Catalog PM 21 2013 - Siemens Industry, Inc.
Catalog PM 21 2013 - Siemens Industry, Inc.
Catalog PM 21 2013 - Siemens Industry, Inc.
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
© <strong>Siemens</strong> AG <strong>2013</strong><br />
SINAMICS S120 drive system<br />
Power Modules and line-side components<br />
Liquid-cooled Power Modules<br />
in chassis format<br />
■ Technical specifications<br />
Liquid-cooled Power Module in chassis format<br />
6SL3315-1TE3...<br />
Line connection voltage<br />
380 … 480 V 3 AC ±10 % (in operation -15 % < 1 min)<br />
(up to 2000 m (6562 ft) above sea level)<br />
Line<br />
Grounded TN/TT systems and non-grounded IT systems<br />
Line frequency<br />
47 … 63 Hz<br />
Line power factor<br />
with a 3 AC connection voltage and rated power<br />
• Fundamental power factor (cos ϕ 1 ) > 0.96<br />
•Total (λ) 0.75 … 0.93<br />
Overvoltage category<br />
Class III<br />
acc. to EN 61800-5-1<br />
Precharging frequency<br />
No limitation<br />
of the DC link<br />
DC link voltage, approx.<br />
1.35 × line voltage<br />
Output frequency<br />
• Control type Servo 0 … 650 Hz 1)<br />
• Control type Vector 0 … 300 Hz 1)<br />
• Control type V/f 0 … 600 Hz 1)<br />
Electronics power supply 24 V DC -15 %/+20 %<br />
Main contactor control<br />
Terminal strip X9/5-6<br />
240 V AC/ max. 8 A<br />
30 V DC/ max. 1A<br />
Radio interference suppression<br />
• Standard (in combination with line reactor) Category C3 to EN 61800-3<br />
Type of cooling<br />
Liquid cooling with integrated heat exchanger in stainless-steel version<br />
Coolant 2)<br />
• pH value<br />
• Chloride<br />
• Sulfate<br />
• Hardness<br />
• Conductivity<br />
• Colony number<br />
• Max. size of entrained particles<br />
Cooling circuit<br />
• System pressure with reference to the atmospheric pressure, max.<br />
• Pressure drop at rated volumetric flow<br />
• Recommended pressure range<br />
• Inlet temperature of liquid coolant<br />
Permissible ambient temperature (air) during operation<br />
Installation altitude<br />
Conformity<br />
Approvals, according to<br />
Safety Integrated<br />
6.0 … 9.0<br />
< 200 mg/l<br />
< 240 mg/l<br />
< 2.5 mmol/l 3)<br />
< 2000 μS/cm<br />
< 1000 col/ml 4)<br />
< 100 μm<br />
600 kPa<br />
70 kPa<br />
80 … 200 kPa<br />
Dependent on the ambient temperature, condensation is not permitted<br />
0 … 45 °C (32 … 113 °F) without derating<br />
> 45 … 50 °C (113 … 122 °F) see derating characteristics<br />
(temperature range between 0 °C and 5 °C (32 … 41 °F) with anti-freeze<br />
only; recommended anti-freeze: Antifrogen N from Clariant)<br />
Dependent on the inlet temperature of the coolant,<br />
condensation is not permissible<br />
0 … 45 °C (32 … 113 °F) without derating<br />
> 45 … 50 °C (113 … 122 °F) see derating characteristics<br />
Up to 2000 m (6562 ft) above sea level without derating,<br />
> 2000 ... 4000 m (6562 ... 13124 ft) above sea level,<br />
see derating characteristics<br />
CE (Low Voltage and EMC Directives)<br />
cULus<br />
Safety Integrity Level 2 (SIL 2) acc. to IEC 61508, Performance Level d (PLd)<br />
acc. to ISO 13849-1 and Control Category 3 acc. to ISO 13849-1 or EN 954-1.<br />
For further information, see chapter Safety Integrated.<br />
3<br />
1) Note the correlation between max. output frequency, pulse frequency and current derating.<br />
For further information see chapter System description – Dimensioning.<br />
2) The values are applicable to coolant (water) without the addition of anti-freeze or inhibitors. When anti-freeze or inhibitors are added, the specifications of the<br />
manufacturer regarding water quality must be observed. The proportion of anti-freeze must not exceed a minimum concentration, otherwise the coolant has a<br />
marked corrosive effect. In the case of Antifrogen N, the recommended range of the ratio of Antifrogen N to water lies between 20/80 and 45/55 Vol.%<br />
3) The hardness of the coolant, especially the concentration of calcium compounds should be kept to a minimum to prevent the build-up of damaging calcium<br />
deposits (lime scale). A hardness < 1.5 mmol/l is recommended.<br />
4) The number of microbes should generally be as low as possible to prevent damage as a result of slime-producing, iron-depositing, corroding bacteria. In<br />
closed coolant circuits, the accumulation of microbes can be prevented, for example, by adding anti-freeze. The concentration of anti-freeze must only reach<br />
a minimum level to prevent corrosion, see Footnote 2) .<br />
<strong>Siemens</strong> <strong>PM</strong> <strong>21</strong> · <strong>2013</strong><br />
3/55