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JA4T5VA97RZ050454-2024-mitsubishi-outlander-phev-0
BADVIN vehicle history report for

2024 MITSUBISHI OUTLANDER PHEVVIN: JA4T5VA97RZ050454

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Historical Records
events
Photos
10 images
Sales History
1 records
Sale Prices
1 records
VIN Decoder
57 entries

Historical Records

Historical records may include service and maintenance records, title status (clean, junk, salvage), insurance records, number of owners, registration events and states, and other information.
You can find more information about historical records in BADVIN reports and see more examples here.
Available historical records for VIN JA4T5VA97RZ050454
Latest reported mileage: 872 mi
Below you can see some examples of what these records could look like.
2023-12-10
6 months ago
109,145 mi
Fire damage reported: minor damage
Vandalism damage reported
Damage to front
2022-07-22
2 years ago
7,834 mi
TOTAL LOSS VEHICLE
Vehicle declared a total loss by an insurance company
Collision damage reported
2021-08-05
3 years ago
43,512 mi
TOTAL LOSS VEHICLE
Collision damage reported

Sale Record

Sale Date
7 days ago
Latest Price
Location
Downingtown, PA, 19335
Year2024
ODO
SellerHidden text (Hidden text)
MSRP$1494
LocationDowningtown, PA, 19335
Date
appeared 7 days ago
latest price $4541
Sale Website Typeclassifieds
Notes
Hidden text
sale information provided by user #877823
All photos above are REAL and display ACTUAL car. After you get the report you will see full resolution photos.

Tech Specs
Body StyleSUV
ColorGraphite Gray
Transmission1-Speed Automatic
Engine2.4L I4 16V MPFI DOHC Hybrid
DriveFour-wheel Drive
Fuel TypeHybrid

Standard Features
All these features are based on a model in general. This specific vehicle may differ.

VIN Decoder — 57 records

Active Safety System
Anti-lock Braking System (ABS)

Anti-lock Braking System (ABS) means a portion of a service brake system that automatically controls the degree of rotational wheel slip during braking by: (1) Sensing the rate of angular rotation of the wheels; (2) Transmitting signals regarding the rate of wheel angular rotation to one or more controlling devices that interpret those signals and generate responsive controlling output signals; and (3) Transmitting those controlling signals to one or more modulator devices that adjust brake actuating forces in response to those signals.

Standard
Auto-Reverse System for Windows and Sunroofs

An auto-reverse system enables power windows and sunroofs on motor vehicles to automatically reverse direction when such power windows and panels detect an obstruction. This feature can prevent children and others from being trapped, injured, or killed by the power windows and sunroofs.

Standard
Electronic Stability Control (ESC)

ESC is a computerized technology that improves a vehicle's stability by detecting and reducing loss of traction (skidding). When ESC detects loss of steering control, it automatically applies the brakes to help steer the vehicle in the driver's intended direction. Braking is automatically applied to wheels individually, such as the outer front wheel to counter oversteer, or the inner rear wheel to counter understeer. Some ESC systems also reduce engine power until control is regained.

Standard
Keyless Ignition

A keyless ignition system permits starting a car without a physical key being inserted into an ignition. Instead, a small device known as a "key fob" transmits a code to a computer in the vehicle when the fob is within a certain close range. When the coded signal matches the code embedded in the vehicle's computer, a number of systems within the car are activated, including the starter system. This allows the car to be started by simply pressing a button on the dashboard while the key fob is left in a pocket or a purse. The vehicle is usually shut down by pushing the same button.

Standard
Tire Pressure Monitoring System (TPMS) Type

A TPMS is an electronic system designed to monitor the air pressure inside the pneumatic tires on various types of vehicles. TPMS can be divided into two different types - direct and indirect. Direct TPMS employ pressure sensors on each wheel, either internal or external. The sensors physically measure the tire pressure in each tire and report it to the vehicle's instrument cluster or a corresponding monitor. Indirect TPMS does not use physical pressure sensors but measure air pressures by monitoring individual wheel rotational speeds and other signals available outside of the tire itself.

Direct
Traction Control

When the traction control computer detects a driven wheel or wheels spinning significantly faster than another, it invokes an electronic control unit to apply brake friction to wheels spinning due to loss of traction. This braking action on slipping wheels will cause power transfer to the wheels with traction due to the mechanical action within the differential.

Standard
Active Safety System / Backing Up and Parking
Backup Camera

A backup camera, also known as a rearview video system, helps prevent back-over crashes and protects our most vulnerable people - children and senior citizens - by providing an image of the area behind the vehicle. A backup camera helps the driver see behind the vehicle while in reverse.

Standard
Parking Assist

A parking assist system uses computer processors, back up cameras, surround-view cameras, and sensors to assist with steering and other functions during parking. Drivers may be required to accelerate, brake, or select gear position. Some systems are capable of parallel and perpendicular parking. Drivers must constantly supervise this support feature and maintain responsibility for parking.

Standard
Rear Cross Traffic Alert

A rear cross traffic alert system warns the driver of a potential collision, while in reverse, which may be outside the view of the backup camera.

Standard
Active Safety System / Forward Collision Prevention
Crash Imminent Braking (CIB)

A CIB system is an automatic emergency braking system designed to detect an impending forward crash with another vehicle. CIB systems automatically apply the brakes in a crash imminent situation to slow or stop the vehicle, avoiding the crash or reducing its severity, if the driver does not brake in response to a forward collision alert.

Standard
Dynamic Brake Support (DBS)

A DBS system is an automatic emergency braking system designed to detect an impending forward crash with another vehicle. DBS systems automatically supplement the driver's braking in an effort to avoid a crash if the driver does not brake hard enough to avoid it.

Standard
Forward Collision Warning (FCW)

An FCW system monitors a vehicle's speed, the speed of the vehicle in front of it, and the distance between the vehicles. If the vehicles get too close due to the speed of either vehicle, the FCW system will warn the driver of the rear vehicle of an impending crash so that the driver can apply the brakes or take evasive action, such as steering, to prevent a potential crash. FCW systems provide an audible, visual, or haptic warning, or any combination thereof, to alert the driver of an FCW-equipped vehicle of a potential collision.

Standard
Active Safety System / Lane and Side Assist
Blind Spot Warning (BSW)

BSW alerts drivers with an audio or visual warning if there are vehicles in adjacent lanes that the driver may not see when making a lane change.

Standard
Lane Departure Warning (LDW)

An LDW system monitors lane markings and alerts the driver if their vehicle drifts out of their lane without a turn signal or any control input indicating the lane departure is intentional. An audio, visual or other alert warns the driver of the unintentional lane shift so the driver can steer the vehicle back into its lane.

Standard
Active Safety System / Lighting Technologies
Daytime Running Light (DRL)

DRL is an automotive lighting system on the front of a vehicle or bicycle, that automatically switches on when the vehicle is in drive, and emits white, yellow, or amber light to increase the conspicuity of the vehicle during daylight conditions.

Standard
Headlamp Light Source

A headlamp light source provides a distribution of light designed to provide adequate forward and lateral illumination with limits on light directed towards the eyes of other road users, to control glare. This beam is intended for use whenever other vehicles are present ahead. Halogen, high-Intensity discharge (HID), light-emitting diode (LED), and laser are the most common headlights on the market.

LED
Semiautomatic Headlamp Beam Switching

A semi-automatic headlamp beam switching device provides automatic or manual control of beam switching at the option of the driver. When the control is automatic, the headlamps switch from the upper beam to the lower beam when illuminated by the headlamps on an approaching car and switch back to the upper beam when the road ahead is dark. When the control is manual, the driver may obtain either beam manually regardless of the condition of lights ahead of the vehicle.

Standard
Engine
Displacement (CC)

Engine displacement (in cubic centimeters) is the volume swept by all the pistons inside the cylinders of a reciprocating engine in a single movement from top dead center to bottom dead center.

2400.0
Displacement (CI)

Engine displacement (in cubic inches) is the volume swept by all the pistons inside the cylinders of a reciprocating engine in a single movement from top dead center to bottom dead center.

146.45698582735
Displacement (L)

Engine displacement (in liters) is the volume swept by all the pistons inside the cylinders of a reciprocating engine in a single movement from top dead center to bottom dead center.

2.4
Electrification Level

Electrification level defines to what level the vehicle is powered by electric system. The common electric system configurations are mild hybrid, strong hybrid, plug-in hybrid, battery electric, and fuel cell vehicles.

(1) Mild hybrid is the system such as 12-volt start-stop or 48-volt belt integrator starter generator (BISG) system that uses an electric motor to add assisting power to the internal combustion engine. The system has features such as stop-start, power assist, and mild level of generative braking features.

(2) Strong hybrid systems, in vehicles such as the Toyota Prius, mainly consist of motors, conventional gasoline engine, and battery, but the source of electrical charge for the battery power is provided by the conventional engine and/or regenerative braking.

(3) Plug-in hybrid systems, in vehicles such as the Toyota Rav4 Prime, mainly consist of motors, conventional gasoline engine and battery. Plug-in hybrid vehicles are like strong hybrids, but they have a larger battery pack and can be charged with an external source of electricity by electric vehicle supply equipment (EVSE).

(4) Battery electric vehicles (BEV), such as the Tesla Model S or Nissan Leaf, have only a battery and electrical motor components and use electricity as the only power source.

(5) Fuel cell electric vehicles (FCEV) use full electric drive platforms but consume electricity generated by onboard fuel cells and hydrogen fuel.

PHEV (Plug-in Hybrid Electric Vehicle)
Engine Brake (hp) From

Engine brake is the horsepower (hp) at the engine output shaft. Engine Brake (hp) From is the lower value of the range.

131
Engine Configuration

Engine configuration defines how engine cylinders are arranged. Common values are V6 for V-shaped arrangement, I4 or L4 for in-line arrangement.

In-Line
Engine Model

Engine model is a name that a manufacturer applies to a family of engine.

S91-YA1
Engine Number of Cylinders

This is a numerical field to store the number of cylinders in an engine. Common values for passenger cars are 4 or 6.

4
Fuel Type - Primary

Fuel type defines the fuel used to power the vehicle. For vehicles that have two power sources, such as plug-in hybrid vehicle, both primary fuel type and secondary fuel type will be provided.

Electric
Fuel Type - Secondary
Fuel type defines the fuel used to power the vehicle. For vehicles that have two power sources, such as plug-in hybrid vehicle, both primary fuel type and secondary fuel type will be provided.
Gasoline
Other Engine Info

This is a catch-all field for storing additional engine information that does not fit in any of the other engine fields.

Top Speed: 5000rpm / S91 (85kW), YA1 (100kW)
Valve Train Design

Valve train design defines engine camshaft design and control. Common values are single overhead cam (SOHC), dual overhead cam (DOHC), overhead valve (OHV), etc.

Dual Overhead Cam (DOHC)
Exterior / Body
Body Class

Body Class presents the body type based on 49 CFR 565.12(b): "Body type means the general configuration or shape of a vehicle distinguished by such characteristics as the number of doors or windows, cargo-carrying features and the roofline (e.g., sedan, fastback, hatchback)." Definitions are not provided for individual body types in the regulation.

Sport Utility Vehicle (SUV)/Multi-Purpose Vehicle (MPV)
Doors

This is a numerical field to store the number of doors on a vehicle.

5
Exterior / Dimension
Gross Vehicle Weight Rating From

Gross vehicle weight rating (GVWR) is the maximum operating weight of a vehicle including the vehicle's chassis, body, engine, engine fluids, fuel, accessories, driver, passengers and cargo, but excluding that of the trailers. Per 49 CFR 565.15, Class 1 is further broken down to Class A-D; Class 2 is further broken down to Class E-H. This field captures the lower bound of GVWR range for the vehicle.

Class 2E: 6,001 - 7,000 lb (2,722 - 3,175 kg)
General
Make

Per 49 CFR 565, Make is a name that a manufacturer applies to a group of vehicles or engines.

MITSUBISHI
Manufacturer Name
Name of the vehicle manufacturer.
MITSUBISHI MOTORS CORPORATION (MMC)
Model

Per 49 CFR 565, Model means a name that a manufacturer applies to a family of vehicles of the same type, make, line, series and body type.

Outlander
Model Year

If the model year (MY) is supplied when the VIN is decoded, such as from a crash report or a vehicle registration record, the MY value will be the supplied MY, even if the MY decoded from the VIN differs from the supplied MY. If the MY is not supplied when the VIN is decoded, the MY value will be decoded from the 10th character in the VIN.

2024
Plant City

This data element captures the city of the manufacturing plant where the manufacturer affixes the VIN.

OKAZAKI CITY
Plant Company Name

This data element captures the name of the company that owns the manufacturing plant where the manufacturer affixes the VIN.

OKAZAKI
Plant Country

This data element captures the country of the manufacturing plant where the manufacturer affixes the VIN.

JAPAN
Plant State

This data element captures the State or Province name within the Plant Country of the manufacturing plant where the manufacturer affixes the VIN.

AICHI PREFECTURE
Series2

This data element captures additional information about series of the vehicle.

Wagon Body Style
Trim

Trim levels further identify a vehicle by a particular set of special features. Higher trim levels either will add to the features of the base (entry-level model), or replace them with something else.

SE, Ralliart Edition
Vehicle Type

This field defines the type of the vehicle based on the World Manufacturer Identifier (WMI).

MULTIPURPOSE PASSENGER VEHICLE (MPV)
Interior / Seat
Number of Seat Rows

This data element is a numeric field to capture the number of rows of seats in a vehicle.

3
Number of Seats

This data element is a numeric field to store the number of seats in a vehicle.

7
Internal
NCSA Body Type

An internal NHTSA field to capture the body type of the vehicle.

Compact Utility (Utility Vehicle Categories "Small" and "Midsize")
NCSA Make

An internal NHTSA field to capture the Make of the vehicle.

Mitsubishi
NCSA Model

An internal NHTSA field to capture the Model of the vehicle.

Outlander (For 2019 on. For model years 2003-2018, see 52-047.)
Mechanical / Battery
Battery Energy (kWh) From

Battery Energy (kWh) From field stores the lower bound of battery energy range in the unit of kilowatt-hour (kWh).

20
Battery Type

Battery type field stores the battery chemistry type for anode, cathode.

Lithium-Ion/Li-Ion
Mechanical / Drivetrain
Drive Type

Drive type stores information about vehicle drivetrain configuration. The most common drive types for passenger cars, crossover vehicles, and pickup trucks are front-wheel drive (FWD), rear-wheel drive (RWD), all-wheel drive (AWD), and 4-wheel drive (4WD).

AWD/All-Wheel Drive
Mechanical / Transmission
Transmission Speeds

Transmission speed is a numerical field to capture the number of speeds for a transmission, such as 6 for a six-speed automatic or manual transmission.

1
Passive Safety System
Other Restraint System Info

Other Restraint Info field is used to code additional information about restraint system that cannot be coded in any other restraint fields.

Seat Belts: All designated seating position / Curtain AB + Seat mounted AB
Seat Belt Type

This field describes the type of seat belt, such as manual or automatic. Automatic seat belts automatically close over riders in a vehicle. Automatic seat belts were mainly used in some older model GM, Nissan, and Honda vehicles and are rarely seen now.

Manual
Passive Safety System / Air Bag Location
Curtain Air Bag Locations

This field captures the location of curtain air bags. Curtain air bags are side air bags that protect the head.

1st and 2nd Rows
Front Air Bag Locations

This field captures the location of frontal air bags. Frontal air bags are generally designed to deploy in "moderate to severe" frontal or near-frontal crashes.

1st Row (Driver and Passenger)
Side Air Bag Locations

This field captures the location of side air bags, typically designed for three areas of added protection: chest/torso, head, or both.

1st and 2nd Rows
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Frequently asked questions
Yes, a VIN decoder can often determine if specific safety technologies are equipped on a 2024 MITSUBISHI OUTLANDER PHEV based on the trim and optional equipment codes within the VIN.
You can educate yourself about reading and understanding window stickers by researching online resources, asking questions at dealerships, or consulting automotive buying guides that explain the elements of the label.
Such title brands might indicate significant past damage and repairs, crucial for assessing the safety and value of the 2024 MITSUBISHI OUTLANDER PHEV, if such brands are applied.
The frequency of oil changes, a crucial aspect of vehicle maintenance, might be documented in the service history section of our reports, if records are available.
Sales descriptions may provide detailed narratives of the 2024 MITSUBISHI vehicle’s features and condition at the time of each sale, highlighting potential changes and upgrades, depending on available data.
The economic climate can significantly affect the depreciation of vehicles, with higher demand and better economic conditions typically slowing depreciation rates.
To possibly get a vehicle history report by VIN, you can enter the VIN on our website's search tool; the availability and detail of the report will depend on the data accessible for that specific VIN.
Damage severity, if reported, is classified as minor, moderate, or severe, and may provide insights into the extent of damage the 2024 MITSUBISHI vehicle has sustained.
A VIN decoder can help you find compatible parts for a 2024 MITSUBISHI vehicle by identifying the exact model, engine type, and other specifications crucial for parts compatibility.
The information on vehicles provided here is supplied by third parties; BADVIN.ORG is not responsible for the accuracy of any information. BADVIN.ORG provides all service and materials without representations or warranties of any kind, either expressed or implied. Use BADVIN search and reports along with certified vehicle inspection and test drive. See Terms of Use for more details. All other logos, brands and designated trademarks are the property of their respective holders.