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- 西门子6SL3210-1PE31-5UL0 总代理商
详细信息
型号:总代理商 品牌:西门子 加工定制:是 支持网络:1 针脚数:1 频率特性:1 功率特性:1 外形尺寸:5 mm 应用领域:自动控制;航天 6SL3210-1PE31-5UL0
SINAMICS G120 功率模块 PM 240-2 未过滤 带集成式制动斩波器 380-480V+10/-20% 三相交流 47-63Hz 重过载功率:55kW 当 200% 3S,150% 57S, 100% 240S;环境温度 -20 至 +50°C(HO);功率 轻过载:75kW 当 150% 3S,110% 57S, 100% 240S;环境温度 -20 至 +40°C(LO) 708x 305x 357(高x宽x深),FSF 防护等级 IP20 不带控制单元和 操作单元 批准从 CU 固件- 版本 V4.7 HF8
概述
PM240‑2 Power Modules – 0.55 kW to 250 kW (0.75 hp to 400 hp), IP20 degree of protection
PM240‑2 Power Modules, frame sizes FSA to FSG (with Control Unit and Operator Panel)
The PM240‑2 Power Modules are based on a new hardware platform. This permits an increase in power density as well as the application of innovative cooling concepts (push-through technology) with especially high requirements in terms of control cabinet cooling.
Furthermore, the PM240-2 Power Module is also suitable for use in safety-oriented applications. In conjunction with a fail-safe Control Unit, the drive can be transformed into a Safety Integrated Drive (see section Control Units).
The PM240‑2 Power Modules in frame sizes FSA to FSF are available both with and without an integrated line filter class A of compact design for 200 V, 400 V and 690 V line voltages (except PM240‑2 frame sizes FSD to FSF: 200 V). The PM240‑2 Power Modules in frame size FSG are available with an integrated line filter Category C3 of compact design for 400 V and 690 V line voltages, also with integrated line filter Category C2 for a line voltage of 400 V. In addition, a DC link reactor is integrated in the PM240‑2 Power Modules, frame sizes FSD to FSG, and therefore no line reactor is required.
The PM240-2 Power Modules with integrated line filter class A are suitable for connection to TN supply systems. Power Modules without integrated line filter can be connected to grounded TN/TT systems and non-grounded IT systems.
The PM240‑2 Power Module has an integrated braking chopper. In generating mode, the excess energy of the DC link can be dissipated by means of an optional braking resistor.
The permissible cable lengths between converter and motor are limited (for max. permissible cable lengths, see Integration). Longer cables can be used if output reactors are connected (see section Load-side power components).
Push-through variant
Example: PM240‑2 Power Modules, degree of protection IP20, push-through variant, frame sizes FSD to FSF (with Control Unit and Operator Panel)
The push-through variants in the frame sizes FSA to FSF allow the cooling fins of the Power Modules to be pushed through the rear panel of the control cabinet. Push-through variants should be used in applications where the amount of power loss generated inside the control cabinet itself must be minimized.
Shield plates and shield connection kits are available for use in the wiring installation of Control Units and Power Modules to ensure that it complies with EMC guidelines.
For more information, see Shield connection kits for Control Units and Power Modules in section Supplementary system components.PM250 Power Modules – 7.5 kW to 90 kW (10 hp to 125 hp), IP20 degree of protection
PM250 Power Modules, frame sizes FSC to FSF
PM250 Power Modules are suitable for a large number of applications in general mechanical engineering. Any braking energy is directly fed back into the line supply (four-quadrant applications – a braking chopper is not required).
The PM250 Power Module features an absolutely unique technology – Efficient Infeed Technology. This feature provides the ability to feed energy back into the supply system in the generator mode (electronic braking) so that the energy is not converted into heat in a braking resistor. This saves space in the control cabinet. The time-consuming process of dimensioning the braking resistor and the expense of the extra wiring are eliminated. Furthermore, heat losses in the control cabinet are reduced.
Further, the innovative circuit design reduces the line harmonics. There is no need to use an optional line reactor at the supply infeed. This saves space and costs for engineering and procurement.
The permissible cable lengths between converter and motor are limited (for max. permissible cable lengths, see Integration). Longer cables can be used if output reactors are connected (see section Load-side power components).
Frame sizes FSD to FSF of the PM250 Power Modules are available both with as well as without integrated line filter class A.
For frame size FSC of the PM250 Power Module with an integrated line filter class A, an additional base filter of class B is available for achieving class B (see section Line-side components).
The PM250 Power Module is also designed for safety-oriented applications. In conjunction with a fail-safe Control Unit, the drive can be transformed into a Safety Integrated Drive (see section Control Units).
The PM250 Power Modules with integrated line filter class A are suitable for connection to TN supply systems. Power Modules without integrated line filter can be connected to grounded TN/TT systems and non-grounded IT systems.
Note:
Shield plates and shield connection kits are available for use in the wiring installation of Control Units and Power Modules to ensure that it complies with EMC guidelines.
For more information, see Shield connection kits for Control Units and Power Modules in section Supplementary system components.
集成
All Power Modules have the following connections and interfaces:
- PM‑IF interface to connect the Power Module to the Control Unit. The Power Module also supplies power to the Control Unit using an integrated power supply
- Motor connection using screw terminals or screw studs
- 2 PE/protective conductor connections
- Shield connection plate
Connection example for PM240‑2 Power Modules, frame sizes FSA to FSC, with or without integrated line filter
Connection example for PM240‑2 Power Modules, frame sizes FSD to FSG, with or without integrated line filter
Connection example for PM250 Power Modules with or without integrated line filter
Power and DC link components that are optionally available depending on the Power Module used
The following line-side components, DC link components and load-side power components are optionally available in the appropriate frames sizes for the Power Modules:
Frame size
FSA
FSB
FSC
FSD
FSE
FSF
FSG
PM240‑2 Power Module with integrated braking chopper
- 200 V versions
✓
✓
✓
✓ 1)
✓ 1)
✓ 1)
–
- 400 V versions
✓
✓
✓
✓
✓
✓
✓
- 690 V versions
–
–
–
✓
✓
✓
✓
Line-side components
Line filter class A
F
F
F
F 1)
F 1)
F 1)
–
Line filter class B (only for 400 V versions)
U 2)
U 2)
U 2)
–
–
–
–
Line filters of Category C2 or C3 (for 400 V versions frame size FSG)
–
–
–
–
–
–
I 3)
Line filters of Category C3 (for 690 V versions frame size FSG)
–
–
–
–
–
–
I 3)
Line Harmonics Filters (only for 400 V versions, frame sizes FSD to FSG)
–
–
–
S
S
S
S
Line reactor (only for 3 AC versions 4))
S 5)
S 5)
S 5)
I
I
I
I
DC link components
Braking resistor
S
S
S
S
S
S
S
Load-side power components
Output reactor
S
S
S
S
S
S
S
Sine-wave filters (only for 400 V versions)
S
S
S
–
–
–
–
dv/dt filters plus VPL (only for 400 V versions)
–
–
–
S
S
S
–
dv/dt filters plus VPL (only for 690 V versions 8))
–
–
–
S
S
S
S
PM250 Power Module with line-commutated energy recovery
- 400 V versions
–
–
✓
✓
✓
✓
–
Line-side components
Line filter class A
–
–
I
F
F
F
–
Line filter class B
–
–
U
–
–
–
–
Line reactor 6)
–
–
– 6)
– 6)
– 6)
– 6)
–
DC link components
Braking resistor 7)
–
–
– 7)
– 7)
– 7)
– 7)
–
Load-side power components
Output reactor
–
–
U
S
S
S
–
Sine-wave filter
–
–
U
S
S
S
–
U = Base component
S = Lateral mounting
I = Integrated
F = Power Modules available with and without integrated filter class A
– = Not possible
1) The 200 V versions of the PM240‑2 Power Modules, frame sizes FSD to FSF, are only available without integrated line filter.
2) Lateral mounting is the only possible option for push-through variants.
3) The PM240‑2 Power Modules frame size FSG with an integrated Category C3 filter can also be operated on TN systems with a grounded line conductor. To do so, the grounding screw must be removed. Then Category C3 can no longer be adhered to.
4) With the appropriate wiring, the line reactors for 200 V 3 AC can be used for the 200 V versions for 200 V 1 AC. More information can be found on the internet at:
https://support.industry.siemens.com/cs/document/109486005https://support.industry.siemens.com/cs/document/109482011
5) For frame sizes FSA to FSC, for lines with uk < 1 %, it is recommended that you use a line reactor or the next more powerful Power Module. More information can be found on the internet at:
https://support.industry.siemens.com/cs/document/1094820116) A line reactor is not required and must not be used in conjunction with a PM250 Power Module.
7) A PM250 Power Module is capable of line-commutated energy recovery. A braking resistor cannot be connected and is not necessary.
8) The 690 V versions of the PM240‑2 Power Modules require motors with a suitable isolating system for 690 V converter operation (IVIC‑C premium). The VSD10 line with corresponding SIMOTICS GP 1LE109 General Purpose motors or SIMOTICS SD 1LE159 Severe Duty motors is ideally suited for converter operation at 690 V. Additional information is available in Catalog D 81.1.
General design information
Converter comprising a Power Module (PM), a Control Unit (CU), and base components (side view)
- If at all possible, the line filter should be mounted directly below the converter 1).
- With lateral mounting, the line-side components have to be mounted on the left side of the converter, and the load-side
components on the right side. - Braking resistors have to be mounted directly on the control cabinet wall due to heating issues.
Recommended installation combinations of the converter and optional power and DC link components
Power Module
Base
Lateral mounting
Frame size
Left of the converter
(for line-side components)Right of the converter
(for load-side power components and DC link components)FSA and FSB
Line filters, sine-wave filters
Line reactor
Output reactor and/or
braking resistorFSC
Line filters 1), sine-wave filters
Line reactor
Output reactor and/or
braking resistorFSD and FSE
–
Line filters, Line Harmonics Filters
Output reactor or
sine-wave filter or dv/dt filter plus VPL and/or
braking resistorFSF and FSG
–
Line filters, Line Harmonics Filters
Output reactor or
sine-wave filter or dv/dt filter plus VPL and/or
braking resistor
1) With the PM250 Power Module, frame size FSC, the output reactor and sine-wave filter can be installed as base components. The output reactor or sine-wave filter should be mounted under the line filter.
Maximum permissible cable lengths from the motor to the converter when using output reactors, sine-wave filters, dv/dt filters plus VPL or filters depending on the voltage range and the Power Module being used
Maximum permissible motor cable lengths (shielded/unshielded) in m (ft)
Frame size
FSA
FSB
FSC
FSD
FSE
FSF
FSG
PM240‑2 Power Module with integrated braking chopper
Without optional power components
- 200 V versions without integrated line filter
50/100 (164/328)
50/100 (164/328)
50/100 (164/328)
200/300 (656/984)
200/300 (656/984)
300/450 (984/1476)
–
- 200 V versions with integrated line filter
50/100 (164/328)
50/100 (164/328)
50/100 (164/328)
–
–
–
–
- 400 V versions without integrated line filter
150/150 (492/492)
150/150 (492/492)
150/150 (492/492)
200/300 (656/984)
200/300 (656/984)
300/450 (984/1476)
300/450 (984/1476)
- 400 V versions with integrated line filter
50/100 (164/328)
100/100 1) (328/328) 1)
150/150 1) (492/492) 1)
200/300 (656/984)
200/300 (656/984)
300/450 (984/1476)
300/450 (984/1476)
- 690 V versions
–
–
–
200/300 (656/984)
200/300 (656/984)
300/450 (984/1476)
300/450 (984/1476)
With optional output reactor
- At 200 ... 240 V 1 AC/3 AC
150/225 (492/738)
150/225 (492/738)
150/225 (492/738)
200/300 (656/984) 2)
200/300 (656/984) 2)
300/450 (984/1476) 2)
–
- At 380 ... 415 V 3 AC
150/225 (492/738)
150/225 (492/738)
150/225 (492/738)
200/300 (656/984) 2)
200/300 (656/984) 2)
300/450 (984/1476) 2)
300/450 (984/1476) 2)
- At 440 ... 480 V 3 AC
100/150 (328/492)
100/150 (328/492)
100/150 (328/492)
200/300 (656/984) 2)
200/300 (656/984) 2)
300/450 (984/1476) 2)
300/450 (984/1476) 2)
- At 500 ... 690 V 3 AC
–
–
–
350/525 (1148/1723)
350/525 (1148/1723)
525/800 (1723/2625)
525/800 (1723/2625)
With optional sine-wave filter
- At 380 ... 480 V 3 AC
50/200 (164/656)
50/200 (164/656)
50/200 (164/656)
–
–
–
–
With optional dv/dt filter plus VPL
- At 380 ... 480 V 3 AC
–
–
–
30 kW: 350/525 (1148/1723)
37 kW: 450/650 (1476/2133) 3)
450/650 (1476/2133) 3)
450/650 (1476/2133) 3)
–
- At 500 ... 690 V 3 AC
–
–
–
350/525 (1148/1723)
350/525 (1148/1723)
450/650 (1476/2133) 3)
450/650 (1476/2133) 3)
With integrated line filter
According to EN 55011 to comply with radio interference emissions according to EN 61800‑3 EMC Category C2
- At 200 ... 240 V 1 AC/3 AC
50/– (164/–)
50/– (164/–)
50/– (164/–)
–
–
–
–
- At 380 ... 480 V 3 AC
50/– (164/–)
100/– (328/–) 4)
150/– (492/–) 4)
150/– (492/–)
150/– (492/–)
150/– (492/–)
150 /– (492/–) Category
C2)
300 /– (984/–) (Category
C3 5))
- At 500 ... 690 V 3 AC
–
–
–
100/– (328/–)
100/– (328/–)
150 /– (492/–) (Category C3)
300 /– (984/–) (Category
C3 5))
With optional, external line filter class B
According to EN 55011 to comply with conducted radio interference emissions according to EN 61800‑3 EMC Category C1 6), together with unfiltered Power Module
- At 380 ... 480 V 3 AC
50/– (164/–)
50/– (164/–)
50/– (164/–)
–
–
–
–
With optional, external line filter class B
According to EN 55011 to comply with conducted radio interference emissions according to EN 61800-3 EMC Category C2 6), together with unfiltered Power Module
- At 380 ... 480 V 3 AC
150/– (492/–) 4)
100/– (328/–) 4)
100/– (328/–) 4)
–
–
–
–
With optional, external line filter class B
According to EN 55011 and optional output reactor to comply with radio interference emissions according to EN 61800‑3 EMC Category C2 6), together with unfiltered Power Module
- At 380 ... 415 V 3 AC
150/– (492/–)
150/– (492/–)
150/– (492/–)
–
–
–
–
- At 440 ... 480 V 3 AC
100/– (328/–)
100/– (328/–)
100/– (328/–)
–
–
–
–
PM250 Power Module with line-commutated energy recovery
Without optional power components
–
–
25/100 (82/328)
50/100 (164/328) 7)
50/100 (164/328) 7)
50/100 (164/328) 7)
–
With optional output reactor
- At 380 ... 400 V 3 AC
–
–
150/225 (492/738)
200/300 (656/984)
200/300 (656/984)
200/300 (656/984)
–
- At 401 ... 480 V 3 AC
–
–
100/150 (328/492)
200/300 (656/984)
200/300 (656/984)
200/300 (656/984)
–
With optional sine-wave filter
- At 380 ... 480 V 3 AC
–
–
200/300 (656/984)
200/300 (656/984)
200/300 (656/984)
200/300 (656/984)
–
1) The values apply with low-capacitance CY cables – the max. permissible motor cable length is 50 m (164 ft) (shielded) and 100 m (328 ft) (unshielded) as standard.
2) For frame sizes FSD to FSG the maximum permissible cable lengths are not increased with an output reactor. By means of the output reactor, the loading of the motor windings is reduced by lower rates of voltage rise (dv/dt). By means of two output reactors connected in series, the maximum permissible cable lengths for frame sizes FSD and FSE are increased to 350 m (1148 ft) (shielded) and 525 m (1723 ft) (unshielded), and for frame sizes FSF and FSG to 525 m (1723 ft) (shielded) and 800 m (2625 ft) (unshielded).
3) Maximum overvoltage at the motor terminals <1350 V with cable lengths up to 450 m (1476 ft) shielded or 650 m (2133 ft) unshielded – maximum overvoltage at the motor terminals <1500 V with cable lengths up to 525 m (1723 ft) shielded or 800 m (2625 ft) unshielded.
4) The values apply with low-capacitance CY cables - the max. permissible motor cable length is 50 m (164 ft) (shielded) as standard.
5) The 690 V versions of the PM240‑2 Power Modules frame size FSG are only available with an integrated Category C3 filter. To operate the converter also within TN systems with grounded outer conductor, you must remove the grounding screw.
6) More information is available on the internet at
www.siemens.com/sinamics-g120/documentation7) Max. motor cable length 25 m (82 ft) (shielded) for Power Modules with integrated line filter to maintain the limit values acc. to EN 61800‑3 Category C2.
技术规范
General technical specifications
Power Modules
PM240‑2
PM250
System operating voltage
FSA ... FSC:
200 … 240 V 1 AC/3 AC ±10 %
380 … 480 V 3 AC ±10 %FSD ... FSG:
200 … 240 V 3 AC ±10 % (in operation -20 % < 1 min)
380 ... 480 V 3 AC ±10 % (in operation -20 % < 1 min)
500 … 690 V 3 AC ±10 % (in operation -20 % < 1 min)380 ... 480 V 3 AC ±10 %
Line supply requirements
Short-circuit power ratio RSC200 V: >25
With RSC >50 it is advisable for FSA to FSC to install a line reactor, or alternatively, to select a Power Module with the next-higher power rating.
400 V: >25
With RSC >100 it is advisable for FSA to FSC to install a line reactor, or alternatively, to select a Power Module with the next-higher power rating.
690 V: No restriction
>100
Input frequency
47 ... 63 Hz
Output frequency
- Control mode V/f
0 ... 550 Hz
- Control mode Vector
0 ... 240 Hz
Pulse frequency
200 V: 4 kHz
400 V: ≤90 kW: 4 kHz; >90 kW: 2 kHz
690 V: 2 kHz
For higher pulse frequencies, see derating data
4 kHz
For higher pulse frequencies, see derating data
Power factor λ
FSA ... FSC:
0.7 ... 0.85FSD ... FSG:
- 200 V: >0.95
- 400 V and 690 V: >0.90.9
Offset factor cos φ
FSA ... FSC: >0.96
FSD ... FSG: 0.98 ... 0.99
0.95 capacitive
Converter efficiency
According to IEC 61800-9-2
200 V: >96.2 ... 97.1 %
400 V: >96.0 ... 98.0 %
690 V: >97.3 ... 98.2 %
96.5 ... 97.6 % 1)
Efficiency class
According to IEC 61800-9-2
IE2
IE2 1)
Output voltage, max.
as % of input voltage
95 %
87 %
Overload capability
- Low overload
(LO)
Note:
No reduction in base-load current IL for use of overload.
1.5 × base-load current IL (i.e. 150 % overload) for 3 s plus 1.1 × base-load current IL (i.e. 110 % overload) for 57 s within a cycle time of 300 s
1.5 × base-load current IL (i.e. 150 % overload) for 3 s plus 1.1 × base-load current IL (i.e. 110 % overload) for 57 s within a cycle time of 300 s
- High overload
(HO)
Note:
No reduction in base-load current IH for use of overload.
2 × base-load current IH (i.e. 200 % overload) for 3 s plus 1.5 × base-load current IH (i.e. 150 % overload) for 57 s within a cycle time of 300 s
2 × base-load current IH (i.e. 200 % overload) for 3 s plus 1.5 × base-load current IH (i.e. 150 % overload) for 57 s within a cycle time of 300 s
Possible braking methods
DC braking
Compound braking
Dynamic braking with integrated braking chopper
Energy recovery in generator operation
(max. with rated power based on high overload (HO))Degree of protection
IP20 (standard or push-through)
IP20
Operating temperature
- Low overload
(LO)
Frame sizes FSA ... FSC:
-10 ... +40 °C (14 ... 104 °F) without derating
>40 ... 60 °C (>104 ... 140 °F) see derating characteristicsFrame sizes FSD ... FSG:
-20 ... +40 °C (-4 ... +104 °F) without derating
>40 ... 60 °C (>104 ... 140 °F) see derating characteristics0 ... 40 °C (32 ... 104 °F) without derating
>40 ... 60 °C (>104 ... 140 °F) see derating characteristics- High overload
(HO)
Frame sizes FSA ... FSC:
-10 ... +50 °C (14 ... 122 °F) without derating
>50 ... 60 °C (>122 ... 140 °F) see derating characteristicsFrame sizes FSD ... FSG:
-20 ... +50 °C (-4 ... +122 °F) without derating
>50 ... 60 °C (>122 ... 140 °F) see derating characteristics0 ... 50 °C (32 ... 122 °F) without derating
>50 ... 60 °C (>122 ... 140 °F) see derating characteristicsRelative air humidity
< 95 % RH, condensation not permissible
Cooling
Internal air cooling, power units with increased air cooling by built-in fans
Internal air cooling, power units with increased air cooling by built-in fans
Installation altitude
Up to 1000 m (3281 ft) above sea level without derating,
> 1000 m (3281 ft) see derating characteristicsUp to 1000 m (3281 ft) above sea level without derating,
> 1000 m (3281 ft) see derating characteristicsProtection functions
- Undervoltage
- Overvoltage
- Overload
- Ground fault
- Short-circuit
- Stall protection
- Motor blocking protection
- Motor overtemperature
- Converter overtemperature
- Parameter locking
Short-Circuit Current Rating SCCR
according to UL
(Short-Circuit Current Rating) 2)200 V: 100 kA
400 V: 100 kA
690 V: 100 kA
FSC: 40 kA
FSD … FSF: 42 kA
Compliance with standards
CE, UKCA, cULus, RCM, SEMI F47, RoHS, EAC
KC (only with internal or external line filters Category C2)For frame size FSD ... FSG also: WEEE (Waste Electrical & Electronic Equipment)
CE, UKCA, UL, cUL, RCM, SEMI F47, RoHS, EAC
KC (only with internal or external line filters Category C2)CE marking, according to
Low-Voltage Directive 2014/35/EU
Ecodesign requirements of the EU Directive 2019/1781 1)
EMC Directive 2014/30/EU
1) The SINAMICS G120 frequency converters fall under the ecodesign requirements of the EU Directive 2019/1781; however, the SINAMICS G120 frequency converters with PM250 Power Modules are considered to be frequency converters with regenerative feedback functionality. Therefore, no efficiency requirements apply in this case.
2) Applies to industrial control panel installations to NEC Article 409 or UL 508A.
PM240‑2 Power Modules standard variant
Line voltage 200 ... 240 V 1 AC/3 AC
PM240‑2 Power Modules standard variant
Without integrated line filter
6SL3210-1PB13-0UL0
6SL3210-1PB13-8UL0
6SL3210-1PB15-5UL0
6SL3210-1PB17-4UL0
6SL3210-1PB21-0UL0
With integrated line filter class A
6SL3210-1PB13-0AL0
6SL3210-1PB13-8AL0
6SL3210-1PB15-5AL0
6SL3210-1PB17-4AL0
6SL3210-1PB21-0AL0
Output current
at 50 Hz 230 V 1 AC
- Rated current IN1)
A
3.2
4.2
6
7.4
10.4
- Base-load current IL1)
A
3.2
4.2
6
7.4
10.4
- Base-load current IH2)
A
2.3
3.2
4.2
6
7.4
- Maximum current Imax
A
4.6
6
8.3
11.1
15.6
Rated power
- Based on IL
kW (hp)
0.55 (0.75)
0.75 (1)
1.1 (1.5)
1.5 (2)
2.2 (3)
- Based on IH
kW (hp)
0.37 (0.50)
0.55 (0.75)
0.75 (1)
1.1 (1.5)
1.5 (2)
Rated pulse frequency
kHz
4
4
4
4
4
Efficiency η
According to IEC 61800-9-2
%
>96.2
>96.4
>96.7
>96.4
>96.3
Power loss 3)
According to IEC 61800-9-2
At rated currentkW
0.037
0.046
0.061
0.082
0.118
Cooling air requirement
m3/s (ft3/s)
0.005 (0.18)
0.005 (0.18)
0.0092 (0.32)
0.0092 (0.32)
0.0092 (0.32)
Sound pressure level
L pA (1 m)
dB
<50
<50
<62
<62
<62
Input current 4)
- Rated input current 1 AC/3 AC
A
7.5/4.2
9.6/5.5
13.5/7.8
18.1/9.7
24/13.6
- Based on IH 1 AC/3 AC
A
6.6/3
8.4/4.2
11.8/5.5
15.8/7.8
20.9/9.7
Line supply connection
U1/L1, V1/L2, W1/L3
Terminal connector
Terminal connector
Terminal connector
Terminal connector
Terminal connector
- Conductor cross-section
mm2
1.5 ... 2.5
1.5 ... 2.5
1.5 ... 6
1.5 ... 6
1.5 ... 6
Motor connection
U2, V2, W2
Terminal connector
Terminal connector
Terminal connector
Terminal connector
Terminal connector
- Conductor cross-section
mm2
1.5 ... 2.5
1.5 ... 2.5
1.5 ... 6
1.5 ... 6
1.5 ... 6
PE connection
Included in terminal connector
Included in terminal connector
Included in terminal connector
Included in terminal connector
Included in terminal connector
Motor cable length, max.
- Shielded
m (ft)
50 (164)
50 (164)
50 (164)
50 (164)
50 (164)
- Unshielded
m (ft)
100 (328)
100 (328)
100 (328)
100 (328)
100 (328)
Degree of protection
IP20
IP20
IP20
IP20
IP20
Dimensions
- Width
mm (in)
73 (2.87)
73 (2.87)
100 (3.94)
100 (3.94)
100 (3.94)
- Height
mm (in)
196 (7.72)
196 (7.72)
292 (11.50)
292 (11.50)
292 (11.50)
- Depth
- Without operator panel
mm (in)
165 (6.50)
165 (6.50)
165 (6.50)
165 (6.50)
165 (6.50)
- With operator panel, max.
mm (in)
238 (9.37)
238 (9.37)
238 (9.37)
238 (9.37)
238 (9.37)
Frame size
FSA
FSA
FSB
FSB
FSB
Weight, approx.
- Without integrated line filter
kg (lb)
1.4 (3.09)
1.4 (3.09)
2.8 (6.17)
2.8 (6.17)
2.8 (6.17)
- With integrated line filter
kg (lb)
1.6 (3.53)
1.6 (3.53)
3.1 (6.84)
3.1 (6.84)
3.1 (6.84)
1) The rated output current IN and the base-load current IL are based on the duty cycle for low overload (LO).
2) The base-load current IH is based on the duty cycle for high overload (HO).
3) Typical values. You can find more information on the internet at:
https://support.industry.siemens.com/cs/document/94059311
4) The input current depends on the motor load and line impedance. The input currents apply for a load at rated power (based on IN) for a line impedance corresponding to uK = 1 %. The current values are specified on the rating plate of the Power Module.
Line voltage 200 ... 240 V 1 AC/3 AC
PM240‑2 Power Modules standard variant
Without integrated line filter
6SL3210-1PB21-4UL0
6SL3210-1PB21-8UL0
With integrated line filter class A
6SL3210-1PB21-4AL0
6SL3210-1PB21-8AL0
Output current
at 50 Hz 230 V 1 AC
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