Product Overview
Warning
Under operating conditions within the limits defined by the application data, the
actuator
will become hot, but this does not represent a burn risk. Always main-
tain the minimum clearance specified, refer to "Dimensions", page 9.
Disposal
The actuator must not be disposed of together with domestic waste. This applies in
particular to the PCB.
Legislation may demand special handling of certain components, or it may be sensible
from an ecological point of view
Current local legislation must be observed.
Warranty
Application-specific technical data must be observed.
If specified limits are not observed, Siemens Switzerland Ltd / HVAC Products
will not assume any responsibility.
Technical Data
Functional actuator data M3P80FY
M3P80FYP
M3P100FY
M3P100FYP
Power supply
Extra low-voltage only (SELV, PELV)
Operating voltage AC 24 V, + 15 % / -10 %
Frequency 50…60 Hz
Typical power consumption P
med
20 W 30 W
stand by (valve closed) < 2 W < 2 W
Rated apparent power S
NA
80 VA 120 VA
Minimal required transformer
power S
TR
100 VA 150 VA
Required fuse I
F
3.15 A, slow 5 A, slow
Input
Positioning signal Y DC 0…10 V or DC 4…20 mA
Impedance DC 0...10 V > 400 kΩ // 30 nF (load < 0.1 mA)
DC 4…20 mA 100…120 Ω // 30 nF
Output Position feedback signal DC 0...10 V (max. 9.7 V ± 0.2 V)
Max. load
Stroke measurement
Nonlinearity
max. 1.5 mA
Inductive
± 3 % of end value
Positioning time < 2 s
Electrical wiring Cable entry 2 x Ø 13.1 mm
Connection terminals Screw terminals for max. 1 x 4 mm
2
wire
Minimal wire cross-section 1.5 mm
2
Maximum cable length refer to "Connection type", page 4
Functional valve data PN class PN 16 to EN 1333
Permissible operating pressure 1 MPa (10 bar)
Differential pressure Δp
max
/ Δp
s
refer to table "Type summary", page 2
Valve characteristic linear (to VDI / VDE 2173), optimized near the clos-
ing point
1 → 3 max. 0.05 % k
vs
Leakage rate at Δp = 100 kPa
(1 bar)
2 → 3 ca. 2 % k
vs
depending on operating condi-
tions
6/10
Siemens Modulating control valves with magnetic actuator, PN16 CA1N4454en
Building Technologies 24.04.2012