1.DESCRIPTION
The Microsol BMP Advanced is a differential thermostat for solar heating with
three sensors and two outputs, which operate in the water circulation pump control and in
thermal support. It is equipped with a clock and an event schedule for economic and
rational use of the thermal support, as well as the exclusive Vacation* function that adds
protection and energy saving to the solar heating system in low hot water consumption
periods.
The controller has functions that avoid overheating and the freezing of the water in the
solar collector. It's equipped with access protection to the parameters settings.
The Microsol Advanced line is characterized by its unique design for use in
residential environments, by the easiness of operation with keys for easy access to the
controller's main resources and by the use of the custom display. The display technology
employed allows presenting in a complete and simple manner the solar heating system's
information, such as: output status, pump operation mode, and sensor position and
temperature.
*required patent
2. APPLICATION
- Solar heating with auxiliary heating system
3. TECHNICAL SPECIFICATIONS
- Power: Microsol BMP Advanced: 230Vac ±10%(50/60Hz) or version 115Vac
±10%(50/60Hz)
- Operation temperature: 0 to 40ºC
- Operation humidity: 10 to 90% UR (without condensation)
- Sensors: The Microsol BMP Advanced has 3 sensors:
Sensor T1: Solar Collector – SB59 Sensor, metal tip, Silicone, 1m
Sensor T2: Thermal reservoir – SB41 Sensor, plastic tip, 2m
Sensor T3: Support – SB41 Sensor, plastic tip, 2m
- Control temperature: Sensor T1: -50 to 200ºC / -58 to 392ºF
Sensor T2: -50 to 105ºC / -58 to 221ºF
Sensor T3: -50 to 105ºC / -58 to 221ºF
- Resolution: 0.1ºC between -10 and 100ºC and 1ºC in the remainder of the range
1ºF in all of the range
- Control output: The Microsol BMP Advanced has two relay outputs:
PUMP - Relay output, max. 1HP in 220Vca (½ HP in 127 Vca)
AUX - Relay output, max. 16A, resistance
3500W in 220Vca (1750W in 127 Vca)
- Dimensions: 104 x 148 x 32 mm
- Display: LCD 2.75'' with backlight
5. OPERATIONS FOR DOMESTIC USER
5.1 KEY MAP
The controller has easy-access to user resources. Contains table with description of the following:
Short touch: support heating temperature set
Long touch (4 seconds): access to advanced settings
Long touch (see F25 parameter): enables/disables function block
Short touch: switches temperature display (DIF, T1, T2, T3) for 10 seconds
Short touch: switches pump mode (AUT / MAN)
Long touch (4 seconds): switch off pump (OFF mode)
Short touch: switches way support mode (AUT / MAN)
Long touch (4 seconds): enables/disables Vacation support mode (OFF)
Short touch: accesses hour and day settings menu
L ong touch: (4 seconds): accesses settings menu for event schedule
SOLAR HEATING
DIFFERENTIAL THERMOSTAT
Ver. 02
SET
SET
BMP Advanced
4. INDICATIONS AND SCREEN
4.1 PRESENTATION
1
2
3
4
5
6
7
8
9
10
11
12
Pump mode key
Support mode key
Clock key
Lowering key
Set key
Increasing key
Indication of the pump operation mode
Indication of the operation support mode
Controller signals
Representation of the solar heating system
Lower display numbers
Upper display numbers
4.2 INDICATIONS
SET
LOC
In programming, cleared parameter setting
In programming, blocked parameter setting
Fahrenheit scale temperature Indication
Celsius scale temperature Indication
Pump turned on due to cooling function
Pump turned on due to antifreeze function
Pump turned on due to vacuum tube function
Pump turned on due to temperature differential (T1-T2)
Pump outlet turned on
Support outlet turned on
Support outlet turned on due to function F21
T1 Sensor Position - solar collector
T2 Sensor Position - thermal reservoir
T3 Sensor Position - support
Indicates overheating occurrence T1
Indicates overheating occurrence T2
Indicates that the maximum differential (T1-T2) for protection against
thermal shock in the vacuum tube function has been exceeded.
Indicates sensor error occurrence T1
Indicates sensor error occurrence T2
Indicates sensor error occurrence T3
Function block setting
Before noon (standard clock 12pm)
After noon (standard clock 12pm)
5.2 SUPPORT HEATING TEMPERATURE (SENSOR T3)
Defines the support operation temperature (T3).
To set this parameter, give a short touch on key SET . Use keys or to set value. To
confirm give a short touch on key SET and the value will be saved in the controller
memory. This parameter can be adjusted between the values defined in the advanced
settings for the parameters:[,F17]- Minimum value for the support temperature and
[,F18]- Maximum value for support temperature.
Note: When the T3 sensor is deactivated in [,f24], the support is controlled by the T2
sensor.
5.3 WATER PUMP OPERATION MODE
For every touch on key the water pump operation mode is switched. The water
circulation pump between the solar collector and the thermal reservoir can operate in three
distinct modes. A description follows:
Obs.: In the pump mode settings, the controller takes on the new mode 5 seconds after its
selection. This also is the time necessary for the parameter to be stored in its memory.
When the MAN mode is selected (MANUAL), the operation mode remains in this state for the
period defined in function [,F09] - Maximum pump time turned in manual mode. After, the
controller takes on the AUT mode (AUTOMATIC). If you wish to return to AUT mode before this
period, press the key at any time.
PUMP
AUT
PUMP
MAN
PUMP
5.4 SUPPORT OPERATION MODE
On every short touch on the key it is possible to change the support outlet operation
mode between MAN and AUT modes.
AUX
AUT
AUX
MAN
SET
AUT = Support in automatic mode, operating
according to the event schedule settings
T3 sensor temperature (parameter [temp]).
MAN = Support in manual mode, remains in this
mode for the time defined in [,F19] - Time of
Manual support activation, after which it returns
to AUT mode.
OFF = Circulation pump always turned off
AUT = Circulation pump in automatic mode
operating according to parameter settings
MAN = Circulation pump turned on
am
pm
MAX
+
MAX
+
+
+
+
AUX
+
AUX
SET
1
2
3
6
5
4
MAX
AUX
am pm
SET LOC
AUX
AUT
off
MANAUT
off
MAN
PUMP
am pm
7
8
12
9
10
11
BMP
MCSOLADVANBMP01-01P- 14493
BMP
AUX
AUX
AUT
A
UT
PUMP
MCSOLADVANBMP02-01T-17097
Obs: the sum of the
loads should not
surpass 24A
Attention: In this mode the pump is maintained turned on ,
ignoring the protection functions and temperature sensors.
MAX
+ +
off
Quick touch
Quick touch
4 seconds
5.5 TIME AND DAY SETTINGS
In order to access the Time and Day menu, just give a short touch on the key. Through
the or keys it is possible to navigate among the parameters to view them. In order to
edit them press the SET key and through the or keys update its value. The values
will flash in adjustment mode. Confirm the time value with the key. After the SET
confirmation, adjust the day and confirm with the key again to exit the adjustment SET
mode.
Clock - Time settings.
Day - Day of the week settings.
Adjustable from 1 (Sunday) to 7 (Saturday).
NOTICE:
The controller has an internal auxiliary power supply to maintain the clock during
power failure for at least 72 hours. If the controller remains turned off for a
prolonged period of time, it will display the message [ECLO], indicating that the
clock is deprogrammed. In this situation the controller's date and time must be set,
keeping it energized for 10 hours so that the auxiliary source is fully recharged.
Obs.: In the parameter menu, to leave and return to normal operation (preferential
indication of temperature and time) maintain the SET key pressed (long touch) until the
message [----] appears. When the Fahrenheit temperature scale is selected, the
clock acquires the 12h standard, and the AM and PM icons are used for time indication. In
this scale, the Time and Day messages of the parameter description are replaced by Time
and Day in the controller display.
Obs.: In the support mode settings, the controller takes on the new mode 5 seconds after
its selection. This also is the time necessary for the parameter to be stored in its memory.
The manual mode is used when one wishes to occasionally heat the thermal reservoir out
of the schedules expected in the event schedule. In manual mode, the support outlet
remains associated to the T3 sensor temperature through the Support Heating
Temperature (parameter [TEMP]). In this mode, the controller allows the support outlet
to be turned on during the period programmed in parameter [,F19].
5.4.1 VACATION MODE
To enable/disable the Vacation mode, the key must be held for 4 seconds.
OFF: vacation mode enabled.
When enabled:
* The event schedule is ignored, the support outlet is turned off, resulting in energy
consumption reduction.
* Performs the reservoir cooling as programmed in [,F10] - temperature on T3
sensor to turn off cooling in Vacation mode.
The Vacation mode is used to turn off support and allow the reservoir to be cooled through the
solar collector when its temperature is lower than the reservoir's, i.e.: during the night. In
periods with low or no consumption of hot water and high solar intensity, for example,
vacation, extended holidays or period away from the residence, the reservoir will reach its
higher limit of temperature and the system of solar heating will be subject to high thermal load.
5.6 EVENT SCHEDULE SETTINGS
4 seconds
off
AUX
If it is not necessary to use all 4 events, you should set these in the turned off state, by just
increasing the final time until [,OFF]appears. It is possible to set an event that begins in
one day and finishes in another. To do so you should raise the final event time until
[,CRo]appears and set on the following day the initial event with time on [00:00].
Obs.: In Support mode settings, the controller takes on the new mode 5 seconds after its
selection. This also is the time necessary for the parameter to be stored in its memory.
To set the event schedule associated to the support outlet, you should hold the key for
4 seconds.
The schedule allows setting up to 4 events for each day of the week, as the programming
performed in parameter [,F20] - support event schedule operation mode. Each event is
comprised by a final and initial schedule.
The event schedule gets factory settings in mode [,1t7], same events for each day of
the week, and the schedules are defined as follows:
ampm
Hold for
4 sec.
2 seconds
ampm
ampm
SET
Long touch
Preferential
indication
Weekly
programming
Sunday
Monday
Tuesday
Wednesday
Thursday
Friday
Saturday
SET
Short touch
SET
Long touch
According to the set operation mode, the following programming possibilities may be
presented:
Programmed case [,F20] = [,1B1]
Programmed case [,F20] = [,2T6]
SET
Adjustment
Short touch
SET
Short touch
SET
Short touch
SET
Short touch
ampm
Hold for
4 sec.
2 seconds
SET
Long touch
Preferential
indication
Weekday
Programming
ampm
ampm
Sunday
Weekdays
Saturday
SET
Short touch
SET
Long touch
SET
Short touch
SET
Short touch
SET
Short touch
SET
Short touch
Programmed case [,F20] = [,1T7]
ampm
Hold for
4 sec.
2 seconds
SET
Long touch
Preferential
indication
Daily
programming
SET
Short touch
SET
Short touch
SET
Short touch
SET
Short touch
5.7 VIEW OTHER TEMPERATURES
To switch the temperature display of sensor T1, sensor T2, sensor T3 or the differential
sensor (T1-T2) give short touches on the key until the desired temperature is
displayed. In the upper display numbers the temperature measure is presented and in the
lower display numbers, the sensor description.
The selected temperature will be displayed during 10 seconds. After, which the
preferential indication is again displayed, as set in parameter [,F01] – Preferential
Indication.
5.8 FUNCTION BLOCK
For security reasons and in order to avoid unauthorized people changing the controller
settings, there is the function block resource. With that setting activated, the parameters
cannot be changed, but they can be displayed, however. In the block condition, upon trying
to change the value of a parameter the message "[,LOC][,,ON]no display" will be
displayed.
To enable/disable the function block you should hold the key for the time set in
parameter [,F25] – Time for function block. The icon indicates the block state to the
user, in case it is accessed, it indicates that the function block is active.
HINT: with active function block one avoids that children, visitors or curious people change
the operation mode or the controller parameters. When some change is needed, just hold
the key to enable/disable this resource.
6. ADVANCED OPERATIONS FOR THE INSTALLER (TECHNICAL USE)
6.1 CONTROLLER PARAMETERS CHANGE
Access the settings menu holding the SET key for 4 seconds until [FuNc] appears.
After that [Code] will appear and then press once again the SET key, short touch. Use
the or keys to enter the access code value, 123, and when ready press the SET key
once again (short touch).
Use the or keys to select the desired function. With a short touch to the SET key it’s
possible to edit its value. Use the or keys to change the value, and when ready give a
short touch on the SET key to memorize the set value and return to the function menu.
Initial time for the
1st event
End time for the
1st event
1 second
1 second
1 second
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Adjustment
Initial time for the
2st event
End time for the
2st event
Initial time for the
4st event
End time for the
4st event
Initial time for the
3st event
End time for the
3st event
SET
SET
6.2 TABLE OF PARAMETERS
Min
Max
Unit
Min
Max
Unit
Standard
CELSIUS
FAHRENHEIT
Fun
[CoDE]
[,F01]
[,F02]
[,F03]
[,F04]
[,F05]
[,F06]
[,F07]
[,F08]
[,F09]
[,F10]
[,F11]
[,F12]
[,F13]
[,F14]
[,F15]
[,F16]
[,F17]
[,F18]
[,F19]
[,F20]
[,f21]
[,f22]
[,f23]
[,f24]
[,f25]
[,f26]
Standard
Description
Access code
Preferential indication
Differential (T1-T2) to turn on the pump
Differential (T1-T2) to turn off the pump
Antifreeze temperature (T1) to turn on the pump
Antifreeze minimum time
Overheating temperature (T1) to turn off the pump
Overheating temperature (T2) for turn off the pump
Overheating temperature hysteresis (T2) to restart the pump
Maximum pump on time in manual mode
Temperature in sensor T3 to turn off cooling in vacation mode
Vacuum tube Function
Pump on time in the vacuum tube function
Pump off time in the vacuum tube function
Minimum temperature (T1) to switch the pump on in the vacuum tube function
Maximum differential (T1-T2) for protection against thermal shock in the vacuum tube function
Hysteresis of the support temperature (T3) (TEMP parameter)
Minimum value allowed for setting the support temperature (TEMP parameter)
Maximum value allowed for setting the support temperature (TEMP parameter)
Time of support manual support activation
Operation mode for the support event schedule
Outlet of the support associated to antifreeze T1
T1 Sensor indication displacement (Offset)
T2 Sensor indication displacement (Offset)
T3 Sensor indication displacement (Offset)
Time for function block
Display backlight Intensity (Backlight)
0
DIF
1.0
1.0
no (-19)
no (0)
0.0
0.0
0,1
1
0.0
Off
10
1
0,0
0,1
0.1
0.0
0.0
no (0)
1b1
Off
-5.0
-5.0
Off(-5.1)
no (3)
Eco (0)
999
T3
40.0
40.0
10.0
600
200
105
20,0
720
105
On
999
999
105,0
70,0
20.0
105
105
600
1t7
On
5.0
5.0
5.0
30
10
-
ºC
ºC
ºC
s
ºC
ºC
ºC
min.
ºC
-
s
min.
ºC
ºC
ºC
ºC
ºC
min
-
ºC
ºC
ºC
s
-
0
T3
8.0
4.0
8.0
60
90.0
70.0
1,0
360
105.0
Off
20
30
20,0
30,0
1.0
0.0
50.0
120
1t7
Off
0.0
0.0
0.0
4
8
0
DIF
1
1
no (-2)
no (0)
32
32
1
1
32
Off
10
1
32
1
1
32
32
no (0)
1b1
Off
-9
-9
Off (-9)
no (3)
1
999
T3
72
72
50
600
392
221
36
720
221
On
999
999
221
126
36
221
221
600
1t7
On
9
9
9
30
10
-
ºF
ºF
ºF
s
ºF
ºF
ºF
min.
ºF
-
s
min.
ºF
ºF
ºF
ºF
ºF
min
-
ºF
ºF
ºF
s
-
0
T3
14
7
46
60
194
158
1
360
221
Off
20
30
68
54
1
32
122
120
1t7
Off
0
0
0
10
Eco (0)
To leave the menu and return to normal operation (temperature indication) hold the SET
key (long touch) until [----] appears.
- Upon accessing the parameter settings, the upper display will flash and over
it the SET icon is displayed, indicating that it is possible to change the
parameter value.
Observations:
am pm
- If the 123 code has not been inserted, upon accessing the parameter settings
the icon will be displayed over the upper display, indicating that the
setting is locked.
- With active function block, upon pressing the or keys to change the
function value, the controller will display the [,LOC] [,,On]message on
the screen and it won't be possible to perform the parameter setting.
SET
LOC
LOC
LOC
6.3 PARAMETER DESCRIPTION
[Code]- Access Code (123):
It is necessary when you wish to change the advanced settings' parameters. To only visualize
the set parameters it is not necessary to insert this code.
[,F01] - Preferential Indication:
This function allows choosing the temperature that will normally be displayed. You may choose
between:
[,DIF]- Differential T1-T2. Shows how many levels is the difference between the
solar collectors (T1) and the pool or thermal reservoir (T2).
[,,T1]- Collectors' temperature (T1).
[,,T2]- Temperature of the thermal reservoir (T2).
[,,T3]- Support temperature (T3) (if activated).
[,F02] - Differential (T1-T2) to turn the pump on:
Allows configuring the temperature difference between the solar collector and the thermal
reservoir to activate the circulation pump. As the collectors receive energy, the temperature in
Sensor T1 increases when this temperature is at a determined value above the sensor T2
temperature, the pump is turned on and circulates the heated water, storing it in the reservoir.
[,F03] - Differential (T1-T2) to turn off the pump:
It allows setting the temperature difference between the solar collector and the thermal reservoir
to turn off the circulation pump. With the pump on, the temperature difference between the
collector and the reservoir (T1-T2) tends to reduce. When this value falls to a determined value,
the pump is turned off, stopping water circulation.
[,F04]- Antifreeze temperature (T1) for turn on the pump:
When the temperature of (T1) collectors is too low (i.e.: winter nights) the pump is turned on,
according to the temperature set to this parameter, to prevent the water from freezing in the solar
collector and thus damaging them. The hysteresis of this control is fixed and defined at 2.0ºC. To
disable this function move the setting to the minimum until it is displayed [,,No].
[,F05] - Minimum antifreeze Time:
This minimum time for the pump turned on serves as security, to assure that the water passes
through all of the collectors. Even if sensor T1 temperature exceeds the antifreeze temperature
(parameter [,F04]), the controller respects the time programmed in this parameter. A very
used function in large works by the quantity of plates installed. To disable this function dislocate
the settings to a minimum until [,,No] is displayed.
[,F06]- Overheating temperature (T1) to turn off the pump:
When the temperature in (T1) collectors is above the value set for this parameter, the pump is
turned off in order to prevent the overheated water to circulate through the pipes and thus
damage them, in case PVC pipes are used for example. The hysteresis of this control is fixed
and defined at 2.0ºC.
[,F07] - Overheating temperature (T2) to turn off the pump:
This is the maximum temperature desired in the reservoir, above which the water circulation
pump will not operate. This is a safety measure to protect the hydraulic installation in case of
overheating. The hysteresis of this control is fixed and defined at 2.0ºC.
[,F08] - :Overheating temperature hysteresis (T2) to restart the pump
If the pump is off due to overheating in sensor T2 this function can define a temperature range
within which the pump will remain off.
Exemple: application in temperature control of swimming pools.
[,F07] = 30.0ºC
[,F08] = 1.0ºC
The swimming pool will be heated through the water circulation pump until sensor T2 temperature
reaches 30.0ºC. When this value is reached the circulation pump switched off. When the
temperature drops to 29.0ºC, the swimming pool is heated again (30.0ºC - 1.0ºC = 29.0ºC)
[,F09] - Maximum pump on time in manual mode:
It is the time the pump will remain in manual mode. After this period, the controller assumes the
AUT (AUTOMATIC) mode.
[,F10] - Temperature in sensor T3 to turn off the cooling vacation mode:
Has the purpose of cooling the thermal reservoir during the night, when Vacation mode is
activated, whenever the sensor T3 temperature is above the value set in this parameter and the
temperature difference between the collector (T1) and the reservoir (T2) reaches -4,0ºC (fixed).
The pump is then turned on, using the collector as a radiator to cool the swimming pool water.
When the differential (T1-T2) lowers below -2.0ºC (fixed) or the support temperature (T3) lowers
below this parameter's temperature, the pump is turned off. The hysteresis of this control is fixed
and defined at 2.0ºC.
NOTE: When the T3 sensor in [,F24] is deactivated, the temperature of the support is now
referenced by sensor T2.
[,F11] - Vacuum tube function:
In case this function is enabled, the controller activates the pump for time set in [,f12] and
keeps the pump off for the time set in [,f13]. In order to perform this control, the collector (T1)
temperature must be higher than the value set in [,f14] and observe the maximum differential
set in [,f15].
There are models of vacuum tube collectors that do not allow the direct measure of collector
temperature, for they do not have a prediction for immersion sensors. For a correct measure of the
water temperature at the collector outlet, it is necessary that a minimum water flow occurs.
Therefore the solar circuit should activate the pump in regular intervals so that the heated water
from the collector reaches the sensor T1.
Obs.: the controller prioritizes the protection settings (overheating), ignoring the vacuum tube
function, when they occur.
[,F12]- :Pump on time in the vacuum tube function
It is the time the pump will remain on when the vacuum tube function is active.
[,F13]- :Pump off time in the vacuum tube function
It is the time the pump will remain off when the vacuum tube function is active.
[,F14]- :Minimum temperature (T1) to switch the pump on in the vacuum tube function
It is the minimum temperature (T1) allowed to activate the vacuum tube function.
[,F15]- Maximum differential (T1-T2) for protection against thermal shock in the vacuum
tube function:
It is the maximum temperature difference allowed between T1 and T2 to switch the circulation
pump on. When the vacuum tube function is enabled, the protection against thermal shock is
activated, which prevents the circulation pump from being switched on when the collector
temperature is much higher than the tank.
7. SIGNALS
Obs.: In the occurrence of any error information the controller signals the user, flashing
the display's backlight shortly, in order to grab attention.
- Motive: Sensor 1 disconnected or out of the specified range.
- Motive: Sensor 2 disconnected or out of the specified range.
- Motive: Sensor 3 disconnected or out of the specified range.
- Motive: Dis-programmed clock due to prolonged energy absence.
- Corrective measures: Check the connections and sensor operation.
- Corrective measures: Check the connections and sensor operation.
- Corrective measures: Check the connections and sensor operation.
- Corrective measures: Adjust time and day, see article 5.5.
8. INSTALLATION
8.2. IMPORTANT
According to the chapters of norm IEC 60364:
1: Install protector against overvoltage on the power supply.
2: Sensor cables and signal cables of the computer may be joined, but not in the same
electric conduit through which the electric input and the activation of the loads run.
3: Install transient suppresors (RC filters) parallel to the loads as to increase the product
life of the relays.
8.1 ELECTRICAL CONNECTIONS
Note: The length of the sensor cable can be increased by the user up to 200 meters using PP 2 x 24
AWG cable.
The sensor with metal tip must be installed in the solar collector, it supports a temperature of 200 º C.
1 2
3
4 5
6
7
8 9 10
11
POWER
SUPPLY
SENSOR T1
METAL TIP
(COLLECTORS)
SENSOR T2
PLASTIC TIP
(RESERVOIR)
AUX
115 Vac
or
230 Vac
0
Power supply
NOTE: check supply as product model
Contact suppressor connection diagram Diagram for suppressor installation for direct
drive load inputs
6.4 UNIT SELECTION
To define the temperature unit with which the instrument is going to operate you should
access the [Code] function (see article 6.1 to find out how to access this function), insert
the 231 code and press the SET key. The user may select the unit by pressing the keys
. or , where the messages [,=C,] or [,=F,] are alternated. Press the SET key
to confirm the desired unit. Next the message[----]will be displayed and the or {
}icons corresponding to the unit will be turned on.
Obs.: While changing the unit, the controller carries the factory values in its parameters,
[,FAC], being necessary to perform their setting.
PUMP
SENSOR T3
PLASTIC TIP
(SUPPORT)
am
- Motive: Manual support activation with parameter settings
[,F13]=[,,no].
- Corrective measures: Set parameter value F13 - Time of manual
support activation.
AUXPUMP
8.3 SUPERIMPOSED INSTALLATION
A qualified technician must perform
the installation of the device.
DO
DON’Ts
The controller MUST be installed:
- indoors, in a dry environment;
- away from electromagnetic fields;
- in a ventilated place, free from flammable
liquids and gases;
- protected by a circuit breaker of appropriate
specification for the installed load.
The controller MUST NOT be
installed:
- in wet places;
- exposed to sunlight or rain;
- in saunas, machine rooms or
bathrooms.
s
Failure to not comply the warnings will cause loss of warranty, equipment and / or
physical damage.
Turn off the network
before removing
the protection cover.
Suppressor
A1
A2
A1 and A2 are the
contactor coils.
Load
Suppressor
For direct activation the maximum
specified current should be taken
into consideration.
Suppressors on offer from Full Gauge Controls
Push the bottom openings
necessary for the passage of
cables;
Attach the controller to the wall using the
screws and plugs provided;
Make the electrical
connections of the controller;
For a better finish
install X system type
channels to run
cables;
Place the protective cover of
the electrical connections
and secure it with the screw
(included in package).
The top screw must not be screwed
complete ly, fo r eng agin g t he
controller. After fitting the controller
on the top screw, secure it with the
lower screw;
Remove the protective
cover of the
connections at the
bottom of the controller;
1
2
3
4
5
6
- C orrective measures: Contact the technician responsible for
installation.
- C orrective measures: Contact the technician responsible for
installation.
[,F16]- Hysteresis of the support temperature (T3) (parameter [TEMP]):
Temperature difference to turn on support. Through this function you may define a temperature interval
inside which the support outlet will remain turned off.
For example: if set[temp]=[,45.0]and[,F10] =[,,1.0], the support outlet will be turned off
when the sensor T3 temperature reaches 45.0ºC, and will only turn back on when it falls below 44.0ºC
(45.0-1.0=44.0).
[,F17] - Minimum value allowed for setting the support temperature:
[,F18]- Maximum value permitted for configure the support temperature:
These parameters serve as lower and higher limits of parameter settings [TEMP] (Support heating
temperature). They are used to block the temperature settings, in order to restrain an inadequate
setting, for example, a high value may maintain the support outlet turned on for a long time, causing
elevated energy consumption.
NOTE: When the T3 sensor in [,F24] is deactivated, the temperature of the support is now
referenced by sensor T2.
[,F19]- Time of manual support activation:
Used when the user wishes to occasionally activate the support outlet out of the expected time in the
event schedule. From the manual activation, after the time programmed in this parameter has passed,
the support mode returns to AUT mode (automatic). To disable this function from dislocating the
settings for the minimum until it is displayed [,,No].
[,F20] - Operation mode of the support event schedule:
Defines the operation mode for the event schedule:
[,1b1]- Weekly Programming - in this mode the instrument can set up to 4 different
events for each day of the week.
[,2t6]- Programming for week days - in this mode the instrument maintains the same
events for week days (Monday to Friday) and allows programming different events for
Saturday and Sunday.
[,1t7]- Daily Programming - in this mode the instrument maintains the same events for
every day of the week.
NOTE: Upon altering the event schedule mode the controller loads the events with the factory values.
[,F21] - Support outlet associated to the antifreeze T1:
When enabled, it has the purpose to assure minimum temperature in the thermal reservoir, for when it is
necessary to perform the antifreeze function ([,F04]). The support outlet is activated whenever the
(T3) support temperature is lower than the [,F04] setting (antifreeze temperature) + 20.0°C (fixed).
The hysteresis of this control is fixed and defined at 2.0° C.
For example, if set [,F04]=[,,8.0], the support outlet will turn on when the temperature (T3) is
lower than 28.0°C and will turn off when higher than 30.0° C.
NOTE: This function turns on the independent support outlet of the support mode or the event schedule.
[,F22] - Displacement of T1 sensor indication (Offset):
[,F23] - Displacement of T2 sensor indication (Offset):
[,F24] - Displacement of T3 sensor indication (Offset):
It allows compensating eventual deviations in T1 sensor reading (collector), T2 (reservoir) or T3
(support), originating from the sensor change or from cable length alteration.
NOTE: Sensor T3 may be disabled by adjusting this function to the Minimum value [,Off]. After
sensor T3 is disabled, the backup system will be controlled by sensor T2 (tank/swimming pool).
[,F25]- Time for function block:
Defines the time that the key to block/unblock the parameter alterations should be held down. For
further explanations, see article 5.8 – Function Block.
To disable this function move the setting to the minimum until it is displayed [,,No].
[,F26]- Display backlight Intensity (Backlight):
If the value adjusted in this function is the minimum [,ECO], the intensity of the backlight of the display
will decrease to the minimum value (1) if no key is pressed for 5 seconds, If any key is pressed, the
intensity will increase to (8).
ENVIRONMENTAL INFORMATION
Packaging:
The materials used in the packaging of Full Gauge products are 100% recyclable. Try to
perform disposal through specialized recyclers.
Product:
The components used in Full Gauge controllers can be recycled and reused if
disassembled by specialized companies.
Disposal:
Do not incinerate or dispose the controllers that have reached the end of their service as
household garbage. Observe the laws in your area regarding disposal of electronic
waste. If in doubt, please contact Full Gauge Controls.
WARRANTY - FULL GAUGE CONTROLS
Products manufactured by Full Gauge Controls, as of May 2005, have a two (02)
yearwarranty, as of the date of the consigned sale, as stated on the invoice. They are
guaranteed against manufacturing defects that make them unsuitable or inadequate for their
intended use.
EXCEPTIONS TO WARRANTY
The Warranty does not cover expenses incurred for freight and/or insurance when sending
products with signs of defect or faulty functioning to an authorized provider of technical
support services. The following events are not covered either: natural wear and tear of parts;
external damage caused by falls or inadequate packaging of products.
LOSS OF WARRANTY
Products will automatically lose its warranty in the following cases:
- The instructions for assembly and use found in the technical description and installation
procedures in Standard IEC60364 are not obeyed;
- The product is submitted to conditions beyond the limits specified in its technical
description;
- The product is violated or repaired by any person not a member of the technical team of
Full Gauge Controls;
- Damage has been caused by a fall, blow and/or impact, infiltration of water, overload
and/or atmospheric discharge.
USE OF WARRANTY
To make use of the warranty, customers must send the properly packaged product to Full
Gauge Controls together with the invoice or receipt for the corresponding purchase. As
much information as possible in relation to the issue detected must be sent to facilitate
analysis, testing and execution of the service.
These procedures and any maintenance of the product may only be provided by Full
Gauge Controls Technical Support services in the company's headquarters at Rua Júlio de
Castilhos, 250 - CEP 92120-030 - Canoas - Rio Grande do Sul – Brasil
Copyright 2013
All rights reserved.
Rev. 03
8.4 INSTALLATION OF 4x2 BOX
Push the rear openings
necessary for the passage
of cables;
Route the cables through the
openings as controller connections;
Secure the controller in
4x2 box using the
screws provided;
Place the
protective cover
of the electrical
connections and
secure it with the
screw (included
in package).
Make the electrical
connections of the controller;
The top screw must
not be screwed
completely, for
engaging the controller. After
fitting the controller on the top screw,
secure it with the lower screw;
Remove the protective
cover of the connections
at the bottom of the
controller;
1
2
3
4
5
6
Loading...