• RAYOVAC®9V锂电池仅持续10年的电离烟雾报警。但是,Rayovac.®9V锂将使大多数高漏极9V锂装置的寿命显着超过标准碱性电池。

    • The RAYOVAC® 9V Lithium will work properly in any other smoke alarm requiring the Ultralife lithium battery. Under normal use conditions, the battery should power ionization smoke alarms for up to 10 years. Please note that smoke alarms should be replaced every 10 years, as they lose sensitivity over time due to age and dust.


      • Household Products
        数字秤,车库门开启器,摄影闪光灯单位和灯光计,RC爱好的遥控器,电视/录像机/ DVD /立体声遥控器。
      • Home and Personal Safety
        Memory backup (e.g. clock radios, telephones, etc.), Smoke Alarms, Baby monitors, Emergency exit alarms, Carbon monoxide alarms, Flood alarms, Gas alarms, Home security devices, Electronic entry systems, Wireless security keypads,Door/window alarms, Glass break detectors, Motion sensors, Sound detectors, Passive infrared detectors, Pet containment systems, Panic buttons, Package tracking transmitters, Stun guns, & Personal defenders.
      • 医疗的
      • 无线通信
        Cargo container location beacons, Electronic toll collection systems, Military training targets, Laser tags, Remote infrared mice, Silo transducers, Vehicle/vessel tracking sensors, & Wireless remote controls.
      • 仪器
      • 海洋/航空
      • 音乐/音频
        Musical effects devices, Wireless microphones, Fuzz boxes, Wah-Wah pedals, Wireless preamps, Guitar pickups, Wireless transceivers, Wireless tuners, Portable music equipment, & Metronomes
    • As a general rule, batteries, including lithium, should not be left in a product once the battery is discharged. The 9 V lithium batteries from RAYOVAC® are hermetically sealed and the chance of leakage is quite small.

    • Rayovac的指定储存温度范围®9V锂电池为-40°C至60°C。然而,所有电池都在储存在凉爽(不冷)干燥位置时最佳。

    • An Ionization smoke alarm uses an ionization chamber, which is an air-filled space between two electrodes, and permits a small, constant current between the electrodes. Any smoke that enters the chamber absorbs the alpha particles, which reduces the ionization and interrupts this current setting off the alarm.

    • 确定你有一个ionization-type or photoelectric-type smoke alarm, look at the label on the back of the alarm. If it's an ionization type there will be a statement on the label similar to the following: "This device contains 0.9 microcurie of americium." If such a statement is not on the label then you have a photoelectric alarm.

    • In the US, Oregon state law (ORS 497.297) requires a 10 year smoke alarm battery. Michigan state law (MCL 125.1504c) requires a 5 year smoke alarm battery which can be satisfied by some alkaline batteries but they recommend a Lithium 9V battery. Louisiana state law (R.S. 40:1573 and 1581) requires a 10 year sealed lithium battery smoke detector in one or two family dwellings sold or leased after January 1st, 2011. Many other towns, cities, and municipalities also require 10 year smoke alarm batteries. Please contact your local authorizes to learn more.

      • 安装
      • Maintenance
        Regular cleaning of smoke alarms can prevent false alarms caused by the buildup of dust or other contamination such as flies. Photoelectric (optical) type alarms are more susceptible to contamination due to possible interference with the light source and sensor. A vacuum cleaner can be used to clean both ionization and photoelectric alarms externally and internally.
      • Testing
      • Replacement
        Smoke alarms become less reliable with time, primarily due to aging of their electronic components, as well as from dust and contamination, making them susceptible to nuisance false alarms. Replace all smoke alarms, including alarms that use long-life 10 year non-replaceable batteries and hard-wired alarms, when they are 10 years old, or sooner if they do not respond properly when tested.
    • Following is advice from the U.S. Department of Transportation's Pipeline and Hazardous Materials Safety Administration's web site on flying with battery-powered devices:

      • 电池造成它们电源的设备中包含的风险很小。将电池从设备中取出并不能增强安全性。最安全,携带设备,不在您的托运行李中。请勿取下电池!
      • 把你的电池驱动的设备或备用面糊ies in your carry-on baggage. In the passenger compartment, flight crews can better monitor safety conditions to prevent an incident, and can access fire extinguishers, if an incident does happen.
      • 最后,如果您必须在托运行李中携带电池供电设备,请将其包装以防止无意中激活。例如,无绳电动工具应装在保护盒中,触发锁啮合。

      Many travelers like the convenience of readily available spare batteries. It's safe to travel with spare batteries, as long as you follow these simple spare battery tips:

      • 将备用电池装入随身行李中。在乘客舱中,飞行机组人员可以更好地监控安全条件以防止事件,并且如果发生事故,可以进入灭火器。
      • 保持备用电池在原始零售包装中,以防止无意激活或短路。
      • For loose batteries, place tape across the battery's contacts to isolate terminals. Isolating terminals prevents short-circuiting.
      • If original packaging is not available, effectively insulate battery terminals by isolating spare batteries from contact with other batteries and metal. Place each battery in its own protective case, plastic bag, or package. Do not permit a loose battery to come in contact with metal objects, such as coins, keys, or jewelry.
      • Use only chargers designed for your type of batteries. If unsure about compatibility, contact the product manufacturer.
      • Take steps to prevent crushing, puncturing, or putting a high degree of pressure on the battery, as this can cause an internal short-circuit, resulting in overheating.
      • 有关与电池旅行的更多信息,请参阅以下网站:
    • Rayovac®的9伏电池专为在广泛使用和环境条件下的安全运行而设计。关键设计功能是使用安全关闭分离器。


    • Lithium batteries will last longer than any other battery types, including alkaline and zinc carbon (lowest cost) batteries, in most high drain devices. For example, RAYOVAC®9伏锂电池将持续10年的电离式烟雾报警(最常见的类型),而碱性电池的约3至5年,碳电池仅为1年。在光电烟雾报警中,锂电池将持续3至7年与碱性的约一年。根据特定设备,相同的近似比对于门/窗户发射器,红外运动检测器和玻璃破坏探测器等其他安全设备保持了真实。遵循制造商的电池推荐一般是一个好主意。

    • 在某些情况下,锂电池可用于本质安全电路。根据设备,电流限制装置可以是或可能不需要。电池本身通常不会被评为本质安全,但是作为整个设备的一部分测试。在本质上安全的装置中使用Rayovac®9伏锂电池的一个例子是消防员携带的个人警报安全系统(通行证),有时被称为“消防员向下警报”。

    • Lithium-manganese dioxide batteries do not exhibit an actual self-discharge mechanism due to the physical separation of the lithium anode and manganese-dioxide cathode. What does occur, however, is a very gradual degradation of the chemistry over time, which can be equated to self-discharge from a capacity loss perspective. In that regard, you can expect a capacity loss of approximately 1.5% per year for our batteries. This loss occurs both in storage and in use.