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| hardware:autopoweron 2009/12/17 17:49 | hardware:autopoweron 2017/09/06 18:38 current | ||
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| Here's a circuit using a NE556N dual timer IC that automatically turns the DNS-323 on whenever power is first applied or re-applied after power failure. This circuit is applicable to the DNS-323 hardware version B1: | Here's a circuit using a NE556N dual timer IC that automatically turns the DNS-323 on whenever power is first applied or re-applied after power failure. This circuit is applicable to the DNS-323 hardware version B1: | ||
| {{ hardware:delayed_on_pulse.png |Delayed turn-on circuit}} | {{ hardware:delayed_on_pulse.png |Delayed turn-on circuit}} | ||
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| ==== For older DNS-323 hardware versions ==== | ==== For older DNS-323 hardware versions ==== | ||
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| - Disassemble your DNS-323 (4 screws on the front, 4 screws in the back, another set of 4 screws in the back, and you're done). | - Disassemble your DNS-323 (4 screws on the front, 4 screws in the back, another set of 4 screws in the back, and you're done). | ||
| - | - Solder a 150uF (6.3V or higher) electrolytic capacitor between the ground (circled in black) and the power on pin (circled in red). | + | - {{ hardware:power_on_switch_bottom.jpg?300|}} Solder a 150uF (6.3V or higher) electrolytic capacitor between the ground (circled in black) and the power on pin (circled in red). |
| * **__NOTE: electrolytic capacitors are polarized!!!__** | * **__NOTE: electrolytic capacitors are polarized!!!__** | ||
| * Make sure the negative is soldered to ground (the side of the capacitor will have a large stripe next to the pin). | * Make sure the negative is soldered to ground (the side of the capacitor will have a large stripe next to the pin). | ||
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| **Note:** The power switch still works to power off the unit, and to power it back on if it was powered down by the switch or by software shutdown.\\ | **Note:** The power switch still works to power off the unit, and to power it back on if it was powered down by the switch or by software shutdown.\\ | ||
| - | \\ **Limitations:** | + | \\ **Limitations** |
| * Doesn't work for power glitches (anything below 3-4 seconds). | * Doesn't work for power glitches (anything below 3-4 seconds). | ||
| - | * **To fix this limitation**, you can put (in theory since I didn't try it) a diode in parallel to the weak pull up (R209, which is near U25). When the 5V rail fails, the capacitor should discharge very quickly. The N side of the diode should be near the "R" of "R209". | + | * {{ hardware:power_on_optional_diode.jpg?300|}}**To fix this limitation**, you can put (in theory since I didn't try it) a diode in parallel to the weak pull up (R209, which is near U25). When the 5V rail fails, the capacitor should discharge very quickly. The N side of the diode should be near the "R" of "R209". |
| * If you are serious about your NAS, it should be on a UPS (which filter glitches) and therefore you don't need to add a diode... | * If you are serious about your NAS, it should be on a UPS (which filter glitches) and therefore you don't need to add a diode... | ||
| - | FIXME I'll upload the pictures once I figure out how to do it. | + | ~~CLEARFLOAT~~ |
| + | **Assembly pictures**\\ | ||
| + | I stole an electrolytic capacitor from a unused electronic circuit. The leads weren't long enough, so I had to use wire. The electrolytic capacitor you'll buy will likely have leads long enough so you won't need to go through this hassle. (But make sure that non-isolated leads don't touch front panel after assembly. The panel is actually made of (anodized) aluminum and there can easily be a short-circuit, leading to router powering down soon after start up - or worse.) | ||
| + | \\ {{hardware:power_on_capacitor.jpg?300|}} {{hardware:power_on_final_result.jpg?500|}} | ||
| + | ~~CLEARFLOAT~~ | ||
