2022 TOYOTA RAV4 PRIME air conditioning

942-1. Plug-in hybrid system
HV mode while on the free-
way and change to EV mode
or AUTO EV/HV mode after
leaving the freeway. (P.78)
 Turn the “A/C” switch off
when it is not needed. Doing
so can help reduce excessive
electricity and fuel consump-
tion.
In summer: When the ambient tem-
perature is high, use the recircu-
lated air mode. Doing so will help to
reduce the burden on the air condi-
tioning system and reduce electric-
ity and fuel consumption as well.
In winter: Avoid excessive and
unnecessary use o f the heater.
Usage of the heated steering wheel
(if equipped) ( P.401) and seat
heaters ( P.402) are effective.
 Using the Remote Air Condi-
tioning System ( P.399)
while the AC charging cable is
connected to the vehicle can
reduce electricity consump-
tion immediately after starting
off by operating air condition-
ing mainly using electricity
from an external power
source.
 When setting the charging
schedule, setting the charging
mode to “Departure” and “Cli-
mate Prep” to on can reduce
electricity consumption imme-
diately after starting off by
operating air conditioning before charging is completed.
(
P.130)
Make sure to check the tire infla-
tion pressure frequently. If there
is improper tire inflation pres-
sure in the tires, the EV driving
range will become shorter, and
fuel consumption when in HV
mode will increase.
Also, as snow tires can cause
large amounts of friction, their
use on dry roads can lead to
increased fuel and electricity
consumption.
Carrying heavy luggage will lead
to poor fuel economy. Avoid car-
rying unnecessary luggage.
Installing a large roof rack will
also cause poor fuel economy.
Since the gasoline engine starts
up and cuts out automatically,
warming up is not necessary.
Air conditioning
Checking tire inflation
pressure
Luggage
Warming up before driv-
ing

952-1. Plug-in hybrid system
2
Plug-in hybrid system
The value displayed on the SOC
(State of Charge) gauge
(P.165) is estimated from the
following information.
 The amount of hybrid battery
(traction battery) charge cur-
rently remaining
 The electricity consumption
(the estimated distance that
EV driving is possible per unit
of electrical energy) based on
the recorded value
 Past air conditioning system
electricity consumption
amount
The electricity consumption var-
ies depending on how the vehi-
cle is driven. The vehicle automatically records the elec-
tricity consumption when being
charged and uses the electricity
consumption for estimating the
EV driving range. Therefore, the
EV driving range displayed
when the hybrid battery (traction
battery) is fully charged may dif-
fer from the previous EV driving
range depending on how the
vehicle was driven.
The EV driving range may
change significantly with each
charging until the electricity con-
sumption based on the recorded
value is stable (for approxi-
mately the first month or two).
However, this does not indicate
a malfunction.
When the air conditioning sys-
tem is turned on, the EV driving
range (with using the air condi-
tioning system) is estimated
based on the past air condition-
ing electricity consumption
amount considering that the
electricity consumption may
become higher.
The distance that EV driving is
possible varies significantly
depending on how the vehicle is
driven, road conditions, the
weather, the outside tempera-
ture, usage conditions of electri-
cal components and the number
EV driving range
The EV driving range dis-
played on the multi-informa-
tion display shows the
reference distance that EV
driving (driving using only
the electric motor) is possi-
ble, and the actual distance
that can be driven may dif-
fer from that displayed.
Even if the EV driving range is
displayed, EV driving may be
canceled and both gasoline
engine and electric motor are
used depending on the situa-
tion. (
P.82)
Displayed value
Tips for extending the EV
driving range

962-1. Plug-in hybrid system
of occupants.
The distance that EV driving is
possible can be extended if the
following is performed:
■When starting off, depress
the accelerator pedal
smoothly to accelerate
As a guide, accelerate up to
approximately 12mph (20 km/h)
in the first 5 seconds.
Electrical and fuel efficiency can
be improved just by using the
ECO Accelerator Guidance dis-
played on the multi-information
display and taking care to start
off gently. ( P.173)
When the driving mode is set to
Eco drive mode, depressing the
accelerator pedal generates
smooth torque that makes it easier
to operate the accelerator gently.
At the same time, the air condition-
ing control is switched to eco air
conditioning mode ( P.391) to
reduce the strength of the air condi-
tioning operation.
■Maintain sufficient vehicle-
to-vehicle distance and do
not accelerate or decelerate
unnecessarily
Try to maintain a fixed speed
while driving. Driving at a short
vehicle-to-vehicle distance will
result in repeating wasteful
acceleration and deceleration,
which will worsen the electrical
and fuel efficiency.
■Release the accelerator
pedal early before stopping
the vehicle, such as at a
traffic light
The regenerative brake will
operate to convert the kinetic
energy of the vehicle into electri-
cal energy, which will charge the
hybrid battery (traction battery).
The regeneration status can be
checked from the Hybrid Sys-
tem Indicator. ( P.167)
When the brake pedal is
depressed lightly during decel-
eration, the regeneration
amount increases, enabling
more electrical energy to be
recovered.
If the brake pedal is depressed too
strongly, the recovered amount
indicator will reac h the maximum
level and the upper limit of the
recoverable energy will be
exceeded. Theref ore, be sure to
operate the brak e pedal early.
■Use the air conditioning
system appropriately, and
also utilize the heated steer-
ing wheel (if equipped) and
seat heaters
In EV mode, the vehicle is
cooled and heated by electrical
energy. (Except in extremely
cold temperatures of approxi-
mately 14°F (-10°C) or less.)
Preventing excessive cooling or
heating of the vehicle will reduce
power consumption and
improve electrical efficiency.

972-1. Plug-in hybrid system
2
Plug-in hybrid system
When eco air conditioning mode
is used, the air conditioning con-
trol is switched automatically to
a lower setting. (P.391)
The heated steering wheel (if
equipped) and seat heaters are
efficient heating device that
directly warm the body using
less electric power.
When used togethe r with the air
conditioning system, a low tem-
perature setting can be used to
improve electrical and fuel effi-
ciency.
■Check the tire pressure
If the tire pressure is lower than
the specified value, it will
worsen the electrical and fuel
efficiency.
A pressure level 7 psi (50 kPa, 0.5
kgf/cm
2 or bar) lower than the spec-
ified value will cause a worsening of
several percentage points.
■When driving on highways,
use the EV/HV mode selec-
tion switch to drive in HV
mode
The power consumption will
increase significantly if the vehi-
cle is driven in EV mode on
highways.
■Do not load unnecessary
objects in the vehicle
Driving with objects weighing
220 lb. (100 kg) in the vehicle
will worsen the electrical and
fuel efficiency by approximately
3%. Air resistance also greatly
affects electrical and fuel effi-
ciency. Remove any exterior
accessories such as a roof lug-
gage carrier when they are not
being used.
The running resistance of snow
tires is high and they will worsen
electrical and fuel efficiency.
Replace them with standard
tires as soon as they are no lon-
ger needed.
■Know your vehicle’s electri-
cal and fuel efficiency
If you know your vehicle’s daily
electrical and fuel efficiency, you
will understand the benefits of
Eco drive.
Use the Power Consump-
tion/Fuel Economy, ECO Accel-
erator Guidance/“Eco Score”
and other data displayed on the
multi-information display.
The following indicate that
charging has been carried out
properly.
 The charging indicator of the
charging port turns off
 “Charging Complete” is dis-
played on the multi-informa-
tion display when a door is
opened with the power switch
off ( P.119)
Regardless of the type of power
Display when c harging is
completed

1012-2. Charging
2
Plug-in hybrid system
*: Flashes for a certain period of time, and then turns off.
■Charging indicator of the charging port
When a system malfunction occurs while charging or using the Remote Air
Conditioning System, the charging indicator rapidly flashes for a certain
period of time, and then turns off.
If this occurs, when a door is o pened with the power switch off , a message
is displayed on the multi-informa tion display. When a message is displayed,
follow the instructions d isplayed on the screen.
Illumination/flashing pat-
ternVehicle condition
Illuminated
Charging is in progress
 Charging is possible
 “Battery Heater” ( P.115) is operating
 “Battery Cooler” ( P.116) is operating
Flashing (normally)*When charging schedule is registered ( P.130)
and AC charging cable is connected to vehicle
Rapidly flashing*When charging cannot be carried out due to
m a lfu nct ion in a p ow er so ur ce or th e v eh icle et c.
(  P.150)
Not illuminated
Charging connector is not inserted into AC
charging inlet
 When the charging schedule ( P.130) is on
standby
 When charging is completed

1152-2. Charging
2
Plug-in hybrid system
( P.144), the time required for
charging to complete may be
longer or the charging may not
be completed.
*4: If equipped
■Charging time may increase
In the following si tuations, charging
time may become longer than nor-
mal:
●In very hot or very cold tempera-
tures.
●When the hybrid battery (traction
battery) becomes hot, such as
immediately after high-load driv-
ing.
●The vehicle is consuming a lot of
electricity, for example, when the
headlights are on etc.
●When using “My Room Mode”.
(  P.144)
●There is a power outage during
charging.
●There is an interruption in the
electrical supply.
●There is a drop in the voltage of
external power source.
●The charge in the 12-volt battery
is low, for examp le due to the
vehicle being left unused for a
long period of time.
●The maximum charging current is
set to 8A or 16A* through “Vehicle
Settings”. ( P.112)
●When the “Battery Heater” oper-
ates. ( P.115)
●When the “Battery Cooler” is oper-
ated before charging. ( P.116)
●When the plug generates heat
due to a loose outlet connection
etc.
*: Vehicles with 6.6 kW onboard
traction battery charger only
■Using a DC Charger
DC Chargers cannot be used with this vehicle.
■Charging electricity
This vehicle can be charged up to
approximately 3. 3 kW or 6.6 kW
*.
However, depending on the used
charger or AC charging cable,
charging electrici ty may be limited.
*: Vehicles with 6.6 kW onboard
traction battery charger only
This vehicle is equipped with
several functions that are linked
with charging.
■“My Room Mode” ( P.144)
When the AC charging cable is
connected to the vehicle, electri-
cal components such as the air
conditioning system or audio
system can be used using the
external power source
*.
*: The power of the hybrid battery
(traction battery) may be used
depending on the situation.
■“Battery Heater”
When the outside temperature
is low and the AC charging
cable is connected to the vehi-
cle, this function automatically
warms the hybrid battery (trac-
tion battery) until it reaches or
exceeds a certain temperature.
“Battery Heater” will operate
when the “Battery Heater” of the
“Charging Settings” on the multi-
information display is on.
( P.178)
Charging-linked functions

1162-2. Charging
■Hybrid battery (traction bat-
tery) warming control
(Alaska and Canada only)
This control operates after the
AC charging cable remains con-
nected to the vehicle for 3 days
and “Battery Heater” automati-
cally stops. It automatically insu-
lates the hybrid battery (traction
battery) in extremely low tem-
peratures.
 This control stops 31 days
after the AC charging cable is
connected, even if it is still
connected to the vehicle.
 When this control operates,
charging schedule settings
are ignored and charging
starts.
■“Battery Cooler”
When the hybrid battery (trac-
tion battery) is hot and the AC
charging cable is connected to
the vehicle, this function cools
the hybrid battery (traction bat-
tery) before charging is carried
out.
 “Battery Cooler” will operate
when the “Battery Cooler” of
the “Charging Settings” on the
multi-information display is
on. ( P.178)
 When the charging voltage is
120 V, the function does not
operate.
■Traction battery heating and
cooling system (“Battery
Heater” and “Battery Cooler”)
●The system ope rates when the
hybrid battery (traction battery) is
below or above a certain tempera-
ture.
●The system may operate when
charging is not being performed.
●When the charging schedule is
used ( P.130), this function will
operate according to the charging
schedule.
■“Battery Heater”
●When “Battery Heater” is operat-
ing, the charging indicator illumi-
nates.
●When the AC charging cable is
removed from the vehicle or
remains connected to the vehicle
for approximately 3 days, the sys-
tem automatically stops.
●When “Battery Heater” is operat-
ing during charging, the charging
time may be longer than normal.
●If the outside temperature
becomes high w hile “Battery
Heater” is operating, charging
may complete ear lier than the
“Departure” time set. ( P.130)
●When the following operations are
performed while “Battery Heater”
is operating, the hybrid battery
(traction battery) heating opera-
tion stops.
• The shift lever is changed to any position other than P
• The Remote Air Conditioning Sys-
tem is operated ( P.399)
●“Battery Heater” may operate
even when the hybrid battery
(traction battery) is fully charged
depending on the temperature of
the hybrid battery (traction bat-
tery).
• The remaining charge of the
hybrid battery (traction battery)
decreases when “Battery Heater”
operates. The charging operation

1172-2. Charging
2
Plug-in hybrid system
may start again to charge the
hybrid battery (traction battery).
• “Charging Stopped Due to Pulled
Charging Connector” may be
shown when the charging connec-
tor is removed while recharging.
( P.153)
■“Battery Cooler”
●The charging indicator is illumi-
nated while “Battery Cooler” is on
standby or operating.
●“Battery Cooler” is implemented
for a maximum of approximately
30 minutes. However, when the
“Departure” time is set ( P.130)
and there is not sufficient time
between the current time and the
time that chargin g will complete,
“Battery Cooler” operation time
may become shorter.
●When there is a small amount of
remaining charge in the hybrid
battery (traction battery), even if
the hybrid battery (traction battery)
is hot, “Battery Cooler” may not be
implemented.
●When the traction battery is
almost completely charged, “Bat-
tery Cooler” may not be imple-
mented.
●When the following operations are
performed while “Battery Cooler”
is operating, the hybrid battery
(traction battery) cooling operation
stops.
• The hood is opened
• The power switch is turned to any mode other than off
• The Remote Air Conditioning Sys- tem is operated ( P.399)
• “Charge Now” is implemented
( P.131)
●“Battery Cooler” uses the power of
the hybrid battery (traction battery)
and external power source.
• While “Battery Cooler” is operat- ing, the amount of the remaining
charge of the hybrid battery (trac-
tion battery) increases and
decreases in a certain range, and
does not increas e as in normal charging.
• The operation of “Battery Cooler” is recognized as charging by a
charger. The charger that calcu-
lates the fee according to charging
time causes a charging fee.