Abstract: A therapeutic diathermy applicator is proposed which minimizes the common problem of burning of patients' skin. The heat distribution arising as a result of unwanted capacitive effects is modeled as a manifestation of ‘conservative’ energy. A specific spatial characteristic of RF stimulation is determined and incorporated into the design of the applicator in order to achieve these goals.

Abstract: A diathermy apparatus includes a cylindrical coil (24) defining an opening (42), a pair of capacitors of substantially similar capacitance (20 and 22), each capacitor connected to one end of the coil, an RF signal source (26), and a balun (28) connected between the RF signal source (26) and the pair of capacitors (20 and 22). The balun (28) is operative for converting an unbalanced signal received from the RF signal source (26) into a balanced signal supplied to coil (24) via the pair of capacitors (20 and 22). Desirably, the cylindrical coil is a conical cylindrical (or cone-shaped) spiral coil.

Abstract: A resonant radio frequency diathermy heat applicator, including a flexible pad, an inductive coil with moderate defined resistance, fixed tuning capacitors, connecting cable and shielding that is broadly tuned to the signal source in a manner that eliminates the requirement for variable tuning elements.

Abstract: A therapeutic diathermy applicator is proposed which minimizes the common problem of burning of skin patient. The heat distribution arising as a result of unwanted capacitive effects is modeled as a manifestation of ‘conservative’ energy. A specific spatial characteristic of RF stimulation is determined and incorporated into the design of the applicator in order to achieve these goals.

Abstract: An applicator supplying RF power for therapeutic diathermic treatment of a patient includes a radiation shielding device for shielding the applicator against misapplication of radiation to objects in the surroundings and unintended areas of the patient's body, and a coupling device for electrically coupling the radiation shielding device to at least one point of the body of a patient in a low impedance manner that reduces the potential drop from the grounded radiation shield to the body tissue.

Abstract: A diathermy apparatus includes a cylindrical coil (24) defining an opening (42), a pair of capacitors of substantially similar capacitance (20 and 22), each capacitor connected to one end of the coil, an RF signal source (26), and a balun (28) connected between the RF signal source (26) and the pair of capacitors (20 and 22). The balun (28) is operative for converting an unbalanced signal received from the RF signal source (26) into a balanced signal supplied to coil (24) via the pair of capacitors (20 and 22). Desirably, the cylindrical coil is a conical cylindrical (or cone-shaped) spiral coil.

Abstract: A radio frequency diathermy application device, including a flexible pad and a flexible coil structure coupled to and supported by the pad The flexible coil structure has a flexible spiral-like primary winding and a flexible spiral-like secondary winding coupled to the primary winding, the primary and secondary windings each substantially lying in separate substantially parallel planes when the pad is in an unflexed state.

Abstract: An applicator supplying RF power for therapeutic diathermic treatment of a patient includes a radiation shielding device for shielding the applicator against misapplication of radiation to objects in the surroundings and unintended areas of the patient's body, and a coupling device for electrically coupling the radiation shielding device to at least one point of the body of a patient in a low impedance manner that reduces the potential drop from the grounded radiation shield to the body tissue.