5
Available programs
OPTIMISER
®
digital regulator code 152200 can be used in accordance with 6 different system configurations (programs), comprising a basic
factory-set configuration and 5 optional configurations selectable by means of the table shown below and activatable by means of the dipswitches
on the regulator. To access the dipswitches open the cover under the display. The regulator is supplied with the factory settings and probes
required to perform basic program 4.
Location of cable glands
When making the electrical connections, observe the following sequence for wiring the terminal board.
- If the regulator is to be wall mounted with the consequent use of the supplied cable glands and downward cable outlet, regulations require that just
one cable can transit through each hole of the cable gland, therefore a maximum of 6 high voltage cables and 6 low voltage cables can be utilised.
It is therefore recommended to comply with the following table of connections and use two additional junction boxes complete with suitable inlet and
outlet cable glands, in accordance with the diagram given. The earth connection must be made in the junction box.
- If the regulator is installed in an electrical cabinet, the cable outlet must be via the openings at the rear of the unit, always keeping high and
low voltage cables separated. The earth connection must be made in the electrical cabinet.
NOTE The probes are all of the NTC type (grey cable) except for probe Sol1 utilised by solar programs 7, 8 and 9, which
is type Pt1000 with
red cable.
* refer to operating logic of program “management of inertial water storage in parallel on the heating system” on the next page.
Program
configuration
Description
Probes utilised
Position of
program
selectors
(dipswitches)
Software
code
Hydraulic
diagram
on page
4
(basic factory set
program)
H management of
inertial water storage in
parallel on the heating
system*
S1
-
-
S4
S5
PR83
7
5
Heating and domestic hot water
with s management of
inertial water storage in parallel
on the heating system*
S1
S2
-
S4
S5
PR84
8
6
Heating and instantaneous
domestic hot water + management
of inertial water storage in parallel
on the heating system*
S1
S3
-
S4
S5
PR85
9
7
Heating with direct inertial
water storage with tank-in-
tank domestic hot water
production, solar system
S1
-
Sol 1
Sol 2
-
PR86
10
8
Heating with direct inertial
water storage, domestic hot
water storage integrated with
solar system
S1
S2
Sol 1
Sol 2
-
PR87
11
9
Heating with direct inertial water
storage integrated with solar
system, instantaneous domestic
hot water production
S1
S3
Sol 1
Sol 2
-
PR88
12
ON
1 2 3 4
ON
1 2 3 4
ON
1 2 3 4
ON
1 2 3 4
ON
1 2 3 4
ON
1 2 3 4
Electric connection
Recommended electrical cable:
nr. wires for cross-section
Dedicated
cable gland
HIGH
VOL
TAGE
Electric supply
2x1,5 mm
2
A
Pump P1
4x1 mm
2
B
Pump P2
Gas generator contact C
4x1 mm
2
C
Solid fuel generator contact K
Diverter valve V1
4x1 mm
2
D
Diverter valve V4 to optional dissipator
Domestic priority diverter valve V2 or domestic priority
diverter valve V3
6x1 mm
2
E
SOLARINCAL type diverter valve
Valve V5 for loading the inertial water storage in
parallel or solar circuit pump Psol
2x1 mm
2
F
LOW
VOL
TAGE
Probe S1
2x0,75 mm
2
G
Probe S5 or solar water storage probe Sol2
2x0,75 mm
2
H
Probe S4 or solar collector probe Sol1
2x0,75 mm
2
I
Room thermostat TA or adjustment thermostat TR contact
2x1 mm
2
L
Domestic water storage probe S2 or probe S3 on
domestic heat exchanger outlet
2x0,75 mm
2
M
Flow switch F
2x0,75 mm
2
N
HIGH VOLTAGE
JUNCTION BOX
LOW VOLTAGE
JUNCTION BOX
HIGH VOLTAGE
LOW VOLTAGE
Programs 1,2 and 3 (not listed in the table but however available) are functionally equivalent to programs 7,8 and 9 respectively but without
thermal solar components. For specific setting (dipswitches and probes to be used) please see instruction sheet 28169 (www.caleffi.com).
