x68000:soft_power_switch_troubleshooting_and_repair
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| x68000:soft_power_switch_troubleshooting_and_repair [2012/11/21 00:09] – eidis | x68000:soft_power_switch_troubleshooting_and_repair [2019/08/27 20:45] (current) – external edit 127.0.0.1 | ||
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| ===== Soft-power troubleshooting and repair ===== | ===== Soft-power troubleshooting and repair ===== | ||
| - | The following information is kind contribution by our forum members **Lydux** and **Caius** and this fix was applied to X68000 | + | The following information is kind contribution by our forum members **Lydux** and **Caius** and this fix was applied to X68000 SUPER and Expert HD. |
| **The symptoms:** X68000 powers on fine, but does not shut down when the soft-power button is pressed. The screen fades, Power LED does not change from Green to Red and the PSU fan keeps spinning. The same happens with a regular ATX PSU. | **The symptoms:** X68000 powers on fine, but does not shut down when the soft-power button is pressed. The screen fades, Power LED does not change from Green to Red and the PSU fan keeps spinning. The same happens with a regular ATX PSU. | ||
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| **A condition using 4 signals is used to get the X68K turn on/off correctly :** | **A condition using 4 signals is used to get the X68K turn on/off correctly :** | ||
| - | *Via the front power switch (/PSON) | ||
| *Via the RTC (Real Time Clock) alarm signal (/ | *Via the RTC (Real Time Clock) alarm signal (/ | ||
| *From the expansion bus (/EXPWON) | *From the expansion bus (/EXPWON) | ||
| - | *A soft-sequence signal from the system controller (/MPWOFF) | + | *Via the front power switch (/PSON) |
| + | *Via the soft-sequence signal from the system controller (/MPWOFF) | ||
| - | In normal operation, all these 4 signals must go logic High (+5v) to get a system shutdown. | + | In normal operation, all these 4 signals must go to logic High (+5v) to get a system shutdown. |
| The problem might be due to a signal that is always stuck Low. | The problem might be due to a signal that is always stuck Low. | ||
| - | If you look to the Buffered IO part in the schematics, 3 of these signals are connected to the MFP GPIP port. They can be queried via software and are connected like this : | + | If you look at the Buffered IO part in the schematics, 3 of these signals are connected to the MFP GPIP port. |
| + | |||
| + | **They can be queried via software and are connected like this :** | ||
| |/ | |/ | ||
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| **A program for testing these signals can be found here :** | **A program for testing these signals can be found here :** | ||
| - | [[http:// | + | [[http:// |
| **Execute it more than one time. You should get :** | **Execute it more than one time. You should get :** | ||
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| *PSON = 0 | *PSON = 0 | ||
| - | **If RTC_ALARM always | + | **If RTC_ALARM always |
| *Bad RTC chip (RP5C15) | *Bad RTC chip (RP5C15) | ||
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| *Bad IC28 (74LS08) (stuck output). | *Bad IC28 (74LS08) (stuck output). | ||
| *Bad Q9 transistor (shorted). | *Bad Q9 transistor (shorted). | ||
| - | *Bad C64 (generating noise). | + | *Bad C64 capacitor |
| *IC29 (74LS244) might have bad output on pin 5. | *IC29 (74LS244) might have bad output on pin 5. | ||
| *The power signal from the main board, which I miss infos actually. A fix to this could be soldering a 10K ohm resistor between IC28 pin 10 and 14. | *The power signal from the main board, which I miss infos actually. A fix to this could be soldering a 10K ohm resistor between IC28 pin 10 and 14. | ||
x68000/soft_power_switch_troubleshooting_and_repair.1353420540.txt.gz · Last modified: 2019/08/27 20:44 (external edit)