Most musical instrument sound pick-ups, for example those in electric guitars, are comprised of high impedance circuits driven mainly by voltage, with very little electrical current flow. That is why handling noise (microphonics) can be a problem for guitar cables. Microphonic noise is caused by the minute voltage generated when a cable is flexed, stepped on, etc. Guitar cables must be designed to prevent this, so a conductive PVC layer is placed under the shield conductor to drain away this voltage. Note: This conductive layer must be stripped back when wiring, or a partial short will result.
Specifications:
Part No. | W2319 | |
Conductor | Details | 12/0.18TA |
Size(mm²) | 0.305mm² (#23AWG) | |
Insulation | Ov. Dia.(mm) | 1.6Ø (0.063") |
Material | PE | |
Color | Clear | |
Sub-Shield | Ov. Dia.(mm) | 1.8Ø (0.071") |
Material | Conductive PVC (Carbon PVC) | |
Color | Black | |
Main-Shield | Served-Shield | Approx. 38/0.16TA |
Jacket | Ov. Dia.(mm) | 5.0Ø (0.197") |
Material | PVC | |
Color | Black | |
Roll Sizes | 100m (328Ft) | |
Weight per 100m (328Ft) roll | 3.5Kg |
Electronical & Mechanical Characteristics:
Part No. | W2319 | |
DC Resistance at 20°C | Inner Conductor | 0.064Ω/m(0.020W/Ft) |
Shield Conductor | 0.026Ω/m(0.0079Ω/Ft) | |
Capacitance at 1kHz, 20°C | 155pF/m (47.3pF/Ft) | |
Inductance | 0.3µH/m (0.092µH/Ft) | |
Electrostatic Noize* | 0.13mV Max. | |
Electromagnetic Noise At 10kHz* | 0.07mV Max. | |
Microphonics* | 0.3mV Max | |
Voltage Breakdown | Must withstand at DC 500V/15sec. | |
Insulation Resistance | 100000 MΩ × m Min. at DC 500V , 20°C | |
Flex Life | 11,000 cyles | |
Tensile Strength (26°C, 65%RH) | 303 N | |
Emigration | Non-emigrant to ABS resin | |
Applicable Temperature | -20°C‾ +60°C(-4°F‾ +140°F) |