degrees to the board instead of inline. Not mining related - I just want to mount a bunch of 12v barrel jacks onto a board to some SBCs.
https://www.amazon.com/XT-XINTE-Supply-Server-Adapter-Breakout/dp/B07G13TNMH/
Thank you, that appears to be it. Using that part information, I was able to find a 90° version of the connector. Looks like 64 pins divided into 32 into two rows.
Interesting coincidence. I found
a similar search yesterday. Might provide additional information...
Hi all - my search abilities are failing me. This:
is the 5 V regulator pass transistor used in an HP 1120-1526 digital panel meter and appears to be an NPN. It is located at the top along the right edge of the image below, this is the solder-side view of the board and the transistor is viewed from the bottom; yellow is the unregulated feed into the collector and turquoise is the 5 V regulated line.
I'm currently working further to reverse engineer the regulator circuit, but would like to find the specs on the pass transistor. Anybody recognize the old RCA part number?
Thanks.
-Pat
Not in this Pat ?
http://hparchive.com/PARTS/HP-Parts-List-1973-74.pdf
I don't recognize it as an HP part number - it's part of a digital panel meter that they bought as a sub assembly; it was made by Analogic in Wakefield, MA, rather than HP.
-Pat
Ah okay....drawing a blank too in books and searches here.
Not in this Pat ?
http://hparchive.com/PARTS/HP-Parts-List-1973-74.pdf
I don't recognize it as an HP part number - it's part of a digital panel meter that they bought as a sub assembly; it was made by Analogic in Wakefield, MA, rather than HP.
-Pat
Ah okay....drawing a blank too in books and searches here.
Appreciate the suggestions nonetheless. Thanks!
-Pat
RCA house coded part, done so you went to the original manufacturer for replacement parts. But being made in 1974, not going to be a very beefy transistor, or anything special. Probably easy to replace with almost any NPN power device, like a TIP31C, which likely has plenty of SOA margin, seeing likely 5V supply has 15V input and no more than 1A load maximum, limited more by the heatsinking than anything else.