33
4 - PHYSICAL AND ELECTRICAL DATA 61WG/30WG/30WGA
Motors of xed-speed & variable-speed hydraulic module pumps, 30WG/WGA (options 116T & Y)
No.
(2)
Description
(3)
61WG/30WG/30WGA - options 116T & Y (low-pressure pumps)
110 120 140 150 170 190
1
Nominal efciency at full load and nominal voltage % 84,2 84,2 84,2 84,2 85,9 85,9
Nominal efciency at 75% rated load and nominal voltage % 84,2 84,2 84,2 84,2 85,9 85,9
Nominal efciency at 50% rated load and nominal voltage % 82,9 82,9 82,9 82,9 84,5 84,5
2 Efciency level % IE3 IE3 IE3 IE3 IE3 IE3
3 Year of manufacture
This information varies depending on the manufacturer and model at
the time of incorporation. Please refer to the motor name plates.
4
Manufacturer's name and trademark, commercial registration
number and place of manufacturer
5 Product's model number
6 Number of motor poles 2 2 2 2 2 2
7-1
Rated shaft power output at full load and nominal voltage (400 V)
kW 1,5 1,5 1,5 1,5 2,2 2,2
7-2 Maximum power input (400 V)
(4)
kW 1,8 1,8 1,8 1,8 2,6 2,6
8 Rated input frequency Hz 50 50 50 50 50 50
9-1 Rated voltage V 400V 3P 400V 3P 400V 3P 400V 3P 400V 3P 400V 3P
9-2 Maximum current drawn (400 V)
(5)
A 3,2 3,2 3,2 3,2 4,5 4,5
10 Rated speed
r/s 48,16667 48,16667 47,58333 47,58333 48,16667 48,16667
rpm 2890 2890 2855 2855 2890 2890
11 Product disassembly, recycling or disposal at end of life
Disassembly using standard tools. Disposal and recycling using an
appropriate company.
12
Operating conditions for which the motor is specically designed
I - Altitudes above sea level m < 1000
(6)
II - Ambient air temperature °C < 40
IV - Maximum air temperature
Please refer to the operating conditions given in this manual or in the
specic conditions in the manufacturer selection programs.
V - Potentially explosive atmospheres Non-ATEX environment
Motors of xed-speed & variable-speed hydraulic module pumps 61WG/30WG (options 270T & Y)
No.
(2)
Description
(3)
61WG/30WG - options 270T & Y (low-pressure pumps)
110 120 140 150 170 190
1
Nominal efciency at full load and nominal voltage % 85,9 85,9 85,9 85,9 85,9 85,9
Nominal efciency at 75% rated load and nominal voltage % 85,9 85,9 85,9 85,9 85,9 85,9
Nominal efciency at 50% rated load and nominal voltage % 84,5 84,5 84,5 84,5 84,5 84,5
2 Efciency level % IE3 IE3 IE3 IE3 IE3 IE3
3 Year of manufacture
This information varies depending on the manufacturer and model at
the time of incorporation. Please refer to the motor name plates.
4
Manufacturer's name and trademark, commercial registration
number and place of manufacturer
5 Product's model number
6 Number of motor poles 2 2 2 2 2 2
7-1
Rated shaft power output at full load and nominal voltage (400 V)
kW 2,2 2,2 2,2 2,2 2,2 2,2
7-2 Maximum power input (400 V)
(4)
kW 2,6 2,6 2,6 2,6 2,6 2,6
8 Rated input frequency Hz 50 50 50 50 50 50
9-1 Rated voltage V 400V 3P 400V 3P 400V 3P 400V 3P 400V 3P 400V 3P
9-2 Maximum current drawn (400 V)
(5)
A 4,5 4,5 4,5 4,5 4,5 4,5
10 Rated speed
r/s 48,16667 48,16667 48,16667 48,16667 48,16667 48,16667
rpm 2890 2890 2890 2890 2890 2890
11 Product disassembly, recycling or disposal at end of life
Disassembly using standard tools. Disposal and recycling using an
appropriate company.
12
Operating conditions for which the motor is specically
designed
I - Altitudes above sea level m < 1000
(6)
II - Ambient air temperature °C < 40
IV - Maximum air temperature
Please refer to the operating conditions given in this manual or in the
specic conditions in the manufacturer selection programs.
V - Potentially explosive atmospheres Non-ATEX environment
(1) Required by regulation 640/2009 with regard to the application of directive 2008/28/EC on the eco-design requirements for electric motors
(2) Item number imposed by regulation 640/2009, annex I2b.
(3) Description given by regulation 640/2009, annex I2b.
(4) To obtain the maximum power input for a unit with hydraulic module add the maximum unit power input from the electrical data table to the pump power input.
(5) To obtain the maximum unit operating current draw for a unit with hydraulic module add the maximum unit current draw from the electrical data table to the pump current
draw.
(6) Above 1000 m, a degradation of 3% for each 500 m should be taken into consideration.
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