SIEMENS
SINAMICS SM150
Medium-Voltage Converter
SINAMICS SM150 in IGBT version
Water cooling
4/17
Siemens D 12 · 2012
4
■
Technical specifications
SINAMICS SM150 in the IGBT version
Water cooling
6SL3815-7NN38-0AA0
6SL3815-7NN41-0AA1
6SL3815-7NP38-0AA0
6SL3815-7NP41-0AA1
Output voltage
kV
3.3
4.16
Type rating
kVA
4600
5700
5800
7200
Shaft output
1)
kW
3800
4700
4800
5900
hp
4950
6350
6500
8000
Rated output current
A
800
1000
800
1000
Input voltage
kV
3.3
3.3
4.16
4.16
Rated input current
1)
A
822
1027
822
1027
Power loss
2) 3)
kW
102
115
132
145
Efficiency
3)
%
97.3
97.6
97.3
97.6
Typ. current demand
of the auxiliary supply
230 V 1 AC, 50/60 Hz
4)
A
4
4
4
4
Max. current demand
of the auxiliary supply
400 V 3 AC, 50/60 Hz
5)
A
20
20
20
20
Raw water flow rate
l/min
283
283
283
283
Deionized water
requirement, approx.
l
95
95
95
95
Sound pressure level
L
pA
(1 m)
dB
76
76
76
76
Measuring surface level
L
s
(1 m)
dB
19
19
19
19
Cable cross-sections,
line-side, max. connect-
able per phase
6) 7)
mm
2
(DIN VDE)
3 × 240
3 × 240
3 × 240
3 × 240
AWG/MCM
(NEC, CEC)
3 × 500 MCM
3 × 500 MCM
3 × 500 MCM
3 × 500 MCM
Cable cross-sections,
motor-side, max. connect-
able per phase
6) 7)
mm
2
(DIN VDE)
3 × 240
3 × 240
3 × 240
3 × 240
AWG/MCM
(NEC, CEC)
3 × 500 MCM
3 × 500 MCM
3 × 500 MCM
3 × 500 MCM
PE connection,
max. connection cross-
section at the enclosure
with M12 screw
6)
mm
2
(DIN VDE)
4 × 240
4 × 240
4 × 240
4 × 240
AWG/MCM
(NEC, CEC)
4 × 500 MCM
4 × 500 MCM
4 × 500 MCM
4 × 500 MCM
Degree of protection
IP43
IP43
IP43
IP43
Dimensions
8)
• Width
mm
4220
4220
4220
4220
• Height
mm
2280
2280
2280
2280
• Depth
mm
1275
1275
1275
1275
Circuit version
(Page 4/4)
Fig. No.
11
11
11
11
Weight
8)
kg
3500
3500
3500
3500
1)
The data for the rated input current and the power data in hp and kW are
approximate values only; these have been calculated for operation with
synchronous motors for a power factor cos
ϕ
= 1 and a motor efficiency of
96 %. The calculation is based on the rated output current. The rated input
current also depends on the line power factor, for which a typical value of 1
was assumed.
The hp data are based on the NEC and CEC guidelines for the North
American market. The kW values are specified in multiples of 50. Both
approximate values need to be adapted to the motor which is actually
used.
2)
Approx. 5 % of the power loss is dissipated in the room.
3)
Without cooling system.
4)
The typical current drawn (rms value; cos
ϕ
typ.
= 0,6) of the supply for the
converter open-loop/closed-loop control is specified. The separate sup-
plies for the socket outlets/light or switched auxiliary power feeders
(options
N35 to N38
) have not been taken into account. Values for the typ-
ical current drawn for special configurations (e.g. for dimensioning an
upstream UPS) are available on request.
When using options
L48
(make-proof grounding switch at the converter
input),
L49
(make-proof grounding switch at the converter output) or
L51
(disconnector at the converter output), it should further be taken into
account that for switching operations, additional peak values of up to 10 A
can occur for each make-proof grounding switch or disconnector. This
corresponds to the starting current of a motor used to operate a switch,
which decays from approx. 10 A to approx. 2 A in 200 ms. A switching
operation takes a total time of approx. 2 s. All optionally used make-proof
grounding switches or disconnectors are controlled via the manually-
actuated make-proof grounding switch for the converter DC link (standard)
and therefore switch simultaneously!
5)
Additional 20 A precharging current for 25 s.
6)
Data refer to a sub-system; for details about the number of sub-systems to
be connected on the line or motor side,
see Circuit version, Page 4/4
.
7)
The maximum permissible cable lengths must be observed (
see Power
cables, Page 9/13
).
8)
The specified dimensions and weights include doors, panels and cooling
unit, however no options.
© Siemens AG 2012