Submittal Sheet
Table Of Contents
- 1. Product description
- 2. Product range
- 3. System applications
- 4. Functions
- Control modes: Quick overview
- Operating modes
- Control modes
- Additional control mode features
- Multipump modes
- Flow estimation accuracy
- Readings on the pump
- Performance overview
- Operating status and pump performance
- Warning and alarm
- Heat energy monitor
- Heat consumption accuracy
- Operating log
- Help and guidance
- Grundfos Eye
- Communication
- Grundfos GO Remote
- Wireless GENIair
- CIM modules
- Available CIM modules
- Grundfos Remote Management
- Digital inputs
- Relay outputs
- Analog input for an external sensor
- External setpoint function
- 5. Operating conditions
- 6. Construction
- 7. Installation
- 8. Operating the product
- 9. Curve conditions
- 10. Performance curves and technical data
- Conversion tables
- MAGNA3 32-60 F (N)
- MAGNA3 32-100 F (N)
- MAGNA3 32-120 F (N)
- MAGNA3 40-80 F (N)
- MAGNA3 40-120 F (N)
- MAGNA3 40-180 F (N)
- MAGNA3 50-80 F (N)
- MAGNA3 50-120 F (N)
- MAGNA3 50-150 F (N)
- MAGNA3 50-180 F (N)
- MAGNA3 65-120 F (N)
- MAGNA3 65-150 F (N)
- MAGNA3 D 65-150 F
- MAGNA3 80-100 F (N)
- MAGNA3 D 80-100 F
- MAGNA3 100-120 F (N)
- MAGNA3 D 100-120 F
- 11. Accessories
- 12. Product numbers
- 13. Grundfos Product Center
Functions
MAGNA3
4
19
Proportional pressure
Proportional pressure is suitable in systems with
relatively large pressure losses in the distribution pipes
and in air-conditioning and cooling systems:
• Two-pipe heating systems with thermostatic valves
and the following:
– very long distribution pipes
– strongly throttled pipe balancing valves
– differential-pressure regulators
– large pressure losses in the parts of the system
through which the entire amount of water flows,
for example a boiler, heat exchanger and
distribution pipe up to the first branching.
• Primary circuit pumps in systems with large
pressure losses in the primary circuit.
• Air-conditioning systems with the following:
– heat exchangers (fan coils)
– cooling ceilings
– cooling surfaces.
Characteristics and key benefits
• The head of the pump increases proportionally to
the flow rate in the system.
• Compensates for large pressure losses in the
distribution pipes.
Technical specifications
Fig. 18 Proportional-pressure control
The head against a closed valve is half the setpoint
H
set
.
Constant pressure
A constant pressure is advantageous in systems with
relatively small pressure losses in the distribution pipes:
• Two-pipe heating systems with thermostatic valves:
– dimensioned for natural circulation
– small pressure losses in the parts of the system
through which the entire amount of water flows,
for example a boiler, heat exchanger and
distribution pipe up to the first branching.
– modified to a high differential temperature
between the flow pipe and the return pipe (for
example district heating).
• Underfloor heating systems with thermostatic
valves.
• One-pipe heating systems with thermostatic valves
or pipe balancing valves.
• Primary circuit pumps in systems with small
pressure losses in the primary circuit.
Characteristics and key benefits
• The pump pressure is kept constant, independent of
the flow in the system.
Technical specifications
Fig. 19 Constant-pressure control
TM05 2448 1212
H
Q
H
set
H
set
2
TM05 2449 0312
H
Q