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PostPosted: Mon Jan 29, 2007 8:32 pm 
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Hi,

I am trying to design an 8MHz 65816 board and was working on the address decoding. However, when I looked at the 74ALS* datasheets I found that the propagation delay is in between a large interval. For example the 74ALS138 datasheet states a delay between 3ns and 22ns - which makes it extremely difficult to design a circuit. Add the 20ns worst case propagation of the 74als573 of 20ns you already are into the Phi2 high phase:

Phi2 @ 8MHz cycle time: 125ns, 62.5ns high, 62.5ns low
65816: t_ADS = time from Phi2 low to next address valid = 30ns
-> that leaves us with 32.5ns until Phi2 goes high. With a 74als573 we have 12.5ns left, so there is no room for even a 74als138!

Ok, just found that the "MAX" and "MIN" values refer to the "recommended" operating conditions - where "MAX" means a full load of 8mA for low output and -.4mA for high output (on a 74als138) - as the input draws 0.02mA on high level and -0.1mA on low level, for how many connected inputs is it save to assume a propagation delay <8ns (so I would have 4 gate delays time)? Does it mean one connected input means minimum propagation delay or is this value measured without load?

How do you handle fast designs like this? Are you using other logic families? What are your rules of thumb for this situation?

Many thanks
André


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PostPosted: Mon Jan 29, 2007 9:09 pm 
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The only way you can handle this is to use custom programmable logic (e.g., FPGA, PLA, etc). Otherwise, you're running so close to tolerances that things will get flakey.

The alternative is to use multiple clock cycles per bus transaction, but widen the bus (e.g., this is the approach the 68000 took).


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PostPosted: Mon Jan 29, 2007 9:39 pm 
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You mostly have to design around maximum propagation delays. Then if you're only making one unit, you can run the clock speed up until you start seeing problems, and back off a little for some safety zone for the final operating speed. The parts will usually be quite a bit faster, but they just don't guarantee it.

From my books, the max propagation delay of the worst combination of input to output of a '138 is:

LS 41ns, and that's with a 15pF load, whereas most of the others below are with a 50pF load!
HCT 40ns
HC 36ns
ALS 22ns
AC 12.5ns
ACT 12ns
VHC 10.1ns
F 8ns
AS ?

The AS section of my book with 74AS skips over the '138, but AS is much faster than ALS. You can get a feel for the speed comparison here with the '00:

LS 15, but with only 15pF load.
HCT 23
HC 16
ALS 11
F 5
AS 4.5

4011, the 4000-series quad NAND: 120ns @ 5V (use 4000-series logic only when you need higher voltages, like 12V!)

Lightening the output load will speed it up a little, but not much.

The '138 in my opinion is very overused in address decoding. It is an obvious solution, but not an efficient one. Even the '521 (or '688, same thing) 8-bit magnitude comparator is significantly faster and lets you for example forfeit a much smaller chunk of memory space for your I/O.

The '816 timing data seems to be overly conservative. Evidence of this is that WDC had at least one customer selling a product that ran an '816 at 20MHz, which according to the timing data looks impossible. But you know they couldn't have run a business on it if they got a very high percentage of 65816's that wouldn't perform consistently at that speed. I would like to get a variable delay line IC for the clock circuit and experiment to find the value that allows the fastest reliable operation.

In any case, keep the parts as close together as you can so the connections (especially with wire-wrap) will be as short as possible. Use breadboard with a ground plane.


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PostPosted: Tue Jan 30, 2007 2:44 am 
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GARTHWILSON wrote:
The '816 timing data seems to be overly conservative. Evidence of this is that WDC had at least one customer selling a product that ran an '816 at 20MHz, which according to the timing data looks impossible.


You're referring to the SuperCPU! product for Commodore 64 and Commodore 128. The processor did run at 20MHz, was equipped with a MASSIVE heatsink if I recall (that dang thing got HOT), and coupled directly to an PGA chip of some kind. In other words, no ALS, ACT, or HCT logic anywhere between the CPU and the interface logic.


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PostPosted: Tue Jan 30, 2007 7:20 pm 
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GARTHWILSON wrote:
You mostly have to design around maximum propagation delays.

That is not good... When I look at the test load I see the resistive load and capacitance there is no way to calculate the delays for lighter loads?

Ok, I'm desperately trying to find a way...

Quote:
Then if you're only making one unit, you can run the clock speed up until you start seeing problems, and back off a little for some safety zone for the final operating speed. The parts will usually be quite a bit faster, but they just don't guarantee it.

Would have to use different clock oscillators for each frequency, but could do...

Quote:
From my books, the max propagation delay of the worst combination of input to output of a '138 is:

Are all the inputs TTL compatible? Have to look at that. Otherwise AC or AS would be a viable alternative.

Quote:
Lightening the output load will speed it up a little, but not much.

Still looking... when I try to calculate the input resistance of an ALS I get R>2.7V/20uA=135kOhm. Don't know about the capacitance, though.
As far as I understand the output's internal resistor and the external capacitance determine the time constant of the exponential delay curve (loading/unloading the external capacitive load), while the ratio between the internal resistor and external resistive load determines the max signal voltage (for high) - which also helps with the propagation delay, as the exponential curve is scaled with it but the TTL input level is not.
So the main point is the capacitive load I guess, right?

Quote:
The '138 in my opinion is very overused in address decoding. It is an obvious solution, but not an efficient one. Even the '521 (or '688, same thing) 8-bit magnitude comparator is significantly faster and lets you for example forfeit a much smaller chunk of memory space for your I/O.

I normally use the '688 to select the I/O address space, but where timing allows it a '138 has less board space and is basically set (for me) when I need multiple decoded outputs from the same inputs.


Quote:
The '816 timing data seems to be overly conservative. Evidence of this is that WDC had at least one customer selling a product that ran an '816 at 20MHz,

Yes, that's the SuperCPU for the C64.

Quote:
I would like to get a variable delay line IC for the clock circuit and experiment to find the value that allows the fastest reliable operation.

I've been thinking about a logic probe that would take the logic IC input and then have some internal delay line to actually trigger the measurement of the logic IC output. Maybe simply a line of drivers with each of the driver outputs triggering the next measurement latch (quantize the time line though). Only problem would be the load that is put on the logic IC output. Maybe an OpAmp or other driver to decouple from the logic IC input and output would be necessary. But that was only thinking.

Quote:
In any case, keep the parts as close together as you can so the connections (especially with wire-wrap) will be as short as possible. Use breadboard with a ground plane.

I am actually trying to directly design a PCB. For me that is more efficient than breadboarding at least for larger boards:

- the schematics then already is in reusable format, even with layout
- populating a PCB is definitely easier than wire-wrapping, even when fixing is required
- the associated costs keep me from building it to quickly :-) Instead I consequently do multiple reviews, which helps me keep quality high :-)

I learned from my 6502 CPU board, currently in revision 2.0H on the web - but I also have a now heavily patched 2.0B PCB at home - so I learned to more strictly check the schematics. The coprocessor board then worked right on the first try, and even the auxiliary CPU board worked (almost) on the first try now.

And the 65816 board is currently in the review process where I found these problems.

André


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PostPosted: Tue Jan 30, 2007 8:08 pm 
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For the Kestrel-2, although schematics for the K2 will be drawn up in GSchem (of gEDA package), I'm going to explore doing my primary development directly with a homebrew PCB design tool based on Chuck Moore's grid-based design concept from OKAD. The reason is primarily self-education: after using gschem to design the circuit for the Kestrel 1 *then* trying to draw up PCB from those schematics, I found I had made a number of design errors which greatly complicates the layout. I want to see if it's easier to do the reverse: to design the PCB layout *first*, then update the schematics based on the PCB layout, for human consumption.

Note that this is the hardware analog of bottom-up programming. :)


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PostPosted: Tue Jan 30, 2007 9:10 pm 
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Quote:
Quote:
You mostly have to design around maximum propagation delays.

That is not good... When I look at the test load I see the resistive load and capacitance there is no way to calculate the delays for lighter loads?

The loads specified are often 50pF, which allows for feeding a few inputs plus board trace capacitance—just practical usage.  Much of the delay then will be from the internal workings of the gate, which will dominate the delay time at light loads.  That's why you won't see the delay drop very much by going from 50pF to 10pF.

Quote:
Would have to use different clock oscillators for each frequency, but could do...

I have a clock pin at the edge of the workbench computer's board that can be either input or output.  If I have a clock oscillator can plugged in, the pin is output.  Otherwise it is input.  Then I ran a short twisted pair to a variable-frequency 5V square-wave oscillator, and increased the frequency until the computer started exhibiting problems.  With 4MHz parts and 70ns EPROM and 55ns RAM, it was ok to 7MHz, so I run it at 5MHz.  (Actually either oscillator will go into a flip-flop to divide the frequency by two and make sure the waveform is symmetrical, so I got over 14MHz input before the first problems showed up, and ended up with a 10MHz oscillator can.

Quote:
Are all the inputs TTL compatible? Have to look at that. Otherwise AC or AS would be a viable alternative.

A couple of past topics you might be interested in are viewtopic.php?t=195 and viewtopic.php?p=909#909 .  To get most directly to the point, a copy-and-paste of part of the latter is:

Quote:
Fairchild's applications note 319 at https://web.archive.org/web/20161223140 ... AN-319.pdf compares the LS and HC logic families.
Ap. note 368 at https://web.archive.org/web/20181110040 ... AN-368.pdf discusses HCT and TTL.
AN375 at https://web.archive.org/web/20170808194 ... AN-375.pdf and AN377 at https://web.archive.org/web/20140801155 ... AN-377.pdf may be helpful in matters of noise at the inputs and I/O levels.
https://web.archive.org/web/20161223134 ... AN-314.pdf also addresses interfacing between TTL and CMOS.
(links gone dead replaced with links to archives in Jan 2023)

Quote:
Still looking... when I try to calculate the input resistance of...

Neither the inputs nor the outputs are linear circuits that can be thought of as switches to one rail or the other with a resistor in series.  The ap. notes linked above should help.

Quote:
I normally use the '688 to select the I/O address space, but where timing allows it a '138 has less board space and is basically set (for me) when I need multiple decoded outputs from the same inputs.

If the I/O ICs have two select inputs, you can use a less complex (and faster) part or logic scheme to narrow down the address space for the I/O and use that for one select input, and then put the other select input of each I/O IC on an address line, as shown in the middle of the address-decoding page of the 6502 primer at http://wilsonminesco.com/6502primer/addr_decoding.html .

Quote:
I am actually trying to directly design a PCB. For me that is more efficient than breadboarding at least for larger boards

I would like to do that too, but to get a dense layout so lines are short, you have to use a lot of layers, and that gets expensive.  I've laid out many 12-layer boards for work, and the tool-up cost for them has usually been in the $2K area.  [Edit, years later:  Wow how the prices have come down!]

Quote:
after using gschem to design the circuit for the Kestrel 1 *then* trying to draw up PCB from those schematics, I found I had made a number of design errors which greatly complicates the layout. I want to see if it's easier to do the reverse: to design the PCB layout *first*, then update the schematics based on the PCB layout, for human consumption.

That sounds like what I did with a little 65c02-based computer I made in 1994 to control our top-of-the-line intercom.  I did not make a schematic until after the board was laid out and we had working units.  We sold that model for many years.  I suppose that if I had a supervisor nearby, he would have been appalled; but it worked out fine.  If it were more complex though, I'd need the schematic first—not necessarily all in one neat drawing, but at least various portions in separate quick schematic sketches on different papers.  That's more-or-less all I have of my workbench computer to this day, even though it existed in its original, less-complex form 15 years ago.  I keep adding to it though.

I still do my schematics by hand.  I got very proficient at OrCad at the last place I worked, and I absolutely hated it.  It had more bugs than an ant hill, and its design oversights made it very limiting, and I was always wanting to do things in ways it couldn't do.  I know it has gotten slightly better, but what do you expect from a company that after all these years still doesn't know how to draw a resistor correctly?!

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PostPosted: Tue Jan 30, 2007 9:42 pm 
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Garth,

GARTHWILSON wrote:
Quote:
Quote:
You mostly have to design around maximum propagation delays.

That is not good... When I look at the test load I see the resistive load and capacitance there is no way to calculate the delays for lighter loads?

The loads specified are often 50pF, which allows for feeding a few inputs plus board trace capacitance-- just practical usage. Much of the delay then will be from the internal workings of the gate, which will dominate the delay time at light loads. That's why you won't see the delay drop very much by going from 50pF to 10pF.


ok, got it :-)

Quote:
Quote:
Are all the inputs TTL compatible? Have to look at that. Otherwise AC or AS would be a viable alternative.

A couple of past topics you might be interested in are viewtopic.php?t=195 and viewtopic.php?p=909#909 . To get most directly to the point, a cut-and-paste of part of the latter is:

Thanks for the info. I have another (german) page where I normally look into, but it was late. Will look at your links though!

Quote:
Quote:
Still looking... when I try to calculate the input resistance of...

Neither the inputs nor the outputs are linear circuits that can be thought of as switches to one rail or the other with a resistor in series. The ap. notes linked above should help.

Yes, I was just trying to simplify to get a good result....

Quote:
If the I/O ICs have two select inputs, you can use a less complex (and faster) part or logic scheme to narrow down the address space for the I/O and use that for one select input, and then put the other select input of each I/O IC on an address line, as shown at http://www.6502.org/users/garth/project ... chematic=2

Yes, I know that trick - only the memory I have has a single select input only :-)

Quote:
Quote:
I am actually trying to directly design a PCB. For me that is more efficient than breadboarding at least for larger boards

I would like to do that too, but to get a dense layout so lines are short, you have to use a lot of layers, and that gets expensive. I've laid out many 12-layer boards for work, and the tool-up cost for them has usually been in the $2K area.

I am trying to keep to 2 layers, to keep the costs low, and so far I have succeeded.

I am just trying to optimize my bang-for-the-buck - and buck here means available time. schematics quality assurance I can do out-of-town during evenings at the hotel, while hardware debugging takes time off my precious weekends...

Quote:
I still do my schematics by hand. I got very proficient at OrCad at the last place I worked, and I absolutely hated it. It had more bugs than an ant hill, and its design oversights made it very limiting, and I was always wanting to do things in ways it couldn't do. I know it has gotten slightly better, but what do you expect from a company that after all these years still doesn't know how to draw a resistor correctly?!

Normally I start out by hand, but then quickly go to Cadsoft's Eagle of which I bought the non-profit version. It is somewhat difficult to use, although I probably have to discover more shortcuts.

But getting back to the original point: Looking at the logic equations for the address decoding and the timing requirements, I think I have to go for a GAL now, for the first time ever for me :-(
Normally I want to keep things a) simple and b) understandable so people can easily understand and reproduce it (another reason for max 2 layer). And therefore so far no GALs.

Now I have to build a GAL burner - anyone has experience with GALblast?
http://www.geocities.com/mwinterhoff/galblast.htm

Thanks
André


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PostPosted: Tue Jan 30, 2007 11:02 pm 
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GARTHWILSON wrote:
That sounds like what I did with a little 65c02-based computer I made in 1994 to control our top-of-the-line intercom. I did not make a schematic until after the board was laid out and we had working units. We sold that model for many years. I suppose that if I had a supervisor nearby, he would have been appalled; but it worked out fine. If it were more complex though, I'd need the schematic first-- not necessarily all in one neat drawing, but at least various portions in separate quick schematic sketches on different papers. That's more-or-less all I have of my workbench computer to this day, even though it existed in its original, less-complex form 15 years ago. I keep adding to it though.


I think it's best to perhaps have two schematics: the initial design-time schematic, just to see how everything is going to be laid out, and the finished schematic that is camera-ready for publication. In between, I think the final PCB layout is the determining factor for the design.

Quote:
I still do my schematics by hand. I got very proficient at OrCad at the last place I worked, and I absolutely hated it. It had more bugs than an ant hill, and its design oversights made it very limiting, and I was always wanting to do things in ways it couldn't do. I know it has gotten slightly better, but what do you expect from a company that after all these years still doesn't know how to draw a resistor correctly?!


According to the gschem author, and some of its most adherent users on the gEDA mailing list, gschem lacks many of the bugs that many other EDA tools have. You can see an example of the schematics it produces on my website, for the Kestrel 1p3 (see http://www.falvotech.com/content/kestrel/1p3/ ).

Note that I'm not deciding to reverse the design process because I find gschem to be buggy (there are known issues with gschem, like its inability to handle buses currently; but they're slowly being worked on). I'm doing it because I don't want to waste time designing something, wirewrapping or breadboarding it, then trying to deal with a layout that wasn't designed with physics in mind. A layout, being physical and tangible in nature, must be managed with a correspondingly adept CAD tool. Schematics lack *any* notation for physical layout -- it describes a logical view of the circuit. The PCB layout describes the physical view. Since physics always dominates the logical design, it makes sense to start out with a physical layout system.

Also, since gEDA tools use text files for EVERYTHING, it's possible to construct my PCB tool such that it emits some (very, very poorly laid out) gschem schematic symbols. Although it'll be a total mess to clean up, it at least has the benefit that it won't forget something, thus ensuring that what's really on the board always matches what's available in the schematic. :)


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PostPosted: Wed Jan 31, 2007 12:03 am 
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Companies have had a lot of trouble when managers don't want to "waste" engineers' time doing something like board layout, so the job was assigned to lower-paid mouse-pushers who had no concept of crosstalk, stray inductance and capacitance, transmission lines, IR drops across copper which was supposedly zero ohms, etc., and they were not allowed to bother the design engineers by asking questions.

Quote:
Also, since gEDA tools use text files for EVERYTHING

Hey I like that! At least gerber and excellon files have been text since the beginning, but it would be nice if the storage format for schematic and board lay-out were standardized between brands and even human-readable (at least sort of) for debugging. It reminds me of when I've had to find bugs in a compiler we bought. I had to actually pick through the .hex file to find out that certain lines were getting skipped, even though those parts of the code were untouched from the last time that they compiled correctly. I never did figure out the pattern, but at least I was able to do some manual patches. It wouldn't have been possible if the file output weren't readable text.

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The "second front page" is http://wilsonminesco.com/links.html .
What's an additional VIA among friends, anyhow?


Last edited by GARTHWILSON on Wed Jul 14, 2010 7:32 am, edited 1 time in total.

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PostPosted: Fri Feb 02, 2007 8:20 am 
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GARTHWILSON wrote:
Fairchild's applications note 319 at http://www.fairchildsemi.com/an/AN/AN-319.pdf compares the LS and HC logic families.
Ap. note 368 at http://www.fairchildsemi.com/an/AN/AN-368.pdf discusses HCT and TTL.
AN375 at http://www.fairchildsemi.com/an/AN/AN-375.pdf and AN377 at http://www.fairchildsemi.com/an/AN/AN-377.pdf may be helpful in matters of noise at the inputs and I/O levels.
AN314 at http://www.fairchildsemi.com/an/AN/AN-314.pdf also addresses interfacing between TTL and CMOS.


Thanks for the links! A really good read to understand the effects - and why you have to design with the maximum delays.

André


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