When developers are requested by their clients in the automotive business to devise tools that can ease down the process of vehicle identification, they must not only provide applications but also furnish a full guide to make the most of them.
The VIN is a 17-character code that uniquely identifies a vehicle. It is used to scan a variety of festures about a vehicle, including the year it was manufactured, the manufacturer, and the model. This code can also be used to determine whether a vehicle has been stolen or if there are any outstanding issues with it. Manual identification would be too burdensome, thus the need for an automatic VIN decoder to simplify the process.
VIN Decoder API allows to get all the information from the vehicles in a digital way. In the business of cars and trucks it`s of prime importance to have an excellent customer experience. This means that a developer must provide them with the best service and products. This API is the most recommendable tool to start developing APIs for users.
The VIN is usually located on the front of the vehicle near the windshield, on the driver’s side door post, or on the bottom of the driver’s side door. It can also be found in the engine compartment or under the hood. In case there`s no access to any of these locations, then contact the local DMV to provide it.
The VIN is a unique identifier for each vehicle that was manufactured by a specific manufacturer at a specific time. The first three numbers of the VIN are assigned by ISO standards to identify country of manufacture. The next two digits identify the manufacturer. The last digit is assigned by ISO standards to identify a specific plant within a manufacturer.
In addition, each manufacturer has a unique identifier that begins with one of two letters: W or Y. The second character identifies a specific manufacturer. The third digit indicates the model year.
The fourth digit indicates the vehicle category (passenger car, truck, bus, etc.). The fifth digit indicates the brand (e.g., Ford). The sixth digit indicates engine type (e.g., gasoline).
The seventh digit indicates the body type (e.g., saloon). The eighth digit indicates the transmission type (e.g., manual). The ninth digit indicates the manufacturing plant identifier (e.g., England). The tenth digit indicates model year (e.g., 1986). The eleventh digit indicates trim level (e.g., standard). The twelfth digit indicates body style (e.g., hatchback).
The thirteenth digit indicates seating capacity (e.g., 5 seats). The fourteenth character identifies seating position (e.g., driver). The fifteenth character identifies equipment level (e.g., standard). The sixteenth character identifies production location (e.g., Germany).
The seventeenth character identifies production sequence number (e.g., 1001st). Each manufacturer has its own set of numbers and letters.
This detailed deciphering of the VIN illustrates users on the relevance and the accuracy in tracing a vehicle, which has manufactured since 1981. For automotive dealers or service technicians who need to access this information frequently, decoding software programs are a must.
Why VIN Decoder API?
Car dealerships, fleet transportation, truck transportation, car insurance, auctions, car rental and many other business connected with the automotive business will make the most of this API that will respond in just a few clicks the most accurate and fullest report on features and history of the car. Law enforcement and government agencies will benefit from this tool as well.
How does this API work?
Counting on a subscription on Zyla API Hub marketplace, just start using, connecting and managing APIs. Subscribe to VIN Decoder API by simply clicking on the button “Start Free Trial”. Then meet the needed endpoint and simply provide the picture of the product. Make the API call by pressing the button “test endpoint” and see the results on display. The AI will process and retrieve an accurate report using this data.
If the input is JNKCA31A61T027494, the response will look like this:
{
"success": true,
"vin": "JNKCA31A61T027494",
"specification": {
"vin": "JNKCA31A61T027494",
"year": "2001",
"make": "Infiniti",
"model": "I30 Base / Touring",
"trim_level": "Touring",
"engine": "3.0L V6 SFI",
"style": "Sedan 4D",
"made_in": "Japan",
"steering_type": "R&P",
"anti_brake_system": "4-Wheel ABS",
"tank_size": null,
"overall_height": "56.50 inches",
"overall_length": "193.70 inches",
"overall_width": "70.20 inches",
"standard_seating": "5",
"optional_seating": null,
"highway_mileage": "28 miles/gallon",
"city_mileage": "20 miles/gallon",
"fuel_type": "Gasoline",
"transmission": "Automatic",
"drive_type": "FWD",
"features": [
"Air Conditioning",
"Cruise Control",
"Power Seat (Driver)",
"Remote Trunk Release",
"Anti-theft System",
"Front Airbags (Driver)",
"Tachometer"
]
}
}