Datasheet
DURING HEATING
Outstanding performance with up to 50% energy savings
on cooling mode
The exceptional energy-saving performance of Panasonic Intelligent Inverter air
conditioners ranks among the highest in the industry.
The secret lies in its precision control. After reaching the set temperature, an
Intelligent Inverter air conditioner continually adjusts compressor rotation speed
to operate with minimum power – giving you up to 50% energy savings during
cooling operation. By contrast, a non-Inverter unit operates on an ON-OFF cycle
to maintain the temperature –so it uses twice as much electricity.
64% Cut in power consumption on heating mode for big savings*
Panasonic Inverter air conditioners provide exceptional energy-saving performance
that ranks among the highest in the industry. This dramatically cuts electricity
consumption and CO2 emissions, allowing an environment-friendly operation.
A: The most efficient
Our new models have obtained the highest energy performance classifi cation,
Class A, which puts them in the highest energy saving class. This means you can
use these models every day, without having to worry about the electric bill.
Energy efficiency classifications
A European Community directive requiring energy labelling of domestic applian-
ces came into effect in 2005. Since then, all manufacturers have been required
to label each product with an effi ciency level represented by a letter from A to
G. This means that a class B domestic appliance consumes approximately 10%
more than an A, a C 20% more than an A, etc.
As well as the corresponding letter, further information on each domestic
appliance appears on the right-hand part of the sticker.
In the tables which appear alongside the product in this catalogue, the energy
effi ciency is referenced with the corresponding letter in white on a black arrow.
Classifications
There are seven energy effi ciency classifi cations, from A to G.
The highest effi ciency level is A and the lowest is G.
These classifications are for split and multi split air conditioning units.
Air-Conditioner
Energy
Manufacturer
Outdoor units
Indoor unit
Noise
(db(A) re 1 pW)
Further information is contained in
product brochures
Air-Conditioner
Energy Label Directive 2002/31/EC
Heat output kW
Heating performance
A: higher G: lower
Type Cooling only
Cooling + Heating
Air cooled
Water cooled
Annual energy consumption, kWh in cooling mode
Actual consumption will depend on how the appliance is used
and climate
Total cooling output kW
Percentage cooling efficiency
Full load (the higher the better)
Less efficient
More efficient
Product
Type of air conditioner
Noise
Indoor unit
Outdoor unit
Energy efficiency ratio
The higher the EER, the higher the energy efficiency.
Annual energy consumption
Annual energy consumption is calculated by multiplying
the total power input by an average of 500 hours per year
in cooling mode at full load.
Class
Energy efficiency classification in seven classes,
from A to G.
Model number
3.20 < EER
3.20 ≥ EER > 3.00
3.00 ≥ EER > 2.80
2.80 ≥ EER > 2.60
2.60 ≥ EER > 2.40
2.40 ≥ EER > 2.20
2.20 ≥ EER
Unit energy efficiency class
in cooling mode
3.60 < COP
3.60 ≥ COP > 3.40
3.40 ≥ COP > 3.20
3.20 ≥ COP > 2.80
2.80 ≥ COP > 2.60
2.60 ≥ COP > 2.40
2.40 ≥ COP
Unit energy efficiency class
in heating mode
ELECTRICITY CONSUMPTION
TIME
Non-Inverter switches ‘on’ and
‘off’ to maintain coolness
Inverter adjusts to minimum
power to maintain coolness
BOTH START OFF AT FULL POWER
SAVE up to
50%
ENERGY
OUTSTANDING ENERGY-SAVING PERFORMANCE
You will always be comfortable with an Inverter air conditioner. After reaching the set temperature quickly, the power
will be adjusted smoothly to keep the temperature constant. So, there will be no sharp temperature changes and you
will save power. The ample range of output powers also guarantees a pleasant temperature at all times, even when
the number of people in the room fluctuates. This way, Inverter air conditioners provide more precise temperature
control than non-Inverter models.
The advantages of inverter air conditioners.
comparing Inverter and non-Inverter air conditioners.
HEAT IN THE LIVING ROOM
COLD IN THE LIVING ROOM
COMFORT THE LIVING ROOM
INVERTER AIR CONDITIONER
It quickly reaches the comfort zone. It adjusts the
power and maintains a pleasant temperature.
NON INVERTER AIR CONDITIONER
It takes longer to reach the comfort zone and brusquely
changes the temperature, which produces more discomfort.
How can an Inverter
save energy?
The Inverter constantly adjusts
compressor rotation speed to provide
optimum performance at all times.
This extremely precise operation
enables quick cooling while reducing
power consumption compared to
conventional non-Inverter units.
A
class
energy
saving
64
%
DOWN
1)
UP TO
NON INVERTER
INVERTER
1)Comparison of cumulative electricity consumption during heating to reach the setting temperature (Panasonic in-house comparison)
Test conditions: Indoor and outdoor temperature: 7ºC/ Setting temperature: 25ºC/ Fan speed: High.
Energy saving effect by Inverter: 50%
Test condition
Comparison of 1.5 HP Inverter model and 1.5 HP Non-Inverter model (Cooling).
Outside temperature: 35’C/24’C Remote setting temperature: 25’C with Fan speed (AUTO) / Vertical Airflow direction: Auto, Horizontal
Airflow direction: Front total power consumption amount are measured for 8 hours from starting. At Panasonic Amenity Room
(size:16.2M2) This is the maximum energy saving value, and the effect differs according to conditions in installation and usage.
Energy saving effect by Inverter (Heating): 64%
Test condition
Comparison of Inverter model and Non-Inverter model (Heating)
Outside temperature:2’C/1’C Remote setting temperature: 25’C with Fan speed (High) /Vertical Airflow direction: Auto, Horizontal
Airflow direction: Front Total consumption amount are measured from the start of operation until it reaches to the set temperature.
At Panasonic Amenity Room ( size:16.2M2) This is the maximum energy saving value, and the effect differs according to conditions
in installation and usage.
12 13
DOMESTIC