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Installation Instructions
Keep these instructions with the controller!
Installation
Place of installation
• In a dry room (e.g. in the boiler room)
• Installation choices:
– In a compact station
– In a control panel (panel front, inner wall,
or on a top hat rail)
– In a control cabinet
– In the sloping front of a control desk
• Permissible ambient temperature: 0...50 °C
Electrical installation
• Local regulations for electrical installations must be
complied with
• Only qualified personnel may carry out the electrical
installation
• Cable strain relief must be ensured
• Cable glands must be made of plastic
• Cables from the controller to the actuating devices
and pumps carry mains voltage
• Sensor cables must not be run parallel to mains
carrying cables
• A defective or apparently damaged unit must
immediately be disconnected from power
Permissible cable lengths
• For all sensors and thermostats:
Copper cable 0.6 mm dia.
Copper cable 1.0 mm
Copper cable 1,5 mm
• For room units:
Copper cable 0.25 mm
Copper cable from 0.5 mm
• For data buses:
As per Siemens specification in
Basic System Data N2030 and
Basic Engineering Data N2032
Mounting and wiring the base
Wall mounting
1. Remove base from controller.
2. Hold base against the wall. Marking TOP must
be at the top!
3. Mark fixing holes on the wall.
4. Drill holes.
5. If required, knock out holes on the base to fit
the cable glands.
6. Screw base to the wall.
7. Wire up the base.
Siemens Building Technologies
Heating controller for
2 heating circuits and d.h.w.
max. 20 m
2
max. 80 m
2
max. 120 m
2
max. 25 m
2
max. 50 m
74 319 0817 0 a
Rail mounting
1. Fit top hat rail.
2. Remove base from controller.
3. If required, knock out holes on the base to fit the
cable glands.
4. Fit base to the rail. Marking TOP must be at the top!
5. If required, secure the base (depending on type
of rail used).
6. Wire up the base.
Flush-panel mounting
• Maximum thickness of front panel: 3 mm.
• Required panel cutout: 138 × 92 mm.
1. Remove base from controller.
2. If required, knock out holes on the base to fit the
cable glands.
3. Insert base in the panel cutout from behind until
stop is reached. Marking TOP must be at the top!
4. Push lateral tongues behind the front panel (see
illustration).
Wrong
Place left and right tongue correctly – must not protrude
inside the cutout!
5. Wire up the base. Cable lengths should be chosen
such that sufficient space is left to open the control
panel door.
Securing the controller to the base
1. Ensure correct position and location of the levers
by turning the fixing screws. Symbol on lateral wall
of the controller:
2. Insert controller in the base until stop is reached.
Marking TOP must be at the top!
3. Tighten fixing screws alternately.
CE1G2546en
74 319 0817 0
G2546
RVP36..
Correct
28.02.2011
1/12
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Table of Contents
Related Manuals for Siemens RVP36
Summary of Contents for Siemens RVP36
- Page 1 50 m inside the cutout! • For data buses: As per Siemens specification in 5. Wire up the base. Cable lengths should be chosen Basic System Data N2030 and such that sufficient space is left to open the control Basic Engineering Data N2032 panel door.
-
Page 2: Preparatory Checks
Setting knob for readjusting the room temperature of heating circuit 1 Button for switching between the heating circuits Setting knob for readjusting the room temperature of heating circuit 2 10 Buttons for adjusting values 2/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies... -
Page 3: Connection Diagrams
Room sensor heating circuit 1 M3 Storage tank charging pump B52 Room sensor heating circuit 2 M6 Heating circuit pump heating circuit 2 Collector sensor Controller RVP36.. Return sensor Actuator heating circuit 1 Outside sensor Actuator heating circuit 2 2-stage burner... -
Page 4: "End-User" Level
35 End of 2nd ON phase --:-- (--:-- / 00:00…24:00) ......36 Start of 3rd ON phase --:-- (--:-- / 00:00…24:00) ......37 End of 3rd ON phase --:-- (--:-- / 00:00…24:00) ......4/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies... - Page 5 81 = short-circuit on data bus (LPB) 82 = 2 devices with the same bus address (LPB) 86 = short-circuit PPS 100 = 2 clock time masters (LPB) 140 = inadmissible bus address (LPB) Siemens Building Technologies 74 319 0817 0 a CE1G2546en 28.02.2011 5/12...
-
Page 6: Plant Types
Display for plant type 5-1 51 Operating line 5 Heating circuit type 1 D.h.w. type Plant types For meaning of symbols, refer to "Connection diagrams". Plant types 4-x Plant types 5-x 6/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies... - Page 7 Function can only be provided with ......temperature (gain factor) (0…20) room unit / room sensor ......71 Boost of room temperature 5 °C °C ....setpoint on boost heating (0…20) °C ....Siemens Building Technologies 74 319 0817 0 a CE1G2546en 28.02.2011 7/12...
- Page 8 1 = with shutdown on protective boiler startup Function block "Limitation of return temperature" 101 Setpoint return temperature --- °C --- = function deactivated °C limitation, constant value (--- / 0…140) ....8/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies...
- Page 9 9 = electric immersion heater, changeover heating / electric according to all controllers in the interconnected system Caution: Wrong configurations will not be prevented! Siemens Building Technologies 74 319 0817 0 a CE1G2546en 28.02.2011 9/12...
- Page 10 (switch-off point) 9 = B12 flow temperature setpoint heating circuit 2 10 = B52 room temperature setpoint heating circuit 2 11 = A6 room temperature setpoint heating circuit 2 10/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies...
- Page 11 Caution: This is not a safety function! storage tank temperature (8…100) °C ....208 Collector start function --- min/K --- = function deactivated gradient (--- / 1…20) min/K ..Siemens Building Technologies 74 319 0817 0 a CE1G2546en 28.02.2011 11/12...
- Page 12 Dimensions [mm] 2011 Siemens Switzerland Ltd Subject to change 12/12 28.02.2011 CE1G2546en 74 319 0817 0 a Siemens Building Technologies...