A chip resistor includes a substrate, and a plurality of resistor elements each having a resistive film provided on the substrate and an interconnection film provided on the resistive film in contact with the resistive film. An electrode is provided on the substrate. Fuses disconnectably connect the resistor elements to the electrode. The resistive film is made of at least one material selected from the group of NiCr, NiCrAl, NiCrSi, NiCrSiAl, TaN, TaSiO.sub.2, TiN, TiNO and TiSiON.

An electricity storage module that includes a power storage element group obtained by stacking a plurality of power storage elements each having a lead terminal that protrudes from a side edge; and holding members that are attached to the side edges at which the lead terminals are provided and that hold the power storage elements, the holding members being provided with a fuse mounting portion for mounting a fuse that is to be electrically connected to the lead terminal.

An electricity storage module that includes a power storage element group obtained by stacking a plurality of power storage elements each having a lead terminal that protrudes from a side edge; and holding members that are attached to the side edges at which the lead terminals are provided and that hold the power storage elements, the holding members being provided with a fuse mounting portion for mounting a fuse that is to be electrically connected to the lead terminal.

A hard start capacitor replacement unit includes a capacitor container having a cover, a plurality of capacitors received within the container, each of said capacitors having a capacitance value, a common terminal mounted on the cover and electrically connected to a common terminal of each of said plurality of capacitors, a plurality of cover terminals mounted on the cover spaced apart from the common terminal and from each other, each cover terminal respectively electrically connected to one of the plurality of capacitors, a relay having contacts and being capable of opening and closing said contacts in response to a monitored condition of the motor, the relay having relay terminals, a fuse electrically connected to one of the relay terminals by a first wire wherein the fuse electrically disconnects the hard start capacitor replacement unit and the motor upon a failure, and a second wire electrically connecting one of the relay terminals and the motor, a third wire electrically connecting the common terminal and one of the relay terminals, a fourth wire electrically connecting one or more cover terminals to one of the relay terminals, wherein the contacts of the relay close to electrically connect one or more capacitors of the plurality of capacitors to the motor, and the contacts of the relay open to electrically disconnect the one or more capacitors of the plurality of capacitors from the motor.

A hard start capacitor replacement unit includes a capacitor container having a cover, a plurality of capacitors received within the container, each of said capacitors having a capacitance value, a common terminal mounted on the cover and electrically connected to a common terminal of each of said plurality of capacitors, a plurality of cover terminals mounted on the cover spaced apart from the common terminal and from each other, each cover terminal respectively electrically connected to one of the plurality of capacitors, a relay having contacts and being capable of opening and closing said contacts in response to a monitored condition of the motor, the relay having relay terminals, a fuse electrically connected to one of the relay terminals by a first wire wherein the fuse electrically disconnects the hard start capacitor replacement unit and the motor upon a failure, and a second wire electrically connecting one of the relay terminals and the motor, a third wire electrically connecting the common terminal and one of the relay terminals, a fourth wire electrically connecting one or more cover terminals to one of the relay terminals, wherein the contacts of the relay close to electrically connect one or more capacitors of the plurality of capacitors to the motor, and the contacts of the relay open to electrically disconnect the one or more capacitors of the plurality of capacitors from the motor.

A metallized film capacitor includes an element formed by cutting a laminate made of a pair of metallized films to a predetermined length, and the element includes metallized contact electrodes disposed on both end faces in a width direction of the element. On each dielectric film, there are formed a protection mechanism portion including a plurality of segmented electrodes that are coupled with each other via a fuse, a solid electrode connecting with the metallized contact electrode of a corresponding polarity, and a vertical pattern extending across the dielectric film in the length direction between the protection mechanism portion and the solid electrode. The position and the width of the vertical pattern are set such that the range of the vertical pattern in the width direction overlaps the vertical pattern of a metallized film which forms a pair.

A metallized film capacitor includes an element formed by cutting a laminate made of a pair of metallized films to a predetermined length, and the element includes metallized contact electrodes disposed on both end faces in a width direction of the element. On each dielectric film, there are formed a protection mechanism portion including a plurality of segmented electrodes that are coupled with each other via a fuse, a solid electrode connecting with the metallized contact electrode of a corresponding polarity, and a vertical pattern extending across the dielectric film in the length direction between the protection mechanism portion and the solid electrode. The position and the width of the vertical pattern are set such that the range of the vertical pattern in the width direction overlaps the vertical pattern of a metallized film which forms a pair.

A hard start capacitor replacement unit includes a capacitor container having a cover, a plurality of capacitors received within the container, each of said capacitors having a capacitance value, a common terminal mounted on the cover and electrically connected to a common terminal of each of said plurality of capacitors, a plurality of cover terminals mounted on the cover spaced apart from the common terminal and from each other, each cover terminal respectively electrically connected to one of the plurality of capacitors, a relay having contacts and being capable of opening and closing said contacts in response to a monitored condition of the motor, the relay having relay terminals, a fuse electrically connected to one of the relay terminals by a first wire wherein the fuse electrically disconnects the hard start capacitor replacement unit and the motor upon a failure, and a second wire electrically connecting one of the relay terminals and the motor, a third wire electrically connecting the common terminal and one of the relay terminals, a fourth wire electrically connecting one or more cover terminals to one of the relay terminals, wherein the contacts of the relay close to electrically connect one or more capacitors of the plurality of capacitors to the motor, and the contacts of the relay open to electrically disconnect the one or more capacitors of the plurality of capacitors from the motor.

A hard start capacitor replacement unit includes a capacitor container having a cover, a plurality of capacitors received within the container, each of said capacitors having a capacitance value, a common terminal mounted on the cover and electrically connected to a common terminal of each of said plurality of capacitors, a plurality of cover terminals mounted on the cover spaced apart from the common terminal and from each other, each cover terminal respectively electrically connected to one of the plurality of capacitors, a relay having contacts and being capable of opening and closing said contacts in response to a monitored condition of the motor, the relay having relay terminals, a fuse electrically connected to one of the relay terminals by a first wire wherein the fuse electrically disconnects the hard start capacitor replacement unit and the motor upon a failure, and a second wire electrically connecting one of the relay terminals and the motor, a third wire electrically connecting the common terminal and one of the relay terminals, a fourth wire electrically connecting one or more cover terminals to one of the relay terminals, wherein the contacts of the relay close to electrically connect one or more capacitors of the plurality of capacitors to the motor, and the contacts of the relay open to electrically disconnect the one or more capacitors of the plurality of capacitors from the motor.

A capacitive winding for a DC link capacitor has a first metallic layer forming the positive potential and a second metallic layer forming the negative potential, and has at least one section that functions as a return path for common mode current, which is formed by at least one of the metallic layers and is galvanically separated therefrom.