A hearing protection device is presented. The device has a first earmuff connected to a second earmuff by a connector. Each of the first and second earmuffs are configured to receive an ambient sound and provide a dampened ambient sound to a wearer. The device also has a cable, with a cable length, that extends from the first earmuff to the second earmuff. The cable is coupled to the connector by a connection assembly. The connection assembly comprises a plurality of connection mechanisms arranged in a connection plan. Such a hearing protection device gives more freedom of placing the cable in a compact arrangement.

A hearing protection device is presented. The device has a first earmuff connected to a second earmuff by a connector. Each of the first and second earmuffs are configured to receive an ambient sound and provide a dampened ambient sound to a wearer. The device also has a cable, with a cable length, that extends from the first earmuff to the second earmuff. The cable is coupled to the connector by a connection assembly. The connection assembly comprises a plurality of connection mechanisms arranged in a connection plan. Such a hearing protection device gives more freedom of placing the cable in a compact arrangement.

A hearing protection device is presented. The hearing protection device includes a first and second earmuffs (202, 260, 310) connected by a connector (270, 320). The first and second earmuffs are configured to provide level dependent hearing protection. The first earmuff includes a microphone element (204, 330) having a microphone entry (264), positioned on an exterior of a housing of the first earmuff (260), the microphone element (204, 330) being configured to receive an ambient sound. The first earmuff also includes a processor configured to process the ambient sound using a level dependent function. The first earmuff also includes a speaker configured to broadcast the processed ambient sound in an interior of the first earmuff. The first earmuff also includes an asymmetrical windscreen (262) configured to enclose the microphone element. The windscreen is coupled to the housing of the first earmuff.

A hearing protection device is presented. The hearing protection device includes a first and second earmuffs (202, 260, 310) connected by a connector (270, 320). The first and second earmuffs are configured to provide level dependent hearing protection. The first earmuff includes a microphone element (204, 330) having a microphone entry (264), positioned on an exterior of a housing of the first earmuff (260), the microphone element (204, 330) being configured to receive an ambient sound. The first earmuff also includes a processor configured to process the ambient sound using a level dependent function. The first earmuff also includes a speaker configured to broadcast the processed ambient sound in an interior of the first earmuff. The first earmuff also includes an asymmetrical windscreen (262) configured to enclose the microphone element. The windscreen is coupled to the housing of the first earmuff.

A headset apparatus configured to be worn by a user operating outdoor power equipment. The headset may include a noise cancelling system and/or enhanced glasses.

A headset apparatus configured to be worn by a user operating outdoor power equipment. The headset may include a noise cancelling system and/or enhanced glasses.

There is provided a system having an electronic device powered by at least one battery, a controller communicably coupled to at least one battery, wherein the controller is configured to: determine a state of charge of the at least one battery; and interrupt a function of the electronic device for at least one predefined time period based on the state of charge of the at least one battery, where the interruption is indicative of a state of charge of the at least one battery. There is also provided an electronic device for use in the system.

A heat transfer device particularly structured for application of thermal therapy from a contact surface to a human ear. A device may be passive (pre-cooled), active (thermoelectrically active), or include elements of both. A device may be structured to apply thermal treatment from a contact surface of a contact cavity only to a localized posterior area relative to the circumference of an ear. Preferably, a device provides an uninterrupted opening extending in a line-of-sight between an ear canal and the local environment. A device may include both of a contact cavity and a bulk cavity, with heat transfer media disposed in each cavity. Typically, a bulk cavity holds at least twice the media volume contained in a contact cavity. The cavities may be disposed in fluid communication, or separated by a barrier to permit only thermal communication there-between. When a barrier is present, a device may include different heat transfer media in each cavity. One or more device may be associated with various mounting structure to dispose a contact surface in contact with desired portion(s) of a head.

A heat transfer device particularly structured for application of thermal therapy from a contact surface to a human ear. A device may be passive (pre-cooled), active (thermoelectrically active), or include elements of both. A device may be structured to apply thermal treatment from a contact surface of a contact cavity only to a localized posterior area relative to the circumference of an ear. Preferably, a device provides an uninterrupted opening extending in a line-of-sight between an ear canal and the local environment. A device may include both of a contact cavity and a bulk cavity, with heat transfer media disposed in each cavity. Typically, a bulk cavity holds at least twice the media volume contained in a contact cavity. The cavities may be disposed in fluid communication, or separated by a barrier to permit only thermal communication there-between. When a barrier is present, a device may include different heat transfer media in each cavity. One or more device may be associated with various mounting structure to dispose a contact surface in contact with desired portion(s) of a head.

The present disclosure relates to a hearing protection device 10, 10′ for protection in different hearing situations A, B, C. The device 10, 10′ comprises a microphone 30, 30′, 32, 32′, a sound reproduction unit 38 having a loudspeaker 50, 50′, 52, 52′ and a controller 60 for processing an ambient electrical signal. The present disclosure further relates to a controller 60 for such a hearing protection 10, 10′. The present disclosure furthermore relates to a method of switching such a hearing protection device 10, 10′ in different hearing situations A, B, C.