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guus.assmann

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About guus.assmann

  • Birthday 09/23/1957

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    Netherlands City EDE

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  1. Hello Phaeron, I've read the description from the link you mentioned and I think it's not entirely correct or can be done in another way. From what I know (have been told by someone who had the code for the bootstrap loader of the processor) there's another way to do it. The processor is programmed, by putting an Eprom next to it and starting the loader by applying VPP in combination with Reset. (Data sheet shows correct actions) The bootstrap loader then starts copying the processor content from the Eprom, byte by byte. However, it will skip all 00 positions and advance the address counter directly. A 00 byte will not be programmed. So during the programming phase, just "offer" all 00 to the processor. It will not change the content. Then the processor will do a verify and will stop immediately when it reads an error. So only after offering the correct byte for the location, the address counter will advance to the next address. Repeat this process until all bytes are correct. I've never had any reason for testing this.... Just from memory, my two cents. BR/ Guus
  2. Hello Phaeron, After reading about the 1020 emulation, I remembered I have 2 processors from such device. Unfortunatelly, I cannot just read the program from them. I do know it's technically possible, because of a bug in the bootloader that the processor has. And I also have a Hi-Lo ALL100 programmer and pod for the processor. Do you have any possibilities for reading the program? (And is it worth the efford ?) BR/ Guus
  3. Hello tOri, Please see attaches schematics. I used them to make a PCB and that worked. (Program Ulticap and Ultiboard) The result was a working clone, so the schematics are sure to be ok. BR/ Guus BLACK_B.pdf CONNECT.pdf BBFLOPOR.pdf
  4. Hello, From a company in Germany, you don't need to worry at all. I've ordered many parts from this particular company and never had any complaints. And the prices are also reasonable. Not the very lowest, but ok. And they have a lot in stock as well. BR/ Guus
  5. Hello, Have a look at Reichelt Elektronik in Germany. They're asking 12,35 Euro for the XC 95144XL TQ100. BR/ Guus
  6. The prototypes I made, were also soldered by hand. And at some point, I replaced the CPLD 9572 by a 95144 with more logic inside. This was also done by hand on 8 or 10 units. Soldering 150 units all by hand was a bit too much. And the PCB manufacturer did deliver original CPLD's, I'm sure. I had them assemble all SMD parts onto the top of the PCB, they wouldn't do the parts on the bottom side as well. And the Ram I also did myself. The sockets for the Flash were also soldered in China and that was not so good. (About 15 failures if I remember correctly) For price reasons, the flat cable to the display was soldered/crimped on one side. BR/ Guus
  7. Back when I made the units, I got the CPU's and Ram-chips from Chinese vendors. For the processors, I got 2 or 3 failures and got some refunds. These parts were about 5 Euro on average ! The RAM chips were all ok. Flash-roms came from Farnell. The CPLD´s were assembled and delivered by the PCB manufacturer. Not sure, but it could have been JLCPCB. I had about 10 failures, that were fixed by manual resoldering. I made 10 prototypes, fully by hand. On the 100 + 50 units in the serial production, I had 3 that I couldn´t get to work at all. And only 4 or 5 waranty claims, where the unit could be fixed. (They had bad solder joints) The rotary encoders and displays were a problem. Distrilec and Farnell. So I removed a lot of displays from defective PCB's that I got from my employer. This also saved some cost of course. All of this took a lot of work, but saved the buyers a lot of money. And I had ABBUC to refund all parts quite fast. BR/ Guus Assmann
  8. Hello Larry, Please see attachments. This should answer the questions I think. The PCB is very simple and using the PDF files of the design, you should be able to make PCB's yourself. Even the toner transfer method could do the trick I think. And Yes, I do have the design files. It was made using Ultiboard and Ulticap. These programs may not be available anymore. Using KiCad, you should be able to redo the design in a few hours..... Best regards, Guus anleitung_1050_turbo.pdf 1050TRUB.zip 1050TRUB.zip scan_1050_turbo_2.zip soft-trb.zip software_1050_turbo.zip
  9. Shortly after B.Engl gave the information and rights to ABBUC, I became aware of it. And I made some PCB's after the design that was available. Next, I made a version that was even much smaller, it had most parts below the Eprom. Some units were made. Much more important (from my point of view) was the next step. The Freezer data also was available. And together with Hiass, this product was recreated and modernised I made a PCB design for the freezer as well, using bigger memory. And Hias made the CPLD content. Once the first version was working, with homemade PCB's by me, the design was extended a bit. Hiass changed the CPLD to also include cartridge emulations. This idea was triggered by some discussions over E-Mail. This was made possible because there was much more program space in both Ram and EEprom. Having an EEprom also opened the door to easy updates and changes to cartridge emulations. The banking mechanism used by CSS was also included at some point. This opened the door for XL/XE basic and an Assembler/Debugger. I have build and tested quite a number of units, with funding from ABBUC. Much later, the Turbo-Freezer was redone. And in between, the Mega-1050 saw the day of light. First version by Mega-Hz and Hias. Later I took over from Mega-Hz and together with Hias, the PCB's were developed further. Here as well, ABBUC did the funding and I did the builds and tests. Hias came up with some great testing tool and program. And I did all the (hard) hardware work. (With on-line help from Hias) P.S. Of course there were some Beta-testers as well. This prooved the viability of the product. BR/ Guus
  10. That disk is only usefull for: Alignment. This means making sure the stepper motor sends the head to the correct place. It's no use to diagnose any hardware faults. Manufacter if memory serves well is Dynatec. The disk has a trace that has been written a-symetrical and will display a "cat-eye" on an oscilloscope. In the many drives I had to repair, I used it once or twice. BR/ Guus
  11. Hello, It's also possible to use a 25Mhz oscillator and devide the frequncy by 3. BR/ Guus
  12. And also, yes, the computer won't start if you have them wrong. But it will not do any harm. BR/ Guus
  13. Hello, The component Q3 is the voltage reference. It's a TL431. (Datasheet on internet...) And the resistors around that component determine the 5V reference. Resistors can be checked with an Ohm meter. Best regards, Guus
  14. Yes, I agree. A higher working voltage is always ok, as long as you can get it to fit. Once you can power up the unit again, check the other Tantaliums as well. The method is very simple, just feel if they don't get hot. A failing Tantalium capacitor very often gets a low resistance. BR/ Guus
  15. Hello, My advice, just cut out the capacitor and retest the unit. It's a Tantalium capacitor and most likely used for decoupling / buffering of the supply. And in that application it's mostly redundant. This also means the value is not so importat, only the working voltage. (and the polarity of course) Be aware that more of these Tantaliums may fail or have failed. BR/ Guus Assmann P.S. Test my assumprion by following the traces or measure with an Ohm-Meter / Buzzer for low resistance.
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