Siemens
ÑÐÅÄÑÒÂÀ ÏÐÎÌÛØËÅÍÍÎÉ ÀÂÒÎÌÀÒÈÇÀÖÈÈ
îôèöèàëüíûé ïàðòíåð Ñèìåíñ
Êàòàëîã ÑÀ01 2018
(4872) 700-366
skenergo@mail.ru

Unless explicitly specified otherwise, the following technical specifications are valid for all the following components of the SINAMICS G120P and SINAMICS G120P Cabinet pump, fan, compressor converters.

SINAMICS G120P

Mechanical specifications

Vibratory load

 

  • Storage acc. to EN 60721‑3‑1

 

  • Drives and components, frame sizes FSA to FSF

Class 1M2

Deflection: 1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • Drives and components, frame sizes GX to JX

Class 1M2

Deflection: 1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • SINAMICS G120P Cabinet

Class 1M2

Deflection: 1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • Transport 1) acc. to EN 60721-3-2

 

  • Drives and components, frame sizes FSA to FSC 2)

Class 2M2

  • Drives and components, frame sizes FSD to FSF 2)

Class 2M3

  • Drives and components, frame sizes GX to JX

Test FC according to EN 60068‑2‑6

Deflection: ±1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • SINAMICS G120P Cabinet

Class 2M2

  • Operation acc. to EN 60721‑3‑3

 

  • Drives and components, frame sizes FSA to FSF

Class 3M1

  • Drives and components, frame sizes GX to JX

Test FC according to EN 60068‑2‑6

Deflection: 0.075 mm at 10 ... 58 Hz
Acceleration:10 m/s2 (1 Ã— g) at 58 ... 200 Hz

  • SINAMICS G120P Cabinet

Class 3M2

Shock load

 

  • Storage acc. to EN 60721‑3‑1

 

  • Drives and components, frame sizes FSA to FSF

Class 1M2

  • Drives and components, frame sizes GX and JX

Test FC according to EN 60068‑2‑6

Deflection: ±1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • SINAMICS G120P Cabinet

Class 1M2

Acceleration: 40 m/s2 (4 Ã— g) at 22 ms

  • Transport 1) acc. to EN 60721-3-2

 

  • Drives and components, frame sizes FSA to FSC 2)

Class 2M2

  • Drives and components, frame sizes FSD to FSF 2)

Class 2M3

  • Drives and components, frame sizes GX to JX

Test FC according to EN 60068‑2‑6

Deflection: ±1.5 mm at 5 ... 9 Hz
Acceleration: 0.5 Ã— g at 9 ... 200 Hz

  • SINAMICS G120P Cabinet

Class 2M2

  • Operation acc. to EN 60721‑3‑3

 

  • Drives and components, frame sizes FSA to FSC

Class 3M2

  • Drives and components, frame sizes FSD to FSF

Class 3M1

  • Drives and components, frame sizes GX and JX

Test Ea according to EN 60068‑2‑27

Acceleration: 49 m/s2 (5 Ã— g) at 30 ms
or 147 m/s2 (15 Ã— g) at 11 ms

  • SINAMICS G120P Cabinet

Class 3M2

Ambient conditions

Protection class

According to EN 61800‑5‑1

Class I (with protective conductor system) and class III (PELV)

Touch protection

According to EN 50274 and DGUV Regulation 3 when used for the intended purpose

Permissible ambient and coolant temperature (air) during operation for line-side power components and Power Modules

 

  • Low overload (LO)

Frame sizes FSA to FSC: -10 ... +40 °C (14 ... 104 °F) without derating
Frame sizes FSD to FSF (PM230): 0 ... 40 °C (32 ... 104 °F) without derating
Frame sizes FSD to FSF (PM240P-2): -20 ... +40 °C (-4 ... +104 °F) without derating
Frame sizes FSA to FSF: >40 ... 60 °C (>104 ... 140 °F) see derating characteristics

Frame size GX to JX: 0 ... 45 °C (32 ... 113 °F) without derating
>45 ... 55 °C (>113 ... 131 °F) see derating characteristics

SINAMICS G120P Cabinet 0 ... 40 °C (32 ... 104 °F) without derating
>40 ... 50 °C (>104 ... 122 °F) see derating characteristics

  • High overload (HO)

Frame sizes FSA to FSC: -10 ... +50 °C (14 ... 122 °F) without derating
Frame sizes FSD to FSF (PM230): 0 ... 50 °C (32 ... 122 °F) without derating
Frame sizes FSD to FSF (PM240P-2): -20 ... +50 °C (-4 ... +122 °F) without derating
>50 ... 60 °C (>122 ... 140 °F) see derating characteristics

Frame size GX to JX: 0 ... 45 °C (32 ... 113 °F) without derating
>45 ... 55 °C (>113 ... 131 °F) see derating characteristics

SINAMICS G120P Cabinet 0 ... 40 °C (32 ... 104 °F) without derating
>40 ... 50 °C (>104 ... 122 °F) see derating characteristics

Installation altitude

Up to 1000 m (3281 ft) above sea level without derating,
> 1000 m (3281 ft) see derating characteristics

Permissible ambient and coolant temperature (air) during operation for Control Units and supplementary system components

With CU230P‑2 HVAC/DP with/without blanking cover: -10 ... +60 °C (14 ... 140 °F)

With CU230P‑2 PN with/without blanking cover: -10 ... +55 °C (14 ... 131 °F)

With IOP‑2/BOP‑2: 0 ... 50 °C (32 ... 122 °F)

Derating of 3 K/1000 m applies to Control Units as of an installation altitude of 1000 m (3281 ft) above sea level.

Climatic ambient conditions

 

  • Storage 1) acc. to EN 60721‑3‑1

 

  • Drives and components, frame sizes FSA to FSF for PM230

Temperature -40 ... +70 °C (-40 ... +158 °F)
Relative air humidity <95 %, condensation not permissible

  • Drives and components, frame sizes FSD to FSF for PM240P-2

Class 1K3
Temperature -25 ... +55 °C (-13 ... +131 °F)
Relative air humidity 5 ... 95 %, condensation not permissible

  • Drives and components, frame sizes GX to JX and SINAMICS G120P Cabinet

Class 1K4
Temperature -25 ... +55 °C (-13 ... +131 °F)
Relative air humidity 5 ... 95 %, condensation not permissible

  • Transport 1) acc. to EN 60721-3-2

 

  • Drives and components, frame sizes FSA to FSF

Class 2K4
Temperature -40 ... +70 °C (-40 ... +158 °F)
Max. air humidity 95 % at 40 °C (104 °F)

  • Drives and components, frame sizes GX to JX and SINAMICS G120P Cabinet

Class 2K3
Temperature -25 ... +70 °C (-13 ... +158 °F), -40 °C (104 °F) permissible for 24 h
Relative air humidity 5 ... 95 % at 40 °C (104 °F)

  • Operation acc. to EN 60721‑3‑3

 

  • Drives and components, frame sizes FSA to FSF

Class 3K3
Condensation, splashwater, and ice formation not permitted (EN 60204, Part 1)

  • Drives and components, frame sizes GX to JX

Class 3K3
Temperature 0 ... 45 °C (32 ... 113 °F), up to 55 °C (131 °F) with derating
Relative air humidity 5 ... 95 %
Condensation, splashwater and ice formation are not permitted (EN 60204, Part 1)

  • SINAMICS G120P Cabinet

Class 3K3
Temperature 0 ... 40 °C (32 ... 104 °F), up to 50 °C (122 °F) with derating
Relative air humidity 5 ... 95 %
Condensation, splashwater and ice formation are not permitted (EN 60204, Part 1)

Environmental class/harmful chemical substances

 

  • Storage 1) acc. to EN 60721‑3‑1

Class 1C2

  • Transport 1) acc. to EN 60721-3-2

Class 2C2

  • Operation acc. to EN 60721‑3‑3

Class 3C2

Organic/biological influences

 

  • Storage 1) acc. to EN 60721‑3‑1

Class 1B1

  • Transport 1) acc. to EN 60721-3-2

Class 2B1

  • Operation acc. to EN 60721‑3‑3

Class 3B1

Degree of pollution

According to EN 61800‑5‑1

2

Standards

Compliance with standards

 

  • Drives and components, frame sizes FSA to FSF

UL 3), cUL 4), CE, RCM, SEMI F47

  • Drives, frame sizes GX to JX

cULus, CE, RCM, EAC, KC, SEMI F47 5)

  • SINAMICS G120P Cabinet

CE, RCM, EAC, KC, SEMI F47 5)

CE marking

According to Low Voltage Directive 2014/35/EU, EMC Directive 2014/30/EU

EMC Directive

According to EN 61800-3

 

  • PM230: Frame sizes FSA to FSF with integrated line filter class A, degree of protection IP20/UL Open Type and IP55/UL Type 12

The Power Modules comply with Category C2 according to EN 61800‑3.

  • PM230: Frame sizes FSA to FSF with integrated line filter class B, degree of protection IP55/UL Type 12

The Power Modules comply with the limit values for low-frequency line harmonics and conducted interference according to Category C1. They comply with the limit values for field-conducted interference emissions according to Category C2.

  • PM240P-2: Frame sizes FSD to FSF (380 ... 480 V 3 AC) with integrated line filter class A

The Power Modules comply with Category C2 according to EN 61800‑3.

  • PM240P-2: Frame size FSF (500 ... 690 V 3 AC) with integrated line filter class A

The Power Modules comply with Category C3 according to EN 61800‑3.

  • PM330: Frame sizes GX to JX

Category C3 6)

  • PM330: Frame sizes GX to JX with additional line filter class A

Category C2 7)

  • SINAMICS G120P Cabinet

Category C3 8)

  • SINAMICS G120P Cabinet with additional line filter class A

Category C2 8)



Deviations from the specified classes are underlined.

1) In transport packaging.

2) In product packaging.

3) For degree of protection IP55/UL Type 12, the UL approval only applies to frame sizes FSA to FSC.

4) Applies to PM230 Power Modules frame sizes FSA to FSC and PM240P-2 Power Modules with integrated line filter class A.

5) SEMI F47 for PM330 Power Modules, frame sizes HX (500 V to 690 V) and JX, available soon.

6) Standard configuration: Devices installed in the control cabinet with EMC-compatible configuration, line reactor uK = 2 %, shielded motor cable (e.g. Protoflex EMC) with max. 150 m cable length. Line harmonics acc. to EN 61000‑2‑4: Class 3, THD(U) total = 10 % for typical line conditions (RSC > 10);THD(I) total: typically 30 ... 45 % (15 > RSC > 50).

7) Use in the second environment, for boundary conditions refer to 6).

8)For boundary conditions refer to 6), cabinet is configured accordingly in version A.

Note:

The EMC product standard EN 61800-3 does not apply directly to a frequency converter but to a PDS (Power Drive System), which comprises the complete circuitry, motor and cables in addition to the converter. The frequency converters on their own do not generally require identification according to the EMC Directive.

Compliance with standards

CE marking

The SINAMICS G120P and SINAMICS G120P Cabinet converters meet the requirements of the Low-Voltage Directive 2014/35/EC.

Low-Voltage Directive

The converters comply with the following standards listed in the official journal of the EU:

  • EN 60204
    Safety of machinery, electrical equipment of machines
  • EN 61800‑5‑1
    Electrical power drive systems with variable speed – Part 5‑1: Requirements regarding safety – electrical, thermal, and energy requirements

UL listing

Converters in UL category NMMS certified to UL and cUL, in compliance with UL508C or ULC61800‑5‑1. UL File Number E121068 and E192450.

For use in environments with pollution degree 2.

See also on the Internet at http://www.ul.com

Machinery directive

The converters are suitable for installation in machines. Compliance with the Machinery Directive 2006/42/EC requires a separate certificate of conformity. This must be provided by the plant construction company or the organization marketing the machine.

Functional safety

SINAMICS G120P and SINAMICS G120P Cabinet are not intended for use in installations with functional safety as defined by ISO 13849‑1, IEC 61508‑x.

EMC Directive

  • EN 61800‑3
    Variable-speed electric drives
    Part 3: EMC product standard including specific test methods

The following explanatory information applies to SINAMICS G120P and SINAMICS G120P Cabinet converters supplied by Siemens AG:

  • The EMC product standard EN 61800-3 does not apply directly to a converter but to a PDS (Power Drive System), which comprises the complete circuitry, motor and cables in addition to the converter.
  • Converters are normally only supplied to experts for installation in machines or systems. A converter must, therefore, only be considered as a component which, on its own, is not subject to the EMC product standard EN 61800-3. The converter's operating instructions, however, specifies the conditions regarding compliance with the product standard if the converter is expanded to become a PDS. For a PDS, the EMC Directive in the EU is complied with by observing the product standard EN 61800-3 for variable-speed electric drive systems. The converters on their own do not generally require identification according to the EMC Directive.
  • Different categories C1 to C4 have been defined in accordance with the environment of the PDS at the operating location:
    • Category C1: Drive systems for rated voltages < 1000 V for use in the first environment
    • Category C2: Stationary drive systems not connected by means of a plug connector for rated voltages < 1000 V. When used in the first environment, the system must be installed and commissioned by personnel familiar with EMC requirements. A warning note is required.
    • Category C3: Drive systems for rated voltages < 1000 V for exclusive use in the second environment. A warning note is required.
    • Category C4: Drive systems for rated voltages ≥ 1000 V or for rated currents ≥ 400 A or for use in complex systems in the second environment. An EMC plan must be created.
  • The EMC product standard EN 61800‑3 also defines limit values for conducted interference and radiated interference for the "second environment" (= industrial power supply systems that do not supply households). These limit values are below the limit values of filter class A to EN 55011. Unfiltered converters can be used in industrial environments as long as they are part of a system that contains line filters on the higher-level infeed side.
  • With SINAMICS G120P and SINAMICS G120P Cabinet, Power Drive Systems (PDS) that fulfill the EMC product standard EN 61800-3 can be configured when observing the installation instructions in the product documentation.
  • A differentiation must be made between the product standards for electrical drive systems (PDS) of the range of standards EN 61800 (of which Part 3 covers EMC topics) and the product standards for the devices/systems/machines, etc. This will probably not result in any changes in the practical use of converters. Since converters are always part of a PDS and these are part of a machine, the machine manufacturer must observe various standards depending on their type and environment (e.g. EN 61000‑3‑2 for line harmonics and EN 55011 for radio interference). The product standard for PDS on its own is, therefore, either insufficient or irrelevant.
  • With respect to the compliance with limits for line supply harmonics, the EMC product standard EN 61800‑3 for PDS refers to compliance with the EN 61000‑3‑2 and EN 61000‑3‑12 standards. EN 61000‑2‑4 applies for devices >75 A.
  • Regardless of the configuration with SINAMICS G120P and SINAMICS G120P Cabinet and its components, the machine construction company (OEM) can also apply other measures to ensure that the machine complies with the EU EMC Directive. The EU EMC Directive is generally fulfilled when the relevant EMC product standards are observed. If they are not available, the generic standards (e.g. EN 61000‑x‑x) can be used instead. It is important that the conducted and emitted interference at the line supply connection point and outside the machine remain below the relevant limit values. Any suitable technical measures can be applied to ensure this.

SEMI F47

SEMI F47 is an industry standard relating to the immunity to voltage dips. This includes the requirement that industrial equipment must be able to tolerate defined dips or drops of the line supply voltage. As a result, industrial equipment that fulfills this standard is more reliable and productive.

All Power Modules of the SINAMICS G120P product family fulfill the latest standard SEMI F47-0706 1). In the case of a voltage dip, defined in accordance with SEMI F47‑0706, these drives either continue to supply a defined output current, or using an automatic restart function, continue to operate as expected.

1) SEMI F47 for PM330 Power Modules, frame sizes HX (500 V to 690 V) and JX, available soon

EAC approval for Russia/Belarus/Kazakhstan/Armenia

Since 2013-02-15, Russia, Kazakhstan, Belarus and Armenia have been united in the Eurasian EAC customs union. An EAC approval as replacement for the GOST mark is required for all products that are to be sold in Russia.

All devices delivered to the customs union must have these customs certifications.

RCM approval for Australia

The RCM mark is required for marketing Siemens electronic devices in Australia. Electronic devices must provide proof of EMC clearance in Australia, similar to the CE marking of conformity laid down by the EMC directive applicable in the EU. The converters must be marked accordingly. These requirements have been in force since October 1, 1999.

On March 1, 2016, the C-Tick mark was replaced by the RCM mark.

KC approval for South Korea

KC approval (formerly KCC) is required for the distribution of our electrical equipment in South Korea. Electronic devices that are covered by the EU Directive on Electromagnetic Compatibility must provide an EMC certificate issued by a resident authority in South Korea. The converters must be marked accordingly. This requirement has been in force since January 24, 2011.

Power Modules

General technical specifications

Power Modules

PM230

PM240P-2

PM330

Cabinet

System operating voltage

380 ... 480 V 3 AC ±10 %

380 ... 480 V 3 AC ±10 %

500 ... 690 V 3 AC ±10 %

380 ... 480 V 3 AC ±10 %

500 ... 690 V 3 AC ±10 %

380 ... 480 V 3 AC ±10 %

500 ... 690 V 3 AC ±10 %

Grid requirement
Short-circuit power RSC

>100

>25

>33 line reactor recommended

>33 1) line reactors installed as standard

Input frequency

47 ... 63 Hz

47 ... 63 Hz

47 ... 63 Hz

47 ... 63 Hz

Output frequency

 

 

 

 

  • Control mode U/f

0 ... 550 Hz

0 ... 550 Hz

0 ... 150 Hz

0 ... 150 Hz

  • Control type Vector

0 ... 240 Hz

0 ... 200 Hz

0 ... 150 Hz

0 ... 150 Hz

Pulse frequency

4 kHz

Higher pulse frequencies up to 16 kHz, see derating data

At 380 ... 480 V 3 AC:
Up to 90 kW LO: 4 kHz
From 110 kW LO: 2 kHz

Higher pulse frequencies up to 16 kHz, see derating data

At 500 ... 690 V 3 AC:
2 kHz, can be adjusted to 4 kHz

Self-adjusting up to 4 kHz

Self-adjusting up to 4 kHz

Power factor λ

0.9

0.9 ... 0.95

0.75 ... 0.93

0.75 ... 0.93

Offset factor cos φ

0.95

0.99

0.96

0.96

Efficiency

≤97 %

>97 %

>98 %

>98 %

Output voltage, max.

In % of input voltage

95 %

95 %

97 %

97 %

Overload capability

 

 

 

 

  • Low overload (LO)

Note:

When the overload capability is used, the base-load current IL is not reduced.

FSA to FSC:
1.5 Ã— base-load current IL (i. e. 150 % overload) for 3 s plus 1.1 Ã— base-load current IL (i. e. 110 % overload) for 57 s within a cycle time of 300 s

FSD to FSF:
1.1 Ã— base-load current IL (i.e. 110 % overload) for 60 s within a cycle time of 300 s

1.35 Ã— base-load current IL (i.e. 135 % overload) for 3 s plus 1.1 Ã— base-load current IL (i.e. 110 % overload) for 57 s within a cycle time of 300 s

1.35 Ã— base-load current IL (i.e. 135 % overload) for 3 s or 1.1 Ã— base-load current IL (i.e. 110 % overload) for 60 s within a cycle time of 300 s

1.35 Ã— base-load current IL (i.e. 135 % overload) for 3 s or 1.1 Ã— base-load current IL (i.e. 110 % overload) for 60 s within a cycle time of 300 s

  • High overload (HO)

Note:

When the overload capability is used, the base-load current IH is not reduced.

FSA to FSC:
2 Ã— base-load current IH (i. e. 200 % overload) for 3 s plus 1.5 Ã— base-load current IH (i. e. 150 % overload) for 57 s within a cycle time of 300 s

FSD to FSF:
1.5 Ã— base-load current IH (i.e. 150 % overload) for 60 s within a cycle time of 300 s

1.5 Ã— base-load current IH (i. e. 150 % overload) for 60 s within a cycle time of 300 s

1.5 Ã— base-load current IH (i. e. 150 % overload) for 60 s within a cycle time of 300 s

1.5 Ã— base-load current IH (i. e. 150 % overload) for 60 s within a cycle time of 300 s

Possible braking methods

DC braking

DC braking

Compound braking

DC braking

Dynamic braking with optional Braking Module

DC braking

Dynamic braking with optional Braking Module

Overvoltage category acc. to IEC 61800‑5‑1

III

III

Supply circuits: III
Non-supply circuits: II

III

Degree of protection

IP55/UL Type 12 (with IOP‑2, BOP‑2 or blanking cover)

IP20 (Standard or Push Through)

IP20

IP20

Standard: IP20

Optional: IP21, IP23, IP43 and IP54

Cooling

Power units with increased air cooling using integrated fans

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

Internal air cooling, power units with increased air cooling by built-in fans

Protection functions

  • Undervoltage
  • Overvoltage
  • Overcurrent/overload
  • Overtemperature
  • Ground fault
  • Short-circuit
  • Stall protection
  • Motor blocking protection
  • Motor overtemperature
  • Parameter locking

Short-Circuit Current Rating SCCR

acc. to UL

(Short-Circuit Current Rating) 2)

Degree of protection IP55 frame sizes FSA to FSC: 40 kA

IP20 degree of protection: 65 kA

65 kA

100 kA 3)

Rated short-circuit current

acc. to IEC 3)

65 kA

100 kA 3)

65 kA 3)



1) Does not apply in conjunction with option L01.

2) Applies to industrial control panel installations according to NEC Article 409 or UL 508A/508C or UL 61800-5-1.

3) In combination with the fuses specified in section Recommended line-side power components.

















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Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Êðàíû è Êëàïàíû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Èçìåðèòåëüíûå ïðèáîðû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Ñèñòåìû áåñïðîâîäíîãî óïðàâëåíèÿ «óìíûé äîì»

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Áåñêîíòàêòíûå âûêëþ÷àòåëè Êîíå÷íûå âûêëþ÷àòåëè Îïòè÷åñêèå äàò÷èêè Ýíêîäåðû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
SKW-FS - Óñòàíîâêà óìÿã÷åíèÿ

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
SKW-FK - Óñòàíîâêà îáåçæåëåçèâàíèÿ

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