Overload current 1.5 x rated output current (i.e. 150 % overload capability) for 60 s, cycle time 300 s, and 2 x rated output current (i.e. 200 % overload capability) for 3 s, cycle time 300 s
for inverter 90 kW to 200 kW
Overload current 1.36 x rated output current (i.e. 136 % overload capability) for 57 s, cycle time 300 s, and 1.6 x rated output current (i.e. 160 % overload capability) for 3 s, cycle time 300 s
Overload capability
VT mode
for inverter 5.5 kW to 90 kW
Overload current 1.4 x rated output current (i.e. 140 % overload capability) for 3 s, and 1.1 x rated output current (i.e. 110 % overload capability) for 60 s, cycle time 300 s
for inverter 110 kW to 250 kW
Overload current 1.5 x rated output current (i.e. 150 % overload capability) for 1 s, and 1.1 x rated output current (i.e. 110 % overload capability) for 59 s, cycle time 300 s
Inrush current
not higher than rated input current
Control method
Vector control, torque control, linear V/f characteristic; quadratic V/f characteristic; multipoint characteristic (programmable V/f characteristic); flux current control (FCC)
Pulse frequency
for inverter 0.12 kW to 75 kW
4 kHz (standard); 16 kHz (standard with 230 V inverters 0.12 kW to 5.5 kW) 2 kHz to 16 kHz (in 2 kHz steps)
for inverter 90 kW to 200 kW
2 kHz (standard with VT mode); 4 kHz (standard with CT mode) 2 kHz to 4 kHz (in 2 kHz steps)
Fixed frequencies
15, programmable
Skip frequency ranges
4, programmable
Setpoint resolution
0.01 Hz digital 0.01 Hz serial 10 bit analog
Digital inputs
6 fully programmable isolated digital inputs; switchable PNP/NPN
Analog inputs
2 programmable analog inputs
0 V to 10 V, 0 mA to 20 mA and -10 V to +10 V (AIN1)
0 V to 10 V and 0 mA to 20 mA (AIN2)
both can be used as 7th/8th digital input
Relay outputs
3, programmable 30 V DC/5 A (resistive load) 250 V AC/2A (inductive load)
Analog outputs
2, programmable (0/4 mA to 20 mA)
Serial interfaces
RS-485, optional RS-232
Motor cable lengths
Without output choke
for inverter 0.12 kW to 75 kW
max. 50 m (shielded) max. 100 m (unshielded)
for inverter 90 kW to 250 kW
max. 200 m (shielded) max. 300 m (unshielded)
With output choke
see variant dependent options
Electromagnetic compatibility (see Selection and Ordering Data)
EMC filter, Class A or Class B to EN 55 011 available as an option Inverter with internal filter Class A available
Braking
Resistance braking with DC braking, compound braking, integrated brake chopper (integrated brake chopper only with 0.12 kW to 75 kW inverters)
Degree of protection
IP20
Operating temperature (without derating)
for inverter 0.12 kW to 75 kW
CT: -10 °C to +50 °C (+14 °F to +122 °F) VT: -10 °C to +40 °C (+14 °F to +104 °F)
for inverter 90 kW to 200 kW
0 °C to +40 °C (+32 °F to +104 °F)
Storage temperature
-40 °C to +70 °C (-40 °F to +158 °F)
Relative humidity
95 % (non-condensing)
Installation altitude
for inverter 0.12 kW to 75 kW
up to 1000 m above sea level without derating
for inverter 90 kW to 200 kW
up to 2000 m above sea level without derating
Standard SCCR (Short Circuit Current Rating) 2)
FSA, FSB, FSC: 100 kA FSD, FSE, FSF, FSFX, FSGX: 65 kA
Protection features for
Undervoltage, overvoltage, overload, earth faults, short-circuits, stall prevention, locked motor protection, motor overtemperature, inverter overtemperature, parameter change protection
Compliance with standards
uL, c uL, CE, c-tick
CE marking
Conformity with low-voltage directive 73/23/EEC
Cooling-air volumetric flow required, dimensions and weights (without options)
2) Applies to industrial control cabinet installations to NEC article 409/UL 508A.
Derating data
Pulse frequency
Output
Rated output current in A
for a pulse frequency of
kW
4 kHz
6 kHz
8 kHz
10 kHz
12 kHz
14 kHz
16 kHz
Mains operating voltage 200 V 1/3 AC
0.12 to 5.5
Values correspond to the 4 kHz standard values. No derating, since 16 kHz standard.
7.5
28.0
26.6
25.2
22.4
19.6
16.8
14.0
11
42.0
37.8
33.6
29.4
25.2
21.0
16.8
15
54.0
48.6
43.2
37.8
32.4
27.0
21.6
18.5
68.0
64.6
61.2
54.4
47.6
40.8
34.0
22
80.0
72.0
64.0
56.0
48.0
40.0
32.0
30
104.0
91.0
78.0
70.2
62.4
57.2
52.0
37
130.0
113.8
97.5
87.8
78.0
71.5
65.0
45
154.0
134.8
115.5
104.0
92.4
84.7
77.0
Mains operating voltage 400 V 3 AC
0.37
1.3
1.3
1.3
1.3
1.3
1.2
1.0
0.55
1.7
1.7
1.7
1.6
1.5
1.4
1.2
0.75
2.2
2.2
2.2
2.0
1.8
1.5
1.3
1.1
3.1
2.9
2.8
2.5
2.2
1.9
1.6
1.5
4.1
3.7
3.3
2.9
2.5
2.1
1.6
2.2
5.9
5.6
5.3
4.7
4.1
3.5
3.0
3.0
7.7
6.9
6.2
5.4
4.6
3.9
3.1
4.0
10.2
9.2
8.2
7.1
6.1
5.1
4.1
5.5
13.2
11.9
10.6
9.2
7.9
6.6
5.3
7.5
19.0
18.1
17.1
15.2
13.3
11.4
9.5
11.0
26.0
23.4
20.8
18.2
15.6
13.0
10.4
15.0
32.0
30.4
28.8
25.6
22.4
19.2
16.0
18.5
38.0
34.2
30.4
26.6
22.8
19.0
15.2
22
45.0
40.5
36.0
31.5
27.0
22.5
18.0
30
62.0
58.9
55.8
49.6
43.4
37.2
31.0
37
75.0
67.5
60.0
52.5
45.0
37.5
30.0
45
90.0
76.5
63.0
51.8
40.5
33.8
27.0
55
110.0
93.5
77.0
63.3
49.5
41.3
33.0
75
145.0
112.4
79.8
68.9
58.0
50.8
43.5
90
178.0
-
-
-
-
-
-
110
205.0
-
-
-
-
-
-
132
250.0
-
-
-
-
-
-
160
302.0
-
-
-
-
-
-
200
370.0
-
-
-
-
-
-
Mains operating voltage 500 V 3 AC
0.75
1.4
1.2
1.0
0.8
0.7
0.6
0.6
1.5
2.7
2.2
1.6
1.4
1.1
0.9
0.8
2.2
3.9
2.9
2.0
1.6
1.2
1.0
0.8
4.0
6.1
4.6
3.1
2.4
1.8
1.5
1.2
5.5
9.0
6.8
4.5
3.6
2.7
2.3
1.8
7.5
11.0
8.8
6.6
5.5
4.4
3.9
3.3
11.0
17.0
12.8
8.5
6.8
5.1
4.3
3.4
15.0
22.0
17.6
13.2
11.0
8.8
7.7
6.6
18.5
27.0
20.3
13.5
10.8
8.1
6.8
5.4
22
32.0
24.0
16.0
12.8
9.6
8.0
6.4
30
41.0
32.8
24.6
20.5
16.4
14.4
12.3
37
52.0
39.0
26.0
20.8
15.6
13.0
10.4
45
62.0
52.7
43.4
40.3
37.2
32.6
27.9
55
77.0
67.4
57.8
52.0
46.2
42.4
38.5
75
99.0
84.2
69.3
64.4
59.4
52.0
44.6
Compliance with standards
CE marking
The MICROMASTER inverters meet the requirements of the Low-Voltage Directive 73/23/EEC.
Low-voltage directive
The inverters comply with the following standards listed in the Official Journal of the European Communities:
EN 60 204
Safety of machinery, electrical equipment of machines
EN 61 800-5-1
Electrical power drive systems with variable speed - Part 5-1: Requirements regarding safety - electrical, thermal and energy requirements
Machine directive
The inverters are suitable for installation in machines. Compliance with the machine directive 89/392/EEC requires a separate certificate of conformity. This must be furnished by the plant constructor or the installer of the machine.
EMC directive
EN 61 800-3
Variable-speed electric drives Part 3: EMC product standard including special test procedure.
The new EMC product standard EN 61 800-3 applies to electrical drive systems as of July 1, 2005. The transition period for the preceding standard EN 61 800-3/A11 dated February 2001 ends on October 1, 2007. The following explanations apply to frequency inverters of the 6SE6 series from Siemens:
The EMC product standard EN 61 800-3 does not apply directly to a frequency inverter but to a PDS (Power Drive System), which comprises the complete circuitry, motor and cables in addition to the inverter.
As a rule, frequency inverters are only supplied to qualified technical specialists for installation in machines or plants. A frequency inverter must therefore only be considered as a component which, as such, is not subject to the EMC product standard EN 61 800-3. However, the inverter's instruction manual specifies the conditions under which the product standard can be complied with if the frequency inverter is expanded to become a PDS. For a PDS, the EMC directive in the EU is complied with through observance of the product standard EN 61 800-3 for variable-speed electrical drive systems. The frequency inverters on their own do not generally require marking according to the EMC directive.
The new EN 61 800-3 of July 2005 no longer distinguishes between "general availability" and "restricted availability". Instead, different categories, namely C1 to C4, are defined according to the environment of the PDS at the place of use:
Category C1: Drive systems for rated voltages of < 1000 V for use in the first environment
Category C2: Fixed-location drive systems which are not connected by means of plug-in devices, for rated voltages of < 1000 V. if used in the first environment, installation and start-up may only be carried out by qualified EMC personnel. Warning information must be provided.
Category C3: Drive systems for rated voltages of < 1000 V, solely for use in the second environment. Warning information must be provided.
Category C4: Drive systems for rated voltages of ? 1000 V or for rated currents of ? 400 A or for use in complex systems in the second environment. An EMC plan must be drawn up.
In the EMC product standard EN 61 800-3, limits for conducted interference voltages and radiated interference are also indicated for the so-called "second environment" (= industrial power supply systems which do not supply households). These limits are lower than the limits of filter class A according to EN 55 011. The use of unfiltered inverters in an industrial environment is permissible provided they are part of a system that is equipped with line filters on the higher-level infeed side.
With MICROMASTER, power drive systems (PDS) which comply with EMC product standard EN 61 800-3 can be installed (see the installation instructions in the product documentation). The table entitled "Overview of MICROMASTER components and PDS categories" and the MICROMASTER ordering documents show which components the respective PDS installation supports directly.
In general, a distinction must be made between the product standards for electrical drive systems (PDS) of the EN 61 800 series of standards (of which Part 3 covers EMC topics) and the product standards for devices/systems/machines etc. This will probably not result in any changes in the practical use of frequency inverters. Since frequency inverters are always part of a PDS and the latter is part of a machine, the manufacturer of the machine must observe various standards depending on the type of machine and the environment, e.g. EN 61 000-3-2 for power supply harmonics and EN 55 011 for radio interference. The PDS product standard alone is therefore inadequate or irrelevant.
With regard to compliance with limits for power supply harmonics, the EMC product standard EN 61 800-3 for PDS refers to compliance with the EN 61 000-3-2 and EN 61 000-3-12 standards.
Irrespective of configuration with MICROMASTER and its components, the machine builder can also modify the machines in other ways in order to comply with the EMC directive of the EU. As a rule, the EMC directive of the EU is observed through compliance with the EMC product standards applicable to the machine. If they are not available, the generic standards such as DIN EN 61 000-x-x can be used instead. What is important is that the conducted interference and the radiated interference voltages at the power-supply connection point and outside the machine remain below the corresponding limits. What technical means are used to ensure this is not prescribed.
Overview of MICROMASTER components and PDS categories
First environment (residential, commercial)
Category C1 Unfiltered devices plus external Class B filter with low leakage currents
Category C2 Devices with an integrated Class B filter or devices with an integrated Class A filter plus external supplementary filter Class B or devices with an integrated Class A filter plus warning information or unfiltered devices plus external Class A filter plus warning information
Second environment (industrial)
Category C2 Devices with an integrated Class B filter or devices with an integrated Class A filter plus external supplementary filter Class B or devices with an integrated Class A filter or unfiltered devices plus external Class A filter Note: The requirements of EN 61 800-3 are considerably exceeded if Class B filters are used.
Category C3 Devices with integrated Class A filter or unfiltered devices plus external Class A filter Warning information is necessary. Note: The requirements of EN 61 800-3 are considerably exceeded if Class A filters are used.
Category C4 Unfiltered devices plus external Class A filter An EMC plan must be drawn up. Note: The requirements of EN 61 800-3 are considerably exceeded if Class A filters are used.
Electromagnetic compatibility
No inadmissible electromagnetic emissions occur if the installation instructions specific to the product are correctly observed.
The table below lists the results of measurements relating to the emissions and immunity to interference of MICROMASTER inverters.
The inverters were installed with shielded motor cables and shielded control cables in accordance with the directives.
EMC phenomenon Standard/test
Relevant criteria
Limit value
Emitted interference EN 61 800-3
Conducted via mains cable
150 kHz to 30 MHz
Unfiltered devices, not tested. All devices with an internal/external filter: Depending on the type of filter and on the envisaged PDS installation: Category C1: Limit value complies with EN 55 011, Class B Category C2: Limit value complies with EN 55 011, Class A, Group 1. In addition, all devices with an internal/external filter comply with the limit value for category C3 installations. Limit value complies with EN 55 011, Class A, Group 2.
Emitted by the drive
30 MHz to 1 GHz
All devices. Limit value complies with EN 55 011, Class A, Group 1.
ESD immunity EN 61 000-4-2
ESD through air discharge
Test severity level 3
8 kV
ESD through contact discharge
Test severity level 3
6 kV
Immunity to electrical fields EN 61 000-4-3
Electrical field applied to unit
Test severity level 3
80 MHz to 1 GHz
10 V/m
Immunity to burst interference EN 61 000-4-4
Applied to all cable terminations
Test severity level 4
4 kV
Surge immunity EN 61 000-4-5
Applied to mains cables
Test severity level 3
2 kV
Immunity to RFI emissions, conducted EN 61 000-4-6
Applied to mains, motor and control cables
Test severity level 3 0.15 MHz to 80 MHz 80 % AM (1 kHz)
10 V
UL listing
UL and cUL listed power conversion equipment of UL category NMMS, in accordance with UL508C.
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Àðìàòóðà DENDOR
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Ïíåâìàòè÷åñêîå îáîðóäîâàíèå
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Êðàíû è Êëàïàíû
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Ñèñòåìû áåñïðîâîäíîãî óïðàâëåíèÿ «óìíûé äîì»
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Áåñêîíòàêòíûå âûêëþ÷àòåëè Êîíå÷íûå âûêëþ÷àòåëè Îïòè÷åñêèå äàò÷èêè Ýíêîäåðû
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SKW-FS - Óñòàíîâêà óìÿã÷åíèÿ
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SKW-FK - Óñòàíîâêà îáåçæåëåçèâàíèÿ
