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What can a Non Load Break Switch do?. Interesting question. A switch is used to isolate the circuit Can a switch close into an energized circuit, a circuit with load on it, a circuit with a fault on it?
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Interesting question • A switch is used to isolate the circuit • Can a switch close into an energized circuit, a circuit with load on it, a circuit with a fault on it? • Can a switch open an energized circuit, a circuit with load on it, a circuit with a fault on it?
Answer • 1. Can a switch close into an energized circuit—Yes • 2. Can a switch close into a circuit with load on it –Yes • 3. Can a switch close into a circuit with a fault on it – Yes • 4. Can a switch open an energized circuit without any load – Depends • 5. Can a switch open a circuit with load on it –Yes if it has a load break device on it – No, if it does not have a load break device on it. • 6. Can a switch open a circuit with a fault on it – No this is the job of a breaker or fuse. The switch can open after the line is de energized by the breaker/fuse.
The question that does not have a definite yes or no is question 4. • Because over the years we have bought a number of switches without load break devices on them. • What is load? Well it could be a long line with charging current, it could be an unloaded transformer, it could be the breaking of parallel. So how much is too much for an energized circuit to be considered as unloaded or loaded therefore requiring a load break.
Two things that affect a circuit breakers ability to interrupt a circuit • 1. The amount of current it has to interrupt. The more current the harder it is to open. • 2. How fast the voltage builds across the switch contacts.
We always want to interrupt on a current zero. Why? If we force the current to zero before a natural current zero then the slope of that line di/dt could be infinite so voltage across inductors v=Ldi/dt will be to high! Current Chop
Want it to arc until current zero Contact part • So if we want it to always interrupt at current zero why do we say a breaker has an interrupting rating which when exceeded it will not interrupt the circuit?
Because during the arcing time from contact part to current zero there is a conductive media made that has to be removed as soon as current zero otherwise there will be no dielectric established to withstand the voltage between contacts after the current goes to zero. The more current the more conductive media made and the more that must be removed. • We are playing a game, we are trying to remove as much conductive media as we can as soon as current zero and pull the contacts as far apart as we can before the voltage can built. This voltage is called the transient recovery voltage (TRV)
For a resistive circuit the voltage and current are in phase Voltage across switch contacts Voltage across switch contacts This is an easy circuit to interrupt
For a inductive circuit the voltage and current are 90 deg out of phase. Voltage across switch contacts This is a lot harder to interrupt
For a capacitive circuit the voltage and current are 90 deg out of phase. Capacitor Voltage Current System voltage Voltage Voltage This is easy to interrupt, but can easily restrike and can cause bad things to happen
Remember it is a game as to how fast I can establish my dielectric verses how fast the voltage builds • Besides pulling the contacts apart very fast I can help myself by bottling up the arc until current zero then letting the arc energy move the dielectric media very fast into where the arc was. • Breakers are good at this, but an air switch has very limited capabilities because the arc is in air and not contained as in a breaker, plus the air is a variable, could be wet, hot, low pressure day etc. A function of how the lineman switches and how fast. • So you have to be careful on what you can interrupt with a switch without a designed interrupter.
So what does all this mean? • A Breaker is designed to be able to handle the arc until current zero and then be able to handle the TRV across the contacts after the arc goes out. • An Air switch with a load break device is able to handle the arc also up to its rating • However it is air switches that have no way of handling the arc that we have to be aware of what we are switching.
So what kind of switches do we have? No Arcing Horns on either the hook stick switch or fuse, this switch/fuse is not rated to interrupt any current
Arcing Horns This switch has arcing horns so if there is any arc on opening or closing it is on the arcing horn instead of tearing up the contacts.
So what are we trying to sometimes do with Air switches that are not load break Drop lines
Break Parallel- could be a bus tie or loop switching Could be this Or this But in either case the voltage on each side of the switch is the same
So what does this all mean for a non load break air switch • There is not a controlled media to make the break. • Manufacturer’s do not test their switches for ratings as there are too many variables • Manufacturer’s do not recommend interrupting any current with hook stick switches or fuses and very low levels with group operated air switches with arcing horns • We have some guidelines of what we can do with disconnects that were reached from operating experience.