| CPC A61F 2/72 (2013.01) [G16H 40/63 (2018.01); H03F 3/04 (2013.01); A61B 5/313 (2021.01)] | 3 Claims |
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1. An EMG amplifier unit that is positioned at or in a prosthesis stem, the EMG amplifier unit comprises:
an enclosure having front and back walls and top and bottom walls that are normal to the front and the back walls and define an inner space, the top and the bottom walls are planar and arranged opposite each other, the front wall is arranged opposite the back wall and forms an output end of the EMG amplifier unit, the top wall has a plurality of input plugs that spaced apart from each other on the top wall, and the front wall has at least one output signal plug;
a signal amplifier being electrically connected to the plurality of input plugs, the signal amplifier having a signal output that is electrically connected to the at least one output signal plug of the front wall of the enclosure;
a signal processing device having a signal input and a signal output, the signal input of the processing device is electrically connected to the signal output of the signal amplifier, the signal amplifier and the signal processing device are positioned in the inner space of the enclosure;
first and second input electrodes, each of the first and the second input electrodes has a first contact surface, a second contact surface and a reference contact surface which are configured to derive a movement potential of a prosthesis user muscle,
the first contact surface, the second contact surface and the reference contact surface of the first input electrode are aligned such that the reference contact surface is located between the first and the second contact surfaces, and
the first contact surface, the second contact surface and the reference contact surface of the second input electrode are aligned such that the reference contact surface is located between the first and the second contact surfaces;
the first input electrode is electrically connected to the EMG amplifier unit by first and second input signal wires and a first reference signal wire, wherein proximal ends of the first and the second input signal wires are electrically connected to the first and the second contact surfaces of the first input electrode, respectively, and a proximal end of the first reference signal wire is electrically connected to the reference contact surface of the first input electrode;
the second input electrode is electrically connected to the EMG amplifier unit by third and fourth input signal wires and a second reference signal wire, wherein proximal ends of the third and the fourth input signal wires are electrically connected to the first and the second contact surfaces of the second input electrode, respectively, and a proximal end of the second reference signal wire is electrically connected to the reference contact surface of the second input electrode;
each of the first, the second, the third and the fourth input signal wires and the first and the second reference signal wires has a distal end that is connected to a respective one of the plurality of input plugs on the top wall of the EMG amplifier unit such that input signals collected by the first and the second electrodes are transmitted to the signal amplifier, output signals of the signal amplifier are transmitted from the signal amplifier to the signal input of the signal processor which transmits processed output signals, via the signal output of the signal processor, to the at least one output signal plug of the enclosure, and the at least one output signal plug of the enclosure being electrically connected with a prosthesis control which controls a prosthesis based on the output signals of the signal processor.
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