Rumus Ampere 3 Phase

Rumus Ampere 3 Phase 7,8/10 5520 reviews

Untuk menghitung daya listik yang terdapat dirumah anda bisa menggunakan rumus ini: P = V x I, hasilnya menggunakan satuan VA (volt ampere). Misalkan: Listrik dirumah anda menggunakan arus 1 phase (220 volt) dengan MCB 10 Amp maka untuk menghitung daya listriknya menggunakan seperti dibawah ini. P = 220 V x 10. Untuk perhitungan yang lebih kompleks seperti cara menghitung ampere 3 phase umumnya juga menggunakan cosphi sebagai besaran dengan rumus sebagai berikut: P = V x I x Cosphi x akar 3 Itulah berbagai rumus konversi volt ke watt, konversi volt berapa watt, dan sebaliknya. (Rumus Daya Listrik – Daya listrik pada listrik arus bolak balik (AC) terdiri dari 3 jenis daya listrik yaitu Daya Semu, Daya Aktif dan Daya Reaktif. Ketiga daya tersebut tentunya mempunyai satuan daya yang berbeda. Untuk daya semu misalkan satuanya adalah VA (Volt Ampere), Daya Aktif dengan satuan Watt, sedangkan daya reaktif satuanya adalah VAR (Volt Ampere Reaktif).

I am trying to move into a small place to do some metalwork. Ideally I'd need 150 amps but 100 amps would be OK. I have a 65 amp machine but trying to get a machine that can go up to 130 amps but I control the amperage besides it will be a while and I need a place to get it up and runing and dialed in. I talked to a broker and they told me a place had 3 phase, 220v, '100 amp per phase), I asked if I run 3 phase that would be 300 amps? He gave a confident 'yep' but I'm not sure it works that way.

3 Phase Technologies

Is there such a thing? I'm not sure abot this whole 'phase' thing, my impression is that rather than single big waves electricity coming at one time, it's split into 3 smaller waves coming separately.It's not like I take all 3 phases and add up the voltages and amps do I? Then why isn't 3 phase 360v in most places?Note: I also spelled 'explain' wrong in the title, further solidifying the fact I need this whole 'phase' thing explained to me like I'm an idiot. First tell use what this machine is that needs 65 amps but you can go up to 130.

Is it a single phase machine or what? Are you talking input current or output, and output of what?The max you can draw from a 220v 100 amp supply, three phase or not, is 100 amps. In theory you could have three separate single phase devices each drawing 100 amps at 220v, or one three phase device at 100amps.220 is an uncommon voltage for supply - more likely it's 240 or 208v?It get further complicated - Does this new location have a 100amp breaker or is it rated for 100 amp supply? You won't be running 100 amps though a typical 100amp breaker for long. I believe Metricar is talking about a 65 amp (output power) plasma cutter and another 130 amp (output) plasma cutter.

Rumus Ampere Motor 3 Phase

Rumus ampere motor 3 phase

The output power amperage will be totally different than the input power requirements.First.the power in your household 120 outlets is single phase, 120 volts (N. There are two prongs for the power, and one is a safety ground. It is called a 3 wire single phase. There also are single phase household outlets for things that use more power, such as an electric stove, an electric dryer. These outlets typically will have 4 wires or 4 prongs, measuring across the two main hot wires you will see 220 volts (or 208 or 240), and measuring from each hot to the neutral you will see 120 volts.

This is called 'split phase 120/240), the fourth prong is for safety ground. There also are 3 wire 240 volt single phase circuits.these will measure 240 volts across the two hot legs, there is no usable 120 volt path, and the third prong is for safety ground.In most commercial buildings there is 3 phase power, which is much more efficient for powering industrial equipment. A 3 phase power outlet will have 3 wires for power, and if it is 220 volts you could measure 220 volts between any combination of the 3 wires. 3 Phase in N.

America is normally available in 208, 220 or 240 or 480 or 600 volts (Canada). The higher the voltage, the more efficient and powerfull the circuit will be. Higher voltage allows more amperage to travel longer distances through smaller wires sizes.If your 65 amp unit is a Hypertherm Powermax 65.it is designed to operate on any input voltage between 200 and 600 volts, single or three phase. It cuts the same with any voltage input (some plasma systems put out lower cutting power with lower input voltage), but will use less input amperage and require smaller input circuit and wiring sizes if you operate it at higher input voltage and /or on 3 phase power. Further, on higher voltage inputs and on 3 phase circuits, the duty cycle will be higher as the power supply is more efficient on these circuits.The Powermax65 will draw as much as about 60 amps on a 240 volt input power line when cutting the thickest materials. If you are running on a 600 volt 3 phase input power line.the 65 will draw about 15 amps per phase.

(these numbers are off the top of my head as I do not have the operators manual in front of me)The HPR130 or the HSD130 from Hypertherm will only operate on 3 phase voltages as it is strictly an industrial machine, and draws too much power to efficiently operate on a single phase circuit. These units must be purchased for the voltage level you have, so if your shop has 240 volt three phase, the unit must be built for that voltage.Hopefully this helps a bit.Best regards, Jim Colt Hypertherm. If it is 3-phase 20 amps, each phase has 20 A. Just look at the fuses.Even if you draw 10 A from every phase -with a single phase equipment-, the neutral will only see 10 A.If you pull 10 A at each phase with a 3 phase motor, the neutral sees no current.

At 230 V, it will be 6.9 kWUnless you have some fancy 3 phase, where the phases are not at 120 degree.NickAre you sure about that??reason I ask is that I used to install machine tools and durring the run off testing we made a full HP cut and used the Amprobe meters to check the current in each of the 3 wires going to the motor.ALL 3 were the same current.Where would the Neutral wire be? You don't need to draw the same current from all phases. My heat-treating oven draws a funny mix from 0 to 20 A per phase.

A 3 phase motor does draw the same current on all phases (minus some differences).Depending on your load, you don't need a neutral or not. My funny oven does, a 3 phase motor not. Neither in wye nor delta.It simply depends on the kind of load.NickIs the odd mix of currents due to switching different combinations of heaters to control the amount of heat? I had an oven like that once that controlled wattage by switching different series combinations of lower voltage elements between delta and Y. I was trying to get a 3 phase line at the time and running into objections from the power company because I did not have enough load to meet their requirements. I simply could not make them believe that I had a 3 phase oven and I did not have enough machines to make the load requirement because running on a phase converter was strangling me.

They did finally give me a line.Minor quibble- Jimcolt obviously knows what he is talking about, but I have always heard the term 'split phase' applied to capacitor start motors with a centrifugal switch. Jim's post is the second time recently I have seen it used about a 120-0-120 line. Has terminology morphed?Bill. Is the odd mix of currents due to switching different combinations of heaters to control the amount of heat?It has tree stages. And depending on which one you use, more elements are added. At the lowest stage, there is just one element (at the bottom), next stage is bottom + 2 on the side and third stage is an extra one on the top.

Bottom, side and top have different wattages.And there is an extra element that heats the temperature sensor. Astonishing enough, that takes out thermal inertia of it. Compared to an other thermometer in the middle of the oven, they both are off maybe 10 °C, even during heating up.So:At least here, no one forces you to use the same load on all three phases (at least, I don't know). The lighting in my shop actually is connected to three phases (each group its own). So if one phase fails, I'm not standing in the dark (with a machine still running).I know, the US electricity is a bit odd compared to ours, so things might be different.Nick. Astonishing enough, that takes out thermal inertia of it. Compared to an other thermometer in the middle of the oven, they both are off maybe 10 °C, even during heating up.NickThat is known as an anticipation heater.

Because of the lag in heat from the heaters getting to the sensor, it will keep the heat on too long, then after it shuts off the overall temperature will overshoot. When I built gyros, that was a serious problem. Integrating gyros were sealed in a can surrounded by another with the gap filled with a damping fluid that was a paste at room temperature.

Operating temperature was 160 F. A large overshoot would boil the damping fluid and blow the end off.

The solution was to use a resistance wire sensor with a few turns of heater wire wrapped over it with only a thin layer of insulation between them. The anticipation winding would cause the temperature control to shut off early, the internal mass would absorb heat, the control would turn back on and shut off early again, repeating the cycle as the temperature staircased up, finally stabilizing on the right temperature. The temperature controls were primitive, tube amplifiers sensing the output of a resistance bridge.

Modern computerized controls have compensation built in, allowing the user to tailor the response to the individual system. In some ways I don't miss the 'good old days'.Bill.

Power in kilowatts or KW is the relationship between current and voltage as measured at an electrical load. Current is stated in units of amps. KW is also referred to as applied power or 'absorbed' power because it's the power actually used by the load. For example, power distribution companies deliver power in the form of kilovolts-amperes or KVA. However, due to inefficiencies in the load caused by the load power factor, only a percentage of this KVA is used.

The amount used is in units of watts or kilowatts.