Carbon Film resistors are made by vacuum depositing a thin carbon film on a ceramic form. A good choice for applications which require a steady, low power drop. Sold in multiples of 5. ½" watt - 350V working, 700V overload, 0.4" long by 0.14" dia.
Carbon Film resistors are made by vacuum depositing a thin carbon film on a ceramic form. A good choice for applications which require a steady, low power drop.
½" watt - 350V working, 700V overload, 0.4" long by 0.14" dia.
Carbon Film resistors are made by vacuum depositing a thin carbon film on a ceramic form. A good choice for applications which require a steady, low power drop. Sold in multiples of 5. ±5% tolerance. 1 watt
Carbon Film resistors are made by vacuum depositing a thin carbon film on a ceramic form. A good choice for applications which require a steady, low power drop.
1 Watt 500V working, 1000V overload, 0.5" long by 0.14" dia.
Metal Oxide resistors are for applications where stability under high temperature conditions is required. Sold in multiples of 5. 2 watt. ±5% tolerance
Carbon composition resistors are made by mixing carbon particles with a binder molded into a cylindrical shaped, and then baked. Resistance decreases as temperature increases. Resistance is more prone to drifting than with other types. Standard 'classic' resistor. Sold in multiples of 5. Values 100K and lower are 5% tolerance, values 100K and higher are 10% tolerance.
Carbon composition resistors are made by mixing carbon particles with a binder molded into a cylindrical shaped, and then baked. Resistance decreases as temperature increases. Resistance is more prone to drifting than with other types.