Hi wds,
When do you expect the new version out? I am really interested as I do a lot of device matching. This would really help with power transistors and power FET's. I would clamp the DUT on a heatsink for the test, that should be a consideration. The purchaser could then provide their own heatsink and possibly do four parts at a time.
-Chris
I agree with you on that. I am very tempted to pick one up right now.
That would be cool.
When do you expect the new version out? I am really interested as I do a lot of device matching. This would really help with power transistors and power FET's. I would clamp the DUT on a heatsink for the test, that should be a consideration. The purchaser could then provide their own heatsink and possibly do four parts at a time.
-Chris
anatech said:
A new version will be several weeks away. We have just begun prototyping and testing various parts of the circuits....and only the USB powered side of it. How much overall power will be available when using a wall-wart power suppy will be a decision as we progress with the new project. The multi-test add-on module will also be a serious consideration in the evolution of the design.
Hi
Thinking aloud>
If this would help on external supplies ie. non USB version>(Most of us have Lab supplies or can jig one up.)
But what is the ultimate limitation of V and I for a new and improved on your end?
Thinking aloud>
If this would help on external supplies ie. non USB version>(Most of us have Lab supplies or can jig one up.)
But what is the ultimate limitation of V and I for a new and improved on your end?
We haven't decided on how high is high, but something approaching 1A has been discussed. It was not part of our business plan to be a player in the curve tracer market. A niche is good enough for us right now, and I think we have one with a USB only model. There are some quality machines already available and demand must be able to support a design/build venture, or be part of a larger diversity of products.
wds said:
Just a side note here.
I have both Firewire IEEE1394 and USB 2.0.
Most with not too old PC would have it, too.
So, Firewire can support considerable power for many devices,
when often using USB you have to add a separate supply.
I know this, as I am to buy an external harddrive for backup.
I will buy such a model that takes like 500GB and supports BOTH USB and Firewire connection.
😕 A question:
How can I know if I have Firewire 400 or Firewire 800 in my Windows XP Home???
I have tried to find this in 'System Info'.
But I haven't found out what Firewire speed I have ...
If I am right in my guessing,
the Ethernet 802.3 tells I have Firewire 800
lineup
45 watts is impressive!...that's nearly 10% of my PC power supply rating. Even at 12V from a larger PC power supply that represents almost 4A. I've known about FireWire speed capabilities for some time, but was unaware that so much power was available. Is that allowable for a single FireWire device, or the aggregate?
I will investigate this further. Thanks for the info.
I will investigate this further. Thanks for the info.
Hi wds,
Now that's good news. Keep up the good work.
When thinking external power, I understand going with a wall wart. Please consider higher levels of voltage and / or current from a supply you are not responsible for.
I was also thinking about a breakout so that "we" could implement an amplifier and divider that would extend your ranges. That way we could go for tube HV or bipolar high power. I guess over current sensing might be an issue for an external unit. You would be supplying test signals and reading a scaled down reading. Your current protection would not be active in that case.
Any thoughts?
Also, consider your unit a good building block with add-ons. You would have a great modular system that is semi customizable. You would not really be competing in that case.
-Chris
Now that's good news. Keep up the good work.
When thinking external power, I understand going with a wall wart. Please consider higher levels of voltage and / or current from a supply you are not responsible for.
I was also thinking about a breakout so that "we" could implement an amplifier and divider that would extend your ranges. That way we could go for tube HV or bipolar high power. I guess over current sensing might be an issue for an external unit. You would be supplying test signals and reading a scaled down reading. Your current protection would not be active in that case.
Any thoughts?
Also, consider your unit a good building block with add-ons. You would have a great modular system that is semi customizable. You would not really be competing in that case.
-Chris
Hi Lineup,
I am afraid no.
Ethernet 802.3 is an umbrella of IEEE standards defining physical layer and mac layer ethernet networking.
1394 defines firewire 400
1394b defines firewire 800
I am afraid no.
Ethernet 802.3 is an umbrella of IEEE standards defining physical layer and mac layer ethernet networking.
1394 defines firewire 400
1394b defines firewire 800
4fun said:
Good news!
Because I remember seeing precisely this: 1394b
somewhere in one info page in my Windows XP.
Thanks!
I read a little further about FireWire power and it's current limited to 1.5A from 8V to 30V to a max of 45W (30V * 1.5A). That's still impressive and worth considering. Now on to figure out what voltage my Dell laptop is producing on my 4-wire 1394 port....
Hi wds,
-Chris
No problem there really. Wal wart and use FireWire for communication only. Or just continue with USB and an external supply. Either way ....
-Chris
I wanted to offer a comment here having worked in the semiconductor business. We call the variation from one batch of parts to the next process variation, and while there can be a large variation from batch to batch, there is virtually no variation on a particular wafer. Parts are made in large quantities on wafers. Parts coming from the same wafer should be virtually clones of one another. Those that do not usually have fairly large variation. If you purchase the parts in one lot, there is a fairly good chance that many of them will be from the same lot and perhaps wafer. This is where you'll find an excellent match.
This should be kept in mind when drawing conclusions about a semi manufacurer. If you get a batch that have excellent match it is possible that they're from the same wafer and you cannot draw conclusions about the process variation. Randomly selected parts will not match as well.
In VLSI digital design we verify timing over process, supply voltage, and temperature limits however, we assume no variation on a particular die, since they are all the same within reason.
I should probably add that I did not work on the fabrication side, but these were the considerations working on the design side.
Pete B.
This should be kept in mind when drawing conclusions about a semi manufacurer. If you get a batch that have excellent match it is possible that they're from the same wafer and you cannot draw conclusions about the process variation. Randomly selected parts will not match as well.
In VLSI digital design we verify timing over process, supply voltage, and temperature limits however, we assume no variation on a particular die, since they are all the same within reason.
I should probably add that I did not work on the fabrication side, but these were the considerations working on the design side.
Pete B.
TomWaits said:
Hi Peter,
Are you asking if "their" process is in control? 😉 🙂
You are absolutely correct of course!
-Chris
Are you asking if "their" process is in control? 😉 🙂
You are absolutely correct of course!
-Chris
Re: Re: Matching transistors - Measuring hfe
🙂 Thanks Pete B.
🙂 Even if I have not worked in the semiconductor industry
🙂 my message already in Post #9 is practically identical:
PB2 said:
🙂 Thanks Pete B.
🙂 Even if I have not worked in the semiconductor industry
🙂 my message already in Post #9 is practically identical:
lineup said:
Hi all
...and this is why matching complementary pairs can sometimes be troublesome. They can never come from the same wafer!
but maybe the newer devices are better matched these days because the process is better tuned to the typical.
MJL3281A gain 75 ...150 = 2:1
2N3055 gain 20...70 = 3.5:1
cheers
John
...and this is why matching complementary pairs can sometimes be troublesome. They can never come from the same wafer!
but maybe the newer devices are better matched these days because the process is better tuned to the typical.
MJL3281A gain 75 ...150 = 2:1
2N3055 gain 20...70 = 3.5:1
cheers
John
Hi John,
After testing some of the latest parts from OnSemi, I think you are on to something.
-Chris
After testing some of the latest parts from OnSemi, I think you are on to something.
-Chris
Re: Re: Matching transistors - Measuring hfe
Back in the bad old days -- when most semiconductor memory was made in the U.S. (yes it is true, before the Apple 2+ most of those 4k RAMS were made here) -- you had a lot of variation on a wafer. In those days of yore, when men were men and wore pocket protectors to prove it, semiconductor test was actually a business up in Massachusetts!
PB2 said:
Back in the bad old days -- when most semiconductor memory was made in the U.S. (yes it is true, before the Apple 2+ most of those 4k RAMS were made here) -- you had a lot of variation on a wafer. In those days of yore, when men were men and wore pocket protectors to prove it, semiconductor test was actually a business up in Massachusetts!
wds said:
Careful here - many laptops either limit or do not supply power at all to the 1394 port. Check the individual specs on a tower system as well since the amount of power available varies widely model to model and manufacturer to manufacturer.
1394 cables are available in a version that supports an external power supply. And if you have to do that, then you might as well go USB since the bandwidth demands of the curve tracer won't require 1394.
Quote from thanh post#41 (page 5)
thanh
I am afraid that harmonic distortion measurements can not reveal this audible degradation that I am referring to in my post#36 (page 4)
May be an (ideal) input-output comparator is an appropriate tool for monitoring this
Regards
George
thanh
I am afraid that harmonic distortion measurements can not reveal this audible degradation that I am referring to in my post#36 (page 4)
May be an (ideal) input-output comparator is an appropriate tool for monitoring this
Regards
George
- Status
- Not open for further replies.