130BD930.11
1.80
1.60
1.40
1.20
1.00
0.80
0.60
0.40
0.20
0.00
0 10
20 30 40 50 60 70 80 90 100
n [%]
P
L,CDM
(fr
eq
,load)
[%]
1
2
3
1
100% load
2
50% load
3
25% load
Illustration 9.3 Drive Power Loss Data.
CDM Relative Losses (P
L, CDM
) [%] versus Speed
(n) [% of Nominal Speed].
130BD931.11
n [%]
0 20 40 60 80 100
100.00
98.00
96.00
94.00
92.00
90.00
η
CDM (fr
eq
,load)
[%]
1
2
3
1
100% load
2
50% load
3
25% load
Illustration 9.4 Drive Efficiency Data.
CDM Efficiency (η
CDM(freq, load)
) [%] versus Speed
(n) [% of Nominal Speed].
Interpolation of power loss
Determine the power loss at an arbitrary operating point
using 2-dimensional interpolation.
9.1.4 Losses and Efficiency of a Motor
The efficiency of a motor running at 50–100% of the
nominal motor speed and at 75–100% of the nominal
torque is practically constant. This is valid both when the
frequency converter controls the motor, or when the motor
runs directly on mains.
The efficiency depends on the type of motor and the level
of magnetization.
For more information about motor types, refer to the
motor technology brochure at
9.1.5 Losses and Efficiency of a Power Drive
System
To estimate the power losses at different operating points
for a power drive system, sum the power losses at the
operating point for each system component:
•
Drive
•
Motor
•
Auxiliary equipment
9.1.6 Losses and Efficiency of a Power Drive
System with Installed Filter
The MyDrive ecoSmart calculation tool can be used for
system calculations and creating an energy efficiency
report. The tool can be found via
The power loss of the VLT
®
Advanced Harmonic Filter
AHF005/AHF010 is specified in 5 different operating points
as 0–100% load. The current load and power loss are
specified in each operating point. See
for power
losses.
The power loss in the AHF depends on the operating point
and is a function of the input current in the AHF. The
identification point of operation of the AHF is based on
the input current to the frequency converter. The input
current of the frequency converter equals the input current
to the AHF.
I
In,AHF
=I
In,VLT
The output current of the frequency converter consists of
the torque-producing component and the motor magneti-
zation component. Different factors affect the relationship
between the input current and output current of a
frequency converter. For example, part load causes a
significant difference between the 2 currents.
I
In,VLT
≠
I
out,VLT
Calculate the input current of the frequency converter with
this formula:
I
In,VLT
=I
out,VLT
x cos(phi) x f
motor
[%] x load
motor
[%] x 1.02
•
I
out,VLT
: Nominal output current from the
frequency converter. Find the data in the
frequency converter
design guide
or MyDrive
ecoSmart.
•
Cos (phi): Motor power factor. Find the data on
the motor nameplate. Alternatively, use a
reference value from IEC 61800-9-2, see
•
f
motor
[%]: Percentage value of the nominal
operating frequency in the motor in the range 0–
1.
Appendix
VLT
®
Advanced Harmonic Filter AHF 005/AHF 010
118
Danfoss A/S © 05/2019 All rights reserved.
MG80C602
9
9
Содержание AHF 010
Страница 2: ......