Siemens
ÑÐÅÄÑÒÂÀ ÏÐÎÌÛØËÅÍÍÎÉ ÀÂÒÎÌÀÒÈÇÀÖÈÈ
îôèöèàëüíûé ïàðòíåð Ñèìåíñ
Êàòàëîã ÑÀ01 2016
àðõèâíûé
(4872) 700-366
skenergo@mail.ru

SINAMICS G120P Cabinet, 110 kW to 400 kW

Refer also to ordering examples for orders with order codes.

Available options

Order code

Version A

Version C

Control Unit (it is essential to specify one of these four order codes)

CU230P?2 PN Control Unit

K96

CU230P?2 DP Control Unit

K97

CU230P?2 HVAC Control Unit

K98

CU230P?2 CAN Control Unit

K99

Line-side options

Use in the first environment to EN 61800?3
Category C2 (TN systems or TT systems with grounded neutral point) 1)

L00

Clean Power version with integrated Line Harmonics Filter (380 ... 400 V ±10%)

L01

3)

Main contactor

L13

3)

Main switch, incl. fuses

L26

Motor-side options

dv/dt filter compact plus VPL (Voltage Peak Limiter)

L07

Motor reactor

L08

dv/dt filter plus VPL (Voltage Peak Limiter)

L10

Motor protection and safety functions

EMERGENCY OFF pushbutton installed in the cabinet door

L45

EMERGENCY OFF category 0, 24 VDC

L57

3)

EMERGENCY STOP Category 1, 24 V DC 2)

L60

3)

Thermistor motor protection unit (alarm)

L83

3)

Thermistor motor protection unit (trip)

L84

3)

Pt100 evaluation unit

L86

3)

Degree of protection increase

Degree of protection IP21

M21

4)

Degree of protection IP23

M23

3)

IP43 degree of protection

M43

3)

Degree of protection IP54

M54

3)

Mechanical options

Base 100 mm high, RAL 7035

M06

Cable compartment 200 mm high, RAL 7035

M07

Other options

Provision of a cabinet-internal 230 V AC auxiliary power supply

K74

Connection for external auxiliary equipment

L19

Cabinet lighting with service socket

L50

Cabinet anti-condensation heating

L55

Braking unit 50 kW (P20 power: 200 kW) for line voltages 380 V ... 480 V

L62

EMC shielding busbar with PE busbar

M70

Documentation (standard: English/German)

Customer documentation (circuit diagram, terminal diagram, layout diagram) in DXF format

D02

Customer documentation as hard copy

D04

Preliminary version of customer documentation

D14

Documentation language: English/French

D58

Documentation language: English/Spanish

D60

Documentation language: English/Italian

D80

Documentation language: English/Chinese

D91

Documentation language: English/Russian

D94

Languages (standard: English/German)

Type plate data in English/French

T58

Type plate data in English/Spanish

T60

Type plate data in English/Italian

T80

Device acceptance inspections in presence of customer

Visual acceptance

F03

Function test with no motor connected

F71

Function test with test bay motor under no-load conditions

F75

Insulation test

F77

Customer-specific acceptance inspections (on request)

F97

Device acceptance inspections without presence of customer

Function test with no motor connected

F72

Function test with test bay motor under no-load conditions

F74

Insulation test

F76

Extension of the liability for defects

Extension of the liability for defects by 12 months to a total of 24 months from delivery

Q80

Extension of the liability for defects by 18 months to a total of 30 months from delivery

Q81

Extension of the liability for defects by 24 months to a total of 36 months from delivery

Q82

Extension of the liability for defects by 30 months to a total of 42 months from delivery

Q83

Extension of the liability for defects by 36 months to a total of 48 months from delivery

Q84

Extension of the liability for defects by 48 months to a total of 60 months from delivery

Q85



1) Applies to shielded motor cable lengths ?100 m.

2) The stopping requirements must be taken into account with this option. Additional braking units may be required.

3) If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of the option.

4) If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure power supply to the fan for frame size HX.

Legend

 

Option that can be ordered

Option that cannot be ordered



Option selection matrix

Certain options are mutually exclusive. The tables below only provide an overview. Please refer to the descriptions of the individual options for a precise description of options and other exclusions.

Legend

 

Option that can be ordered

Option that cannot be ordered



Interdependencies of mechanical and electrical options

 

M70

L00

L01

L07

L08

L10

L13

L19

L26

L45

L50

L55

L57

L60

L62

L83

L84

L86

M70

 

1)

L00

1)

 

L01

 

L07

 

L08

 

L10

 

L13

 

2)

2)

L19

 

L26

 

L45

 

L50

 

L55

 

L57

2)

 

L60

2)

 

3)

L62

3)

 

L83

 

L84

 

L86

 



1) Option L00 includes option M70.

2) The options L57 and L60 always require option L13.

3) Option L60 requires a braking unit for rapid standstill of the motor (option L62).

Ordering examples

Example 1

Task:
A drive inverter cabinet unit is needed to control the fan speed for a 180 kW fan drive for connecting to an existing 400 V MCC outgoing circuit. The rated speed of the fan is 975 rpm. Due to the prevailing ambient conditions, the inverter must be mounted on a 100 mm cabinet base and have IP54 degree of protection. The installation altitude is <1000 m above sea level, the ambient temperature is 45 °C.

Solution:
Because an MCC outgoing circuit already exists, the line connection components, such as main switch, main contactor and line fuses, can be omitted and the space-saving version C can be selected. A single-phase 230 V connection for the auxiliary power supply inside the inverter cabinet is not required with this configuration. Taking into account the 7.5 % derating factor for the increased ambient temperature, a drive inverter cabinet unit with 200 kW, 400 V is sufficient for this application. The increased degree of protection and installation altitude do not necessitate additional derating. In total, the following additional options are required:

K96-K99 (selection of a fieldbus option on the CU) – required option
M06 (100 mm cabinet base)
M54 (degree of protection IP54).

The information to be stated on the order is therefore (taking PROFINET as an example):
6SL3710-1PE33-7CA0-Z
+K96 +M06 +M54

Example 2

Task:
A 160 kW pump to control the pressure equalization is to be supplied via an inverter for a brand new district heating pumping station. A 400 V supply is available. The installation altitude is 350 m above sea level and the ambient temperature is maximum 35 °C. The rated speed of the pump is 740 rpm. Since the pump unit with the motor is installed in an unmanned remote station, the possibility of low ambient temperatures with risk of condensation cannot be excluded. A PROFIBUS connection must be provided to allow remote monitoring of the inverter. The customer wants a ready-to-connect inverter that includes a main switch, fuses and contactors for safe disconnection from the supply. The inverter must also be equipped with a 230 V AC service socket and cabinet lighting system.

Solution:
An anti-condensation heating system must be provided in order to protect the inverter against condensation caused by low ambient temperatures. To keep the heating system operational at all times, an external 230 V AC supply is required. The same applies to the service socket and lighting system options. Since an external 230 V AC supply is already available, there is no need to order option K74 to supply the contactor control circuit.
An inverter cabinet unit 160 kW, 400 V, version A, with the following options must be selected for this application:

K97 (CU230P?2 DP Control Unit),
L13 (main contactor),
L26 (main switch including fuses),
L50 (cabinet lighting system with service socket) and
L55 (cabinet anti-condensation heating system)

The information to be stated on the order is therefore:
6SL3710-1PE33-0AA0-Z
+K97 +L13 +L26 +L50 +L55

Description of options

D02
Customer documentation (circuit diagram, terminal diagram, layout diagram) in DXF format

This option can be used to order documents such as circuit diagrams, terminal diagrams, layout diagrams, and dimension drawings in DXF format, in order to process them further in CAD systems, for example. They are supplied on the documentation CD in the desired language (standard is English/German, for other languages, see options D58, D60, D80, D91, D94).

D04
Customer documentation as hard copy

Equipment documentation is supplied electronically on CD-ROM as standard. If the customer also requires a hard copy of the documentation and selects option D04, the following documents will be shipped in a folder with the inverter:

  • Operating instructions
  • Circuit diagram
  • Terminal diagram
  • Layout diagram
  • Dimension drawing
  • Spare parts list
  • Test certificate

Regardless of whether option D04 is selected, a hard copy of the safety and transportation guidelines and a registration form are always supplied.

D14
Preliminary version of customer documentation

If documents such as circuit diagrams, terminal diagrams, layout diagrams and dimensional drawings are required in advance for system engineering, a preliminary copy of the relevant documentation can be ordered with the inverter. These documents are then supplied electronically a few working days after the order has been recorded. The system-specific documentation is supplied to the customer via e-mail in the desired language (standard is English/German, for other languages, see options D58, D60, D80, D91, D94). The recipient's e-mail address must be provided with the order for this purpose. If option D02 is selected at the same time, the documents are provided in the DXF format, otherwise they are sent in PDF format. In the e-mail, the recipient is also provided with a link for downloading general preliminary documentation.

D58, D60, D80, D91, D94
Documentation language

Order code

Language

D58

English/French

D60

English/Spanish

D80

English/Italian

D91

English/Chinese

D94

English/Russian



F03, F71, F75, F77, F97
Equipment acceptance in the presence of the customer

F72, F74, F76
Equipment acceptance without the presence of the customer

Option

Description

F03

Visual acceptance

The tests are carried out with the inverter de-energized.

The following is included in the scope of the acceptance tests:

  • Checking the degree of protection
  • Checking the equipment (components)
  • Checking the equipment identifiers
  • Checking clearance and creepage distances
  • Checking cables
  • Checking customer documentation
  • Submission of the acceptance report

F71, F72

Function test with no motor connected

After the visual inspection with the inverter switched off, the inverter is connected to rated voltage. No current at the inverter output end.

The following is included in the scope of the acceptance tests:

  • Visual inspection as described for option F03
  • Checking power supply
  • Checking protective and monitoring devices (simulation)
  • Checking fans
  • Precharging test
  • Function test without connected motor
  • Submission of the acceptance report

F74, F75

Function test with test bay motor under no-load conditions

After the visual inspection with the inverter switched off, the inverter is connected to rated voltage. A small current flows at the inverter's output in order to operate the test bay motor under no-load conditions.

The following is included in the scope of the acceptance tests:

  • Visual inspection as described for option F03
  • Checking power supply
  • Checking protective and monitoring devices (simulation)
  • Checking fans
  • Function test with test bay motor under no-load conditions
  • Submission of the acceptance report

F76, F77

Acceptance of insulation test of the inverter

The following is included in the scope of the acceptance tests:

  • High-voltage test
  • Measurement of the insulation resistance
  • Submission of the acceptance report

F97

Customer-specific system acceptance tests (on request)

If acceptance tests are desired which are not covered by the options F03, F71/F72, F74/F75 or F76/F77, customer-specific acceptance tests/supplementary tests can be ordered using order code F97 on request and following technical clarification.



K74
Provision of a cabinet-internal 230 V AC auxiliary power supply

If there is no 230 V AC power supply in the customer installation, option K74 can be used to provide a cabinet-internal auxiliary power supply for the required auxiliary voltages of the external control circuits of the cabinet unit. The auxiliary voltages are generated by a transformer.

Note:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of the options L01, L13, L19, L57, L60, L83, L84 and L86 and for the options M23, M43 and M54 for cabinet version A and for the option M21 for cabinet version A, frame size HX!

Options L50 and L55 always require an external supply voltage and must not be supplied via option K74.

K96
CU230P?2 Control Unit PROFINET, EtherNet/IP

The inverter is shipped with a CU230P?2 PN Control Unit (PROFINET).

For further information about the CU230P?2 PN Control Unit, refer to SINAMICS G120P built-in and wall-mounted units.

K97
CU230P?2 Control Unit PROFIBUS

The inverter is shipped with a CU230P?2 DP Control Unit (PROFIBUS).

For further information about the CU230P?2 DP Control Unit, refer to SINAMICS G120P built-in and wall-mounted units.

K98
CU230P?2 HVAC Control Unit

The inverter is shipped with a CU230P?2 HVAC Control Unit (USS, Modbus RTU, Bacnet MS/TP, P1 protocol).

For further information about the CU230P?2 HVAC Control Unit, refer to SINAMICS G120P built-in and wall-mounted units.

K99
CU230P?2 CAN Control Unit

The inverter is shipped with a CU230P?2 CAN Control Unit (CANopen).

For further information about the CU230P?2 CAN Control Unit, refer to SINAMICS G120P built-in and wall-mounted units.

L00
Use in the first environment to EN 61800?3, Category C2 (TN systems or TT systems with grounded neutral point)

To limit the emitted interference, the inverters are equipped as standard with a radio interference suppression filter that conforms to the limits defined in Category C3. SINAMICS G120P Cabinet units equipped with the line filter also meet the limits for use in the first environment (Category C2) as specified in EN 61800?3. 1)

SINAMICS G120P Cabinet units comply with the noise immunity requirements defined in EN 61800?3 as standard for the first and second environments.

In conjunction with line reactors, line filters also limit the conducted interference emitted by the Power Modules to the limit values of Category C2 defined in product standard EN 61800?3.

To allow the power cable shield to be connected in conformance with EMC requirements, an additional EMC shield bus (M70 option) is installed in the cabinet. A separate order is not required in this case.

1) Applies to shielded motor cable lengths ?100 m.

L01
Clean Power version with integrated Line Harmonics Filter

Instead of the line reactor, an innovative Line Harmonics Filter is integrated in the control cabinet; this minimizes the harmonics that occur due to the principle of operation. As a consequence, the unit fully complies with the limit values stipulated in standard IEEE 519?1992 without any exceptions (precondition: RSC ? 20).

SINAMICS G120P Cabinet with integrated Line Harmonics Filter is available for power ratings up to 400 kW in all available degrees of protection up to IP54 (see options M21 to M54).

Notice:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L01.

Notice:

For the option L01, the line voltage is limited to 380 to 400 V AC ±10%.

The table below specifies the widths and weights of supplementary cabinets for the Clean Power version of SINAMICS G120P Cabinet units (Option L01).

Article No.

Rated power

Width of supplementary cabinet

Weight of supplementary cabinet

Z = +L01

kW (hp)

mm (in)

kg (lb)

6SL3710-1PE32-1AA0-Z

110 (148)

400 (15.75)

460 (1014)

6SL3710-1PE32-5AA0-Z

132 (200)

400 (15.75)

460 (1014)

6SL3710-1PE33-0AA0-Z

160 (215)

400 (15.75)

460 (1014)

6SL3710-1PE33-7AA0-Z

200

400 (15.75)

460 (1014)

6SL3710-1PE34-6AA0-Z

250

400 (15.75)

460 (1014)

6SL3710-1PE35-8AA0-Z

315 (422)

600

600

6SL3710-1PE36-6AA0-Z

355 (476)

600

600

6SL3710-1PE37-4AA0-Z

400 (536)

600

750



L07
dv/dt filter compact plus VPL

dv/dt filters compact plus VPL (Voltage Peak Limiter) limit the voltage rate-of-rise dv/dt to values of <1600 V/?s and the typical voltage peaks to the following values according to the limit value curve A to IEC 60034?25: 2007:

  • < 1150 V at Uline < 575 V

The dv/dt filter compact plus VPL functionally consists of two components that are supplied as a compact mechanical unit, the dv/dt reactor and the voltage limiting network (VPL), which limits voltage peaks and feeds back the energy to the DC link. Its dimensions are so compact that it can be completely integrated in the cabinet – even for high power ratings. A supplementary cabinet is not required.

By using a dv/dt filter compact plus VPL, standard motors with a standard insulation and without insulated bearings can be used for inverter operation.

dv/dt filters compact plus VPL are designed for the following maximum motor cable lengths:

  • Shielded cables 100 m (e.g. Protodur NYCWY)
  • Non-shielded cables 150 m (e.g. Protodur NYY)

For longer cable lengths (> 100 m shielded, >150 m unshielded), the dv/dt filter plus VPL (option L10) should be used.

Notice:

Operation with output frequencies < 10 Hz is permissible for max. 5 min.

Note:

Option L07 cannot be combined with the following options:

  • L08 (motor reactor)
  • L10 (dv/dt filter plus VPL)

L08
Motor reactor

Motor reactors reduce the voltage load on the motor windings by reducing the voltage gradients at the motor terminals that occur during inverter operation. At the same time, the capacitive charge/discharge currents that occur at the inverter output when long motor cables are used are reduced. For this reason, the maximum possible motor cable length can be increased through installation of motor reactors.

Max. connectable motor cable lengths:

  • Shielded cables 300 m (e.g. Protodur NYCWY)
  • Non-shielded cables 450 m (e.g. Protodur NYY)

These values are guide values only; the actual values depend on the cable type and routing.

Note:

Option L08 cannot be combined with the following options:

  • L07 (dv/dt filter compact plus VPL)
  • L10 (dv/dt filter plus VPL)

L10
dv/dt filter plus Voltage Peak Limiter

dv/dt filters plus VPL (Voltage Peak Limiter) limit the voltage rate-of-rise dv/dt to values of <500 V/?s and the typical voltage peaks to the following values according to the limit value curve to IEC/TS 60034?17: 2006:

  • < 1000 V at Uline < 575 V

The dv/dt filter plus VPL functionally consists of two components, the dv/dt reactor and the voltage limiting network (VPL), which limits voltage peaks and feeds the energy back to the DC link.

By using a dv/dt filter plus VPL, standard motors with a standard insulation and without insulated bearings can be used for inverter operation.

The dv/dt filter plus VPL are designed for the following maximum motor cable lengths:

  • Shielded cables 300 m (e.g. Protodur NYCWY)
  • Non-shielded cables 450 m (e.g. Protodur NYY)

For cable lengths <100 m shielded or <150 m unshielded, the dv/dt filter compact plus VPL (option L07) can be advantageously used.

Note:

Option L10 cannot be combined with the following options:

  • L07 (dv/dt filter compact plus VPL)
  • L08 (motor reactor)

The table below specifies the widths and weights of supplementary cabinets for SINAMICS G120P Cabinet units with dv/dt filter plus Voltage Peak Limiter (option L10), rated output 315 kW and above.

Article No.

Rated power

Width of supplementary cabinet

Weight of supplementary cabinet

Z = +L10

kW (hp)

mm (in)

kg (lb)

6SL3710-1PE35-8AA0-Z

315 (422)

400 (15.75)

300 (661)

6SL3710-1PE36-6AA0-Z

355 (476)

400 (15.75)

300 (661)

6SL3710-1PE37-4AA0-Z

400 (536)

400 (15.75)

300 (661)



L13
Main contactor

The SINAMICS G120P Cabinet inverter units are provided as standard without a line contactor. Option L13 is needed if a switching element is required for disconnecting the cabinet from the supply (required for EMERGENCY OFF). The contactor is controlled internally in the inverter.

Notice:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L13.

L19
Connection for external auxiliary equipment

This is an outgoing, controlled feeder fused with max. 10 A for external auxiliary equipment (for example, separately driven motor fan).

The voltage is tapped at the inverter input upstream of the main contactor and, therefore, has the same level as the supply voltage.

The outgoing feeder can be controlled internally by the inverter or externally.

Caution:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L19.

Terminal
-X155:

Significance

Range

1

L1

380 ... 480 V AC

2

L2

380 ... 480 V AC

3

L3

380 ... 480 V AC

11

Contactor control

230 V AC

12

Contactor control

230 V AC

13

NO: Motor circuit breaker feedback signal

230 V AC/0.5 A;
24 V DC/2 A

14

NO: Motor circuit breaker feedback signal

230 V AC/0.5 A;
24 V DC/2 A

15

NO: Contactor feedback signal

230 V AC/6 A

16

NO: Contactor feedback signal

230 V AC/6 A

PE

PE

PE



L26
Main switch incl. fuses

A switch disconnector with fuses is available as main switch.

L45
EMERGENCY OFF pushbutton, installed in the cabinet door

The EMERGENCY OFF button with protective collar is installed in the inverter cabinet door and its contacts are connected to the terminal block. The EMERGENCY OFF functions of category 0 or 1 can be activated in conjunction with options L57 and L60.

Notice:

By pressing the EMERGENCY OFF pushbutton, in compliance with EN 60204?1, the motor is stopped – either uncontrolled or controlled depending on the selected Category 0 or 1 – and the inverter isolated from the line supply. Auxiliary voltages, such as the cabinet-internal 230 V AC auxiliary power supply (option K74), may still be present. Certain areas within the inverter also remain live, e.g. the control or auxiliaries. If complete disconnection of all voltages is required, the EMERGENCY OFF button must be incorporated into a protective system to be implemented by the customer. For this purpose, an NC contact is provided at terminal –X120.

The EMERGENCY OFF button is preconfigured at the factory only when one of the options L57 or L60 is selected simultaneously. Other circuit arrangements must be implemented in the customer installation.

L50
Cabinet lighting with service socket

One handheld lamp and one service socket are installed for each cabinet section.

The power supply (at terminal block –X390) for the cabinet lighting and the socket must be provided externally via a 230 V AC power supply and fused with max. 10 A. The cabinet lighting is switched on manually using a switch.

Terminal
–X390:

Significance

1

L1 (230 V AC)

2

N

3

PE



L55
Anti-condensation heating for cabinet

The anti-condensation heating is recommended at low ambient temperatures and high levels of humidity to prevent condensation. A 100 W electrical cabinet heater is installed for each cabinet section (two heaters are installed for each section for cabinet section widths from 800 mm to 1200 mm).

The power supply for the anti-condensation heating (110 V to 230 V AC, at terminal block –X240) must be provided externally from a 230 V AC power supply and fused with max. 16 A.

Terminal
–X240:

Significance

1

L1 (110 ... 230 V AC)

2

N

3

PE



L57
EMERGENCY OFF category 0, 24 VDC

EMERGENCY OFF Category 0 for uncontrolled stopping in accordance with EN 60204?1.

The function includes interrupting the power feed for the converter via the line contactor and bypassing the microprocessor controller using a safety combination according to EN 60204?1. The motor coasts down.

Notice:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L57.

Notice:

Option L57 always requires the electrical separation from the line supply, i.e. option L13.

Terminal
–X120:

Significance

3

Looping in of the EMERGENCY STOP button from the customer installation; remove jumper 3?6!

6

Looping in of the EMERGENCY STOP button from the customer installation; remove jumper 3?6!

15

"On" for monitored start; remove jumper 15?16!

16

"On" for monitored start; remove jumper 15?16!



L60
EMERGENCY STOP Category 1, 24 V DC

EMERGENCY STOP Category 1 for controlled stopping in accordance with EN 60204?1.

The function stops the drive using a fast stop along a down ramp that is parameterized by the user. The power feed to the inverter is then interrupted as described for EMERGENCY OFF Category 0.

Notice:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L60.

In order to maintain the specified stopping times, it may be necessary to use a braking unit (option L62).

Notice:

Option L60 always requires the electrical separation from the line supply, i.e. option L13.

Terminal
–X120:

Significance

3

Looping in of the EMERGENCY STOP button from the customer installation; remove jumper 3?6!

6

Looping in of the EMERGENCY STOP button from the customer installation; remove jumper 3?6!

15

"On" for manual start; remove jumper 15?16!

16

"On" for manual start; remove jumper 15?16!



L62
Braking unit

A braking unit must be installed for applications which require controlled braking or shutdown of the drive. This typically applies in the case of large fans which are caused to rotate by air flow. In such instances, it is important to consider operating states which could result in speeds in excess of the desired maximum speed but also the possibility of reversal of rotational direction during restart from standstill. A braking unit is also necessary when the fan must reach standstill in a specified time, as is normally required for EMERGENCY STOP Category 1 (option L60).

The braking unit comprises two components:

  • A Braking Module that is installed in the inverter cabinet
  • A braking resistor to be mounted externally (IP20 degree of protection)

The braking unit functions as an autonomous unit, and does not require an external power supply. The braking energy is converted into heat in the braking resistor that must be mounted externally.

A max. cable length of 100 m (328 ft) is permissible between the Braking Module and the braking resistor. This allows the braking resistor to be mounted externally so that heat losses can be released outside the converter enclosure.

Characteristic curves

Load diagram for Braking Module and braking resistor

The following braking units are available for SINAMICS G120P Cabinet:

Order code

SINAMICS G120P Cabinet drive inverter cabinet units

Braking Module

Braking resistor

Option

Rated power

PDB

P20

RB

 

kW (hp)

kW (hp)

kW (hp)

380 ... 480 V 3 AC

L62

110 ... 400 (148 ... 536)

50 (67)

200 (268)

3.1 ±8 %



PDB: Rated power (continuous braking power).

P20: 20 s power referred to a braking interval of 90 s.

L83
Thermistor motor protection unit (alarm)

Thermistor motor protection device for PTC temperature sensors (PTC resistors, type A) for alarm.

The thermistor motor protection unit is supplied with power and evaluated internally in the inverter.

Caution:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L83.

L84
Thermistor motor protection unit (trip)

Thermistor motor protection device for PTC temperature sensors (PTC resistors, type A) for trip.

The thermistor motor protection unit is supplied with power and evaluated internally in the inverter.

Caution:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L84.

L86
PT100 evaluation unit

The Pt100 evaluation unit can monitor up to 6 sensors.

The sensors can be connected in a two- or three-wire system. The limit values can be freely programmed for each channel. In the factory setting, the measuring channels are subdivided into two groups, each with 3 channels. With motors, for example, this means that three Pt100s in the stator windings and two Pt100s in the motor bearings can be monitored. Unused channels can be suppressed via parameters.

The output relays are integrated into the internal fault and shutdown sequence of the inverter.

Caution:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure proper functioning of option L86.

M06
Base 100 mm high, RAL 7035

The additional cabinet base allows larger bending radii for cables (cable entry from below) and enables them to be routed within the cabinet base. It is delivered completely assembled with the cabinet. The mounting height of the operator panel changes accordingly.

Note:

The cabinet base is coated as standard in RAL 7035. It is also available with a special paint coating.

M07
Cable compartment 200 mm high, RAL 7035

The cable compartment is made of strong sheet steel and allows cables to be connected more flexibly (entry from below). It also allows routing of cables within the compartment. It is delivered completely assembled with the cabinet. The mounting height of the operator panel changes accordingly.

Note:

The cable compartment is coated as standard in RAL 7035. It is also available with a special paint coating.

M21
IP21 degree of protection

Cabinet version in IP20, although with additional top cover or canopy. This increases the cabinet height by 300 mm.

For transport reasons, the top or drip protection covers are delivered separately and must be fitted on site.

Note:

The top or drip protection covers are painted in RAL 7035 as standard.

Caution:

If there is no 230 V AC power supply in the customer installation, it is essential to select option K74 in order to ensure power supply to the fine for frame size HX.

M23, M43, M54
Degrees of protection IP23, IP43, IP54

When M23, M43 or M54 is selected, the inverter is equipped with a hood. This increases the cabinet height by 400 mm.

For transport reasons, the hoods are delivered separately and must be fitted by the customer.

Note:

The roof sections are colored RAL 7035 as standard. The molded plastic parts (e.g. ventilation grilles) have color RAL 7035 and cannot be coated.

Notice:

If there is no 230 V AC power supply in the customer installation for version A, it is essential to select option K74 in order to provide a power supply to the fan.

M70
EMC shielding busbar with PE busbar

The EMC shielding busbar is used to connect line and motor shielded supply cables.

The PE busbar is used to connect and secure PE cables.

Note:

The EMC shield busbar with PE busbar is already contained as standard in option L00 (use in the first environment).

Q80 to Q85
Extension of the liability for defects

It is possible to extend the liability for defect periods beyond the standard liability for defects period. The standard liability for defects period as listed in the standard conditions for the supply of services and products is 12 months.

The following extension periods are available:

Extension of the liability for defects period for inverters

Order No. supplement -Z with order code

Additional text

Q80

Extension of the liability for defects period by 12 months to a total of 24 months (2 years) from delivery

Q81

Extension of the liability for defects period by 18 months to a total of 30 months (2? years) from delivery

Q82

Extension of the liability for defects period by 24 months to a total of 36 months (3 years) from delivery

Q83

Extension of the liability for defects period by 30 months to a total of 42 months (3? years) from delivery

Q84

Extension of the liability for defects period by 36 months to a total of 48 months (4 years) from delivery

Q85

Extension of the liability for defects period by 48 months to a total of 60 months (5 years) from delivery



The currently valid conditions for extending the period of liability for defects can be found at
http://support.automation.siemens.com/WW/view/en/56715113

T58, T60, T80?
Rating plate data

As standard, the rating plate is in English/German.

A rating plate in another language can be selected using the following order code for the option.

Order code

Rating plate language

T58

English/French

T60

English/Spanish

T80

English/Italian



















skener.ru

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 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
Àðìàòóðà DENDOR

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
Äàò÷èêè è èçìåðèòåëè

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
Ðåãóëÿòîðû è ðåãèñòðàòîðû

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
Ïíåâìàòè÷åñêîå îáîðóäîâàíèå

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
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
Êàòàëîã îáîðóäîâàíèÿ 2016
Êàòàëîã ïðîäóêòîâ Siemens Industry Ïðèâîäíàÿ òåõíèêà Ïðåîáðàçîâàòåëè Ñòàíäàðòíûå ïðåîáðàçîâàòåëè Îáùàÿ èíôîðìàöèÿ î áàçîâûõ ïðåîáðàçîâàòåëÿõ SINAMICS V Ïðåîáðàçîâàòåëè ÷àñòîòû îáùåãî íàçíà÷åíèÿ SINAMICS G Ïðåîáðàçîâàòåëè ÷àñòîòû SINAMICS G110 Êîìïàêòíûå ïðåîáðàçîâàòåëè SINAMICS G120C Ïðåîáðàçîâàòåëè äëÿ íàñîñîâ, âåíòèëÿòîðîâ,êîìïðåññîðîâ SINAMICS G120P Highlights Ââåäåíèå Ïðåîáðàçîâàòåëè äëÿ íàñîñîâ, âåíòèëÿòîðîâ, êîìïðåññîðîâ SINAMICS G120P Integrated Drive Systems SINAMICS G120P, built-in and wall-mounted units, IP20/IP54/IP55 SINAMICS G120P Cabinet, cab. units, degr. of prot. from IP20 to IP54 SINAMICS G120P Cabinet, 110 kW to 400 kW Line-side components Engineering tools Services and documentation Èíñòðóìåíòû ïðîåêòèðîâàíèÿ Ñåðâèñ è äîêóìåíòàöèÿ Ñòàíäàðòíûå ïðåîáðàçîâàòåëè SINAMICS G120 SINAMICS G110M distributed inverters Ïðåîáðàçîâàòåëü ÷àñòîòû SINAMICS G110D äëÿ ðàñïðåäåëåííîé ïåðèôåðèè Ïðåîáðàçîâàòåëè ÷àñòîòû SINAMICS G120D Ïðåîáðàçîâàòåëè SINAMICS G130 ôîðìàò øàññè Ïðåîáðàçîâàòåëü ÷àñòîòû SINAMICS G150 øêàôíîãî èñïîëíåíèÿ SINAMICS G180 Âûñîêîïðîèçâîäèòåëüíûå ïðåîáðàçîâàòåëè SINAMICS S MICROMASTER SIPLUS POSMO A SIMODRIVE POSMO LOHER DYNAVERT Drive System Ïðåîáðàçîâàòåëè íà ñðåäíåå íàïðÿæåíèå Ïðåîáðàçîâàòåëè ïîñòîÿííîãî òîêà Äâèãàòåëè ïåðåìåííîãî òîêà Ìîòîð-ðåäóêòîðû Flender Gear Units Couplings Èíñòðóìåíòàëüíîå ïðîãðàììíîå îáåñïå÷åíèå Äîïîëíèòåëüíûå êîìïîíåíòû Òåõíèêà àâòîìàòèçàöèè Àâòîìàòèçàöèÿ è áåçîïàñíîñòü çäàíèé Íèçêîâîëüòíàÿ êîììóòàöèîííàÿ òåõíèêà Òåõíîëîãèÿ áåçîïàñíîñòè Ñèñòåìíûå ðåøåíèÿ è ïðîäóêòû äëÿ îòðàñëåé Ñåðâèñ ... è âñå, ÷òî Âàì åùå íåîáõîäèìî




  © ÎÎÎ "ÑÊ ÝÍÅÐÃÎ" 2007-2022
  (4872) 700-366  skenergo@mail.ru
ßíäåêñ.Ìåòðèêà