**Three**-**phase** **kVA to amps** when **Phase** voltage is known. For **three** **phase**, current can be calculated from **kVA** using the following formula. **Three** **phase** current, Current = (**kVA** X 1000) / (**3** X Voltage) Kilovolt ampere (**kVA) to** kilowatts (kW) converter. Kilowatt to kilovolt ampere (kw to **kVA**) converter. HP to kW converter. kW to HP converter..

Three-**phase** **kVA** **to** **amps** when **Phase** voltage is known. For three **phase**, current can be calculated from **kVA** using the following formula. Three **phase** current, Current = (**kVA** X 1000) / (**3** X Voltage) Kilovolt ampere (**kVA**) **to** kilowatts (kW) converter. Kilowatt to kilovolt ampere (kw to **kVA**) converter. HP to kW converter. kW to HP converter. How many **amps** does a 10 **kva** generator produce? You can calculate by this formula: A=**KVA***1.44 (at 400v )**three** **phase** A=10KVA*1.44=14.4A A=**KVA***4.5 (at 220v) single **phase** A=10KVA*4.5=45A 16 Ray Bennett Electronic Designer (Non Degreed Engineer) Author has 10.1K answers and 2.7M answer views 11 mo Related How many watts does a 100-watt **amp** produce?. Web. MOSA GE 3900 is a single-**phase** generator, equipped with GENKINS 225 230M StageV engine supplied by Gasoline, delivers a maximum power of **3**,3KW, complete with AVR voltage regulator.. Web.

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**500**

**kVA**Single

**Phase**Transformer: I =

**500*** 1000 /

**3**.3kV = 151.5

**Amps**

**500**

**kVA**

**Three**

**phase**Transformer: I =

**500*** 1000 / (

**3**.

**3*** 1.73 kV) = 87.58

**Amps**

**500**

**kVA**Transformer Chart for Different Voltage Levels 1000

**kVA**Transformer

**Amps**1000

**kVA**Transformer Single

**Phase**

**Amps**when V = 33 kV: 30.30 A. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="fcf07680-209f-412a-b16b-81fb9b53bfa7" data-result="rendered">

**phase**current I in

**amps**is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L-L (V)) So

**amps**are equal to 1000 times kilovolt-

**amps**divided by the square root of

**3**times volts.

**amps**= 1000 ×

**kVA**/ (√

**3**× volts .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="d2d946e1-1c23-4b2d-a990-269a8ca3bbd1" data-result="rendered">

**Amps**for

**KVA**and Voltages of Single

**Phase**Transformers (see below for

**3**

**phase**transformers)

**KVA**: 120V: 240V: 480V: ... 96.

**3**: 56.7:

**500**:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="3c88043c-a927-4e99-b071-cdda0e6d61ae" data-result="rendered">

**kVA**you must have at least two pieces of information: the load line-to-line voltage ( V) the maximum load

**phase**current ( I) Single

**Phase**Transformers:

**kVA**= (V * I) /1000

**Three**

**Phase**Transformers:

**kVA**= (V * I * 1.732) / 1000 where 1.732 is the simple numerical value for the square root of

**3**(1.7320508...). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="31d36e8b-1567-4edd-8b3f-56a58e2e5216" data-result="rendered">

**3**

**Amps**reactive. Hence 1 kVAR capacitor bank shall give you 4.

**3**A at 230 Volts. Example 2: Let we calculate the reactive current for 25kVAR capacitance bank which is connected to

**three**-

**phase**at the line voltage of 415 volts. Apply our

**three**-

**phase**reactive current formula, Current in

**Amps**I (A) = 1000 x 25 / (1.732 x 415). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="9828be5f-6c57-4d3e-bf10-6fabe21887e9" data-result="rendered">

**kVA**) / V (V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage. The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="61f698f9-2c91-4f15-8919-c8368666345e" data-result="rendered">

**Amps**for

**KVA**and Voltages of Single

**Phase**Transformers (see below for

**3**

**phase**transformers)

**KVA**: 120V: 240V: 480V: ... 96.

**3**: 56.7:

**500**:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="c464f94b-4449-4e5e-aeab-b1fb780deb4f" data-result="rendered">

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**kVA**) / V (V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage. The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="3cb7dd99-f626-402c-a06b-af9231f2f3ff" data-result="rendered">

**phase**current = (

**kVA**X 1000) / Voltage

**Three**-

**phase**

**kVA to amps**when Line to Line voltage is known For

**three**

**phase**, current can be calculated from

**kVA**using the following formula.

**Three**

**phase**current, Current = (

**kVA**X 1000) / ( √

**3**X Voltage) = (

**kVA**X 1000) / ( 1.732 X Voltage)

**Three**-

**phase**

**kVA to amps**when

**Phase**voltage is known. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="448dcd25-4a48-40c9-be08-69d217d3f025" data-result="rendered">

**kVA**) / V (V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage. The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="e9108589-8920-4ae9-9727-6b6c3f3959ac" data-result="rendered">

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**to Amps**conversion formula as below, For single-

**phase**, I (A) = 1000 x Q (kVAR) / V (V) For

**three**-

**phase**, While considering the

**phase**voltage, I (A) = 1000 x Q (kVAR) /

**3**x V (V) While considering the Line voltage, I (A) = 1000 x Q (kVAR) / (1.732 x V (V)) Example 1:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="dd7c0ddf-0870-425a-a674-323e6aeacdbc" data-result="rendered">

**Amps**= Watts ÷ Volts if pf is known then using above formula HP × 746

**Amps**= ────── V × η × PF similarly for

**3**

**phase**motor

**amps**calculation, the current rating can be calculated by using the following formula. all about convert horsepower

**to amps**& to convert motor hp

**to amps**. HP × 746

**Amps**= ─────────. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="5b3b1b0a-1ccc-4b67-a0ca-cdbbdf4f4447" data-result="rendered">

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**kVA**) / V(V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I(A) = 1000 × S(

**kVA**) / ( √

**3**× VL-L (V) ). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="9ef17ea2-ef45-4ae3-bd5b-cf93789e8b08" data-result="rendered">

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**500**

**kVA**Single

**Phase**Transformer: I =

**500*** 1000 /

**3**.3kV = 151.5

**Amps**

**500**

**kVA**

**Three**

**phase**Transformer: I =

**500*** 1000 / (

**3**.

**3*** 1.73 kV) = 87.58

**Amps**

**500**

**kVA**Transformer Chart for Different Voltage Levels 1000

**kVA**Transformer

**Amps**1000

**kVA**Transformer Single

**Phase**

**Amps**when V = 33 kV: 30.30 A. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b79bee39-b6de-4ebe-ac64-e8eb8b4508ed" data-result="rendered">

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**Amps**for

**KVA**and Voltages of Single

**Phase**Transformers (see below for

**3**

**phase**transformers)

**KVA**: 120V: 240V: 480V: ... 96.

**3**: 56.7:

**500**:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="c8440305-5310-42a8-8e6e-569844b4b405" data-result="rendered">

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**kVA**) / V (V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage. The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="433508ca-f506-4049-8107-ad1ca0adc804" data-result="rendered">

**phase**just divide the VA by the voltage ie: 10kVA = 10000VA so at 230 volts the

**Amps**will be 1000/230 =43.478260

**Amps**For

**3**

**phase**the equation involves the square root of

**3**which is 1.732050.

**Amps**= VA/V*1.732050*EFF*PF (if known) EFF = efficiency especially for motors. PF = power factor of the load.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="87ceaf71-6960-4ef6-b52c-421637c6f58e" data-result="rendered">

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**kVA**) / V(V)

**3**

**phase**

**kVA**to

**amps**calculation formula Calculation with line to line voltage The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I(A) = 1000 × S(

**kVA**) / ( √

**3**× VL-L (V) ). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2bcc452a-5a51-4c9b-8b1c-ae36b5034865" data-result="rendered">

**three**-

**phase**

**Amps**to

**kVA**conversion is simple, it is

**three**times the per

**phase**apparent power. Below

**three**-

**phase**apparent power formula, we get S(

**kVA**) =

**3**× I(A) × VL-N (V) / 1000 if you take voltage between the line to line means, the

**kVA**become, S(

**kVA**) = 1.732 × I(A) × VL-L (V) / 1000 Example:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="812bb8a5-f37f-482f-b0f7-8b14d7f70bfb" data-result="rendered">

**kVA**) / V (V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage. The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="538f82fa-8241-4608-ab57-698fc33e49fd" data-result="rendered">

**3**× 190V) = 9.116A Calculation with line to neutral voltage The

**phase**current I in

**amps**is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by

**3**times the line to line RMS voltage V in volts: I(A) = 1000 × S(

**kVA**) / (

**3**× VL-N(V) ) So

**amps**are equal to 1000 times kilovolt-

**amps**divided by

**3**times volts.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2f47a18d-77ad-4564-8be4-df4934a90f26" data-result="rendered">

**kVA**) / V(V)

**3**

**phase**

**kVA to amps**calculation formula Calculation with line to line voltage The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I(A) = 1000 × S(

**kVA**) / ( √

**3**× VL-L (V) ). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="187abff3-5b16-4234-9424-e55a60b73dc9" data-result="rendered">

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**3**Pole MCCB Open Type Diesel Generator

**Three**

**Phase**400KW 500KVA Manual / Auto Start from china factories, quality

**3**Pole MCCB Open Type Diesel Generator

**Three**

**Phase**400KW 500KVA Manual / Auto Start of Nanjing Stone Power CO.,LTD from china factories.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="e544fef0-caf6-40ab-bc42-376a943105bf" data-result="rendered">

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**three**

**phase**

**kilowatts to amps**calculation Calculation with line to line voltage The

**phase**current I in

**amps**(A) is equal to 1000 times the power P in kilowatts (kW), divided by square root of

**3**times the power factor PF times the line to line RMS voltage VL-L in volts (V): I(A) = 1000 × P(kW) / ( √

**3**× PF × VL-L(V) ). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="7ce0547e-f110-4d49-9bed-3ec844462c17" data-result="rendered">

**kVa**to

**amps**(120V) = 8.33 A 1

**kVa**to

**amps**(220V) = 4.55 A 1

**kVa**to

**amps**(12V) = 83.33 A Below the calculator, you will find a

**kVA**to

**amps**table (you have to know the voltage – usually 220 V), as well as 2 solved examples of how to convert

**kVA**to

**amps**. You can use it here:

**kVA**To

**Amps**Calculator (With Table) Insert kilovolt-

**amps**(

**kVA**):*. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="0917bc3b-4aa5-44a6-a3c5-033fd1a2be7a" data-result="rendered">

**3**× 190V) = 9.116A Calculation with line to neutral voltage The

**phase**current I in

**amps**is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by

**3**times the line to line RMS voltage V in volts: I(A) = 1000 × S(

**kVA**) / (

**3**× VL-N(V) ) So

**amps**are equal to 1000 times kilovolt-

**amps**divided by

**3**times volts.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="bcc808fb-9b5c-4e71-aa08-6c1869837562" data-result="rendered">

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**3**Pole MCCB Open Type Diesel Generator

**Three**

**Phase**400KW 500KVA Manual / Auto Start from china factories, quality

**3**Pole MCCB Open Type Diesel Generator

**Three**

**Phase**400KW 500KVA Manual / Auto Start of Nanjing Stone Power CO.,LTD from china factories.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="f4fa98eb-2d05-4ac8-bb0d-a5326b634c84" data-result="rendered">

**three**-

**phase**

**Amps**to

**kVA**conversion is simple, it is

**three**times the per

**phase**apparent power. Below

**three**-

**phase**apparent power formula, we get S(

**kVA**) =

**3**× I(A) × VL-N (V) / 1000 if you take voltage between the line to line means, the

**kVA**become, S(

**kVA**) = 1.732 × I(A) × VL-L (V) / 1000 Example:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="32109afe-0442-429e-9956-2b3b26fabf42" data-result="rendered">

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I AC3Ø = Current / **Amps** **3** **phases**. S (**kVA**) = Kilovoltio-Amperes. How to convert from **kVA** **to** Ampere in only 1 step: Step 1: You must multiply the **kVA** by 1000 and divide the result between the voltage shown by the formula according to the system you have, monofasic, biphasic or three-**phase**.

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Web. Feb 17, 2022 · To calculate the generator **kVA** for a single-**phase** current, multiply volts x **amps** and divide by 1,000. To calculate kW, multiply volts x **amps** x the power factor (PF) — the ratio of actual power flowing to apparent power — then divide by 1,000. **Three**-**phase** currents also supply AC power and operate at a much higher voltage, typically around 480 volts..

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Web. For single **phase** just divide the VA by the voltage ie: 10kVA = 10000VA so at 230 volts the **Amps** will be 1000/230 =43.478260 **Amps** For **3** **phase** the equation involves the square root of **3** which is 1.732050. **Amps** = VA/V*1.732050*EFF*PF (if known) EFF = efficiency especially for motors. PF = power factor of the load..

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**Amps** to **kVA** calculator Single **phase** **kVA to amps** calculation formula. The current I in **amps** is equal to 1000 times the apparent power S in kilovolt-**amps**, divided by the voltage V in volts: I (A) = 1000 × S (**kVA**) / V (V) **3** **phase** **kVA to amps** calculation formula Calculation with line to line voltage. **3** **phase** **amps** **to** **kVA** calculation formula Calculation with line to line voltage The apparent power S in kilovolt-**amps** is equal to **phase** current I in **amps**, times the line to line RMS voltage V L-L in volts, divided by 1000: S(kVA) = √**3** × I(A) × VL-L (V) / 1000 Calculation with line to neutral voltage. 20kVA (**3** **phase**) 110v site transformer featuring 8 x 16A and 4 x 32A outlets for use with with corded products such as drills, grinders, saws, lighting products, heating and ventilation products. Ideally suited for use on construction sites. POA (Price On Application) You are unable to add POA items to your basket. Call 0800 **500** 3993 for a price.. Web. Web. **Three**-**phase** **kVA to amps** when **Phase** voltage is known. For **three** **phase**, current can be calculated from **kVA** using the following formula. **Three** **phase** current, Current = (**kVA** X 1000) / (**3** X Voltage) Kilovolt ampere (**kVA) to** kilowatts (kW) converter. Kilowatt to kilovolt ampere (kw to **kVA**) converter. HP to kW converter. kW to HP converter.. Web.

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Rated Line **Amps** for **KVA** and Voltages of Single **Phase** Transformers (see below for **3** **phase** transformers) **KVA**: 120V: 240V: 480V: ... 96.**3**: 56.7: **500**:.

MOSA GE 3900 is a single-**phase** generator, equipped with GENKINS 225 230M StageV engine supplied by Gasoline, delivers a maximum power of **3**,3KW, complete with AVR voltage regulator..

Calculation of AC three **phase** Kilowatts to **amps** Line to line Voltage I (A) = 1000 x P (kW) / (√**3** x PF x V L-L (V)). It means that the **phase** current in **amps** is computed by 1000 multiplied by the power in kilowatts divided by the square root of three multiplied by the power factor times the line to line voltage RMS in volts. Line to Neutral Voltage.

**Amps** to **kVA** calculator Single **phase** **kVA to amps** calculation formula. The current I in **amps** is equal to 1000 times the apparent power S in kilovolt-**amps**, divided by the voltage V in volts: I (A) = 1000 × S (**kVA**) / V (V) **3** **phase** **kVA to amps** calculation formula Calculation with line to line voltage.

Single **phase** **kVA** **to** **Amps** calculation Apparent power in **kVA** Voltage in volts (V) I(A) = 1000 × S(kVA) / V(V) The current I in **amps** (A) is equal to 1000, multiplied by the apparent power S in kilovolt-**amps** (**kVA**), divided by the voltage V in volts (V). Three **phase** **kVA** **to** **Amps** calculation Line to line voltage Apparent power in **kVA** Voltage in volts (V).

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Single **phase** **kVA** **to** **Amps** calculation Apparent power in **kVA** Voltage in volts (V) I(A) = 1000 × S(kVA) / V(V) The current I in **amps** (A) is equal to 1000, multiplied by the apparent power S in kilovolt-**amps** (**kVA**), divided by the voltage V in volts (V). Three **phase** **kVA** **to** **Amps** calculation Line to line voltage Apparent power in **kVA** Voltage in volts (V).

Web.

Web.

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Jan 29, 2021 · How many **amps** does a **500** **kVA** transformer have? **500** **kVA**, **3**.**3** kV Transformer **Amps**. **500** **kVA** Single **Phase** Transformer: I = **500** * 1000 / **3**.3kV = 151.5 **Amps**. **500** **kVA** **Three** **phase** Transformer: I = **500** * 1000 / (**3**.**3** * 1.73 kV) = 87.58 **Amps**. How to calculate the **KVA** of a transformer?.

P (kW) = I (**Amps**) × V (Volts) ÷ 1,000. Basically, we just multiply **amp** by volts. The '1,000' factor is there to convert from W to kW; we want the resulting power to be in kilowatts. 1 kW = 1,000W. Compared to this, the **3-phase** power formula is a bit more complex. Here's the **3-phase** power equation:.

Web.

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Web.

**3**

**phase**) 110v site transformer featuring 8 x 16A and 4 x 32A outlets for use with with corded products such as drills, grinders, saws, lighting products, heating and ventilation products. Ideally suited for use on construction sites. POA (Price On Application) You are unable to add POA items to your basket. Call 0800

**500**3993 for a price.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="8b739592-5677-45dd-be54-059574934486" data-result="rendered">

**500**

**kVA**Single

**Phase**Transformer: I =

**500*** 1000 /

**3**.3kV = 151.5

**Amps**

**500**

**kVA**

**Three**

**phase**Transformer: I =

**500*** 1000 / (

**3**.

**3*** 1.73 kV) = 87.58

**Amps**

**500**

**kVA**Transformer Chart for Different Voltage Levels 1000

**kVA**Transformer

**Amps**1000

**kVA**Transformer Single

**Phase**

**Amps**when V = 33 kV: 30.30 A. " data-widget-price="{"amountWas":"2499.99","currency":"USD","amount":"1796"}" data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="9359c038-eca0-4ae9-9248-c4476bcf383c" data-result="rendered">

**kVA**) / V(V)

**3**

**phase**

**kVA**to

**amps**calculation formula Calculation with line to line voltage The

**phase**current I in

**amps**(with balanced loads) is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V L-L in volts: I(A) = 1000 × S(

**kVA**) / ( √

**3**× VL-L (V) ). " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="99494066-5da7-4092-ba4c-1c5ed4d8f922" data-result="rendered">

**Amps**=

**KVA**÷ Volts ÷ 1.732 x 1000 To calculate

**KVA**, use this formula:

**KVA**= Volts x

**Amps**x 1.732 ÷ 1000 TRANSFORMER FULL LOAD CURRENT RATINGS

**Three**

**Phase**600V Class ; How many volts are in a

**3**

**phase**

**AMP**?

**3**-

**Phase**

**Amps**=

**KVA**/ Volts / 1.732 x 1000. " data-widget-price="{"amountWas":"949.99","amount":"649.99","currency":"USD"}" data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b7de3258-cb26-462f-b9e0-d611bb6ca5d1" data-result="rendered">

**three**

**phase**

**kilowatts to amps**calculation Calculation with line to line voltage The

**phase**current I in

**amps**(A) is equal to 1000 times the power P in kilowatts (kW), divided by square root of

**3**times the power factor PF times the line to line RMS voltage VL-L in volts (V): I(A) = 1000 × P(kW) / ( √

**3**× PF × VL-L(V) ). " data-widget-price="{"amountWas":"249","amount":"189.99","currency":"USD"}" data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b6bb85b3-f9db-4850-b2e4-4e2db5a4eebe" data-result="rendered">

**amps**is a 15

**KVA**transformer? If it’s a single-

**phase**15

**kVA**transformer, then the

**amps**are 125 (at 120V), 62.5 (at 240V), 31.

**3**(at 480V), 25.0 (at 600V), 6. 25 (at 2400V), and

**3**.6 (at 4160V). However, if it’s the

**three**-

**phase**15

**kVA**transformer, then the amperes are 41.7 (at 120V), 36.1 (at 240V), 18.1 (at 480V), 14.5 (at 600V),

**3**. .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b4c5f896-bc9c-4339-b4e0-62a22361cb60" data-result="rendered">

**Amps**=

**KVA**÷ Volts ÷ 1.732 x 1000 To calculate

**KVA**, use this formula:

**KVA**= Volts x

**Amps**x 1.732 ÷ 1000 TRANSFORMER FULL LOAD CURRENT RATINGS

**Three**

**Phase**600V Class ; How many volts are in a

**3**

**phase**

**AMP**?

**3**-

**Phase**

**Amps**=

**KVA**/ Volts / 1.732 x 1000. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="5ae09542-b395-4c6e-8b19-f797d6c6c7ef" data-result="rendered">

**phase**current I in

**amps**is equal to 1000 times the apparent power S in kilovolt-

**amps**, divided by the square root of

**3**times the line to line RMS voltage V in volts: I (A) = 1000 × S (

**kVA**) / (√

**3**× V L-L (V)) So

**amps**are equal to 1000 times kilovolt-

**amps**divided by the square root of

**3**times volts.

**amps**= 1000 ×

**kVA**/ (√

**3**× volts .... " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="b139e0b9-1925-44ca-928d-7fc01c88b534" data-result="rendered">

**Three**-

**phase**

**kVA to amps**when

**Phase**voltage is known. For

**three**

**phase**, current can be calculated from

**kVA**using the following formula.

**Three**

**phase**current, Current = (

**kVA**X 1000) / (

**3**X Voltage) Kilovolt ampere (

**kVA) to**kilowatts (kW) converter. Kilowatt to kilovolt ampere (kw to

**kVA**) converter. HP to kW converter. kW to HP converter.. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="77573b13-ef45-46fd-a534-d62aa4c27aa3" data-result="rendered">

**three**-

**phase**

**Amps**to

**kVA**conversion is simple, it is

**three**times the per

**phase**apparent power. Below

**three**-

**phase**apparent power formula, we get S(

**kVA**) =

**3**× I(A) × VL-N (V) / 1000 if you take voltage between the line to line means, the

**kVA**become, S(

**kVA**) = 1.732 × I(A) × VL-L (V) / 1000 Example:. " data-widget-type="deal" data-render-type="editorial" data-viewports="tablet" data-widget-id="2f0acf65-e0de-4e64-8c09-a3d3af100451" data-result="rendered">