Siemens
ÑÐÅÄÑÒÂÀ ÏÐÎÌÛØËÅÍÍÎÉ ÀÂÒÎÌÀÒÈÇÀÖÈÈ
îôèöèàëüíûé ïàðòíåð Ñèìåíñ
Êàòàëîã ÑÀ01 2017
àðõèâíûé
(4872) 700-366
skenergo@mail.ru

Air-cooled units
Derating data, chassis format

Air-cooled SINAMICS G120 chassis format units and the associated system components are rated for an ambient temperature of 40 °C (104 °F) and installation altitudes up to 2000 m (6562 ft) above sea level.

At ambient temperatures > 40 °C (104 °F), the output current must be reduced. Ambient temperatures above 55 °C (131 °F) are not permissible.

At installation altitudes > 2000 m (6562 ft) above sea level, it must be taken into account that the air pressure, and therefore air density, decreases as the height increases. As a consequence, the cooling efficiency and the insulation capacity of the air also decrease.

Due to the reduced cooling efficiency, it is necessary, on the one hand, to reduce the ambient temperature and on the other hand, to reduce the heat loss in the built-in unit by reducing the output current, whereby ambient temperatures lower than 40 °C (104 °F) may be offset to compensate.

The following table lists the permissible output currents depending on the installation altitude and ambient temperature. The specified values already include a permitted compensation in respect of installation altitude and ambient temperatures < 40 °C (104 °F) (temperature at the air intake of the built-in unit).

The values apply under the precondition that a cooling air flow through the devices is guaranteed as specified in the technical specifications.

As additional measure for installation altitudes from 2000 m (6562 ft) up to 5000 m (16405 ft), an isolating transformer is required in order to reduce transient overvoltages according to EN 60664?1.
For additional information, please refer to the SINAMICS Low Voltage Configuration Manual.

Current-derating factors for SINAMICS S120 chassis units as a function of the ambient/air intake temperature and the installation altitude

Installation altitude above sea level

Current derating factor (as a percentage of the rated current)
for an ambient / air intake temperature of

m (ft)

20 °C (68 °F)

25 °C (77 °F)

30 °C (86 °F)

35 °C (95 °F)

40 °C (104 °F)

45 °C (113 °F)

50 °C (122 °F)

55 °C (131 °F)

0 ... 2000 (0 ... 6562)

100 %

100 %

100 %

100 %

100 %

93.3 %

86.7 %

80 %

2001 ... 2500 (6565 ... 8202)

100 %

100 %

100 %

100 %

96.3 %

 

 

 

2501 ... 3000 (8205 ... 9843)

100 %

100 %

100 %

98.7 %

 

 

 

 

3001 ... 3500 (9846 ... 11483)

100 %

100 %

100 %

 

 

 

 

 

3501 ... 4000 (11486 ... 13124)

100 %

100 %

96.3 %

 

 

 

 

 

4001 ... 4500 (13127 ... 14764)

100 %

97.5 %

 

 

 

 

 

 

4501 ... 5000 (14767 ... 16405)

98.2 %

 

 

 

 

 

 

 



Current derating for Power Modules and Motor Modules in chassis format as a function of the pulse frequency

To reduce motor noise or to increase output frequency, the pulse frequency can be increased relative to the factory setting (1.25 kHz or 2 kHz). When the pulse frequency is increased, the derating factor of the output current must be taken into account. This derating factor must be applied to the currents specified in the technical specifications.

For additional information, please refer to the SINAMICS Low Voltage Engineering Manual.

The following table lists the rated output currents of the SINAMICS S120 Power Modules and Motor Modules with pulse frequency set in the factory as well as the current derating factors (permissible output currents referred to the rated output current) for higher pulse frequencies.

Derating factor of the output current as a function of the pulse frequency for units with a rated pulse frequency of 2 kHz

Power Module
Motor Module

Type rating
at 400 V

Output current
at 2 kHz

Derating factor
at pulse frequency

6SL3310-...
6SL3320-...

kW (hp)

A

2.5 kHz

4 kHz

5 kHz

7.5 kHz

8 kHz

380 ... 480 V 3 AC

1TE32-1AA3

110 (150)

210

95 %

82 %

74 %

54 %

50 %

1TE32-6AA3

132 (200)

260

95 %

83 %

74 %

54 %

50 %

1TE33-1AA3

160 (250)

310

97 %

88 %

78 %

54 %

50 %

1TE33-8AA3

200 (300)

380

96 %

87 %

77 %

54 %

50 %

1TE35-0AA3

250 (400)

490

94 %

78 %

71 %

53 %

50 %



Derating factor of the output current as a function of the pulse frequency for units with a rated pulse frequency of 1.25 kHz

Motor Module

Type rating
at 400 V or 690 V

Output current
at 1.25 kHz

Derating factor
at pulse frequency

6SL3320-...

kW (hp)

A

2 kHz

2.5 kHz

4 kHz

5 kHz

7.5 kHz

380 ... 480 V 3 AC

1TE36-1AA3

315 (500)

605

83 %

72 %

64 %

60 %

40 %

1TE37-5AA3

400 (600)

745

83 %

72 %

64 %

60 %

40 %

1TE38-4AA3

450 (700)

840

87 %

79 %

64 %

55 %

40 %

1TE41-0AA3

560 (800)

985

92 %

87 %

70 %

60 %

50 %

1TE41-2AA3

710 (1000)

1260

92 %

87 %

70 %

60 %

50 %

1TE41-4AA3

800 (1150)

1405

97 %

95 %

74 %

60 %

50 %

500 ... 690 V 3 AC

1TG28-5AA3

75 (75)

85

93 %

89 %

71 %

60 %

40 %

1TG31-0AA3

90 (75)

100

92 %

88 %

71 %

60 %

40 %

1TG31-2AA3

110 (100)

120

92 %

88 %

71 %

60 %

40 %

1TG31-5AA3

132 (150)

150

90 %

84 %

66 %

55 %

35 %

1TG31-8AA3

160 (150)

175

92 %

87 %

70 %

60 %

40 %

1TG32-2AA3

200 (200)

215

92 %

87 %

70 %

60 %

40 %

1TG32-6AA3

250 (250)

260

92 %

88 %

71 %

60 %

40 %

1TG33-3AA3

315 (300)

330

89 %

82 %

65 %

55 %

40 %

1TG34-1AA3

400 (400)

410

89 %

82 %

65 %

55 %

35 %

1TG34-7AA3

450 (450)

465

92 %

87 %

67 %

55 %

35 %

1TG35-8AA3

560 (600)

575

91 %

85 %

64 %

50 %

35 %

1TG37-4AA3

710 (700)

735

87 %

79 %

64 %

55 %

25 %

1TG38-1AA3

800 (800)

810

97 %

95 %

71 %

55 %

35 %

1TG38-8AA3

900 (900)

910

92 %

87 %

67 %

55 %

33 %

1TG41-0AA3

1000 (1000)

1025

91 %

86 %

64 %

50 %

30 %

1TG41-3AA3

1200 (1250)

1270

87 %

79 %

55 %

40 %

25 %



The following tables list the maximum achievable output frequency as a function of the pulse frequency:

Maximum output frequencies achieved by increasing the pulse frequency in Vector mode

Pulse frequency

Max. achievable output frequency

1.25 kHz

100 Hz

2 kHz

160 Hz

2.5 kHz

200 Hz

4 kHz

300 Hz



Maximum output frequencies achieved by increasing the pulse frequency in Servo mode

Pulse frequency

Max. achievable output frequency

2 kHz

300 Hz

4 kHz

300/550 Hz 1)



1) Higher frequencies on request. For further information, see https://support.industry.siemens.com/cs/document/104020669

Overload capability

SINAMICS S120 chassis units have an overload reserve, e.g. to handle breakaway torques. If larger surge loads occur, this must be taken into account in the configuration. For drives with overload requirements, the appropriate base load current must, therefore, be used as a basis for the required load.

The permissible overload levels are valid under the prerequisite that the drive units are operated with their base-load current before and after the overload condition based on a duty cycle duration of 300 s.

For temporary, periodic duty cycles with high variations of load within the duty cycle, the relevant sections of the SINAMICS Low Voltage Engineering Manual must be observed.

Power Modules and Motor Modules

The base load current for a low overload IL is based on a duty cycle of 110 % for 60 s or 150 % for 10 s.

Low overload

The base load current for a high overload IH is based on a duty cycle of 150 % for 60 s or 160 % for 10 s.

High overload

Line Modules

The base-load current for a high overload IH DC is the basis for a duty cycle of 150 % for 60 s or Imax DC for 5 s.

High overload

















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 2017
Siemens Industry Catalog Drive Technology Converters AC Low-voltage converters SINAMICS V basic performance converters General performance converters SINAMICS G High performance converters SINAMICS S SINAMICS S110 servo drives SINAMICS S120 built-in units Excellence in Motion Control System overview System data Control Units Booksize format Chassis format SINAMICS S120 Chassis Format Units Air-cooled units Power Modules Active Line Modules Active Interface Modules Smart Line Modules Basic Line Modules Motor Modules Mounting device for power blocks Liquid-cooled units Power Modules Active Line Modules Active Interface Modules Basic Line Modules Motor Modules System components Line filters Line reactors Recommended line-side system components Braking Modules Braking resistors DC link fuses Motor reactors dv/dt filters plus VPL dv/dt filters compact plus VPL Sine-wave filters Safe Brake Adapter SBA Blocksize format Supplementary system components MOTION-CONNECT connection systems Selection and engineering tools System description Services and documentation Glossary SINAMICS S120 drive system Certificates of suitability (approvals) SIPLUS SINAMICS S120 SINAMICS S120M distributed servo drive SINAMICS S120 Combi SINAMICS S120 Chassis Format Units SINAMICS S120 Cabinet Modules SINAMICS S150 converter cabinet units Frequency inverters MICROMASTER SIPLUS POSMO A LOHER DYNAVERT Drive System Medium-Voltage AC Converter DC converter units Motors Generators Geared Motors Flender Gear Units Couplings Selection and engineering tools Further Components Automation Technology Energy Building Technologies Low-Voltage Controls and Distribution Safety Systems - Safety Integrated Market-specific solutions Industry Services ... and everything else you need




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