A pressure measurement device (1) comprising a housing (20) extending around an electronic card (30) provided with a pressure sensor (40); the housing (20) co-operating with a first face (31) of the electronic card (30) to define a first sealed volume (3); the housing (20) also co-operating with a second face (32) of the electronic card (30) that is opposite from the first face (31) to define a second sealed volume (4); the housing (20) including at least one first channel (24) putting the medium (5) outside the housing (20) into fluid flow communication with the first sealed volume (3); the electronic card (30) including at least one second channel (33) putting the first volume (3) into fluid flow communication with the second volume (4); and the connection between the housing (20) and the electronic card (30) being arranged to allow relative movement between the housing (20) and the electronic card.

A pneumatic tire includes a sound absorbing member having a band shape. The sound absorbing member is bonded to an inner surface of a tread portion along a tire circumferential direction. The sound absorbing member includes a missing portion at at least one location in the tire circumferential direction. The at least one missing portion is disposed in a range corresponding to a light point in a tire main body. A correction body for correcting weight unbalance is fixed to a tire inner surface in the missing portion within the range corresponding to the light point.

Disclosed are a method and a system for detecting a faulty arrangement of a sensor module in a sensor module holder in a tire of a vehicle equipped with a tire monitoring system. The detection of a faulty arrangement of a sensor module may be performed by ascertaining on the basis of a comparison of the operating parameters determined by the sensor modules of the tire monitoring system that there is for this sensor module a discrepancy, dependent on a speed of the vehicle, between the operating parameter and an operating parameter to be expected for this sensor module.

A measuring device for a deformable vehicle tire having a sensor unit, a first data processing unit, and a first radio unit, where the sensor unit is designed to be fastenable to the inside of the vehicle tire such that a radial acceleration acting in a radial direction on a tread of the vehicle tire can be detected by means of the sensor unit, where the first data processing unit is configured to determine a result value, relevant for a tire mileage of the vehicle tire, at least on the basis of the radial acceleration and at least one predetermined tire parameter of the vehicle tire, where each tire parameter characterizes a property of the vehicle tire, and where the first radio unit is designed to transmit a radio signal which represents the determined result value.

A pneumatic tire includes: a tire inner surface rubber layer constituting a tire inner surface; and an electrically conductive member, at least a part of the electrically conductive member being disposed on an inner cavity side of the tire inner surface rubber layer. The electrically conductive member includes a knitted fabric including a yarn, at least a part of the yarn having electrical conductivity, the knitted fabric having stretchability. The electrically conductive member is electrically connected to an electrical device provided in the tire. The electrically conductive member is disposed extending along the tire inner surface in a tire radial direction, and a direction in which the electrically conductive member extends aligns with a direction in which the knitted fabric has stretchability. The knitted fabric is configured by mixing a yarn having electrical conductivity and a yarn having non-electrical conductivity.

The present disclosure is directed to a tyre with a monitoring device equipped with an electronic unit, an electric power supplier and an electrical connection between the electronic unit and the electric power supplier, wherein the electronic unit comprises a rigid printed circuits board on which a sensor is fixed to detect temperature, pressure and/or acceleration, a processing unit and a transceiver and wherein the electronic unit and the electric power supplier are both fixed on an inner surface of the tyre at the crown.

Provided are a pneumatic tire and a method of manufacturing the same is provided. An information display unit is configured to display, in a tire surface, information relating to attachment of a sensor unit configured to acquire tire information.

A combination vehicle tire sensor assembly and in-tire wheel balancer is adapted for residing inside a pneumatic tire mounted on a wheel rim of a motor vehicle. The combination includes a flexible mounting cable secured to the sensor assembly, and adapted for extending circumferentially within an annular space formed between the tire and wheel rim. A counterweight is secured to the mounting cable inside the pneumatic tire a spaced distance from the sensor assembly. A substantially hollow balancer belt resides inside the pneumatic tire adjacent the sensor assembly and counterweight, and defines a circumferentially-extending exterior groove designed for receiving and locating the mounting cable, and a circumferentially-extending interior cavity adapted for loosely containing a wheel-balancing medium.

A tire pressure monitoring system comprising a tire pressure monitoring device for mounting on an internal surface of a tire and including a pressure sensor for monitoring the fluid pressure in the tire. The system has an RFID tag located on the tire separately from the tire pressure monitoring device. In response to detecting a tire pressure event from monitoring the fluid pressure of said fluid, the tire pressure monitoring device causes the RFID to transmit data, which is received by the tire pressure monitoring device.

A pneumatic tire (1) having: a toroidal carcass (2), which is comprised of a body ply (3) partially collapsed onto itself and therefore having two lateral flaps; two annular beads (4), each of which is surrounded by the body ply (3) and has a bead core (5) and a bead filler (6); an annular tread (7); a pair of sidewalls (11) arranged externally to the body ply (3) between the tread (7) and the beads (4); a pair of abrasion gum strips (12) arranged externally to the body ply (3) under the sidewalls (13) and at the beads (4); and a transponder (13) which is arranged in contact with the body ply (3) at a flap of the body ply (3) and is located below an edge (19) of the body ply (3) between the edge (19) of the body ply (3) and the bead (4).