Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC.
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See image for an example of what blown capacitors look like to know what to look for.
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See image for an example of what blown capacitors look like to know what to look for.
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This is not an image of the components in the charger.
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This is not an image of the components in a Nikon MH-23 quick charger.
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[image|761181] (click on image to enlarge for better viewing)
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC. See image for an example of what to look for.
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Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC.
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[image|761181]
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See image for an example of what blown capacitors look like to know what to look for.
+
+
This is not an image of the components in the charger.
+
+
[image|761181] (click on image to enlarge for better viewing)
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC.
+
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC. See image for an example of what to look for.
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can mean that there may be incorrect voltages present and may prevent the correct operation of the IC.
+
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can produce incorrect voltages and may prevent the correct operation of the IC.
Hi,
Check to see if any of the capacitors have 'bulging' ends. Faulty capacitor(s) can mean that there may be incorrect voltages present and may prevent the correct operation of the IC.
[image|761181]