SD14LWH - FIAT 500
MOT: ValidGB
·Last updated 14 days ago
Vehicle Overview
Technical Details
Environmental Impact
Status & Compliance
Data provided by DVLA
MOT History
Vehicle testing history with 13 MOT tests
Understanding MOT Defect Categories
Total Tests
13
Passed Tests
9
Failed Tests
4
Latest Test
Passed
Passed - 17 June 2025
MOT Test at Unknown
Mileage: 48,434 mi
Expires: 16 June 2026
Advisory Notices:
- Advisory Offside Front Shock absorbers has light misting of oil (5.3.2 (b))
Failed - 16 June 2025
MOT Test at Unknown
Mileage: 48,431 mi
Major Defects:
- Major Offside Rear Upper Shock absorbers has an excessively worn bush (5.3.2 (c))
- Major Front Service brake excessively fluctuating (1.2.1 (e))
Advisory Notices:
- Advisory Oil leak, but not excessive leaking from sump due to corrosion (8.4.1 (a) (i))
- Advisory Offside Front Shock absorbers has light misting of oil (5.3.2 (b))
- Advisory Front Brake disc worn, pitted or scored, but not seriously weakened both front discs corroded (1.1.14 (a) (ii))
Passed - 14 June 2024
MOT Test at Unknown
Mileage: 46,894 mi
Expires: 16 June 2025
Advisory Notices:
- Advisory Oil leak, but not excessive sump corroded and leaking (8.4.1 (a) (i))
- Advisory Front Brake disc worn, pitted or scored, but not seriously weakened corrosion on inner surfaces (1.1.14 (a) (ii))
- Advisory Nearside Front Service brake fluctuating, but not excessively (1.2.1 (e))
- Advisory Offside Rear Shock absorbers has a slightly worn bush (5.3.2 (c))
Passed - 14 June 2023
MOT Test at Unknown
Mileage: 44,744 mi
Expires: 16 June 2024
Advisory Notices:
- Advisory Oil leak, but not excessive sump corroded and leaking (8.4.1 (a) (i))
- Advisory Offside Rear Shock absorbers has a slightly worn bush (5.3.2 (c))
Passed - 14 June 2022
MOT Test at Unknown
Mileage: 42,249 mi
Expires: 16 June 2023
Advisory Notices:
- Advisory Oil leak, but not excessive sump corroded and leaking (8.4.1 (a) (i))
- Advisory front tyres worn at inner edge of tread
Failed - 14 June 2022
MOT Test at Unknown
Mileage: 42,249 mi
Major Defects:
- Major Nearside Front Suspension arm ball joint excessively worn (5.3.4 (a) (i))
- Major Nearside Front Suspension arm pin or bush excessively worn rear bush (5.3.4 (a) (i))
Advisory Notices:
- Advisory Oil leak, but not excessive sump corroded and leaking (8.4.1 (a) (i))
- Advisory front tyres worn at inner edge of tread
Passed - 17 June 2021
MOT Test at Unknown
Mileage: 37,799 mi
Expires: 16 June 2022
Passed - 16 September 2020
MOT Test at Unknown
Mileage: 35,474 mi
Expires: 30 September 2021
Failed - 16 September 2020 Dangerous Defects
MOT Test at Unknown
Mileage: 35,474 mi
Dangerous Defects:
- Dangerous Offside Front Outer Brake pad(s) less than 1.5 mm thick (1.1.13 (a) (ii))
Major Defects:
- Major Offside Headlamp aim too far to the right (4.1.2 (a))
- Major Offside Front Suspension arm ball joint excessively worn (5.3.4 (a) (i))
Advisory Notices:
- Advisory Front Brake disc worn, pitted or scored, but not seriously weakened heavily corroded (1.1.14 (a) (ii))
- Advisory Front Service brake fluctuating, but not excessively (1.2.1 (e))
Passed - 19 March 2019
MOT Test at Unknown
Mileage: 28,860 mi
Expires: 30 September 2020
Passed - 23 March 2018
MOT Test at Unknown
Mileage: 23,293 mi
Expires: 30 March 2019
Advisory Notices:
- Advisory Nearside Front Tyre worn close to the legal limit (4.1.E.1)
- Advisory Offside Front Tyre worn close to the legal limit (4.1.E.1)
Passed - 17 March 2017
MOT Test at Unknown
Mileage: 18,232 mi
Expires: 30 March 2018
Failed - 16 March 2017
MOT Test at Unknown
Mileage: 18,323 mi
Major Defects:
- Major Nearside Front Brake pad(s) less than 1.5 mm thick (3.5.1g)
- Major Offside Front Brake pad(s) less than 1.5 mm thick (3.5.1g)
Frequently Asked Questions
When is the MOT due for SD14LWH?
The MOT expires on 16 June 2026.
What is the tax status of SD14LWH?
The tax status is Taxed and is due on 01 April 2026.
What are the specifications of SD14LWH?
This is a 2014 FIAT 500 in White. It runs on Petrol with a 1242cc engine.
What is the environmental impact of SD14LWH?
This vehicle produces 113 g/km of CO2 emissions.