Nov 22, 2025Transmission & drivetrainSpeed control
Shortly after powering on the GHHM vehicle, driving a short distance, coming to a stop and depressing the accelerator the vehicle does not accelerate as though no power is getting to the drive train. This does not often happen but has always happened when the EV battery level is 3 bars or less and the vehicle is in its Normal mode (as opposed to Sport or ECO). This acceleration failure event lasts for a few seconds. No warning indicators are displayed prior to, during or after this happens. The dealer checked the vehicle on 30AUG2025, was not able to reproduce, but applied a firmware update TSB-0040-25, which has not solved the problem. Took it back to dealer on 14OCT2025, but the dealer was again not able to reproduce the problem. It poses a safety risk when attempting to cross intersections or entering round-abouts and the vehicle can only move at a coasting speed instead of the expected normal acceleration.
NHTSA ODI 11700965
Nov 14, 2025Speed control
Inconsistently but on numerous occasions, this vehicle has experienced harsh shifting, hesitation, or jerking during low-speed acceleration (e.g., 20-40 mph) or gear engagement. This was a known and reported issue with the 2024 model for which Toyota provided a fix. They have not provided one for the 2025 models. This issue is a safety risk while driving because with the surge you feel you must quickly let off the pedal, and with the hesitation you let off the brake indicating you will move forward yet the vehicle doesn’t accelerate.
NHTSA ODI 11699345
Jun 23, 2025Transmission & drivetrainSpeed controlEngine
I am submitting this complaint regarding a serious safety hazard and design flaw with the 2025 Toyota Grand Highlander Hybrid. While driving on a two-lane highway, our vehicle suddenly lost power and warning lights appeared on the dashboard. We were forced to exit the highway immediately (we were less than 0.5 miles to an exit). Shortly after pulling onto the off-ramp, the vehicle entered limp mode, significantly limiting its ability to function - all assist systems deactivated amd the car has a significant decrease in power. We were able to drive approximately half a mile to a nearby gas station, where we called for a tow. This situation left us vulnerable on a busy roadway, placing both us and other drivers at risk. The Toyota dealership diagnosed the issue as damage to the hybrid inverter radiator, allegedly caused by a rock or piece of debris entering through the front grille. We were told this was not covered under warranty, and to make matters worse, the necessary part is currently on backorder for three weeks to three months—leaving the vehicle undriveable. A significant concern is the design of the front grille, which has large, open gaps that allow ordinary road debris to enter the engine compartment. This leaves critical components like the hybrid inverter radiator exposed and vulnerable, even under standard driving conditions. After researching, I discovered numerous similar reports from other Toyota hybrid owners—including those with Grand Highlanders, Highlander Hybrids, RAV4 Hybrids, and Prius models—who have experienced the exact same issue. In nearly every case, drivers were told it was due to external damage and denied warranty coverage. This presents a clear and growing safety issue: 1. Sudden power loss on a highway or arterial road increases the risk of collision. 2. A critical hybrid system component is inadequately
NHTSA ODI 11668786