124
M
AT
E
R
I
A
L
T
R
A
N
S
F
E
R
G
E
N
E
R
ATO
R
S
5
For more information or for additional configurations,
please contact us at NASInsideSales@imi-precision.com
NDF
Performance Data
Supply Pressure
0
1699
1416
60
50
SCFM lpm
1133 40
850 30
20 566
283 10
0 0
80 40 100
0 5.5 2.8
20
1.4
60
4.1 7.0
PSI
BAR
NDF 126
NDF 106
NDF 76
Air
Consumption
Air Consumption vs
Supply Pressure
Supply Pressure
0
339 10
"Hg mbar
271 8
203 6
4 135
68 2
0 0
80 40 100
0 5.5 2.8
20
1.4
60
4.1 7.0
PSI
BAR
NDF 76
NDF 126
NDF 106
Static
Vacuum
Static Vacuum vs Supply Pressure
Vacuum Flow
0
406 12
"Hg mbar
304 9
6 203
101 3
0 0
200 250
0 5663
100
2832
150
4248
50
1416 7079
Vacuum
Level
Vacuum Level vs Vacuum Flow
SCFM
LPM
NDF 76
NDF 106
NDF 126
Based on 80 PSI Supply Pressure
Supply Pressure
0
8495 300
250
SCFM lpm
5663
7079
200
4248 150
100 2832
1416 50
0 0
80 40 100
0 5.5 2.8
20
1.4
60
4.1 7.0
Vacuum
Flow
Vacuum Flow vs Supply Pressure
PSI
BAR
NDF 126
NDF 106
NDF 76
NDF76, NDF106, NDF126
Operating Note: Above 40 PSI [2.7 bar], the increased energy consumed through rising air consumption is converted into increased vacuum level while vacuum flow stays
constant. It is the vacuum flow that provides the motive force for the materials to be transferred. Higher vacuum levels are useful when liing high molecular weight bulk
materials and heavy individual objects long distances vertically.
Note: Performance Charts represent average performance data. For reference only.
