discip
GitHub
@@ -6,13 +6,14 @@ This *means* that the power provided in the tip is 100% controlled by the supply
|
|||||||
|
|
||||||
Irons at their simplest are just a resistor (Ω) connected to your power source via a switch.
|
Irons at their simplest are just a resistor (Ω) connected to your power source via a switch.
|
||||||
|
|
||||||
- When the switch is on, the power in the resistor is: $P(watts) = V(volts) \times\ I(current=amps)$
|
- When the switch is on, the power in the resistor is: *`P(watts) = V(volts) \times\ I(current=amps)`*
|
||||||
- Current through the resistor is: $I(amps) = V(volts) ÷ Ω (resistance)$
|
- Current through the resistor is: *`I(amps) = V(volts) ÷ Ω (resistance)`*
|
||||||
- Combining these gives some common equations for Power
|
- Combining these gives some common equations for Power
|
||||||
|
|
||||||
$P(watts) = V(volts) * I(amps)$ or $P = V^2 ÷ Ω$
|
*`P(watts) = V(volts) * I(amps)`* or *`P = V^2 ÷ Ω`*
|
||||||
|
|
||||||
The resistance of the tip is a fixed constant in ohms (Ω):
|
The resistance of the tip is a fixed constant in ohms (Ω):
|
||||||
|
|
||||||
- 6.2 Ω Pine64 short tip
|
- 6.2 Ω Pine64 short tip
|
||||||
- 8.0 Ω TS100/Pinecil long tip
|
- 8.0 Ω TS100/Pinecil long tip
|
||||||
- 4.5 Ω TS80(P)
|
- 4.5 Ω TS80(P)
|
||||||
|
|||||||
Reference in New Issue
Block a user