CO LO & MP LI GE AN N T FR EE Features *R oH S ** HA AA ™ Formerly a product Miniature Thermal Cutoff (TCO) device High current capacity, low impedance Overtemperature and overcurrent protection for lithium polymer and prismatic cells n Controls abnormal, excessive current virtually instantaneously, up to rated limits n Wide range of temperature options n n n n 5 8 5 1216 M *R oH S CO M PL IA N T 0 0 AB0 Applications Battery cell protection for: n Notebook PCs n Tablet PCs n Smart phones AA Series Breaker (Thermal Cutoff Device) Ratings AA72AB0 AA77AB0 AA82AB0 AA85AB0 72 °C ± 5 °C 77 °C ± 5 °C 82 °C ± 5 °C 85 °C ± 5 °C FR EE Specification LE AD Trip Temperature Reset Temperature 40 °C min. Contact Rating DC9 V / 35 A, 1000 cycles Maximum Breaking Current DC5 V / 60 A, 100 cycles Maximum Voltage DC28 V / 35 A, 100 cycles Ro VE LEA HS RS D CO ION FRE M SA E PL R IA E NT * Maximum Leakage Current Resistance 200 mA max. @ 25 °C 2 milliohms max. Agency Recognition Product Dimensions NO OBJECT 2.7 ± 0.1 (.106 ± .004) 6.95 ± 0.1 (.274 ± .004) UL, cUL 2.7 ± 0.1 (.106 ± .004) 0.2 MAX. (.008) TUV Description File Number: E215638 (UL 60730) File Number: R50350207 (EN 60730-2-9) How to Order 0.7 ± 0.1 (.028 ± .004) 2.5 ± 0.1 (.098 ± .004) Series Designator Trip Temperature (±5 °C) • 72 • 77 • 82 • 85 Arm Material A = Cu Alloy High Current Type 0.2 ± 0.01 (.008 ± .0004) 0.2 ± 0.01 (.008 ± .0004) 0.37 ± 0.1 (.015 ± .004) 1.22 ± 0.05 (.048 ± .002) REF. AA 77 A B 0 0.7 ± 0.1 (.028 ± .004) 2.5 ± 0.1 (.098 ± .004) 3.75 ± 0.1 (.148 ± .004) 3.95 MAX. (.156) 4 PLCS. Terminal Type 1 = With Projection B = Without Projection Manufacturer’s Internal Code 0.1 (.004) 0.37 ± 0.1 (.015 ± .004) 0.5 (.004) DIA. 4 PLCS. DIMENSIONS: R 0.15 (.006) 1.8 ± 0.1 (.071 ± .004) REF. MM (INCHES) 2.65 ± 0.1 (.104 ± .004) REF. * RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011. ** Bourns considers a product to be “halogen free” if (a) the Bromine (Br) content is 900 ppm or less; (b) the Chlorine (Cl) content is 900 ppm or less; and (c) the total Bromine (Br) and Chlorine (Cl) content is 1500 ppm or less. Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications. AA Series Breaker (Thermal Cutoff Device) Typical Performance Current (A) Current vs. Temperature Curves 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 20 30 40 50 AA72AB0 (Low 67 °C average) AA77AB0 (Low 72 °C average) AA82AB0 (Low 77 °C average) AA85AB0 (Low 80 °C average) 60 70 80 Temperature (°C) The above curves were derived from placing test samples in an oven at 25 ℃, 40 ℃, 60 ℃ and 70℃, increasing current flow through the sample at a rate of 0.1 A/minute and recording the current value when the sample trips. Product Structure Circuit Diagram ARM ARM TERMINAL PROJECTION COVER PLATE PTC COVER BASE TERMINAL NORMAL CIRCUIT BASE BIMETAL DISC CONTACT PROJECTION AVAILABLE WITH AND WITHOUT PROJECTIONS. Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications. CIRCUIT AFTER OPENING AA Series Breaker (Thermal Cutoff Device) Wiring Recommendations This is not a surface mount device for reflow soldering. Therefore, Ni tab wiring should be accomplished by either resistance or laser welding. Solder connections should be avoided. Typical Part Marking X2715A AA77A10 SERIES DESIGNATOR DATE CODE: MONTH (1~9, X, Y, Z) DATE YEAR MACHINE NO. ROMAN NUMERAL (I, II, III, ETC.) or ARABIC NUMERAL (1, 2, 3, ETC.) = OKAYAMA FACTORY ALPHABET = SHIGA FACTORY 02 MANUFACTURER’S TRADEMARK SPECIAL SPECIFICATIONS CODE TRIP TEMPERATURE - °C (72, 77, 82, 85) TERMINAL TYPE ARM MATERIAL (A = Cu ALLOY) MANUFACTURER’S INTERNAL CODE (ALPHANUMERIC CHARACTER) Standard Packaging Specifications Plastic Bag.......................................................................................................................................................................1,000 pcs. (fixed) Inner Box..........................................................................................................................................................................3,000 pcs. (fixed) Outer Box.....................................................................................................................................30,000 pcs. max. (up to 10 inner boxes) Application Temperature Range ........................................... -30 ~ 100 °C Storage Conditions 1) T . he breaker must be stored in the original packaging (plastic bag or carton) with .the following conditions: ambient temperature of -10 to +40 °C, RH <75 % with no .radical temperature change, direct sunshine, excessive vibration or shock. 2) A . void storage locations where there is a possibility of generating corrosive gas .such as from salt breeze, chlorine, hudrogen sulfide, ammonium, sulfide-oxidation, hydrogen chloride, acetate, etc. 3) Storage period should be no longer than 24 months from date of shipment. Asia-Pacific: Tel: +886-2 2562-4117 • Email: [email protected] EMEA: Tel: +36 88 520 390 • Email: [email protected] The Americas: Tel: +1-951 781-5500 • Email: [email protected] www.bourns.com Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications. AA Series Breaker (Thermal Cutoff Device) Caution when using Breaker Before using the breaker, please fully read the DESIGN AND HANDLING CAUTIONS stated below to avoid breaker performance deterioration and/or damage to the breaker body or terminal. DESIGN CAUTIONS 1. Use within the electrical ratings specified in this data sheet. If used over the rating of voltage or current, ON-OFF life might be impacted and contact may deteriorate due to breaker arm damage. 2. If used over the electrical rating, the circuit may not open safely or operate properly. Please test your device for any abnormalities and confirm that the breaker will open the circuit safely in your device. 3. Mount the breaker on your device where heat is the highest in order to transfer it effectively to the breaker. 4. If the breaker is affixed with an adhesive (resin, etc.), fully test, evaluate and verify that the adhesive presents no negative effects on the breaker before proceeding. 5. After the breaker is mounted, affix it so that the breaker body and terminals will not move. If not affixed properly, breaker resistance could increase or contact could open due to stress during handling or vibration/shock during transportation. 6. Mount the breaker body and terminals in a straight and flat direction. If the body and terminals are mounted in a twisted condition, breaker resistance could increase or create body damage. 7. If breaker is to be resin-molded, test and evaluate the application to determine whether the breaker can be used effectively. 8. The breaker cannot be used as a repetitive ON-OFF thermostat. 9. The breaker is not washable. Do not wash. 10. The breaker is not designed or warranted for flow, reflow or hand-soldering applications. If such application is required, you will need to evaluate whether the breaker is suitable for your specific application. 11. When mounting and after mounting the breaker, do not apply supersonic vibration. Vibration and heat may cause breaker resistance to increase or may cause body damage. If you plan to apply supersonic vibration after mounting the breaker, you will need to evaluate whether the breaker is suitable for your specific application. The breaker is not designed or warranted to withstand supersonic vibration. 12. Do not use the breaker in the following environments: a) Water, oil, chemicals or organic solutions b) Direct sunlight, outdoor exposure, dust c) Dew condensation, allowing the breaker to get wet d) Salt breeze, chlorine, hydrogen sulfide, ammonium, sulfide-oxidation, hydrogen chloride, and anywhere there is a possibility of generating corrosive gas such as sulfurous acid gas e) Strong static electric charge or electromagnetic wave 13. The breaker is not designed or tested for, and should not be used in, aerospace, airplane, nuclear, military, life-sustaining medical and other related applications. Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications. AA Series Breaker (Thermal Cutoff Device) Caution when using Breaker (Continued) HANDLING CAUTIONS 1. Since the breaker body is composed of plastic parts, do not clamp or dent with tools as this could cause a resistance increase or body damage. 2. Breaker terminals are thin copper-alloy with right angle edges. Handle carefully to avoid injury to fingers. Handling while wearing finger cots and using tweezers is recommended. 3. When welding breaker terminals or mounting the breaker on a cell or PCM board, be careful to avoid placing excessive stress on the breaker body and terminals. Excessive stress may cause a resistance increase or body damage. Please refer to the following cautions: a) Do not apply more than 10 N moment to the breaker body (refer to Figure 1) b) Do not apply more than 1.5 cN-m twist torque to the breaker body (refer to Figure 2) c) Do not apply more than 20 N bending force to the breaker body (refer to Figure 3) d) Do not apply more than 2.0 cN-m twist torque to the breaker terminals (refer to Figure 4) e) Do not apply more than 2 N force to the breaker terminals (refer to Figure 5) f) Do not bend terminals more than 45 ° at root (refer to Figure 6) g) Do not twist terminals more than 10 ° with the breaker body affixed. 4. In breaker body welding, normally there is direct welding (Figure 7) and series welding (Figure 8). In either case, use a suitable jig so that stress will not exceed the limits stated above. 5. Pull-and-detach strength of the terminal welding should be to your own specification. If the welding result is controlled by resistance, measurement should be made at a close point to the breaker body by “DC 4-point clip method” using a milliohm meter to ensure accuracy (refer to Figure 9). 6. Avoid putting excessive stress as shown above in 3-a) to 3-g) when the jig is used for welding/additional processing. 7. Confirm the resistance value after each time an additional process is applied. Figure 2 Figure 1 Figure 7 Figure 6 Figure 5 Figure 4 Figure 3 45 ° 45 ° 45 ° 45 ° Rod A Figure 8 Rod A Rod B Rod B Figure 9 Due to possible updates to safety standards and other reasons, there may be changes in specifications for this data sheet without prior notification. Therefore, before design-in for your application, please contact us for the most up-to-date specifications. milliohm meter 11/16 Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.