![]() ![]() I worry that when I'm manipulating the wire to make my connections, it's cracking where I bend it causing an unsafe situation. Every time I come across it, the copper seems quite brittle. You also have the concern of that old cloth covered wire. However, it is a code violation because of color coding. (assuming the wire is in good shape, see below). Do I have this option given the wires don't have any colored rubber insulation to begin with?This would techinically work, and it would be safe given your wire can carry far more current than the breaker you are putting it on. I would love to pigtail each to a #12 wire, and move one of the hots to the grounded bus bar in the breaker box, giving me all three wires (hot, neutral, ground) in the receptacle box for the 110 outlet. I opened up the receptacle - three old cloth-covered wires - two hots, one neutral, no ground. Is that correct? Is there any danger or code violation here? Can I still use this wire even though it is much thicker than needed? My understanding is that the breaker is controlling the amount of amperage, not the wire, and having a thicker wire than needed is not like the reverse and therefore not a danger. However, this is not 12 AWG wire - it is much thicker - I'm not sure of the gauge. My plan is to pull out the existing double circuit breaker, replace it with a single 20 amp breaker, leave the other breaker space open, and change the 220 outlet with a standard 110 outlet by only using one of the two hots (the live one) and capping the other (the dead one). In the circuit breaker box, this line has two hot wires connected to a pair of joined 50 amp breakers (one wire per breaker). The electric range is not hard-wired, but plugged in to a 220 volt outlet. The gas stove only needs a 110 volt outlet. I am getting rid of my existing electric range and putting in a gas stove. When the current is too large, the coil heats up severely, eventually causing the voltage converter to burn out.Hoping you can help me. The voltage converter has no overload protection.When the customer purchases the voltage converter, the selected capacity is not enough to drive the appliance.Ģ. The voltage converter parameters purchased by the customer are suitable, but since the voltage converter parameters are imaginary, the real power is not higher than the working power of the load, causing overload. There are several reasons why a voltage converter burns out. Usually, the 220v to 110v (120v to 230/240 volt) voltage converter has safety protection setting, and the protection setting is ground protection and overload protection. Tips: What caused the 220v to 110v voltage converter to burn out? The voltage converters are made of high quality materials, providing a safe, reliable, economical and convenient solution for home use and industrial applications.There are two universal outlets on the device. Output voltage is 110V-220V and 220V-240V that can be used at the same time.Precise input voltage selector which you can select (110v, 120v, 220v, 240v depending on the voltage source available) via the switch.Step-up and step-down voltage converter can convert 220-240 volts to 110-120 volts or 110-120 volts to 220-240 volts.–20℃~ +60℃ no dust, no corrosive gas, no direct sunlight 3000w voltage converter transformer, input voltage is available for 110v, 120v, 220v, 230v, 240v, converting 120v to 240v, 220v to 110v for home appliances. ![]()
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