Abstract: A control circuit of Ground Fault Circuit Interrupter (GFCI), includes a load connection circuit used to connect power end and load end while transferring AC thereof, a creepage detection circuit, a trip control circuit and a trip circuit, and further includes a self-diagnosis current generation circuit, a self-diagnosis display circuit and a first switch duct. When the input AC in positive half-cycle, one of the said trip circuit and the self-diagnosis display circuit is electrically connected, while another should be electrically connected while the input AC in negative half-cycle, so without manpower-provided simulated signal, the control circuit of GFCI can be self diagnosed of creepage protection function, for the feedback of the stand or fall circs in time.
Abstract: A control circuit of Ground Fault Circuit Interrupter (GFCI), includes a load connection circuit used to connect power end and load end while transferring AC thereof, a creepage detection circuit, a trip control circuit and a trip circuit, and further includes a self-diagnosis current generation circuit, a self-diagnosis display circuit and a first switch duct. When the input AC in positive half-cycle, one of the said trip circuit and the self-diagnosis display circuit is electrically connected, while another should be electrically connected while the input AC in negative half-cycle, so without manpower-provided simulated signal, the control circuit of GFCI can be self diagnosed of creepage protection function, for the feedback of the stand or fall circs in time.
Abstract: A grounding fault circuit interrupter (GFCI), including a housing, a trip means, a pair of static contact pieces fixed on the housing, a pair of load contact pieces fixed on the housing, a pair of slide frames, a pair of movable contact pieces fixed on the slide frames respectively, which is resiliently movable, said trip means including a trip coil, a plunger provided in the trip coil, a trip spring abutted against the plunger, a balance frame, a latch, a reset pull rod, wherein said plunger is provided with an annular groove, the plunger movably connected to the latch through the annular groove, wherein the latch has an arc-shaped opening thereon and is movably provided on the balance frame, said balance frame having two wedge sides, the wedge sides in contact with the slide frames; wherein when the reset pull rod is connected with the latch, the static contact pieces are in contact with the movable contact pieces.
Abstract: A grounding fault circuit interrupter (GFCI), including a housing, a trip means, a pair of static contact pieces fixed on the housing, a pair of load contact pieces fixed on the housing, a pair of slide frames, a pair of movable contact pieces fixed on the slide frames respectively, which is resiliently movable, said trip means including a trip coil, a plunger provided in the trip coil, a trip spring abutted against the plunger, a balance frame, a latch, a reset pull rod, wherein said plunger is provided with an annular groove, the plunger movably connected to the latch through the annular groove, wherein the latch has an arc-shaped opening thereon and is movably provided on the balance frame, said balance frame having two wedge sides, the wedge sides in contact with the slide frames; wherein when the reset pull rod is connected with the latch, the static contact pieces are in contact with the movable contact pieces.