wave home UPS 1100/12 V. In this video, we
will understand the display features on the
front panel. As the system will connect to
the battery, you can see the message "Su-Kam
Welcomes You." After this, you will see model
number details, then software description
of the system and then all the parameters
will show on display one by one. You can connect
an 18 AH to 200 AH battery to Falcon++. You
can see here we have connected it to 120 AH
battery system. To charge this battery, 10
amp charging current is required which we
will select with the help of the dip switch
provided at the back panel. This is the back
panel of Falcon++. There is a dip switch provided
here. You can select the charging current
with dip switch number 1,2 or 3. If you will
select switch number 3 towards left, then
10 amp charging current can be selected. The
current selection is showing 10 amp and battery
capacity
is 100 AH to 135 AH. You can connect LA or
tubular type of batteries with Falcon++. To
select this, you can use the dip switch provided
at the back panel of the system. To select
Battery Type, we will select dip switch number
5 towards LA. The Battery Type will show on
display as LA. The boos t voltage will be
selected as 14V +/- 0.2V. As we will select
dip switch number 5 towards tubular, then
the display will show Tubular Battery Type
and boost voltage will be selected as 14.4V
+/- 0.2 V. Next display parameter is Battery
Level Percentage which is currently showing
100%. This means that the system is connected
to a 100% charged battery. As the battery
gets discharged, Battery Level Percentage
will keep on decreasing. As you can see that
the battery is now at 61%. Next parameter
is Backup Time. The hours of backup that you
will get from the battery connected to the
system can be seen on the display of the system.
To check this, we have connected a 100W load
to the system. The backup time for a 100W
load is 11 hours 29 minutes. Now we will check
the backup time at 200W load for which we
will connect a 200V bulb to the system. To
check backup time, we have connected a 200V
bulb to the system. Backup time is 4 hours
23 minutes. This way we can check the backup
time of the battery connected to the system
on the display at different loads. Now we
will talk about Su-Kam Falcon++'s another
feature which is Low Voltage Disconnect. There
are two options of Low Voltage Disconnect
options in Falcon++ which can be selected
by the customer according to his backup needs.
These can be selected with the help of the
dip switch provided at the back panel of the
system. First Low Voltage Disconnect is 11V.
Customers who stay in areas where there is
frequent power cuts problem, they can select
Low Voltage Disconnect at 11V. To select 11V
Low Voltage Disconnect, as we will select
switch number 4 to right, the display will
show "11V Low Battery Disconnect." As the
battery will go below 11V, then the system
will permanently shut down due to low battery.
Another Low Voltage Disconnect is 10.5V. Customers
who stay in areas where there are no frequent
power cuts, they can select 10.5V Low Voltage
Disconnect. To select 10.5V Low Voltage Disconnect,
as we will select dip switch number 4 to left,
then Battery Low is showing as 10.5V. Next
parameter is Mains Status Fail. When mains
is not connected to the system, then system's
LCD shows Mains Status Fail message. As we
will connect the system to mains, the display
will show Mains Status O.K. which shows that
the system is now connected to mains. There
are two operating ranges provided in Falcon++
- UPS and Wired UPS mode which you can select
according to your load requirements. You can
select this with the help of the dip switch
provided at the back panel of the system.
As we will select dip switch 6 at the back
panel of Falcon++ to UPS mode, then UPS Mode
will show in display which we generally use
for IT load at home like computer, printer,
etc. As we will select switch number 6 to
Wired UPS mode, the display will show Wired
UPS mode which is generally used for normal
load at home like fan, light, etc. Next feature
is Automatic Temperature Compensation. At
the back panel of Falcon++, there is an ATC
sensor. Here you can see that this is an ATC
sensor wire which senses the temperature around
the battery and efficiently sets boost voltage.
With the help of ATC sensor, your battery
doesn't get overcharged or undercharged in
any season. As you can see in display, currently
ambient room temperature is 27 degree Celsius,
according to which Boost voltage is set to
14.48 V. To test the function of ATC sensor,
we have taken hot water in a glass. Now we
will dip ATC wire in that. As you can see
that the temperature is increasing and the
boost voltage is decreasing. Currently, the
temperature is 44 degree Celsius and boost
voltage has reduced to 14.21 V, Due to ATC
sensor, inverter efficiently charges the battery
according to the temperature which means that
at high temperature, it sets the boost voltage
at low and protects the battery from overcharging
and at low temperatures, boost voltage is
set to high and the battery is protected from
undercharging. Due to this feature, the battery
life increases. Now we will understand the
condition of Overload. The rated load of the
system is 750W. If we connect more than 750
W load to Falcon++, then system will go in
Overload condition. Now we will connect load
that is more than 750 with Falcon++. Now we
have connected the system to 800 W load. As
you can see that system has gone in Overload
condition and there is a message on the display
that says "Overload > 100%." To get the system
in normal working condition, now we will reduce
the load. After reducing the load, you can
see that the system is now in normal working
condition. Next protection feature is Short
Circuit Protection Feature.. If there is a
short circuit at the output of the system,
then it goes in Short Circuit Protection and
the display will show the message "Short Circuit
Shutdown" which will tell you that your system
is in short circuit. To perform Short Circuit
test, we will short the output of the system.
Now we will see what does the display say.
As you can see on the display, Short Circuit
Shutdown message is being displayed which
tells us that there is a short circuit at
the output of the system. To get the system
in normal working condition, we will have
to remove short circuit from the output of
the system and we will have to reset Power
Active switch provided at the front panel
of the system. The bulb is now On and the
system is in normal working condition. Next
protection feature is Mains MCB Trip. When
the system is connected to mains and it goes
in the condition of Overload, then Mains MCB
is trip which is provided at the back panel
of the system and the LCD display provided
at the front panel of the system shows the
message Mains MCB Trip. The system is connected
to mains right now. The display shows Mains
Status O.K. This shows that the system is
connected to mains. In this condition if system
goes in Overload condition, then MCB will
trip and display will show Mains MCB Trip
and below that will be recovery message which
says Please On MCB. To get the system in normal
working condition, we will have to reduce
the load connected to the system in mains
mode and switch on mains MCB provided at the
back panel of the system. Then the system
will be in normal working condition. We hope
you found this video informative. Please Like
and Share this video and subscribe to Su-Kam's
Youtube channel.
0 Comments