?2009-2010 cymbet corporation ? tel: +1-763-633-1780 ? www.cymbet.com ds-72-02 rev a page 1 of 5 rechargeable solid state energy storage: 12ah, 3.8v enerchip? cbc012 features all solid state construction ? smt package and process ? lead-free refow tolerant ? thousands of recharge cycles ? low self-discharge ? eco-friendly, rohs compliant ? electrical properties output voltage (nominal): 3.8v capacity (nominal): 12ah charging source: 4.00v to 4.15v recharge time to 80%: 10 minutes charge/discharge cycles: >5000 to 10% dod physical properties package size (dfn): 5 mm x 5 mm x 0.9 mm operating temperature: -20c to 70c storage temperature: -40c to 125c the enerchip? cbc012 is a surface-mount, solid state, thin flm, rechargeable energy storage device rated for 12ah at 3.8v. it is ideal as a localized on-board power source for srams, real-time clocks and microcontrollers which require standby power to retain time or data. it is also suitable for rfid tags, smart sensors, and remote applications which require a miniature, low-cost, and rugged power source. for many applications, the cbc012 is a superior alternative to button cell batteries and super-capacitors. because of their solid state design, enerchip? storage devices are able to withstand solder refow temperatures and can be processed in high- volume manufacturing lines similar to conventional semiconductor devices. there are no harmful gases, liquids or special handling procedures, in contrast to traditional rechargeable batteries. the cbc012 is based on a patented, all solid state, rechargeable energy cell with a nominal 3.8v output. recharge is fast and simple, with a direct connection to a 4.1v voltage source and no current limiting components. recharge time is 10 minutes to 80% capacity. robust design offers thousands of charge/ discharge cycles. the cbc012 is packaged in a 5 mm x 5 mm 6-pin dfn package. it is shipped in tubes, tape-and-reel, or waffe pack trays. applications standby supply ? for non-volatile sram, real-time clocks, controllers, supply supervisors, and other system-critical components. wireless sensors and rfid tags ? and other powered, low duty cycle applications. localized power source ? to keep microcontrollers and other devices alert in standby mode. power bridging ? to provide backup power to system during exchange of primary batteries. embedded energy ? where bare die can be embedded into modules or co-packaged with other ics 5 mm x 5 mm dfn smt package pin number(s) description 1 v- 2,3,4,5 nic 6 v+ note: nic = no internal connection cbc012 schematic representation top view 2.8 mm x 3.5 mm bare die 1 2 3 6 5 4 + -
enerchip? cbc012 solid state energy storage ?2009-2010cymbet corporation ? tel: +1-763-633-1780 ? www.cymbet.com ds-72-02 rev a page 2 of 5 operating characteristics note: all specifcations contained within this document are subject to change without notice parameter condition min typical max units discharge cutoff voltage 25c 3.0 (1) - - v charge voltage 25c 4.0 (2) 4.1 4.3 v pulse discharge current 25c 100 (3) - - a cell resistance (25c) charge cycle 2 - 2.8 4.5 k? charge cycle 1000 - 13 20 self-discharge (5-yr average; 25c) non-recoverable - 2.5 - % per year recoverable - 1.5 (4) - % per year operating temperature - -20 25 +70 c storage temperature - -40 - +125 (5) c recharge cycles (to 80% of rated capacity; 4.1v charge voltage) 25c 10% depth-of-discharge 5000 - - cycles 50% depth-of discharge 1000 - - cycles 40c 10% depth-of-discharge 2500 - - cycles 50% depth-of-discharge 500 - - cycles recharge time (to 80% of rated capacity; 4.1v charge voltage) charge cycle 2 - 10 22 minutes charge cycle 1000 - 45 70 capacity 50a discharge; 25c 12 - - ah (1) failure to cutoff the discharge voltage at 3.0v will result in enerchip performance degradation. (2) charging at 4.0v will charge the cell to approximately 70% of its rated capacity. (3) typical pulse duration = 20 milliseconds. (4) first month recoverable self-discharge is 4% average. (5) storage temperature is for uncharged enerchip. enerchip discharge characteristics
enerchip? cbc012 solid state energy storage ?2009-2010cymbet corporation ? tel: +1-763-633-1780 ? www.cymbet.com ds-72-02 rev a page 3 of 5 package dimensions - 6-pin dfn (package code d5) pin number(s) description 1 v- 2,3,4,5 nic 6 v+ note: nic = no internal connection notes: 1. all linear dimensions are in millimeters. 2. drawing is subject to change without notice. printed circuit board (pcb) layout guidelines and recommendations electrical resistance of solder fux residue on pcbs can be low enough to partially or fully discharge the backup energy cell and in some cases can be comparable to the load typically imposed on the cell when delivering power to an integrated circuit in low power mode. therefore, solder fux must be thoroughly washed from the board following soldering. the pcb layout can make this problem worse if the cells positive and negative terminals are routed near each other and under the package, where it is diffcult to wash the fux residue away. an undesirable example is shown in figure 1. the negative connection on the enerchip is routed from the negative pad to a via placed under the package near the positive pad. in this scenario, solder fux residue can wick from the positive solder pad, covering both the positive pad and the via. this results in a high resistance current path between the enerchip terminals. this current path will make the cell appear to be defective or make the application circuit appear to be drawing too much current. to avoid this situation, make sure positive and negative traces are routed outside of the package footprint, as shown in figure 2, to ensure that fux residue will not cause a discharge path between the positive and negative pads. similarly, a leakage current path can exist from the package lead solder pads to the exposed die pad on the underside of the package as well as any solder pad on the pcb that would be connected to that exposed die pad during the refow solder process. therefore, it is strongly recommended that the pcb layout not include a solder pad in the region where the exposed die pad of the package will land. it is suffcient to place pcb solder pads only where the package leads will be. that region of the pcb where the exposed die pad will land must not have any solder pads, traces, or vias.
enerchip? cbc012 solid state energy storage ?2009-2010cymbet corporation ? tel: +1-763-633-1780 ? www.cymbet.com ds-72-02 rev a page 4 of 5 figure 1: improper pcb traces resulting in an undesirable parasitic leakage path. for the cbc012-d5c the pcb layout of figure 3 is recommended. note that there should not be a center pad on the pcb that could contact the exposed die pad on the d5c package. again, this is to reduce the possible number and severity of leakage paths between the enerchip terminals. figure 3: recommended pcb layout to accommodate cbc012 package figure 2: proper pcb traces, precluding the formation of a parasitic leakage path. soldering, rework, and electrical test refer to the cymbet user manual for soldering, rework, and replacement of the enerchip on printed circuit boards, and for instructions on in-circuit electrical testing of the enerchip. when placing a silk screen on the pcb around the perimeter of the package, place the silk screen outside of the package and all metal pads. failure to observe this precaution can result in package cracking during solder refow due to the silk screen material interfering with the solder solidifcation process during cooling.
enerchip? cbc012 solid state energy storage ?2009-2010cymbet corporation ? tel: +1-763-633-1780 ? www.cymbet.com ds-72-02 rev a page 5 of 5 cymbet, the cymbet logo and enerchip are trademarks of cymbet corporation. all rights reserved disclaimer of warranties; as is the information provided in this data sheet is provided as is and cymbet corporation disclaims all representations or warranties of any kind, express or implied, relating to this data sheet and the cymbet enerchip product described herein, including without limitation, the implied warranties of merchantability, ftness for a particular purpose, non-infringement, title, or any warranties arising out of course of dealing, course of performance, or usage of trade. cymbet enerchip products are not approved for use in life critical applications. users shall confrm suitability of the cymbet enerchip product in any products or applications in which the cymbet enerchip product is adopted for use and are solely responsible for all legal, regulatory, and safety-related requirements concerning their products and applications and any use of the cymbet enerchip product described herein in any such product or applications. enerchip part number description notes cbc012-d5c 12ah enerchip in 6-pin m8 dfn, tube package for new designs cbc012-d5c-tr 12ah enerchip in 6-pin m8 dfn, tape/reel package for new designs cbc012-d5c-wp 12ah enerchip in 6-pin m8 dfn, waffe pack package for new designs CBC012-BDC-WP 12ah enerchip bare die, waffe pack contact cymbet cbc012-buc-wp 12ah enerchip bumped bare die, waffe pack contact cymbet ordering information
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