FLY.CR2050T

NO.:FLY-CR2050T-A0 第1页 共6页 产 品 规 格 确 认 书 Specification Approval Sheet 客户名称： Customer name 产品名称： CR2050T 3.0V Model Name 物料编码： FLY.CR2050T Model Numbe 送样日期： Date:  出厂签章： 工程部 品质部 业务部 批准 黄烈清 王仁树 王培 陈远洪 送样数量： 确认书份数：  客户确认签章： 审 核 批 准 效 率 服 务 创 造 品 牌 确认签章 诚 信 品 质 铸 就 未 来 电话:0769-83269986 地址：东莞市寮步镇松湖智谷产业园A4栋4F -1- Lithium Manganese Dioxide Battery Model CR2050T Specifications Nominal Discharge current Nominal Voltage Nominal Capacity Continuous stangard load Maximum pluse current Operating temperature Weight UL Recognition 0.4mA 3V 330(mAh) 7.5(kΩ) 15mA -40℃~85℃ 4.7（g） MH29853 Characteristics ＜WARNING＞ (1)Never charge the battery. Charging the battery may cause seethe of thebattery electrolyte or increase of the battery internal pressure. Leakage, heating, explosion or ignition of the battery may be caused as a result of it. (2)Keep away from infants. If infant happens to swallow the battery, consult a doctor Immediately (3)Note: if the temperature is higher than the continuous use + 70 ℃ or below -20℃. Please contact the Power Glory -2- ■Characteristics : [TABLE 1] TEST ITEMS TEMPERATURE INITIAL AFTER 12 MONTHS Open-circuit Voltage 20±2℃ 3.0V TO 3.4V 3.0V TO 3.4V Closed-circuit Voltage 20±2℃ 3.0V TO 3.4V 3.0V TO 3.4V REMARKS Standard Load Resistance . 0.8 Sec. [ TABLE 2 ] TEST ITEMS TEMPERATURE INITIAL AFTER 12 MONTHS REMARKS 20±2℃ See graph for details ≥ 98% of initial capacity Continuous Discharge Under Standard Load to 2.0V EndVoltage Service Life [ TABLE 3 ] TEST ITEM Service Life After Storage At High Temperature STORAGE TEMP STORAGE PERIOD REQUIREMENT 60 ±2℃ 20 Days ≥ 98% of initial capacity REMARKS Continuous Discharge At 20± 2℃Under Standard Load To 2.0V End-Voltage After Storage. [ TABLE 4 ] TEST ITEM REQUIREMENT Leakage Characteristics No Leakage TEST CONDITIONS Temperature: 45 ± 2℃, Relative Humidity: 75% Storage: 30 Days Shall Be Inspected By Visual Means [ TABLE 5 ] TEST ITEM REQUIREMENT Self-discharge 2% or Below TEST CONDITIONS Continuous Discharge Under Standard Load To 2.0V End-voltage After 12 Months Storage At 20℃. ( To Obtain From The Mean Value Of The Same Lot ) -3- ■Markings: Markings on batteries : 5.1.1 Battery type : CR2050T 5.1.2 Brand of battery: Omnergy 5.1.3 Polarity : + [(-) shall not be indicated] 5.1.4 Manufacturing marks : The year and month of production shall be marked on the negative (-) terminal side o o T T Type Month of production (1 letter) Year of production (The last number of Christian era) [[Example] 61T...... Manufactured in January 2016 6XT Manufactured in October 2016 6YT Manufactured in November 2016 6ZT Manufactured in December 2016 Month of production. - January to September -- 1- 9 - Oct, Nov, Dec, -------X, Y, Z ■Precautions in Designing a Memory Backup Circuit A primary lithium battery is not rechargeable.When used for memory backup in combination with another power source, current may flow into the battery from the other source. To prevent this, include a protection diode and resistor in the circuit so that no battery charging or over discharging can occur.Allowable Range of Diode Back-Leakage Current .To prevent the battery from being charged by the main power source, be sure to use a back-current prevention diode and a protection resistor. Select a silicon diode or a Schottky diode with minimum leakage current, and design the circuit so that the amount of charging due to leakage current does not exceed 1% of the nominal battery capacity over the total period of use. (-)Negative terminal Gasket (+)Positive terminal ■Maximum Allowable Charge Current to Battery -4- Model CR1025 CR1216 CR1220 CR1225 CR1616 CR1620 CR1632 CR2016 CR2025 CR2032 CR2050 Maximum Abnormal charging current 2.5mA 2.5mA 10mA 10mA 10mA 10mA 10mA 10mA 10mA 10mA 10mA Model CR2320 CR2325 CR2330 CR2335 CR2354 CR2430 CR2450 CR2477 CR3032 CR3832 Maximum Abnormal charging current 10mA 10mA 10mA 10mA 10mA 15mA 15mA 15mA 15mA 15mA Maximum Abnormal charging voltage 5V Protection resistance R must exceed the value calculated in the following formula: R 　≧ 　V (M ain pow er source voltage) I(M axim um allow able charge current per battery) ■Precautions for Mounting 1. Overlapping Batteries Lithium Manganese Dioxide Battery is shaped as shown below. It has exposed positive(+)and negative(-) metallic surfaces with a thin cylindrical seal, called the gasket, inbetween them. When the batteries are overlapped or mixed together in a disorderly way, their positive(+)and negative()terminals touch each other, causing short-circuits. 2. The Batteries Put in a Metallic Container or on a Metallic Plate Similar to the overlapping battery problem, when the batteries are put in a metallic container or on a metallic plate, their positive(+)and negative(-)terminals may short-circuit through the conductive surface, depending on how the batteries are position. 3. When The Battery is Held with Metallic Tweezers When held with a pair of metallic tweezers as shown, the battery short-circuits through the tweezers. 4. When The Battery Lead Plates Touch Each Other When the battery lead plates bend and touch each other or other either terminal, the battery shortcircuits. 5. older Bridges Solder may bridge between circuit board conductors, causing a short-circuit and draining the battery. 6. Short-circuits through Soldering Irons Similar to solder bridging, when the circuit board wiring is short-circuited by a soldering iron for an extended period the battery is drained and consumed. Complete short-circuits through soldering irons within 5 seconds. 7. Short-circuits through Piled Circuit Boards -5- When circuit boards with the batteries are piled on top of one another, their conductive traces may touch and form a battery discharge circuit that consumes the battery's power. 8. Discharge through Conductive Electrostatic Prevention Mats Conductive mats are widely used to prevent static electricity from destroying semiconductors. If a circuit board with mounted battery is put on a conductive mat, the soldered conductors may touch the mat,providing a discharge path for the battery. 9. Improper Battery Mounting Polarity When the battery's positive (+)and negative (-)terminals are reversed with respect to the battery mounting's polarity marks, the battery may be discharged, depending on the type of electric circuit. 10. Solder When the battery lead plates are dipped in a molten solder bath, the battery is temporarily shortcircuited. Therefore, complete dipping within 5 seconds. ■Handling Precautions Please read and observe the follwing precautions thoroughly. Lithium Manganese Dioxide Battery contains flammable materials, such as organis solvent. Improper battery handling may cause leakage, heating, explosion or ignition of the battery, which may lead to injury or product failure. ■PRECAUTIONS 1.Do not put the battery into microwave over or drying machine. 2.Do not drop, apply excessive damage or deform the battery. 3.Do not mix the used battery together with the new battery or different type of batteries. 4.Do not store the battery in high temperature and high humidity location and where the battery is exposed to sunlight to avoid performance deterioration, swelling or leakage, of the battery. -6-