tag:blogger.com,1999:blog-13606668747853136022024-03-24T23:24:11.832+00:00Space-Time Productions<b><big>Industrial Quality At Hobby Prices</big></b>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.comBlogger54125tag:blogger.com,1999:blog-1360666874785313602.post-5487192857568312192023-10-22T01:41:00.002+00:002023-10-22T01:41:56.156+00:00High PricesWhen it comes to attention, most people like paying as little as possible. <br /> <br />
That can be a very high price. <br /> <br />
A partial counter to that is having a knack for occasionaly being able to see the obvious.<br /> <br /> <br />
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-19995934879903469162023-10-18T07:19:00.000+00:002023-10-18T07:19:14.000+00:00The Switch Debounce ProblemFiguring out the <a href="https://spacetimepro.blogspot.com/2023/09/switch-debouncer.html">switch debounce circuit</a> was not the difficult part of the problem. That only took a few hours to solve.<br />
<br />
The most difficult part of the problem was recognizing there was a problem. That took over 50 years. <br /> <br />
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-26557739362718119032023-10-06T00:28:00.000+00:002023-10-06T00:28:51.038+00:00Finding the Debounce ArticleToday I did a Google search on - Eliminate SPST Debounce Delay with an SR Latch - and <a href="https://spacetimepro.blogspot.com/2023/09/switch-debouncer.html">my blog post</a> didn't show up even after looking four pages deep for it. It did show up, sort of, when the search term was "Eliminate SPST Debounce Delay with an SR Latch". Note the quote marks. The search results looked like this:<br /> <br />
<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEit5H_SpKohiGFitYOwowEi43FIuXONAJja_FLHjp75ydH7gTBeQAaIMtX-R3fVvGlKrMvvbLc7oXvgEbLQf1_GVnQRXv-WF5cepvL-UwXcwLLzVz7Jyi4jEMs2iWuJU5lsfDeC91G_fzZq3T7BLvnnPRywfyG-jGEH29QGGwUWSdHGDosU1pxol8BEjN-o/s894/Finding%20the%20Blog%20Post%20-%202023-10-06%20000821.png" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="400" data-original-height="649" data-original-width="894" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEit5H_SpKohiGFitYOwowEi43FIuXONAJja_FLHjp75ydH7gTBeQAaIMtX-R3fVvGlKrMvvbLc7oXvgEbLQf1_GVnQRXv-WF5cepvL-UwXcwLLzVz7Jyi4jEMs2iWuJU5lsfDeC91G_fzZq3T7BLvnnPRywfyG-jGEH29QGGwUWSdHGDosU1pxol8BEjN-o/s400/Finding%20the%20Blog%20Post%20-%202023-10-06%20000821.png"/></a></div>
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I expect it will be a LOT easier to find once it gets more attention from Engineers.
<br /> <br /> <br />
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-46563370726739259602023-10-03T11:20:00.002+00:002023-10-03T18:56:00.063+00:00Zero Debounce Delay Is Not Possible<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiA98tSdb2mytv7xofMd6xaVo3mzyEunAFMJ81Q605XvJw1z5gjacU-cu44wBrMl0h4L_b9q0vA0ajzHw176u2JPsBC5RG4YmdIHAst7TfJ9L2WPKYwa51Ir4wC1dMrPqReJhgF5BZ94K_6z1awS2tDk9I_DUWoa6_-2srd9Ri7uTYoLr9SH5P8zbYrl_Hc/s821/You%20need%20debounce%20delay%202023-10-01%20165524.png" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="400" data-original-height="626" data-original-width="821" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiA98tSdb2mytv7xofMd6xaVo3mzyEunAFMJ81Q605XvJw1z5gjacU-cu44wBrMl0h4L_b9q0vA0ajzHw176u2JPsBC5RG4YmdIHAst7TfJ9L2WPKYwa51Ir4wC1dMrPqReJhgF5BZ94K_6z1awS2tDk9I_DUWoa6_-2srd9Ri7uTYoLr9SH5P8zbYrl_Hc/s400/You%20need%20debounce%20delay%202023-10-01%20165524.png"/></a></div>
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The above image was obtained by doing a Google search on "zero delay debounce" a few days ago. The source page says delay is required. I have designed a circuit that says it isn't so.
<br /> <br /> <br />
<a href="https://spacetimepro.blogspot.com/2023/09/switch-debouncer.html"><b>Zero Debounce Delay</b></a>
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT><br>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-2662136562949119672023-10-02T05:08:00.002+00:002023-10-02T12:49:39.270+00:00Simon's Law of Switch Debounce<center><p style="font-size:24px"><b>If it is not a glitch, the switch
<br /> <br />
is changing position.</b></p></center>
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<br />
Corollary<br />
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<center><p style="font-size:24px"><b>Dont confuse glitches with switches.</b></p></center>
<br /> <br />
<br />
<a href="https://spacetimepro.blogspot.com/2023/09/switch-debouncer.html">Zero Debounce Delay - Debouncer.</a> <br />
<br /> <br />
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-52520918684335730862023-09-23T07:56:00.047+00:002023-10-17T08:41:19.361+00:00Eliminate SPST Debounce Delay with an SR Latch<br />I was looking into switch debounce problems for a project I was working on that required a foot switch. I solved that problem satisfactorily but that got me looking into articles on switch bounce. I came across an 8 part series <a href="https://www.eejournal.com/article/ultimate-guide-to-switch-debounce-part-1/">by Max Maxfield</a> that went into the problem in depth. What I came away with from that article series is that the only reliable way to detect a switch change quickly is with a SPDT switch and an S/R Flip-Flop. Which got me to thinking - why not do that for a SPST N.O. switch? After considerable (a few hours) of intense thinking and scribbling I came up with a workable circuit using an analog gate to route the switching signal. I later reduced that to a two output digital selector. You will note that as long as the changes take place after the debounce time, both the rising and falling edges will be indicated after a short "deglitch" delay. <br /><br />
The final circuit looks like this. If you need a name, call it "<b>Simon De Bouncer</b>" or if you need something a little more descriptive "<b>Simon 'Zero Delay' De Bouncer</b>"<br />
<br /><div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjl1vP9tXyVbN2V9JIrwOO0btpHlYP20R_YWRGVQXGiIkERGalnXMfZVRvh34ufSspjXjlx9jGeW87V2cRqSGSTMrJ0Kk-XJEQMvew3U0qBbnaAZWzeIKTQKpoMm_RsDwa8lRPpWUXDniSd9TTXnKTT0ijH8zeXJpAbG321uMcCrK36chWAaTJROd1_2sNg/s1091/Simon%20De%20Bouncer%20%20-%20If%20It%20Is%20Not%20A%20Glitch%20%20%20%20%202023-09-30%20201009.png" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="400" data-original-height="721" data-original-width="1091" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjl1vP9tXyVbN2V9JIrwOO0btpHlYP20R_YWRGVQXGiIkERGalnXMfZVRvh34ufSspjXjlx9jGeW87V2cRqSGSTMrJ0Kk-XJEQMvew3U0qBbnaAZWzeIKTQKpoMm_RsDwa8lRPpWUXDniSd9TTXnKTT0ijH8zeXJpAbG321uMcCrK36chWAaTJROd1_2sNg/s400/Simon%20De%20Bouncer%20%20-%20If%20It%20Is%20Not%20A%20Glitch%20%20%20%20%202023-09-30%20201009.png"/></a></div>
Click on image to enlarge<br /><br />
There is <a href="https://www.mediafire.com/file/i0pgyfjk0e1m4hc/Simon+De+Bouncer.pdf/file">a PDF of the schematic</a> also.<br />
<br />Pretty fool proof eh? An SPST switch is made to act like a SPDT by selecting the SR Latch terminal that will drive it to the opposite state when the switch changes position. The XNOR insures the logic is correct in each state. The latch terminal selected doesn't change until after debounce time.<br />
<br />I'm multiplexing the switch between /PRESET and /CLR. So it acts like a SPDT. When the SR Q = 1 the switch is connected to /CLR and when the SR Q = 0 the switch is connected to /PRE. After a debounce delay.<br />
<br />The routing of the latch control signal doesn't change until after the bouncing stops. Simulating a SPDT switch. And the XNOR insures the logic is correct (ready for an input state change) after the bouncing stops. When I priced the logic out it was under $1.50 for all the chips at single piece prices. And if you put all the logic on a chip with a lot of other circuits? Almost free.<br />
<br />
What does that give you? A switch logic indicator that responds in about 20 micro seconds to a change in switch position. The 20 micro second delay (glitch filter) eliminates noise pulses and ESD events from changing the indicated switch position. You may be able to shorten that time or may have to lengthen it as environmental requirements dictate. <br />
<br />
So I was discussing all this with my esteemed first mate and I said it could also be done in software. (That's what they all say, isn't it?) That gave me the idea to write up some Forth code to show how it could be done. My buddy <a href="https://www.linkedin.com/in/clyde-w-phillips-jr-96023155">Clyde</a> reviewed the code and made some suggestions. It looks like this: <a href="https://www.mediafire.com/file/3qtje0vq0q4vkfh/Switch-State+Software+Forth.txt/file">Switch Debounce Software</a>.<br />
<br />Obviously there are some (not too difficult) details yet to be filled in.
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<br />I plan to run that code on my <a href="https://spacetimepro.blogspot.com/2019/04/loading-forth-into-lpc1115-board.html">LPC1115 board</a> with a Forth operating system also done by my buddy Clyde. The current version of that board uses a USB C connector. The compiled Forth code for the LPC1115 is available to anyone who wants to use it. You can find it <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">here</a>.<br />
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So that leaves us with VHDL for the deeply embedded. An exercise best left to the reader.<br />
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You can find me on LinkedIN at <a href="https://www.linkedin.com/in/m-simon-a04944291/">M. Simon</a>.<br />
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You can see the beginnings of my thinking for the design at <a href="https://www.mediafire.com/file/68fqrxdndykb0sr/Swich+Debounce+Sketches+20230919_06321756.jpg/file">Sketch A</a> and <a href="https://www.mediafire.com/file/9tmj3g0y257soib/Switch+Debounce+Sketches+20230919_05464985.jpg/file">Sketch B</a>.<br /><br />
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<b>Updated 28 Sept 2023 1945z</b> - To give a better explanation of how the circuit works. <br />
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<b>Updated 3 Oct 2023 1153z</b> - Jack Ganssle's switch debounce experiments ==> <a href="https://my.eng.utah.edu/~cs5780/debouncing.pdf"><b>A Guide to Debouncing</b></a>
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To clarify: <a href="https://spacetimepro.blogspot.com/2023/10/simons-law-of-switch-debounce.html">Simon's Law of Switch Debounce.</a>
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<b>Updated 16 Oct 2023 1759z</b> A trackback from Jack Ganssle's <a href="http://www.ganssle.com/tem/tem476.html#article2">Embedded Muse.</a>
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com2MC65+55 Hahnaman, IL, USA41.6604915 -89.592056612.182359037149865 -124.74830660000003 71.138623962850133 -54.435806599999978tag:blogger.com,1999:blog-1360666874785313602.post-23158804028269237022022-11-09T23:29:00.005+00:002023-09-23T10:24:38.794+00:00Making Slots in FreePCBI have been using <a href="https://www.freepcb.com/downloads.htm">FreePCB</a> to layout the boards I design. It is getting a little old and no longer has all the capabilities I desire. But it has all the pads I have designed over the years for hand building of SMT boards. I needed a pad for a component ( <a href="https://www.mouser.com/ProductDetail/640-USB4085-GF-A">USB C connector with through hole pins</a>) that requires slots for correct assembly. I have figured out a relatively easy way to design and produce such pads.<br />
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<b>Making A Simple Plated Through Linear Slotted Pad in FreePCB.</b><br />
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You will use 2 surface mount pads on the top and bottom layers. And two through hole drilled pads. Call them holes one and two. I will assume you know or can figure out how to place the pads in relation to each other. Either manually or by using the set function included on each pad.<br />
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To get a proper CAM file you will have to connect all the pads together. First do this on a schematic that has all the pins connected, surface mount and through hole. That gives you a good net list.<br />
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After you lay down the component with slots in FreePCB and complete the wiring, on the top layer connect the surface mount pad to hole one. And then connect it to hole two. Lay down the "wires (traces)" as you do each connection.<br />
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Do the same for the bottom surface mount pad. Finally connect the two drilled pads together. I do that on the top and bottom layers. It may only be necessary on one layer. I haven't checked.<br />
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When editing the CAM drill file, the file you start with will look something like this. This file has eight holes for four slots ==><br />
<br />
.....<br />
T02<br />
X015624Y007852<br />
X016215Y007852<br />
X015624Y004447<br />
X016215Y004447<br />
X017093Y007852<br />
X017408Y007852<br />
X017093Y004447<br />
X017408Y004447<br />
T03<br />
.....<br />
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The file with working slots will look like this ==><br />
<br />
.....<br />
T02<br />
X015624Y007852G85X016215Y007852<br />
X015624Y004447G85X016215Y004447<br />
X017093Y007852G85X017408Y007852<br />
X017093Y004447G85X017408Y004447<br />
T03<br />
.....<br />
<br />
Connecting the pads together with traces as suggested above eliminates DRC errors. Do a ratline recalculation before doing a Design Rule Check.
I have checked this on Gerbv and another rendering program. They both show correct slots. As does <a href="https://oshpark.com/">OSH Park</a> in their rendering of the completed board.<br />
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There is an online discussion about this method of making slots in FreePCB. <a href="https://groups.io/g/freepcb/topic/slotting_made_easy/94918258?p=,,,20,0,0,0::recentpostdate/sticky,,,20,2,0,94918258,previd%3D1668345443342754190,nextid%3D1626327142862706812&previd=1668345443342754190&nextid=1626327142862706812">You can find it here</a>.
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-64976794314196149052022-09-06T13:02:00.012+00:002023-09-23T11:05:41.604+00:00Surface Mount LED and Diode TesterIf you build a lot of prototype boards as I do, you know the problems of getting surface mount LEDs and diodes oriented properly for mounting. Even if you only build a few the frustrations are evident. The markings (if any) are nearly invisible. And the parts are smaller than pebbles. So I decided to solve the problem. Finally. I designed a battery operated (two AA cells) tester that puts out 4.5 volts maximum so LEDs are not ovrervoltaged in the reverse direction during testing. It also current limits so no more than 1 mA flows through the probes under any condition. That allows you to compare LED brightness. In the reverse direction no LEDs in the unit light up. If the probe tips are shorted a Red LED Lights. If the probe tips are aligned with the forward direction of the diode or LED a green LED lights up and a current of 1 mA through the probes will show the LED color if you are testing one.
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A current mirror makes the current through the green LED the same as the current through the probes. So you get a crude visual ohm meter. All in all much handier than trying to make an ohm meter do the job. Or trying to use a power supply and a resistor. The minimum voltage across the diode at 1mA current that works with the tester is about 50mV. This voltage makes the tester functional with diodes that can handle higher currents. Higher current diodes also tend to be larger and better marked.
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For the project I got the <a href="https://amzn.to/4615QXT">binding posts from Amazon</a>. I also built a neat little Meter Probe Jack Adapter using these <a href="https://www.amazon.com/gp/product/B0969JCH96?ie=UTF8&psc=1&linkCode=ll1&tag=spacetimeprod-20&linkId=f8c92e93d2b299a46925b4e6b72ca54d&language=en_US&ref_=as_li_ss_tl">banana pins</a> and these <a href="https://www.amazon.com/gp/product/B082PFN2B7?ie=UTF8&psc=1&linkCode=ll1&tag=spacetimeprod-20&linkId=44ac99320ed4bdd216e4ea2d0efc2cfe&language=en_US&ref_=as_li_ss_tl">meter safety banana connector sockets</a>. The banana jacks/sockets that accept meter safety banana plugs are currently out of stock. I have found no other source of supply I'd even consider dealing with. The reason for the adapter was to use this <a href="https://www.amazon.com/gp/product/B07LBLW4JT?ie=UTF8&psc=1&linkCode=ll1&tag=spacetimeprod-20&linkId=7abb5c118415d3f51a5e87ca2a8d3735&language=en_US&ref_=as_li_ss_tl">surface mount test probe</a> without having to modify the connectors. The test probe tips need to be cleaned thouroughly to be conductive. It seems like plating would help here. I'm going to try <a href="https://www.amazon.com/Nushine-Silver-Plating-Solution-1-7/dp/B00D5TCYBG?_encoding=UTF8&pd_rd_w=DD4Qi&content-id=amzn1.sym.8cf3b8ef-6a74-45dc-9f0d-6409eb523603&pf_rd_p=8cf3b8ef-6a74-45dc-9f0d-6409eb523603&pf_rd_r=BYN4N61V4BY60PR2CZ65&pd_rd_wg=VY4iD&pd_rd_r=44413b95-bb41-4a6d-a0b4-9dc756d44ed8&linkCode=ll1&tag=spacetimeprod-20&linkId=754eb61e408c5a9db1981890bfaaad33&language=en_US&ref_=as_li_ss_tl">this silver plating solution from Amazon</a>.
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You will notice I have included offset current balancing resistors to reduce the offset voltages if you use an op-amp different from the LMR342.The comparator input bias currents are so low they can be ignored in this application. The input resistor is just for protection.
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The board pictured is an earlier version. I have designed a board ( 2 Sep 2022 ) that uses fewer parts. When that board arrives I will test it and announce the results. The Schematic for that board is included in the downloads. I replaced a voltage regulator and associated capacitors with a diode. A MOSFET was replaced with the output of a comparator. An output resistor was eliminated.
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The schematic, parts list and parts layout are <a href="https://www.mediafire.com/folder/bgluye3x83djj/LED_and_Diode_Tester">available for download here</a>. Boards are available for $16.50 for two plus $5.50 shipping in the USA. Use the Paypal link and ask for "LED and Diode Tester 20Jan 2022 1207z". Delivery can take up to four weeks depending on availability and the USPS. You can also order the parts list directly from Mouser using <a href="https://www.mouser.com/ProjectManager/ProjectDetail.aspx?AccessID=24021b6234">this link.</a> You can edit what you buy. I like extras because losing parts is not unusual.
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<br />
The board looks like this:
<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhqzTV4HY9Bl9PtA_zpKJ1X9Jzh2YyH3nQAFqkLUwwNTylzTrMrecC_Rjc__7l1EjBTLERezSTZQuVKNIgr83vQqHsLhCGxNxye0489adOzvTh66CFRqVCKBcMOaEDR680WruvEy6hOV_JURyAbz60DTurR4yRGEy5XTiicqsO6j6IBu3boftI4S4T64g/s2304/IMG_0548.JPG" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="320" data-original-height="1728" data-original-width="2304" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhqzTV4HY9Bl9PtA_zpKJ1X9Jzh2YyH3nQAFqkLUwwNTylzTrMrecC_Rjc__7l1EjBTLERezSTZQuVKNIgr83vQqHsLhCGxNxye0489adOzvTh66CFRqVCKBcMOaEDR680WruvEy6hOV_JURyAbz60DTurR4yRGEy5XTiicqsO6j6IBu3boftI4S4T64g/s320/IMG_0548.JPG"/></a></div>
Powered down.
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<br />
<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhb0NN_LTUHvMpezfqOmJnMk3foD_6tl4p_17cQYdWX7WtN1nJvOXSEr5czlkt7jWDFlvfE25ctwGpGNCTz8aSLEVFSucu8EszQZ-FqXUSEpqqtag6OK8pkypTeLvHImXhYmoPMyUQ5YeWs7ZcBnLKlneJbKpLEfyGjvR9W0oX61opEMtaY1_U1M9yFDA/s2304/IMG_0553.JPG" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="320" data-original-height="1728" data-original-width="2304" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhb0NN_LTUHvMpezfqOmJnMk3foD_6tl4p_17cQYdWX7WtN1nJvOXSEr5czlkt7jWDFlvfE25ctwGpGNCTz8aSLEVFSucu8EszQZ-FqXUSEpqqtag6OK8pkypTeLvHImXhYmoPMyUQ5YeWs7ZcBnLKlneJbKpLEfyGjvR9W0oX61opEMtaY1_U1M9yFDA/s320/IMG_0553.JPG"/></a></div>
Red LED.
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<br />
<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiIEAPaxnKXFvQiXp1KE8xk8rQDCdIK5-kG3v4uDxW-y6ACnRI6oAC2Rn3nCNjeqvJOP1Omi9x73tnTDTZHHD3FMv5lT9nItgjSIFb35G6O3jo-sF6z5wcX_E2HepSDCINyCf6-WcOYFV21X8_BYoNvZWTmfVfc7vPfnBEl3tbrRWsdBUO2TEifl3AebQ/s2304/IMG_0556.JPG" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="320" data-original-height="1728" data-original-width="2304" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiIEAPaxnKXFvQiXp1KE8xk8rQDCdIK5-kG3v4uDxW-y6ACnRI6oAC2Rn3nCNjeqvJOP1Omi9x73tnTDTZHHD3FMv5lT9nItgjSIFb35G6O3jo-sF6z5wcX_E2HepSDCINyCf6-WcOYFV21X8_BYoNvZWTmfVfc7vPfnBEl3tbrRWsdBUO2TEifl3AebQ/s320/IMG_0556.JPG"/></a></div>
Green LED.
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<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjAnraNk_YcUQcH9igCwagRKLn-zttC-71GYWcMrSWYlbEtXQ8pKMPlP_WLQZIL0KuDD7BUztY16ForbEyxB48A8hdiRv_y5OUGIHVzn8pcYPGoAp2HeIufr2ziF5h9rkoVAkEVi6EE671TgZFhz_HVS2AM8Kb1Vl_3aWzB55hUVstOnIL9goy-xtyeDg/s2304/IMG_0563.JPG" style="display: block; padding: 1em 0; text-align: center; "><img alt="" border="0" width="320" data-original-height="1728" data-original-width="2304" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjAnraNk_YcUQcH9igCwagRKLn-zttC-71GYWcMrSWYlbEtXQ8pKMPlP_WLQZIL0KuDD7BUztY16ForbEyxB48A8hdiRv_y5OUGIHVzn8pcYPGoAp2HeIufr2ziF5h9rkoVAkEVi6EE671TgZFhz_HVS2AM8Kb1Vl_3aWzB55hUVstOnIL9goy-xtyeDg/s320/IMG_0563.JPG"/></a></div>
The Adapter board and Surface Mount Test Probe. The red and black safety connecters are no longer available. The Gold Plated Banana plugs still are.
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<br />
Update: 7 Sept 2022 0135z
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<br />
It turns out the safety connectors <a "href=https://www.amazon.com/Acxico-Banana-Socket-Gold-Plated-Connector/dp/B082PFN2B7?pd_rd_w=bqcQ3&content-id=amzn1.sym.f5690a4d-f2bb-45d9-9d1b-736fee412437&pf_rd_p=f5690a4d-f2bb-45d9-9d1b-736fee412437&pf_rd_r=ZNXE3JAT8WKD37H9551P&pd_rd_wg=V5omu&pd_rd_r=5f6b9994-678d-4e50-96ae-9740bc30b2cf&pd_rd_i=B082PFN2B7&psc=1&linkCode=ll1&tag=spacetimeprod-20&linkId=f4c1bd3cdf3a5ffb3319f79037180ad4&language=en_US&ref_=as_li_ss_tl">are again available from Amazon</a>. Which may mean you would like the "Dual Adapter 13Feb2022 0857z" board for $6.45 for two plus $5.50 shipping.
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<br />
<a href="https://spacetimepro.blogspot.com/">Space-Time Productions</a> is a participant in the Amazon Services LLC Associates Program. We earn advertising fees by advertising and linking to <a href="https://www.amazon.com/stores/node/20648519011?channel=discovbar%3Ffield-lbr_brands_browse-bin%3DAmazonBasics&linkCode=sl2&tag=spacetimeprod-20&linkId=a3b3038cabc1555464348487947f507b&language=en_US&ref_=as_li_ss_tl">Amazon.com</a>. <br />
<br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-2551286950329791812022-02-21T05:52:00.015+00:002023-09-23T11:08:53.768+00:00Nostalgia Strikes DeepI was looking around the net for this January 1975 Popular Electronics Magazine cover. The start of the Computer Revolution. I knew it the minute I saw it and rushed to tell my girlfriend (in 1975).<br />
<div class="separator" style="clear: both;"><a href="https://blogger.googleusercontent.com/img/a/AVvXsEihGXgD29Gn093Gs1nEG6nYUV2XD0B3-7Te4mRqwFZFyjSp6zc0SBcKaMRIEyg9g70BLodBIrfGYM02H1Bn47LYa31GZg4SaZewDGvlldRHkyZw2a3PmScNJ--M8AdtUsF_LF2Vmbd9dKG8vT8orDmRoEtnIzBPKADpvywqEwX-SClwDUtmj0hfbsRlCg=s501" style="display: block; padding: 1em 0px; text-align: center;"><img alt="" border="0" data-original-height="501" data-original-width="356" height="400" src="https://blogger.googleusercontent.com/img/a/AVvXsEihGXgD29Gn093Gs1nEG6nYUV2XD0B3-7Te4mRqwFZFyjSp6zc0SBcKaMRIEyg9g70BLodBIrfGYM02H1Bn47LYa31GZg4SaZewDGvlldRHkyZw2a3PmScNJ--M8AdtUsF_LF2Vmbd9dKG8vT8orDmRoEtnIzBPKADpvywqEwX-SClwDUtmj0hfbsRlCg=s400" /></a></div>
You can read more about it at <a href="https://www.vintagecomputer.net/altair-poptronics.cfm">Vintage Computer.net</a>. <br />
<br />
I had a hand in all that. I designed the S-100 I/O board that went into the worldd's first BBS. A precursor of the internet. I was also writing Magazine articles. My first published article was in the <a href="https://archive.org/details/Kilobaud197803/mode/2up">March 1978 issue of Kilobaud.</a> "Faster Erase Times" It was about building your own high intensity ultraviolet light to erase EPROMs. I sold kits of the hard to get parts. I sold 500. Back then you had to build your own. Buying was way too expensive.<br />
<br />
I also wrote something for Dr. Dobb's <a href="https://archive.org/details/dr_dobbs_journal_vol_08/page/n9/mode/2up?view=theater">"Building a Programable Frequency Synthisizer"</a><a>. It was about Phase Locked Loops. I still use the CD4046 and variants. <br />
<br />
Which brings me to the present. I just bought a 3D printer (I'm in the process of assembly - I'm going slow and methodical) and thus have joined in with the next revolution. I plan to write articles. <br />
<br />
My wife and I (the same girlfriend from January '75) made "Support the Revolution - Buy a Computer" t-shirts back in the day. And now ==> "Support the Revolution - Buy a 3D Printer". <br />
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==================<br />
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<a href="https://www.amazon.com/Integrated-Structure-Motherboard-Carborundum-8-66x8-66x9-84in/dp/B07FFTHMMN?crid=2I02N8V3D5BI4&keywords=creality+ender+3+v2&qid=1646566304&sprefix=creality%2Caps%2C105&sr=8-3&linkCode=ll1&tag=spacetimeprod-20&linkId=451744994cca097e667d21c69b9e4b36&language=en_US&ref_=as_li_ss_tl">This is the printer I'd buy</a> if I was starting out today. I got the previous model with a silent motherboard upgrade.<br />
<br />
<a href="https://www.youtube.com/watch?v=cTp2teRvVCY">This is the best Ender 3 assembly video</a> I have been able to find. It is actually a series of 5 videos. The link is to the first.<br />
<br />
<a href="">Space-Time Productions</a> is a participant in the Amazon Services LLC Associates Program. We earn advertising fees by advertising and linking to <a href="https://www.amazon.com/stores/node/20648519011?channel=discovbar%3Ffield-lbr_brands_browse-bin%3DAmazonBasics&linkCode=sl2&tag=spacetimeprod-20&linkId=a3b3038cabc1555464348487947f507b&language=en_US&ref_=as_li_ss_tl">Amazon.com</a>. <br />
<br />
<font color="#1F45FC"><i>Engineering is the art and science of making what you want from what you can get at a profit.</i></font>
</a>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-46249579699661504652021-10-03T12:12:00.005+00:002021-12-06T06:40:35.005+00:00RF On PCBsFor anyone doing RF work on Printed Circuit Boards, and with rise times on the order of 1 nS these days who isn't,
the <a href="https://saturnpcb.com/saturn-pcb-toolkit/">Saturn PCB Design Toolkit</a> is very helpful. It will help you find the inductance of holes (vias) and many other useful things. <BR> <P>
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-66181358670753088532019-06-28T21:47:00.001+00:002019-06-28T21:47:41.741+00:00The Latest Cuk Converter<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjCO245bD9PiIMyWslXJxrEr4Uf4RrjMxYUcKg9XQ87E6lQojYmlyIXckEfNqn_Qljlg2QF9fNhLFFwMN82sQ61Ve22xfFR6SMGcipZxT0gafVTf1nc7ePEF3gCR-H37XGoqw8NbhR2fnj4/s1600/CukFig2.gif" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjCO245bD9PiIMyWslXJxrEr4Uf4RrjMxYUcKg9XQ87E6lQojYmlyIXckEfNqn_Qljlg2QF9fNhLFFwMN82sQ61Ve22xfFR6SMGcipZxT0gafVTf1nc7ePEF3gCR-H37XGoqw8NbhR2fnj4/s320/CukFig2.gif" width="302" height="320" data-original-width="1100" data-original-height="1165" /></a></div><br />
You can read more about it at <a href="https://www.powerelectronics.com/power-management/step-down-dc-dc-converter-eliminates-ferrite-cores-50khz-enabling-power-supply-chip?PK=UM_Classics06119&utm_rid=CPG05000002050259&utm_campaign=26112&utm_medium=email&elq2=7f945a583220400b9e64aed48e1c0f1a&oly_enc_id=5457B6022834E8O">Step-Down dc-dc Converter Eliminates Ferrite Cores at 50kHz Enabling Power Supply on Chip with One-Cycle Transient Response</a>. <br />
<br />
It operates at 50KHz switching frequency, uses 10 nH inductors (PCB loops), and can have very low losses (less than 1%)<br />
<br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-59412889106422750722019-04-16T22:58:00.000+00:002019-04-16T22:58:18.361+00:00Loading Forth Into the LPC1115 Board<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgR-WdtagFVdfrkktm-vTa-w27rktykzXxl5VeIunMPM68tjeOKAILcWftQ1-rIdAoPvcLzjYN0FUMsfMNSbP5ed03ZRQRIKRXLRw1cIj3DmFKxcSbkE8b1QzON2BE0-fgxzjhFgXeixxT2/s1600/LPC1115+Devl+22Sept2019.png" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgR-WdtagFVdfrkktm-vTa-w27rktykzXxl5VeIunMPM68tjeOKAILcWftQ1-rIdAoPvcLzjYN0FUMsfMNSbP5ed03ZRQRIKRXLRw1cIj3DmFKxcSbkE8b1QzON2BE0-fgxzjhFgXeixxT2/s320/LPC1115+Devl+22Sept2019.png" width="320" height="151" data-original-width="1383" data-original-height="653" /></a></div><br />
Since I <a href="http://spacetimepro.blogspot.com/2014/03/lpc1114-devl.html">last wrote about loading software into an LPC111x board</a> I have changed the procedure some. I'm going to use our latest LPC1115 board as an example. It has a built in USB port. <br />
<br />
Install Jumper JU1 and plug your board into a USB port. Your computer will then search the 'net for a driver and load it. This may take a few minutes. Wait until you get a "Device Ready To Use" message on your screen. Then open up the <a href="http://download.cnet.com/Tera-Term/3000-20432_4-75766675.html#userreview">Tera Term</a> terminal program. Click "Set Up" and then "Serial Port" It will tell you which COM Port (such as COM 9) to use to load the software. Close Tera Term and open <a href="http://www.flashmagictool.com/download.html">Flash Magic</a>. Select your Processor (LPC1115/303) your Com Port and baud rate (9600) Click the "Erase All Flash+Code Read Prot" box. Select a HEX File. I got my file from <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">Clyde's LPC1115 Forth (V1.6)</a>. You can also find all of his previous LPC1114/LPC1115 Forths there. <br />
<br />
The general link for all his publicly available files is <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">Clyde's FISH Forth</a>.<br />
<br />
Select verify after programming. Then <b>START</b>. You will get a "can not verify" message when done. Ignore it. Close Flash Magic. Remove the JU1 jumper and open Tera Term and set it up for your COM Port. 9600 8n1. (9600 baud, 8 bits, no parity, 1 stop bit, Flow Control ==>Xon/Xoff Transmit delay ==> 0 ms/char 4 ms/ line ). You can save the setup into a file. Push the Reset Button on the LPC1115 board. You will see a sign on message indicating the location of free Flash Memory. And the Forth Version installed. <br />
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You are ready to go. <br />
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<center><font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT></center>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-83495851654714104412019-04-12T20:33:00.001+00:002019-04-12T20:33:46.274+00:00Why Object Oriented Programming Is BadI believe "C" is more a progenitor of this mess than JAVA. <br />
<br />
<center><iframe width="390" height="219" src="https://www.youtube.com/embed/QM1iUe6IofM" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe></center><center></center><br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> <br />
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-86048358705023422632018-01-12T01:36:00.002+00:002018-06-07T03:32:40.821+00:00The Soldering Project<a href="http://rockfordmaker.space/">Rockford Maker Space</a> and I are getting together a class to teach soldering. Well, we needed something to solder. Some of the Makers suggested a 555 light blinker with through hole parts to start. That seemed like a very good idea. An even better one occurred to me after I had started work on the design. Why not also do a surface mount version too so people could compare the required building methods? So I did that. The schematics, parts layouts and parts list in pdf form can be found for <a href="http://www.mediafire.com/file/08li4i59e7ff68o/555%20Project%20Design%20files%20-%20circuit%20operation.zip">download here</a>. <br />
<br />
You also might find <a href="http://spacetimepro.blogspot.com/2017/11/hand-soldering-surface-mount-parts.html">Hand Soldering Surface Mount Parts</a> from November of 2017 of interest. I go into the details of what you will need to set up a soldering station and there is also a how to do it video. <br />
<br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-54671339374350465712017-12-31T13:40:00.000+00:002018-04-19T03:38:10.326+00:00Why Do I Use So many Bypass Capacitors? When you look at the design requirements of most ICs they commonly require a .1uF bypass capacitor, with one larger bypass capacitor (on the order of a few uFs) for every 3 or 5 ICs. I use a .1uF and a 2.2uF capacitor for every IC. That seems a bit extravagant both in capacitor costs and board area. So why do I do it?<br />
<br />
Let us think about it. An IC draws a pulse of current due to a change of state. This pulse causes a change in voltage on the .1uF bypass capacitor. By having a 20 times larger capacitor right next to the .1uF the change in voltage will be 20 times smaller (actually a bit less due to the frequency response of the larger capacitor). This effectively reduces power supply noise for the IC by a factor of 20. It also decreases the peak of the current pulse needed to recharge the capacitor (the recharge will also take longer). Lowering the peak current also reduces emitted EMI. <br />
<br />
If I was going into volume production and had a good EMI lab I could reduce the number of 2.2uF capacitors until it started making a measurable difference. Since I don't have an EMI lab in my shop - I just keep those extra capacitors and come in with a lower noise design. This is especially necessary for high frequency noise since most chips are not very good at reducing that kind of noise. <br />
<br />
So why not throw out the .1uF capacitors and just use the 2.2uF caps? Because capacitors are to some extent frequency sensitive. The .1uF caps will respond to fast transients that will not (immediately) affect the 2.2uF capacitors. <br />
<br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-10225928175180566582017-12-25T14:39:00.003+00:002017-12-25T22:21:40.047+00:00Crystal RadiosBen Tongue of Blonder-Tongue Laboratories has written extensively on crystal radios and crystal detectors. You can find <a href="">the articles here</a>. Ben is deceased. I have collected the articles and turned them into pdfs along with some other crystal radio stuff. As soon as I up load them I will post a link to the package.<br />
<br />
The zipped package of Crystal Radio pdfs can be <a href="http://www.mediafire.com/file/00l7839k218el6m/Crystal+Radios.zip">downloaded here</a>.<br />
<br />
What got me started on this was <a href="http://www.g3ynh.info/circuits/Diode_det.pdf">Diode Detectors for RF Measurement</a>. And what got me into that was the design of an SWR Meter. I will publish that design when the board layout is complete. <br />
<br />
<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-73556878632365692017-12-17T08:00:00.001+00:002017-12-17T08:00:10.275+00:00Radio Receiver UpdateI have the very initial schematic of the <a href="http://spacetimepro.blogspot.com/2017/12/a-radio-reciever.html">radio receiver</a> done. You can see the first page here.<br />
<br />
<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhjujMbnbeR2eBR6tOylv3IbDs1bX5MxVv3fiydy-O4YDI4EsojGKSfiXRL3jevxt5TybKp4VCxsRlZFNK31mXPajLzJranfzGICt8G9aKH89jBJhunQx_KrJ2qaiL-Uf5jnZe3tjy2TGSl/s1600/SSB+RCVR+-+Schematic+page+1+17Dec2017.GIF" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhjujMbnbeR2eBR6tOylv3IbDs1bX5MxVv3fiydy-O4YDI4EsojGKSfiXRL3jevxt5TybKp4VCxsRlZFNK31mXPajLzJranfzGICt8G9aKH89jBJhunQx_KrJ2qaiL-Uf5jnZe3tjy2TGSl/s400/SSB+RCVR+-+Schematic+page+1+17Dec2017.GIF" width="400" height="348" data-original-width="840" data-original-height="731" /></a></div><center>Click on the image for a larger view)</center><br />
And the rest of the schematic (in pdf) <a href="http://www.mediafire.com/file/cbx1h7hi1md3a8w/SSB+RCVR+16Dec2017+-+Schematic.pdf">is here</a>. <br />
<br />
Comments and suggestions welcome. I will be doing a clean up (assigning part numbers and other stuff) over the next few days and will then begin layout. <br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT><br />
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-35171651650095450272017-12-15T10:57:00.001+00:002017-12-15T12:19:03.609+00:00A Little ConfectionWhile I'm working on a few projects, I thought it would be good to get something done. So I did. A little logic level tester. This one is a little different. It tests for voltages. Less than 0.5 volts. More than 2.0 volts. And more than 4.0 volts. And yes there is a light for each. Good for looking at mixed voltage logic. And there is also a light for greater than 0.5 volts but less than 2.0 volts. So you get a light for ambiguous (in some situations) voltages. The schematic looks like this:<br />
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<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhheE8B3tyTqnClamrmmMDMRiB51BlqoTpW_8_jcG_hRBLdy_izRiE2peNxG0awVK87q4O4Uu33iJ-72G-nneaZxJ0fc44oAhSQkY4scuFhf_QxI8PbIRsrrpicLHJE8r6ltIc8fHHkXIkE/s1600/Logic+Level+Indicator+13+Dec+2017.PNG" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhheE8B3tyTqnClamrmmMDMRiB51BlqoTpW_8_jcG_hRBLdy_izRiE2peNxG0awVK87q4O4Uu33iJ-72G-nneaZxJ0fc44oAhSQkY4scuFhf_QxI8PbIRsrrpicLHJE8r6ltIc8fHHkXIkE/s400/Logic+Level+Indicator+13+Dec+2017.PNG" width="400" height="319" data-original-width="928" data-original-height="740" /></a></div><center>Click on the image for a larger view.</center><br />
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The circuit will run on 3.0 volts (nominal) but the lights will be a little dim. The voltage response will be the same as it is on 5.0 volt power. The magic of voltage references and comparators. <br />
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The complete package including schematics, parts layout, and parts list (in pdf) <a href="http://www.mediafire.com/file/va1qdb8f7u91923/Logic+Level+Indicator+13+Dec2017.zip">can be found here</a>. <br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> <br />
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M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-68944732540181865862017-12-12T13:55:00.000+00:002018-01-07T01:14:09.339+00:00A Radio Receiver I have a long time interest in amateur radio. This got me noodling around the 'net and I found the most interesting circuit. A SSB receiver. And the most interesting thing about the circuit is the frequency control device. <a href="https://www.cirrus.com/products/cs2000/">The CS2000</a>. It generates a frequency from 6 to 75MHz with just a frequency input and a digital word. <a href="https://www.mouser.com/ProductDetail/Cirrus-Logic/CS2000CP-CZZ/?qs=sGAEpiMZZMtXsj1ZQc4vOXWGWelOmmGdP2s%2fG%252bxjO20%3d">Mouser has them in stock</a> for $8.93 each in lots of one. Not a bad price for such a wide ranging frequency source. <br />
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There are of course other ways of doing things. <a href="http://users.telenet.be/jean.taeymans/sdr2.html">this guy</a> likes the AD9854. It <a href="http://www.mouser.com/ds/2/609/AD9854-878189.pdf">looks good</a>. And <a href="https://www.mouser.com/ProductDetail/Analog-Devices/AD9854ASVZ/?qs=sGAEpiMZZMtgJDuTUz7Xu96%252bMjUBGJD51ecdGkDq6F4%3d">costs over $50</a> for one. A little out of my price range this week. <br />
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Naturally there were some circuit modifications to be made. Like directly driving 5 volt logic from a 3.3 volt logic source. It works - usually - but is not guaranteed. In those places (where necessary - some 5V logic is designed to respond to TTL levels. A relic from another era. But very useful in this one.) I added a TTL level compliant buffer. S0 .8V for a logic low and 2.4V for a logic high are guaranteed. <br />
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Also the detector circuit requires matched capacitors. Four for the detectors and eight for the phase shift (all pass) filters. So I have designed a capacitor matcher. With it you can read out a .1 uF capacitor to parts per ten million - or better. The accuracy is much less. But for matching lots of resolution is good. It also gives an interesting view of the world. The changes that can be detected when bodies move. <br />
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Design of the all pass filter was simple using the (free) design software <a href="http://www.gj3rax.com/apf.htm">found here</a>. You need to install it on your computer. I have installed it on mine. <br />
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I'm working on schematics, parts lists, and board layouts for all of this. I will post them here. When they are done. About a week or two. <br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> <br />
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-60461677926237916122017-11-02T05:00:00.001+00:002017-11-26T04:56:19.434+00:00Hand Soldering Surface Mount PartsThe first and most important part of making soldering surface mount parts easy is to design the PCB for hand soldering. The trick is to double the LENGTH of the pads. This gives the tip of your iron room to maneuver around the other parts of the board. It also makes it easy to heat the pad which is important for good solder flow. The second trick is to use a eutectic tin-lead solder (63% tin - 37% lead - but 60-40 will do) so the soldering temperature is as low as possible. This gives you more margin when it comes to temperature rise. Too much temperature rise can damage parts. Lead free solders are not as forgiving. <br />
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My favorite iron is made up of a Weller <a href="https://www.mouser.com/ProductDetail/Apex-Tool-Group/7400/?qs=sGAEpiMZZMtZbG%2fSKwfOjINMdmLZ2YujKXBqhcGWwQk%3d">7400 handle </a> with a <a href="https://www.mouser.com/ProductDetail/Apex-Tool-Group/37UG/?qs=%2fha2pyFadugFKXVs630B97C%252bV7sftT0g5vUGkjSYInk%3d">37UG heater</a> and a <a href="https://www.mouser.com/ProductDetail/Apex-Tool-Group/PL111BK/?qs=sGAEpiMZZMtZbG%2fSKwfOjIFVpJoOmKJGdXMTtweaZlw%3d">PL-111 tip</a>. I use a standard light dimmer mounted in a 2 outlet plus switch outlet box to control the temperature. I adjust the heat so it is just a little more than is needed to melt the solder. Surface mount parts don't need a lot of heat. So why do I have such a powerful heater? Because occasionally I want to solder wires to my boards and that can take a lot more heat. I use <a href="http://www.mouser.com/ds/2/27/apex_wellersoldertip-706529.pdf">Weller 8001 anti-sieze</a> to mount the tips to the heater. It makes changing tips easier. <br />
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And of course you will need solder. I like <a href="https://www.mouser.com/ProductDetail/AIM/13563/?qs=sGAEpiMZZMuQDxh7mFZIaQuq%2fiyGofgJNlLC1vjkbqo%3d">63/37 (Sn/Pb) rosin core solder</a>. You will need a flux with an applicator that will make temporary tacking surface mount parts easy. <a href="https://www.mouser.com/ProductDetail/Chip-Quik/SMD291NL/?qs=%2fha2pyFaduhErLZ5r3vJ02wTCYY6UVZHyq9r5eJ5kSW24jl0ncB23w%3d%3d">Chip Quik SMD291NL</a> does the job. A rosin flux pen is also handy for coating pads on a board so they solder easier and do not become corroded. A <a href="https://www.mouser.com/ProductDetail/Kester/83-1000-0186/?qs=sGAEpiMZZMtVjQNhW0kfZmu6DsCYUfLIi%2fjcdYpfi6k%3d">Kester #186 pen</a> does that job nicely. <br />
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You will also need help for times when you make mistakes. The <a href="http://www.mouser.com/ds/2/27/apex_wellersoldertip-706529.pdf">Weller 7805</a> is a good solder sucker. Solder wick in several sizes <a href="https://www.mouser.com/ProductDetail/MG-Chemicals/423/?qs=sGAEpiMZZMuzEnlwMwYUNk0EBT49tEUvEoQ2YQ3%252boKg%3d">(especially .025")</a> is also very useful. <br />
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You may also need a magnifier. I use a magnifier head strap from <a href="https://www.harborfreight.com/magnifier-head-strap-with-lights-38896.html">Harbor Freight</a> along with 3.5 diopter magnifying glasses you can pick up at any drugstore. For a bench light and general magnifier I use an E78751 magnifying light - which appears to be obsolete. <a href="https://www.harborfreight.com/fluorescent-magnifying-lamp-60643.html">This magnifying light</a> from Harbor Freight may be a substitute. I haven't tried it. <br />
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Finally you will need a pair of tweezers for placing small parts. I have used all kinds including those for plucking eyebrows. I have been <a href="https://www.mouser.com/ProductDetail/Apex-Tool-Group/EROPOOSA/?qs=sGAEpiMZZMsolRQmPEiJXESjL0oSWtap6ZL3G6mkVvE%3d">using these industrial tweezers</a> for the last few years. <br />
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That gets you a bench set up. Not counting a conductive work space for static protection. I use black anti-static bags taped together and grounded. It is low cost and works well. <br />
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That covers your bench set up. <br />
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This video is pretty good. However I do things a little differently. I use the SMD291 flux under the chip to hold the chip in place. With this flux you can move the chip so that the pins line up with the pads. Once the pins and pads are lined up, tack the corners. And then all the rest of the pins. For added protection during soldering I like to mount the high value bypass capacitors first. This helps absorb any residual static charges while still allowing easy soldering. <br />
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<center><iframe width="425" height="239" src="https://www.youtube.com/embed/3NN7UGWYmBY" frameborder="0" allowfullscreen></iframe></center><br />
<b>Update:</b> 24 November 2017 2156z<br />
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It occurred to me that starting novices with fine pitch surface mount parts might not be the best idea. So I designed a very simple board for testing the resistance ranges of digital meters. A board with seven precision resistors (0.1%). The first two resistors (12 ohms and 150 ohms) create a 11.11111111 ohm resistor (not counting resistor tolerances). The rest are normal decade values. which means you don't need to look for "9.000" values (which you can not get - usually) for decade dividers. The "wires" on the board add about .001 ohm to the 11.1111 ohm resistor. Which is not significant at the one part per thousand (3 1/2 digit meter) level. Especially as most of those meters can not zero out the resistance of the probe wires. <br />
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I use 805 size resistors so the board will be a little easier to solder than the 603s (inch) I normally use. Just the thing for a beginner. And you will have something you can uses when the project is done. <br />
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You can find the documentation for the project at <a href="http://www.mediafire.com/file/5nxaggknx9b172l/Resistor+Ladder+-+Doc+-+zipped.zip">Resistor Ladder</a>. The cost for the 7 precision resistors is a little over a dollar total. About 15 cents each in single quantities. Quite a reduction from the days when such resistors cost around ten dollars a piece. <br />
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<b>Update:</b> 26 November 2017 0447z<br />
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A resistance reference is good. But for real meter testing you need voltage and current. So I designed a voltage and current source. To keep costs down there is just one voltage and one current. 1.200 volts (+/- 0.1%) and 1.200 mA (+/- 0.2%). The documentation can be found at <a href="http://www.mediafire.com/file/ge0m9vzzlcg3ier/Voltage+and+Current+Reference++25Nov2017+-+Doc.zip">Voltage and Current Reference 25Nov2017 - Doc.zip</a><br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> <br />
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com4tag:blogger.com,1999:blog-1360666874785313602.post-2338665596001034322017-01-02T06:28:00.002+00:002017-01-02T06:42:03.739+00:00WWVB SimulatorI'm in the process of designing a <a href="https://pdfs.semanticscholar.org/2b31/80cdce61730a7a28ba4c593a14e656a5df62.pdf">WWVB Frequency Receiver and Clock</a> that can receive either the amplitude modulated time signals or the phase modulated time signals. What I needed to go ahead with this project is a modulator that can make the phase and amplitude modulation. I racked my brain for days until I came up with a schematic of <a href="http://www.mediafire.com/file/u6h06t7j0g9iqoz/WWVB_Test_Oscillator_Concept.pdf">this simple concept</a>. It is a combined phase and amplitude modulator that uses a quadrature signal generator. It sounds complicated. It is really quire simple. Have a look at the schematic. The schematic shows just the bare basics. There is no amplification or filtering or control processor. Those will be added later as I develop the design. But I just had to share my idea because it is so cute. Note that for phase reversal modulation both the I and Q channels must be switched simultaneously. If you only switch one you get a 90 degree shift. I may use that to see how the receiver behaves, but the receiver is not designed for quadrature phase modulation. Just <a href="https://en.wikipedia.org/wiki/Phase-shift_keying#Binary_phase-shift_keying_.28BPSK.29">Binary Phase Shift Keying (BPSK)</a>. <br />
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As I further develop the concept I will post more details here. Eventually I will be designing and building a board. The control microprocessor will be run off the master clock on the board so switching will be roughly coherent. With some tuned circuits to eliminate harmonics and such the exact phasing (such as WWVB does) is probably not strictly necessary. At least for testing purposes. M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com1tag:blogger.com,1999:blog-1360666874785313602.post-51976343739562173102016-07-08T01:41:00.000+00:002016-10-04T09:00:57.815+00:00Emergency Flash-Light™My latest project is an oldie but goodie. I'm reviving <a href="http://classicalvalues.com/2012/07/bringing-a-little-light-to-the-world/">Bringing a Little Light To The World ™</a>. <br />
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What is it? It is an emergency flashlight. It will run at least 100 hours on two fresh AA cells. My test on the last version ran eight days. In addition when the light is "off" it flashes about every three seconds so you can find it in the dark. It should flash continuously for about <strike>5 years</strike> 10 years with a fresh set of batteries. So you trade run time for flashing time. I would suggest putting a new set of batteries in the flashlight every two years if you would like at least 60 hours of on time in case of an emergency. <br />
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The Flashlight was inspired by the Katrina hurricane when I read about people trapped in flooded basements whose flashlights went dark after a few hours while they were trapped in the basements. This light would keep flashing for comfort. And it would give tens of hours of on time when you needed to look for something. Or try to escape if that is possible. <br />
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So what is new with this version? Three things. I found a lower cost power converter chip which converts battery power to the voltage and current needed to run the LED. Once started it will continue running until the batteries are totally drained. In fact it will start up on practically dead batteries. The batteries only need to have .6 volts each to start the light working. A fresh alkaline battery has a voltage of about 1.6 volts. <br />
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What is better about the new chip set is that the flashlight blinks slower when the batteries start going dead. As the battery voltage goes below .5 volts each (1.0 volt total) the flashing starts to slow down. When the batteries have near zero life left the blinking slows to seven seconds per flash. The original version just went dead. And even better - if the light is still flashing it will turn on. So you have a definite low battery indicator. The old version just quit when the batteries got low enough. <br />
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The second thing that is new is a more efficient LED at lower cost. I decided not to extend the run time with the higher efficiency. Instead I made the light a little brighter. <br />
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The third thing that is new is 3D printing. I have gotten an estimate for custom prototypes and design work of $5,000. That would include custom versions of a purse size light at about $400 per printed version. The estimate included 4 or 5 versions to get the design right. <br />
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Once the design is done I would need about $15,000 to get 1,000 lights made. That would be a prototype production run. The cost per flashlight gets into the marketable range when the production runs are 100,000 pieces and up. I would sell the prototype run at cost to get customer feedback. <br />
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In order to raise the money for the project I'm accepting donations. I am also going to sell flashlights using available cases (Eveready lantern lights) at $50 each including shipping in the US. The trouble is that Eveready no longer makes the old light (it used an incandescent bulb). So I need cases. If you send me an old case I will make you a flashlight for $45. If you send me two cases I will make you one for $40. And for three cases The cost is $35 for a flashlight. I will take up to 6 cases per order and send you a flashlight for $20. I will use those cases to make lights for people who can't find an old case. <br />
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If you are interested you might like Eric's description of the <a href="http://classicalvalues.com/2012/07/voodoo-flashlight/">Voodoo Flashlight</a>. I should add that I have prototyped the new version of the electronics and have installed the new version in a couple of cases I had lying around from my last try. <br />
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Interested parties can leave a comment here or contact me by e-mail. My address is on the sidebar at <a href="http://spacetimepro.blogspot.com/">Space-Time Productions</a>. You can also donate to the project <a href="http://powerandcontrol.blogspot.com/2006/08/donate.html">at this link</a>. People who donate will be first in line for prototypes from the prototype production run. <br />
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And of course if you are an investor I'd be glad to discuss business.<br />
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Update: 14 July 2016 0220z<br />
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My wife asked me to give the light a name. So here goes (for now) - <b>Emergency Flash-Light</b>™<br />
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Update: 15 July 2016 0527z<br />
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We also like just - <b>Flash-Light</b>™<br />
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Update: 14 Sept. 2016 0839z<br />
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And something else I like: <b>We sell light not batteries.</b>™<br />
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Update: 20 Sept. 2016 1517z<br />
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<b>As bright as we need to be.</b>™<br />
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Update: 29 Sept. 2016 0616z<br />
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Changed "5 years" in the text to "10 years" to better reflect the current design. It is an estimate. I will have to take some very accurate measurements to get the actual number. I have designed a board that can take those measurements. It may be a while before I get that board produced, tested, and software written.<br />
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Also note. I entered the Flash-Light™ in a fast pitch competition. You can read about the results at <a href="http://classicalvalues.com/2016/09/i-entered/">I Entered</a>.<br />
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Update: 4 October 2016 0857z<br />
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Here is the pitch I gave:<br />
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Hello. My name is Michael Simon. I'm a retired aerospace engineer, former Naval Nuke, and commercial technical writer. <br />
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I have designed the Flash-Light. It is an emergency flashlight. It is either on, giving continuous light or it is flashing so you can find it in the dark. <br />
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The Flash-Light was inspired by the Katrina hurricane when I read about people trapped in flooded basements whose flashlights went dark after a few hours of use. This light will keep flashing for comfort. And it will give tens of hours of on time when you need to look for something. Or try to escape.<br />
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This Flash-Light will be there when you need it. Two fresh AA batteries will give at least 100 hours of on time. Or ten years of flashing. Every year of flashing costs ten hours of on time. This light is just bright enough to do what you need to do. Change a tire. Follow a trail. You will not have to light up the whole valley just to follow a trail. We are not selling batteries. We are selling light. Which is why one of our marketing slogans is "Bringing a little light to the world." <br />
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Our potential market is in the billions. And it is not only for emergencies. Campers need a long lasting light weight flashlight for backpacking trips. Everyone needs an emergency Flash-Light for their home, car, office and pocket. We plan to sell it not only as a consumer item but also as a promotional product. It will have a nice flat area for printing your marketing message. And for those who want a premium promotional item we can use 3D printing to create prototypes and make molds for those who want their message to be part of the case.<br />
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We intend to start out with online sales and then go to general distribution once our volumes are high enough. Our target sales price is in the ten to fifteen dollar range. That is at the high end of the range for an ordinary flashlight. But his is no ordinary flashlight. Besides being water resistant, it will start up with two practically dead batteries. <br />
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The next step in our business plan is to 3D print prototypes to test out the small hand held cases we intend to sell. We will then do an injection molded run of one thousand Flash-Lights to get some in the hands of customers and prepare for the first production run of 100,000 Flash-Lights<br />
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Thank you for your time and considering our Flash-Light in the 2016 FastPitch Competition. <br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT>M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com1tag:blogger.com,1999:blog-1360666874785313602.post-47858688020757777612014-12-05T15:20:00.002+00:002019-04-16T11:53:24.415+00:00FISH Forth V1.6 - LPC1115 - STM32F4xxClyde has added some more FISHes to the repertoire. One for the NXP <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">LPC1115</a> which has 8K of RAM and 64K of Flash. Plus updated versions (V1.6) of his previous LPC1114 Forths. All at the link. <br />
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And a version for the <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">STM32F4 Discovery Board</a>. <br />
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The general link for all his publicly available files is <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">Clyde's FISH Forth</a>.<br />
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Update:<br />
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This is a note on loading the LPC1115 FISH into an LPC1115 with Flash Magic. When it tries to verify you get an error message. Ignore it. I have a help ticket in with NXP, but so far they have not responded. The original how to load documentation is <a href="http://spacetimepro.blogspot.com/2014/03/lpc1114-devl.html">found here</a>.<br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-49799030080965428092014-08-19T07:29:00.001+00:002014-09-01T15:38:21.723+00:00FISH Forth V1.5 - LPC1114 Updated Support - LPC812 Updated SupportClyde has updated FISH Forth to <a href="http://www.mediafire.com/download/rabsa6652cp8vhy/FISH_FORTH_ARM_PubRel_v1.5.zip">Version 1.5</a>. He has made some improvements. I'm just going to cover the major ones. There are now two versions of the FISH Forth for the LPC812. One is the full FISH suite and has 1K of Flash available for storing user programs. The other is a slightly reduced FISH (reductions noted in the documentation) that can hold 2K of user programs. The LPC812 has 4K of RAM space giving about 1 1/2K of user RAM space. <br />
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There is also a new FISH Forth for the LPC1114. It covers the versions of the LPC1114 (and likely the LPC1115 when we test it) that have 8K of RAM. The LPC1114 that we have tested has 32K of Flash (16K of program space) and 8K of RAM (giving about 5 1/2K of user RAM space). All the older versions of our software (that don't have known fatal bugs) are still available. <br />
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I will be providing links to all our hardware and software in another post which will be permanently on the sidebar. <br />
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Clyde has a link he will be using to post all new version of FISh and associated software and different processor versions. <a href="https://www.mediafire.com/folder/6fqkfykcel80s/FISH_Forth">FISH File Folders</a>.<br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0tag:blogger.com,1999:blog-1360666874785313602.post-84579404044278026592014-08-16T23:14:00.000+00:002014-08-21T19:33:30.426+00:00TTL to USB 22April2014<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgvR484TMznk8wzfSaABNPWC1AOO1LuFbWQ689-J3JtD5qRX9DfwLnl6v4RREdAf93ndKyR_L9HI5q_SnqaXjCv5s_yeYg3jLEsJ_S-82Qc-81GdCSFV4dt5djFmdwkG4xD4UxxntOOPrE6/s1600/TTL+to+USB+22Apr2014.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgvR484TMznk8wzfSaABNPWC1AOO1LuFbWQ689-J3JtD5qRX9DfwLnl6v4RREdAf93ndKyR_L9HI5q_SnqaXjCv5s_yeYg3jLEsJ_S-82Qc-81GdCSFV4dt5djFmdwkG4xD4UxxntOOPrE6/s320/TTL+to+USB+22Apr2014.jpg" /></a></div><br />
The TTL to USB board is a board that can interface to a USB computer port and deliver UART serial communications to any device that can accept them. Interface voltages between 5.25V and 1.8V can be handled by feeding the appropriate voltage. to the VI designated pins on J1 or J2. J1 is an 8 pin header that delivers TxD and RxD only. J2 adds CTS and RTS for hardware flow control. <br />
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You can find complete documentation (schematic, parts list, PCB board layout) for the board at <a href="http://www.mediafire.com/download/3sda4n7rua7b3a2/TTL+to+USB+22April2014+-+Doc.zip">TTL to USB 22April2014 - Doc</a>.<br />
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This board is available from <a href="http://store.oshpark.com/products/ttl-to-usb-22april2014">OSH Park </a> for $5.10 each. <br />
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We have some boards in development that use this board for interfacing to allow software development. You can also use this board with flying jumpers to connect any board (such as Code Red boards) to a USB port. <br />
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<font COLOR="#1F45FC"><i>Engineering is the art of making what you want from what you can get at a profit.</i></FONT> <br />
M. Simonhttp://www.blogger.com/profile/09508934110558197375noreply@blogger.com0