BR-1/2AAE2PN

Control number Digi-Key SPECIFICATION Poly-carbonmonofluoride Lithium Battery Ordering Code : Model Code BR-1/2AAE2PN BR-1/2AA : Approved by Division/Department Name Title Signature/date ISSUED Sep,25,2017 PT. Panasonic Gobel Energy Indonesia Date of Issued : Sep,25,2017 PT. Panasonic Gobel Energy Indonesia Approved 5358419(1) Checked Drafted 02017-9E-015 Revision history No． Date Revision 1 Sep,25,2017 Issued 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 1. Application Range This specification is applied to poly-carbonmonofluoride Lithium batteries manufactured by Panasonic Corporation Automotive & Industrial Systems Company (AIS Company). 2. Nominal Specification 2-1 Model Number 2-2 Nominal Voltage 2-3 Nominal Capacity 2-4 Standard Discharge Current 2-5 Maximum Discharge Current 2-6 Dimensions 2-7 Mass 2-8 Appearance 2-9 Temperature 2-10 Recommendable Storage Condition 2-11 Battery Composition BR-1/2AAE2PN (Bare cell: BR-1/2AA) 3V 1,000mAh (Nominal capacity is based on the standard discharge current and cut-off voltage 1.8V at 20℃.) 2.5mA 50 mA (continuous) 300 mA (for 1 sec.) See attached drawing Approximately 8g No noticeable deformation Operating; –40 to +100℃ (Non condensing) Non-operating; -20 to 45℃ (Non condensing) (Note: Contact Panasonic in case of using the battery in out of the specified temperature range above.) Temperature: 5℃ to 35℃ Humidity: Less than 70%RH Lithium primary battery composed of cathode from poly-carbonmonofluoride, anode from lithium, and electrolyte from organic solvent and lithium salt. 3. Characteristics 3-1 Open Circuit Voltage 3-1-1 Initial 3-1-2 After 1 year storage at 25±5℃ (humidity : less than 70%RH) 3-2 Impedance 3-2-1 Initial 3-1-2 After 1 year storage at 25±5℃ (humidity : less than 70%RH) 3-3 Duration 3-3-1 Initial 3-3-2 After 1 year storage at 25±5℃ (humidity : less than 70%RH) 3-4 Vibration Resistance 3-5 High Temperature Storage Between 3.0 and 3.5V (The measuring method is described in item 5-4-1.) Between 3.0 and 3.5V (The measuring method is described in item 5-4-1.) Between 0.1 and 1.0Ω (The measuring method is described in item 5-4-2.) Between 0.1 and 1.0Ω (The measuring method is described in item 5-4-2.) 300h MIN. (20±3℃) (The measuring method is described in item 5-4-3.) 300h MIN. (20±3℃) (The measuring method is described in item 5-4-3.) Deterioration of performance (3-1) shall not occur after the test described in item 5-4-4. The battery shall not show leakage or salting after the high temperature storage described in item 5-4-5. -1- 4. Test Condition 4-1 Test Condition 4-2 Test Timing 4-3 Measurement Instrument 4-3-1 Voltage Meter 4-3-2 Battery Impedance Meter 4-3-3 Caliper 4-3-4 Balance Unless otherwise specified the test shall be carried out at, Temperature : 20±15℃ Humidity : 65±20%RH The test shall be started within a month from delivered day. Input impedance : ≧ 10MΩ Measurement error : ≦ 0.5% Sine-wave AC method (1kHz, 0.1mA) (As a general, Agilent Technologies LCR Meter [4338B] is recommended.) Class 1 of JIS B 7507:1993 Sensitivity : ≦ 100mg 5. Measuring Method 5-1 Dimensions 5-2 Mass 5-3 Appearance 5-4 Characteristics 5-4-1 Open Circuit Voltage 5-4-2 Impedance 5-4-3 Duration 5-4-4 Vibration Test 5-4-5 High Temperature Storage This shall be measured with the caliper described in item 4-3-3. This shall be measured with the balance described in item 4-3-4. Deformation or tarnish shall be checked by visual observation method. This shall be measured with the voltage meter described in item 4-3-1. This shall be measured with the impedance meter described in item 4-3-2. This shall be measured by constant resistance discharge method. Test temperature : 20±3℃ Load resistance : 1 kΩ End voltage: 1.8V This test shall be carried out by the following condition according to UN Manual of Test and Criteria, PartⅢ, sub-section 38.3.4.5, Amplitude: 0.8mm Frequency: 7 ⇔ 200Hz Directions: X, Y, Z Duration: 15 minutes, 12 times (each direction) The battery shall be stored at 60℃ for 1 month. After the storage, the battery shall be kept in dry place at 25±5℃ during 4hours, then leakage and appearance shall be checked by visual observation method. -2- 6. Indication 6.1 Below items are indicated on the side surface of the battery. (Design of indication is possibly modified without prier announcement.) Model code Nominal voltage Manufacture or its brand Production BR-1/2AA 3V Panasonic Japan 6.2 Date Code System Ex. 6 Y 4 1 2016(Year) (The first digit) November(Month) (The second digit) Fourth week (The third digit) Monday(Day) (The fourth digit) October; 0, November; Y, December; Z 6.3 UL Standard This battery is certificated by UL and listed on the file number MH12210, and it is available to review that in the UL web site (http://www.ul.com). 6.4 Production Site Panasonic Corporation Automotive & Industrial Systems Company (AIS Company). 1-1 Matsushita-cho, Moriguchi-city, Osaka, 570-8511, Japan 7. Operations and Modification of This Specification Modification must be carried out under mutual agreement. Any accidents caused by non-described items in this specification must be discussed and solved mutually. 8. Important Notes (Warranty) 1) The batteries are warranted to conform to the description contained in this Specification for a period of twelve [12] months from the ex-factory date and any claim by you (customer) must be made within such period. During that warranty period, if the Batteries are proved to become defective, non-defective and conforming Batteries will be supplied in due course at sole expense of Panasonic Corporation AIS Company (Panasonic) upon Panasonic’s own determination that this is apparently caused by negligence of Panasonic. Any further claims based on the delivery of defective Batteries shall be excluded. Such exclusion shall not affect the liability of Panasonic based on product liability for grossly negligence or intentional behavior of Panasonic. 2) Confirmation of the matching and reliability of Batteries into your actual sets or units is your own responsibility. 3) Panasonic shall not warrant or be responsible in any case where your fails to carry out proper handling, operating, installation, testing, service and checkout of the batteries and/or to follow the instructions, cautions, warnings, notes provided in this Specifications, or other Panasonic’s reasonable instructions or advice. -3- 9. Others 1) This product specification will be validated assuming that it is accepted when it is not returned within six months from the date of issue. 2) This battery is classified as Lithium Metal Battery by transport regulations, and is needed to consider special handling may apply. Please refer the latest regulations e.g. IATA, IMDG or DOT where transport this battery or/and any articles contain or assembled with this battery. This battery complies with UN Recommendation on the Transport of Dangerous Goods (UN38.3). 3) This battery does not contain any toxic materials, such as mercury, cadmium or lead. 10. Precautions for use 1) The battery shall not be stored at temperatures in excess of 45℃. Storage at less than 35℃ is recommended. Storage at less than -20℃ can deform the plastic parts and may cause a leakage. To prevent self-discharge caused by corrosion or decrease of insulation, humidity during storage shall be less than 70%RH. Do not expose batteries to direct sunlight or moisture in order to prevent deterioration of performance. 2) The battery has an explosion resistant construction. But the following cautions should be taken, because combustible materials such as Lithium metal and organic electrolyte are contained in the battery. * Do not use except in applicable model or equipment. * Do not connect more than two cells in series. * Do not mix new (fresh) and old (end of life) batteries. * Do not force-discharge. * Do not mix different types (chemistries) of batteries. * Do not short circuit. * Do not dispose in fire. * Do not charge. * Do not disassemble. * Do not heat up more than 100℃. * Do not solder directly onto batteries. * Do not soak in water. * Do not deform. * Do not inadequacy modify and remodel for installation. * Insert the batteries in correct polarity position. 3) Keep away from heat source or flame. 4) Do not wash by ultrasonic wave washer. 5) Keep away from children and infants to prevent the possibility of swallowing by mistake. -4- * * * * 製品品番 外装チューブ意匠図 Tube design Model Number BR-1/2AA 図　　　番 13-650-08 R2 制　　　定 2008.7.16 Drawing Number Constitution Material ： 　PET t=90±20μm 1:1 2:1 Front Back * * * unit : mm * 29 23 Drawing Number Packaging Specification 232-E12-001N_A Lithium battery with tab Tray for 50pcs.×Inner Sleeve for 200pcs.×Outer Carton for 200pcs. 1-Product Refer to the product drawing 2-Tray for 50pcs. *The battery shape is different by product number The batteries polarity put same direction ×4 Alignment Upper Pad 50pcs. Tray x 4 3-Inner Sleeve for 200pcs. UL Warning PP tape ×1 Top and bottom pad 4-Outer Carton for 200pcs. Dustbin Mark Case Mark Middle frame Product No. QTY. Date code PP Tape LBH Mark UL Mark Packing List Dimension M3 Net Gross Panasonic Corporation : 280x220x150mm : 0.00924m3 : 1.60kg 8.0g/1pc. : 2.30kg  Battery Safety Practices Avoiding hazards in lithium battery handling Warning Mishandling batteries can cause battery leakage, heat generation, rupture, ignition etc., that can lead to possible fire or injury. Both of coin type and cylinder type of lithium batteries contain flammable materials such as lithium, organic solvent and other chemical ingredients. Improper handling of lithium batteries may result in heat generation, fire or explosion, with a risk of personal injury or damage. To prevent these accidents in battery handling, be sure to observe the following precautions. 1. Do not Short circuit Direct connection of plus(+) and minus(-) poles may result in leakage, heat generation, explosion and/or fire. Do not store and/or carry batteries with metallic product such as necklace. （Refer fig.1) Fig. 1 Short circuit + 2. Do not stack and/or jumble batteries Stacked and/or jumbled batteries may cause short circuit and/or forced discharge by the contact of other batteries. This may result in leakage, heat generation, explosion and/or fire. DANGER ！ ＋ Especially, a connection with the 006P(9V) type batteries may have a high risk of leakage, heat generation, explosion and/or fire. （Refer fig.2 & 3) * In your disposal and/or storage of the batteries, please isolate plus and minus poles by adhesive tape. A connection with other metals and/or batteries may result in leakage, heat generation, explosion and/or fire. * When using the stored battery, please remove the tape perfectly to avoid high contact resistance problem. （Refer fig.4） − − ＋ 006P Fig. 3 Examples of forced discharge 3. Do not make forced discharge batteries Forced discharge by external power source, the battery voltage goes to negative and this cause gas generation in inside of the battery. This may result in leakage, heat generation, explosion and/or fire. （Refer fig.3) Fig. 2 stacked & jumble batteries (6F22) (6LR61) CHARGER Connection with battery charger Fig. 4 Examples of isolation in disposal and/or storage TAPE TAPE TAPE + - TAPE + + - - - + TAPE 4. Do not dispose of batteries in fire Disposal of batteries in fire is extremely dangerous with a risk of explosion and violent flaring. 5. Do not heat batteries Heating batteries above 100℃ (212°F) may damage the resin in crimping, separator and other parts, causing electrolyte leak, internal short circuit, fire and explosion. 6. Do not solder directly onto batteries Direct soldering onto batteries may damage the resin in crimping, separator and other parts, causing electrolyte leak, internal short circuit, fire and explosion. 7. Do not charge batteries Charging of primary batteries may result internal gas generation, causing electrolyte leak, battery swelling, fire and explosion. 8. Do not disassemble batteries Disassembly batteries may cause gas generation that may irritate your throat. Lithium may also react with moisture to generate heat and fire. 9. Do not deform batteries Applying extreme pressure to batteries may cause deformation of the crimping and internal short circuit, causing electrolyte leak, battery swelling, fire and explosion. 10. Do not mix different type batteries For some applications, mixing of different type batteries, or new and old batteries, can cause over discharge due to differences in voltage and discharge capacities. This may lead to the risk of swelling and/or explosion. 11. Do not insert batteries with opposite polarity For some applications, battery insertion with opposite polarity (reverse insertion of plus and minus) may result in leakage, heat generation, explosion and/or fire. Please ensure the above precautions are strictly observed by related divisions including production departments, sales departments and external subcontractors. For additional details and information, please contact our sales representatives. Energy Solution Business Unit Panasonic Corporation Energy Company 2010.5