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Spehro 'speff' Pefhany
Spehro 'speff' Pefhany
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What you may be missing is that you are not really connecting the LEDs directly to the power supply- the ammeter acts as sa resistor - the more current the more voltage drop.

A constant current circuit- or sa substantial series resistance and the associated wasted power is highly recommended if you want to run the LEDs at near maximum current.

What you may be missing is that you are not really connecting the LEDs directly to the power supply- the ammeter acts as s resistor - the more current the more voltage drop.

A constant current circuit- or s substantial series resistance and the associated wasted power is highly recommended if you want to run the LEDs at near maximum current.

What you may be missing is that you are not really connecting the LEDs directly to the power supply- the ammeter acts as a resistor - the more current the more voltage drop.

A constant current circuit- or a substantial series resistance and the associated wasted power is highly recommended if you want to run the LEDs at near maximum current.

Source Link
Spehro 'speff' Pefhany
Spehro 'speff' Pefhany
  • 452.1k
  • 24
  • 384
  • 1k

What you may be missing is that you are not really connecting the LEDs directly to the power supply- the ammeter acts as s resistor - the more current the more voltage drop.

A constant current circuit- or s substantial series resistance and the associated wasted power is highly recommended if you want to run the LEDs at near maximum current.