Difference between revisions of "IPV5135 Motor"
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− | * [http://docs.google.com/Doc?id=dgb6fcnp_34dg4kjh Summary] |
+ | * Siemens 1PV5135 WS28 [http://docs.google.com/Doc?id=dgb6fcnp_34dg4kjh Summary] |
− | * [http://www.automation.siemens.com/ld/bahnen/html_76/elfa/elfa-10.html Siemens' Page] |
+ | * [https://web.archive.org/web/20080616014659/http://www.automation.siemens.com/ld/bahnen/html_76/elfa/elfa-10.html Siemens' Page] |
== Thermal Considerations == |
== Thermal Considerations == |
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+ | |||
[http://www.proev.com ProEV] are running a pair of 5134WS20 motors with a pair of Simovert inverters. They have photos of the [http://proev.com/WHistPgs/Hist0022.htm cooling system] and a [http://proev.com/RRptPgs/R070004e.htm report] that it isn't very effective. They say that at 175C winding temperature, water exits the radiator at 40C and after motors and inverters, returns at only 46C. |
[http://www.proev.com ProEV] are running a pair of 5134WS20 motors with a pair of Simovert inverters. They have photos of the [http://proev.com/WHistPgs/Hist0022.htm cooling system] and a [http://proev.com/RRptPgs/R070004e.htm report] that it isn't very effective. They say that at 175C winding temperature, water exits the radiator at 40C and after motors and inverters, returns at only 46C. |
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+ | |||
+ | == Rotor Time Constant == |
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+ | |||
+ | First guess at this value for our motor (1PV5135-4WS28): |
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+ | |||
+ | <pre> |
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+ | T2 = (L1h + L2sig)/R2 |
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+ | |||
+ | With: |
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+ | L1h = magnetizing inductance (H) |
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+ | L2sig = Rotor leakage inductance (H) |
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+ | R2 = Rotor resistance (Ohm) |
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+ | |||
+ | T = L/r = (L1h + L2sig)/R2 |
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+ | =(6mH + 300 uH)/20mOhm |
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+ | =0.315 H/Ohm |
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+ | </pre> |
Latest revision as of 01:41, 15 October 2019
- Siemens 1PV5135 WS28 Summary
- Siemens' Page
Thermal Considerations
ProEV are running a pair of 5134WS20 motors with a pair of Simovert inverters. They have photos of the cooling system and a report that it isn't very effective. They say that at 175C winding temperature, water exits the radiator at 40C and after motors and inverters, returns at only 46C.
Rotor Time Constant
First guess at this value for our motor (1PV5135-4WS28):
T2 = (L1h + L2sig)/R2 With: L1h = magnetizing inductance (H) L2sig = Rotor leakage inductance (H) R2 = Rotor resistance (Ohm) T = L/r = (L1h + L2sig)/R2 =(6mH + 300 uH)/20mOhm =0.315 H/Ohm