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tecnica:motori:honda_ntv650_wiring_diagram

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tecnica:motori:honda_ntv650_wiring_diagram [2025/10/21 10:22] – [Harness wires gauge] niccolotecnica:motori:honda_ntv650_wiring_diagram [2025/10/21 10:33] (current) – [Harness wires gauge] niccolo
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 The outer diameter refers to the overall cable, including the insulator. The AWG gauge is calculated measuring the diameter of the single strand and calculating the overall cross-sectional area; then the nearest value is looked into the [[wp>American_wire_gauge|AWG gauge table]]. The outer diameter refers to the overall cable, including the insulator. The AWG gauge is calculated measuring the diameter of the single strand and calculating the overall cross-sectional area; then the nearest value is looked into the [[wp>American_wire_gauge|AWG gauge table]].
  
-**NOTICE**: The **19 AWG 30/34** notation means that there are 30 strands, each strand is an AWG #34 wire (0.160 mm diameter), the overall cross-section area is 0.60 mm², wich is almost an AWG #19 wire.+**NOTICE**: The **19 AWG 30/34** notation means that there are 30 strands, each strand is an AWG #34 wire (0.160 mm diameter), the overall cross-sectional area is 0.60 mm², wich is almost an AWG #19 wire.
  
-**NOTICE**: The **ampacity** reported in the table is the maximum electrical current in amperes that the conductor can carry for 2 meters, mantaining the voltage drop below 2%. The formulas for calculating the voltage drop for a copper conductor (coefficient ρ = 1.68*10^-8 Ωm) are:+**NOTICE**: The **ampacity** reported in the table is the maximum electrical current in amperes that the conductor can carry for **2 meters**, mantaining the **voltage drop below 2%**. The formulas for calculating the voltage drop for a copper conductor (coefficient ρ = 1.68*10^-8 Ωm) are:
  
-  * cable resistance **Ω** = (1,68 * (10^-8**Ωm**) * (lenght **m**) / (cross sectional **m²**)+  * cable resistance **Ω** = (1,68 * 10^-8 **Ωm**) * (cable lenght **m**) / (cross sectional **m²**)
   * voltage drop **v** = (current **A**) * (cable resistance **Ω**)   * voltage drop **v** = (current **A**) * (cable resistance **Ω**)
  
tecnica/motori/honda_ntv650_wiring_diagram.1761034975.txt.gz · Last modified: by niccolo