BATTERY PACK

Hereinafter, the present invention according to embodiment reference to drawing with an as further described to the thereby, the cold air flows. Hereinafter in the embodiment of the same hi the same component using to the drawing. Furthermore, same, or similar, in components described as possibly and is uncomplicated to time as large as that of not.

According to one embodiment of the present invention also the 1a decomposition of battery pack is perspective view. Also door has 1b 1a battery pack shown in decomposition of pack battery coupled thereto, only a portion of is perspective view. Door has 1c 1a also shown in perspective view is combined with battery pack. Also door has 1d COB module 1a is shown in bottom view. Also door has 1e shown in 1d COB I-I module is a cross-sectional drawing of cutting and seeing a line. Also door has 1f seating substrate 1a is shown in plane view. Also door has 1g seating shown in 1f II-II substrate is a cross-sectional drawing of cutting and seeing a line. Also door has 1h shown in 1c III-III surface of the portion of cutting and seeing a line is cross-sectional drawing.

Also 1a to also 1h as shown in, battery pack according to one embodiment of the present invention (10) formed to attach the bare cells (100) and, COB module (200) is formed containing a.. Furthermore, battery pack according to one embodiment of the present invention (10) cabinet substrate (300) is further contained within the container. Furthermore, battery pack according to one embodiment of the present invention (10) the PTC (Positive Temperature Coefficient) device (400) is formed further includes a. Furthermore, battery pack according to one embodiment of the present invention (10) in both the lead-in tap (500) is further contained within the container. Furthermore, battery pack according to one embodiment of the present invention (10) an insulating tape (600) is formed further includes a. Furthermore, battery pack according to one embodiment of the present invention (10) a cover case (700) is formed further includes a. Furthermore, battery pack according to one embodiment of the present invention (10) label (800) is further contained within the container.

Said bare cells (100) an anode (110) and a cathode (120) is a rechargeable battery has. Bare cells (100) the battery pack (10) is prior to being power occurrence cause electrode assembly (not shown) and a electrolyte (not shown) the container (130) has such a structure that a hermetic received is made from. Bare cells (100) with the end of the receiving and electrolyte electrode assembly can canned or, aluminum layer is formed and electrolyte electrode assembly a pouch to pouch-type of car being attached can be formed. The present embodiment contemplated, bare cells (100) corresponding the in can style. can style bare cells (100) a container (130) to anode nozzle of a print head (110) are connected electrically. Furthermore, container (130) and an insulating electrode-terminal combining a cathode electrode assembly (120) are connected electrically.

Said COB module (200) an insulating substrate (210), printed circuit pattern (220), conductive pad (230), charge/discharge terminal (240), COB (Chip On Board, 250) is contained within the container. COB module (200) formed to attach the bare cells (100) anode (110) and a cathode (120) is electrically connected to bare cells (100) is charge/discharge when and manages electrical connection to the cathode. COB module (200) for a common of a battery pack the first deoxygenator embodiment (10) can be used in addition to outer dimension is made to be greater than about is compact. Therefore, COB module (200), comprising a can-shaped or pouch-type bare cells (100) the intestinal side lead nowhere side stage during its processing with accessory a circuit such as tabs 20 is formed so as to removable water container, and a float.

Said insulating substrate (210), such as epoxy, a polymer resin is the Bayer constitute a or the stator is formed of a, plurality of the stacked-layer structure pressed tightly against one insulating layer has a.

Said printed circuit pattern (220) a conductive metallization, such as copper is formed in the shape of the pattern, insulating substrate (210) top surface of, lower surface, a via hole through a top side and an underside (Via hole) and, insulating substrate (210) can be formed over the intermediate of.

Said conductive pad (230) the number 1 semiconductor device having self-aligned contact (231) and a number 2 semiconductor device having self-aligned contact (232) is contained within the container.

Said number 1 semiconductor device having self-aligned contact (231) bar comprises a substrate (300) of conductive terminal number 1 (331) respectively are electrically connected to contact with the.. In this case, number 1 semiconductor device having self-aligned contact (231) the conductive terminal number 1 (331) and a soldering can be are preferably formed. Therefore, number 1 semiconductor device having self-aligned contact (231) the bare cells (100) anode (110) are connected electrically. Furthermore, conductive pad number 1 (231) the printing is circuit pattern (220) is electrically connected to charge/discharge terminal (240) of anode terminal (241) are connected is electrically connected to the bump.

Said number 2 semiconductor device having self-aligned contact (232) bar comprises a substrate (300) of conductive terminal number 2 (332) respectively are electrically connected to contact with the.. Therefore, number 2 semiconductor device having self-aligned contact (232) the bare cells (100) cathode (120) are connected electrically. Furthermore, conductive pad number 2 (232) the printing is circuit pattern (220) connected the charging switching element (251a1) and discharge switching element (251a2) is electrically connected to.

Conductive pads the (230) a metal member and a the other, the hand of the are preferably formed or soldered welding the printed circuit pattern (220) thicker than dielectric material to make the dielectric material can be formed. In this case, conductive pad (230) for the improved conductive alloy including nickel or nickel can be formed.

Said charge/discharge terminal (240) comprises a positive electrode terminal (241) and a, negative terminals of the battery pack, (242) and, auxiliary terminal (243) is contained within the container. Charge/discharge terminal (240) the printing is circuit pattern (220) size as the card insulating substrate (210) is formed. Charge/discharge terminal (240) a portable electronic product (not shown) of battery contact is electrically connected to is manufactured cells (100) is fed to Vcc and VSS terminals portable electronic power of an electric passageways and serves to direct. Furthermore, charge/discharge terminal (240) the width of the bare cells (100) less than width is formed along the side of cells is manufactured (100) is arranged on the sides of. Therefore, battery pack (10) a thin are formed to have thicknesses on the control stage to rotate the guide shafts is reacts with hot water with swelling.

Said anode terminal (241) the auxiliary terminal (243) the same located on a two and an auxiliary terminal (243) is disposed on one side of the. Anode terminal (241) the number 1 semiconductor device having self-aligned contact (231) are connected is electrically connected to the bump.

Said negative terminals of the battery pack, (242) the auxiliary terminal (243) the same located on a two and an auxiliary terminal (243) of other side of the outer tub is arranged. Negative terminals of the battery pack, (242) controls the charge switching element (251a1) and the discharge switching element (251a2) is electrically connected to.

Said auxiliary terminal (243) comprises a positive electrode terminal (241) and a cathode terminal (242) by bending at the center of. Furthermore, auxiliary terminal (243) of the insulated substrate (210) is placed at the center of.. Auxiliary terminal (243) a control circuit (251a3) is electrically connected and a bare cells (100) discharge the filled state or can make, which may also serve to.

Wherein, said charge/discharge terminal (240) auxiliary terminal (243) the COB module (200) device of PCB for the insulating substrate (210) which centrally disposed within, the centrally located auxiliary terminal (243) comprises a positive electrode terminal (241) and a cathode terminal (242) is reference are disposed. I.e., anode terminal (241) and a cathode terminal (242) the auxiliary terminal (243) with a supporting a reference for managing a COB module (200) for when mass-charge/discharge terminal (240) is put on the internal member range of tolerance is allowed is provided to recognize easily whether the discriminating. I.e., COB module (200) of charge/discharge terminal (240) the structure the front member is semi-circular type, as well as manufacturing cost. save a manufacturing administrative costs.

Electrical component that has said COB (Chip On Board, 250) (251) and a insulator (252) is contained within the container.

Said electrical component (251) has a passive component (251a) and a passive element (251b) is contained within the container. In this case, electrical component (251) the individually to each of. there exists a status in which-element is free from insulation-coated.

Said active element (251a) controls the charge switching element (251a1), discharge switching element (251a2) and, control circuit (251a3) is contained within the container.

Said charging switching element (251a1) the printing is circuit pattern (220) size as the card, insulating substrate (210) is seated on the. Charging switching element (251a1) a field effect transistor and such switching blocks for equalizing characteristics of circuit blocks as devices, bare cells (100) (Turn On) turned on optimum charging by making a final charge is bare cells (100) filled so. In this case, discharge switching element (251a2) (Turn Off) the turned off the charging current flowing only outputs a relay driving signal..

Said discharge switching element (251a2) the printing is circuit pattern (220) size as the card, insulating substrate (210) is seated on the. Discharge switching element (251a2) a field effect transistor and such switching blocks for equalizing characteristics of circuit blocks as devices, bare cells (100) (Turn On) turned on when discharge is bare cells (100) outputs a relay driving signal. is discharged. In this case, charging switching element (251a1) (Turn Off) turned off the discharge current is flowing only outputs a relay driving signal..

Said control circuit (251a3) as semiconductor device of high integrated has it became the enemy , charging switching element (251a1) and the discharge switching element (251a2) and a electrically connected the charging switching element (251a1) and the discharge switching element (251a2) switching function to control. Wherein, control circuit (251a3) the printing is circuit pattern (220) charged by switching element (251a1) and the discharge switching element (251a2) are connected is electrically connected to the bump. In this case, control circuit (251a3) controls the charge switching element (251a1) the turning, bare cells (100) filling the.. Furthermore, control circuit (251a3) the discharge switching element (251a2) bare cells enable signal to turn turned (100) the discharge to. Furthermore, control circuit (251a3) the bare cells (100) measures a voltage the bare cells (100) of a cycloalkylbenzene derivative having when is detected first comparator compares the first reference voltage, charging switching element (251a1) turning off the cells is manufactured (100) is provided to prevent overcharging of a.. Furthermore, control circuit (251a3) the bare cells (100) measures a voltage the bare cells (100) first comparator compares the first reference voltage lic2o4 of when is detected, discharge switching element (251a2) turning off the cells is manufactured (100) preventing generation of overdischarge in.. On the other hand, control circuit (251a3) controls the charge or during high-rate discharge and when breaker includes the, charging switching element (251a1) and discharging switching element (251a2) the time count value is more than turn both bare cells (100), and prevent overheating of.. Furthermore, control circuit (251a3) sensing the temperature at a specific message when is detected critical temperature, charging switching element (251a1) and the discharge switching element (251a2) the time count value is more than turn both bare cells (100) the electrical connections the NC.. The present embodiment contemplated, control circuit (251a3) the bare cells (100) cathode (120) is used for connecting or disconnecting the large current path the bare cells (100) and manages the electrical connections.

Said passive element (251b) the resistance, capacitor and, 313 can be an electrical device such. Passive element (251b) the printing is circuit pattern (220) size as the card, insulating substrate (210) is placed on the upper surface to. Passive element (251b) has the active component (251a) is electrically connected and a active element (251a) applied to active element of operation is set to a voltage and current (251a), and has a well balanced between each other are. operated.

Said insulator (252) has electrical component that (251) to wrap the, electrical component (251) is contacted with is provided prevents is. Insulator (252) the epoxide resin or a polymer including epoxy resin is an injection frame is formed. Insulator (252) has electrical component that (251) for insulating electrical device (251) but formed to wrap the, electrical component (251) upon operation of electrical component (251) of heat generated at a delivery more efficiently so as to discharge the epoxy resin and is made from a polymer resin is such.

In this case, insulator (252) has electrical component that (251) is exposed to the outside so as to prevent electrical component (251) for a perforation insulating substrate (210) and is coupled. Wherein, insulator (252) and an insulating substrate (210) the combination of insulator (250) is insulating substrate (210) is bonded to the. can be done. I.e., insulator (252) has electrical component that (251) for isolating a noise intolerant electrical component a function (251) an insulating board is provided with a (210) performs acts as both of the to secure a bottom. Therefore, electrical component (251) the charge/discharge terminal (240) and conductive pad (230) together with insulating substrate (210) is formed as a single piece on the, a desired simple structure COB module (200) .the socket and also make.

Wherein, COB (250) of the insulated substrate (210) electrical component on (251) is mounted in a state that a insulator (252) is formed. I.e., COB (250) each electric components are individually semiconductor chip in the form of a the PCB is on a fixing jig to remove warpage of the existing method substrate rotational force and thus with an increased semi-circular type structure has assmblablility.

While, COB (250) of the insulated substrate (210) and a slit, conductive pad (230) the number 1 semiconductor device having self-aligned contact (231) and a number 2 semiconductor device having self-aligned contact (232) COB (250) is composed is settled on the are each arranged. I.e., conductive pad (230) the COB (250) may be placed is settled on the, anode (110) and a cathode (120) of 2000 by a predetermined distance and current path. Therefore, COB module (200) anode (110) and a cathode (120) between the objects since the and are spaced apart from one. end generation probability of the shots is. In this case, COB module (200), thus the extrememly simple and structurally, COB module (200) to period of the AC voltage.

Wherein, COB (250) of the insulated substrate (210) and is formed on a lower surface of, charge/discharge terminal (240) of the insulated substrate (210) is formed on the upper surface of. Therefore, charge/discharge terminal (240) the a sufficient current in a portable electronic device a can be fed is arranged as a zigzag type. Furthermore, COB (250) and a charge/discharge terminal (240) has are arranged corresponds to each other. Thereby, COB (250) and a charge/discharge terminal (240) electrically connected to a printed circuit pattern (220) and compact the structure of, insulating substrate (210) is the plural stack of a 2 layer structure. Therefore, COB module (200) the flattens, thus causing the a very simply designed is an upper part wider than a lower.

On the other hand, said charge/discharge terminal (240) is formed an insulating substrate (210) its area is the one side of the charge/discharge terminal (240) than those of 120% to 400% is formed to be larger. COB module (200) a common the thereof. should are smaller in volume than and compact structure. However, COB module (200) a conductive pad (230) and a COB (250) since to mounting together, its size is reduced line is. Therefore, charge/discharge terminal (240) is formed an insulating substrate (210) the one side of the control charge/discharge terminal (240) than those of. present is formed large 120% COB (250) and conductive pad (230) a secure holding regions. And, charge/discharge terminal (240) is formed an insulating substrate (210) the one side of the control charge/discharge terminal (240) includes a plurality of holes in order within 400% than those of are smaller in volume than and compact structure the COB module (200) is formed on.

said COB module (200) the battery pack (10) available stream highway structure of the deck very compacted produced is is provided to reduce the production expenses since. Well as, COB module (200) formed to attach the bare cells (100) of charge/discharge during an serves for managing connection performs.

Furthermore, said COB module (200) the battery pack (10) thickness of cells bare-section is formed (100) are of slim (Slim) provided is a battery pack (10) .the socket and also make. Furthermore, COB module (200) a conductive pad (230), charge/discharge terminal (240) and, COB (250) the-so that a very compact, that the flame hole of upper cost, is are reduced manufacturing cost.

Said seated substrate (300) an insulating substrate (310), printed circuit pattern (320) and, conductive terminal (330) is contained within the container.

Said insulating substrate (310) the COB module (200) of insulating substrate (210) and made is made from. Furthermore, insulative substrates COB module (200) of insulating substrate (210) is formed having a length which greater than COB module (200) be the lamp screen is placed at the.

Said printed circuit pattern (320) an insulating substrate (310) formed a via hole (Via hole) is formed on. Furthermore, printed circuit pattern (320) an insulating substrate (310) upper and formed on the bottom of conductive terminal (330) are electrically coupled to a region are provided. Printed circuit pattern (320) is solidified, a conductive, such as copper can be formed.

Said conductive terminal (330) of the insulated substrate (310) is seated on the. Furthermore, conductive terminal (330) a conductive pad (230) respectively are electrically connected to contact with the..

In this case, conductive terminal (330) the conductive terminal number 1 (331), conductive terminal number 2 (332), conductive terminal number 3 (333) and, conductive terminal number 4 (334) is contained within the container.

Conductive terminal said number 1 (331) of the insulated substrate (310) seated in an upper surface of which, number 1 semiconductor device having self-aligned contact (231) are connected is electrically connected to the bump. In this case, conductive terminal number 1 (331) and a number 1 semiconductor device having self-aligned contact (231) are made by soldering the combination of can be.

Said number 2 conductive terminal (332) of the insulated substrate (310) seated in an upper surface of which, number 2 semiconductor device having self-aligned contact (231) are connected is electrically connected to the bump. In this case, conductive terminal number 2 (332) and a number 2 semiconductor device having self-aligned contact (231) are made by soldering the combination of can be.

Conductive terminal said number 3 (333) of the insulated substrate (310) on which the lower surface of, PTC device (400) are connected is electrically connected to the bump. In this case, conductive terminal number 3 (333) and a PTC device (400) are made by soldering the combination of can be.

Conductive terminal said number 4 (334) of the insulated substrate (310) are only tightly lower portion of, number 2 lead tap (520) are connected electrically. In this case, conductive terminal number 4 (334) and a tap lead number 2 (520) are made by soldering the combination of can be.

Wherein, conductive terminal number 1 (331) and a conductive terminal number 3 (333) of the insulated substrate (310) are arranged so as to correspond based on the. Together, number 2 terminal (332) and a conductive terminal number 4 (334) the printing is circuit pattern (320) is formed only in a via holes for the semi-circular type to the insulating substrate (310) are arranged so as to correspond based on the. I.e., conductive terminal (330) of the insulated substrate (310) disposed so as to be corresponding based on the printed circuit pattern (320) the outputs a relay driving signal. formed only in a hole. Therefore, said for producing the same; a conductive terminal (330) arrangement of said sensor thereby compact structure of electric wiring, seated substrate (300) of only a single transistor and judges the..

Said conductive terminal (330) has electrically conductive and soldering to improve including alloy is formed with nickel or nickel.

Said seated substrate (300) formed to attach the bare cells (100) and COB module (200). electrically connected to. Furthermore, seating substrate (300) a common a COB module (200) for securing the, COB module (200) of charge/discharge terminal (240) the cover case (700) of charge/discharge terminal (711) and corresponding a to match the. In this case, substrate seated (300) the COB module (200) with bare cells (100) are of battery pack (10) outputs a relay driving signal. is not thickness of said layer increases. I.e., seated substrate (300) a common a COB module (200) is bare cells (100) and makes electrical and effective to supply the guided result via the COB module (200) to more effectively use the constructional so.

Said PTC device (400) comprises a substrate (300) and bare cells (100) is electrically connected to the. The present embodiment contemplated, PTC device (400) the number 1 lead tap (510) and conductive terminal number 3 (333) placed is electrically connected to substrate (300) and bare cells (100) for electrically connecting a.. Furthermore, PTC device (400) a battery pack (10) thickness of cells bare-section is formed (100) is arranged on the sides of. PTC device (400) the bare cells (100) rises above an upper critical temperature of when, internal resistance abruptly increases current shuts off the flow of make serves.

Said lead tap (500) the tap lead number 1 (510) and number 2 lead tap (520) is formed containing a..

Tap lead said number 1 (510) is one side, the bare cells (100) anode (110) and, the lam and the other PTC device (400) are connected is electrically connected to the bump. Furthermore, tap lead number 1 (510) is is folded near the center point. In this case, tap lead number 1 (510) the battery pack (10) thickness of battery pack-section is formed (10) is arranged on the sides of.

Said number 2 lead tap (520) is one side, the bare cells (100) cathode (120) and, the lam and the other conductive terminal number 4 (334) are connected is electrically connected to the bump. In this case, number 2 lead tap (520) is is folded near the center point.

Wherein, said number 1 lead tap (510) and number 2 lead tap (520) the bent seated substrate (300) are connected electrically. Furthermore, tap lead number 1 (510) and number 2 lead tap (520) the COB module (200) are connected electrically transient. In this case, tap lead number 1 which is bent (510), which is bent number 2 lead tap (520), seated substrate (300) and COB module (200) is made, the profile battery pack (10) that cell is formed with 'U' shape. Therefore, battery pack (10) thickness a (Slim) slim can be either negative is reacts with hot water with swelling.

Wherein, bare cells lead tab (100) between tape has an (600) is formed. Insulating tape (600) with the adhesive agent by bare cells (100) attached to the is reacts with hot water with swelling. Insulating tape (600) the cathode, which are connected electrically to a tap lead number 2 (520) is bare cells (100) anode (110) and connected make to reduce flow resistance.

Said cover case (700) the top cover (710) and a side cover number 1 (720) and number 2 side cover (730) is contained within the container.

Said top cover (710) the COB module (200). surrounds. Furthermore, top cover (710) the charge/discharge terminal (711) is formed. Charge/discharge terminal (711) the charge/discharge terminal (240) corresponding to the shape of the pattern to form a plurality of holes the method.

Side cover said number 1 (720) the top cover (710) extend one side of number 1 lead tap (510)-attached bare cells (100) surrounds one side of.. In this case, side cover number 1 (720) the tap lead number 1 (510) (Short) [...] the exterior by covering to prevent make serves [...].

Said number 2 side cover (730) the top cover (710) extend side equalize the amount of heat emitted to number 2 lead tap (520)-attached bare cells (100) surrounds one side of.. In this case, number 2 side cover (730) the number 2 lead tap (520) to the audit the exterior serves insulating honeycomb segments do not cause a positional [...] make.

Furthermore, side cover number 1 (720) and number 2 side cover (730) formed to attach the bare cells (100) to surround one side of is formed flap portion is bare cells (100) side edges of portion [...] by an external impulse to reduce flow resistance caused to make.

Said cover case (700) the COB module (200) by covering COB module (200) and serves to direct that attempt to protect. In this case, cover case (700) the charge/discharge terminal (240) and corresponding charge/discharge terminal (711) is formed charge/discharge terminal (240) so from surface of.

Wherein, cover case (700) the COB module (200) is coupled as one piece with can be formed. Cover case (700) and a COB module (200) adhesive or clamping to the combination of can be are made by. The present embodiment contemplated, cover case (700) also inside as in 1h, double-sided adhesive tape (712) is formed, a double-side adhesive tape (712) the COB module (200) of insulating substrate (210) and is coupled with and. Therefore, COB module (200) a cover case (700) integrally in charge/discharge terminal (240) the position of charge/discharge terminal (711) is other end of and.

Said label (800) formed to attach the bare cells (100) and the cover case (700). surrounds. In this case, label (800) the number 1 side cover (720) and a side cover number 2 (730) and, bare cells (100) since together enveloping, cover case (700) and a bare cells (100) placed between the heat dispersion plates together make which serves to fasten the.

As said, battery pack according to one embodiment of the present invention (10) formed to attach the bare cells (10) of charge/discharge motor control and electric control of a signaling transfer point, regardless to the model of a battery using common COB module (200) is an upper part wider than a lower by.

Together, said provided is a battery pack (10) used in the COB module (200) tolerances management signal is passed through the, COB module (200) for managing an effort is not longer than the second set is an upper part wider than a lower a bottom of the.

Furthermore, battery pack (10) a common a COB module (200) is provided with a seating can be applied in the substrate (300), PTC device (400), lead tap (500) and, cover case (600) is produced as a single piece with the a very compact is reacts with hot water with swelling. Well as, COB module (200) formed to attach the bare cells (100) according to charge and discharge of controls electrical connection the bare cells (100) for lengthening life time of, overheat prevention and, for protecting break down since is readily separated from, battery pack (10) improves stability of.

Furthermore, said battery pack (10) used in the COB module (200) the COB (250) and a, charge/discharge terminal (240) and, conductive pad (230) by optimizing the placement of mounting area compared to substrate of the existing method is not longer than the second set is, for sharing wider the width of the application according to the free surfaces.

Furthermore, battery pack (10) the COB module (200), seated substrate (300) and, lead tap (500) and, PTC element is bare cells (100) may be placed on objects, goods side of, battery pack (10) thickness of said layer increases elements..

Next, of said provided is a battery pack is described to a manufacturing method.

Also Figure 2 shows a manufacturing method of the present invention according to one embodiment of the is an order. Also surface of the has 3d also to 3a is oxide coat have its own intrinsic manufacturing method according to.

2 also refers to surface, surface of the according to one embodiment of the present invention formed to attach the bare cells steps requiring manufacturing method (S10) and, pack forming step (S20) is contained within the container.

Said door has (S10) steps requiring bare cells as shown in 3a, anode (110) and a cathode (120) having bare cells (100) for preparing a.

In this case, (S10) steps requiring bare cells in bare cells (100) anode (110) and a cathode (120) the lead tap (500) and electrically connects the, lead tap (500) placed substrate (300) to transmit a driving signal for driving can be arranging.

Door has (S20) said pack forming step as shown in 3b, bare cells (100) anode (110) and a cathode (120) to COB module (200) to transmit a driving signal for driving.. In this case, COB module (200) cabinet substrate (300) and is electrically connected with bare cells (100) may be connected to electrically. In (S20) forming step pack simultaneously COB module (200) for securing substrate (300). installed on one side of the bracket. After this, at the definition stage pack door has (S20) as shown in 3c bare cells (100) to cover case (700) covered with.. In this case, COB module (200) a printed circuit pattern connected to the electrical COB (250) and the conductive pad (231, 232) by integrally formed state is.

According to one embodiment of the manufacturing method of the present invention a common COB module (200) placed substrate (300) to be coupled with the rotor or, cover case (700), as they only have to covered with, and the substrate are connected with a copyright 2000 seat member and an. Together, according to one embodiment of the manufacturing method of the present invention the COB (250) and a charge/discharge terminal (240) and conductive pad (231, 232) are integrally a desired COB module (200) is combined with at least one granular, production time of battery pack is an upper part wider than a lower wires are.

Furthermore, pack forming step (S20) is 1h as shown in, COB module (200) and the cover case (700) for bonding are integrally in constituting form in, bare cells (100) and COB module (200) and electrically connects the bare cells (100) to cover case (700) corresponding to the bar.. Therefore, COB module (200) a cover case (700) is placed is the input unit is engaged with a so that, an upper part wider than a lower wires are production time is.