ECG stand for Electrocardiogram to me, but I suspect I'm wrong in this case
What we old timers used to use before NTE bought them up and used software. ECG was also in bed with Philips.
Sounds like we're agreed - 18V zener. What's an ECG book?
I think you're missing the fact that the diode is dead. Big crack down the center. It measures open circuit both directions.
So the blown-glass diode has blown open and measures open-circuit.
Alles klar!
OK - one more question.
I have this TO-220 transistor, marked D635, pulled from an old (10 years?) piece of Japanese equipment. I believe it is either an NPN BJT or an NPN darlington. Any idea what it is, and what I can replace it with? It is completely dead (about an ohm between any two terminals).
OK - one more question.
I have this TO-220 transistor, marked D635, pulled from an old (10 years?) piece of Japanese equipment. I believe it is either an NPN BJT or an NPN darlington. Any idea what it is, and what I can replace it with? It is completely dead (about an ohm between any two terminals).
As with most Jap transistors add 2S and you get 2SD635
Google "2SD635 data pdf" and you'll have plenty of datsheets to choose from.
Even if you Google D635 datasheet you get plenty of hits...
OK - one more question.
I have this TO-220 transistor, marked D635, pulled from an old (10 years?) piece of Japanese equipment. I believe it is either an NPN BJT or an NPN darlington. Any idea what it is, and what I can replace it with? It is completely dead (about an ohm between any two terminals).
As with most Jap transistors add 2S and you get 2SD635
Google "2SD635 data pdf" and you'll have plenty of datsheets to choose from.
So I had seen the 2SD635 - which is a darlington - but there is also a BD635, which is not a darlington. Is there any way to confirm which it is?
Also, do you recognize the logo on that transistor? It reminds me of the Fairchild logo - but it's not the same.
OK - one more question.
I have this TO-220 transistor, marked D635, pulled from an old (10 years?) piece of Japanese equipment. I believe it is either an NPN BJT or an NPN darlington. Any idea what it is, and what I can replace it with? It is completely dead (about an ohm between any two terminals).
As with most Jap transistors add 2S and you get 2SD635
Google "2SD635 data pdf" and you'll have plenty of datsheets to choose from.
So I had seen the 2SD635 - which is a darlington - but there is also a BD635, which is not a darlington. Is there any way to confirm which it is?
Also, do you recognize the logo on that transistor? It reminds me of the Fairchild logo - but it's not the same.
In my experience it is much more common that this would be a 2S device, a BD device would normally have the full device code, not shortened like is common with Asian devices.
A check of specs against the application normally proves which is which and restores sanity.
Even if you Google D635 datasheet you get plenty of hits...
The problem is that Google turns up multiple similar parts that both have D635 in their part number and are in the same package.
OK - one more question.
I have this TO-220 transistor, marked D635, pulled from an old (10 years?) piece of Japanese equipment. I believe it is either an NPN BJT or an NPN darlington. Any idea what it is, and what I can replace it with? It is completely dead (about an ohm between any two terminals).
As with most Jap transistors add 2S and you get 2SD635
Google "2SD635 data pdf" and you'll have plenty of datsheets to choose from.
So I had seen the 2SD635 - which is a darlington - but there is also a BD635, which is not a darlington. Is there any way to confirm which it is?
Also, do you recognize the logo on that transistor? It reminds me of the Fairchild logo - but it's not the same.
In my experience it is much more common that this would be a 2S device, a BD device would normally have the full device code, not shortened like is common with Asian devices.
A check of specs against the application normally proves which is which and restores sanity.
I think you're right.
The D635 device is being used as a voltage regulator - there is a zener holding up its base voltage, and its collector is tied to an unregulated supply. The BD635 has pretty low gain so it'd require more current on the base it than the pullup on the zener/base could really handle (4.7K). 2SD635 it must be!
I just ordered some up. Hopefully that'll be the final strange part this device needs...
I am guessing that this is an Operational Amplifier but I am unable to find any reference or datasheet for it. I think it is because it is from pre-internet era of 1984. I have tried to search it on one of big supplier's website - "RS", also no luck. If anyone recognizes it - thanks in advance!
RS 307-468, which is a house coded part supplied by RS. Not available in the online catalogue, but probably is in the paper catalogue as a discontinued part number. If a single opamp it will be a 741or a 308 most likely, or if a dual any one of many generic audio amplifier chips. Single you will have to see where the offset pins are connected to determine if 741, offset to -15V, or 308 offset to +15V.
googling the rs part number gets you this
ZN459 data sheet : ETC1 - ULTRA LOW NOISE WIDEBAND PREAMPLIFIER
Seems to agree, but no longer stocked by RS for some reason. Will be a little hard to get a drop in replacement if it is faulty, as it is a dual unit with controlled gain.
Thank you very much! ZN459 makes perfect sense!
I did not realize that it is the second number that is RS part number - nice to know for future.
It looks obsolete but only thing I needed to know is bandwidth and noise. 800pV/Hz^0.5 - will be hard to match ... but it is still available from few places ~$20/piece.
I cannot find any data sheet about this varistor (7N241K 39+) that I pulled out of a cordless phone (Samsung).
It ended up solving a problem I was having on a bredboard test circuit by mistake (I thought it was a ceramic capacitor).
A basic idea of what it is to be able to buy an equivalent would be lovely!
I cannot find any data sheet about this varistor (7N241K 39+)
Try to search for jvr7n241k
I cannot find any data sheet about this varistor (7N241K 39+)
Try to search for jvr7n241k
I cannot find any data sheet about this varistor (7N241K 39+) that I pulled out of a cordless phone (Samsung).
It ended up solving a problem I was having on a bredboard test circuit by mistake (I thought it was a ceramic capacitor).
A basic idea of what it is to be able to buy an equivalent would be lovely!
Here: https://vikiwat.com/productfile/433/userfiles-productimages-17262-varistor-jvr7n241k-200-vdc-150-vac-0.pdf
Thanks, I was searching in the wrong range, I pulled this put of a 6V device, I was sure it was not 240V... Live and learn.
I'm looking for some information on 4 ICs. They all come from an automotive engine controller. I have found several sites where I can buy new ones, but that's not what I need. I would prefer to have the full datasheet, but the most helpful information for me would be the pinouts. Does anyone have any idea where I can find them?
First one looks like maybe a small microcontroller?
Made by ST.
45048
1MU2114.
This is the only one for which I have found nothing at all.
Second one is a PMIC.
Made by Freescale.
SC900656VW
A2C020162
I have found at least 4 outputs from the IC - 3 at 5V and one at 2.6V.
Third one seems to be an injector driver based on the descriptions I've found online.
Made by ST.
ATIC39-B4
A2C08350
Fourth one I don't know the function.
Made by ST.
A2C31376-C3
ATIC35
If you can't find any documentation via Google, etc. then it seems extraordinarily likely that they are industry-specific or even full-custom chips made specifically for vehicular ECU products. Good luck finding ANY documentation. There are many chips like this which are sold within a tight-knit community of vendor and a handful of customers. The documents are never published or released to anyone except their industrial OEM customers.
This didn't come out of a Volkswagen Diesel, did it?
Navistar. They don't have the information on their electronics, someone else builds it for them.
Thanks, I was searching in the wrong range, I pulled this put of a 6V device, I was sure it was not 240V... Live and learn.
Used on the phone line side, to clamp impulse noise to something the line side can survive. Mostly used to provide protection to close lightning strikes, a direct one on the line just blows the whole phone apart.
So this one isn't too complicated. Looks to me like a 1K metal film resistor. The trouble is that according to the service manual (it's from a Fluke 45), it's a 3.3K Wire wound. I just want to verify that it's a 1K and what type it is.
The outside has a blue and a brown line on it with a decent sized space in between. After breaking off the epoxy, it just looks like a metal tube. There are 2 slots cut in it. I broke it in half and it's all white inside. No idea the material, ceramic maybe.