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dot.gif Tadiran batteries 소개
dot.gif Standard Lithium Cells
dot.gif PulsesPlus
dot.gif TLI Series
dot.gif TLM Series
dot.gif TLM Military batteries
dot.gif Extended Temperature TLH Series Batteries

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Tadiran batteries

dot 품목명   Overview
dot 브랜드   Tadiran
dot 제품특징   Pound for pound, Tadiran lithium thionyl chloride cells are the most powerful and reliable lead-free, RoHS and WEEE compliant batteries in the world, delivering unrivaled performance to power today's increasingly sophisticated technologies. Able to last o

left.gif Tadiran batteries go where others wouldn't dare


left.gif Pound for pound, Tadiran lithium thionyl chloride cells are the most powerful and reliable lead-free, RoHS and WEEE compliant batteries in the world, delivering unrivaled performance to power today's increasingly sophisticated technologies. Able to last over 25 years under the most challenging conditions, Tadiran standard lithium batteries and custom battery packs are ideal for remote locations and challenging environmental conditions.

dot.gif highest energy density

dot.gif highest capacity

dot.gif widest temperature range

dot.gif 25 year operating life

dot.gif small form factor

dot.gif UL recognition

dot.gif Compliant with lead-free RoHS and WEEE EC directives



left.gif Tadiran Batteries: Better By Design


left.gif These are not your grandfather's flashlight batteries. These are the world's most powerful, high performance batteries from Tadiran.


left.gif Perfected through 25 years of research, development and manufacturing expertise, Tadiran lithium thionyl chloride cells outperform all competitors. The battery technology pioneered by Tadiran is unique, enabling design engineers to pack more power into less space…combining unparalleled reliability, long life and powerful performance


left.gif From research and design, to world class ISO 9001:2000 certified manufacturing and quality assurance, to a global sales and distribution network, Tadiran is ready to serve your needs with standard products or custom battery packs.


left.gif Tadiran lithium thionyl chloride (Li/SOCl2) Cells feature:

dot.gif Greater energy density - Tadiran lithium thionyl chloride batteries offer the highest energy density of any primary cell: up to 710 Wh/Kg and 1420 Wh/I.

dot.gif Higher capacity - Tadiran cells feature the highest capacity by weight and volume compared to any known battery technology.

dot.gif Extended temperature range - Tadiran batteries can operate in temperatures ranging from -55°C to +125°C. However, to maximize the capacity, standard cylindrical wafer type cells are rated to a maximum temperature of +85C. Special high temperature cells are also available.

dot.gif Higher operating voltage - Tadiran lithium thionyl chloride cells have an open circuit voltage of 3.67V

tadiran_cell.gif

and an operating voltage of up to 3.6V, a considerably higher voltage than almost any other primary cell.

dot.gif Longer life - Tadiran batteries feature an outstanding shelf life and long term reliability. Over a ten-year period, Li/SOCl2 batteries stored at room temperature lose less than 10% of their total capacity.

dot.gif Patented safety features - Tadiran lithium thionyl chloride cells offer unmatched safety due to their unique "failsafe" construction.

dot.gif Environmentally friendly - Our batteries are free of heavy metals, making them among the most environmentally friendly of all batteries.


left.gif Contrary to popular misconceptions, lithium batteries are not all alike.


left.gif Lithium battery chemistries differ in several important characteristics. The critical considerations are voltage, discharge current, service life and temperature range. Under the broad category of primary lithium battery types, several chemical systems are commonly used.


left.gif In the consumer area, Li/CFX (poly carbon monofluoride) and Li/MN02 (manganese dioxide) are found in cameras, calculators and watches. In the military area, Li/SO2 (sulfur dioxide) batteries are used in high power radios. Li/SOCl2 (thionyl chloride) and LiI2 (lithium iodine) are commonly utilized in industrial and medical applications.


left.gif Table 1. Characteristics of the main Lithium Battery Systems.

Li/System Li/SOCl2/
w/Hybrid Layer Capacitor
Li/SOCl2
Bobbin
Li/SOCl2
Spiral Wound
Li/SO2 Li/MnO2
Energy Density (Wh/l) 1420 1420 800 410 650
Power High Low High High Moderate
Voltage 3.6-3.9V 3.6V 3-3.6V 2-3V 2-3V
Pulse Amplitude High Small Moderate High Moderate
Passivation Low Fair Moderate Fair Moderate
Performance at Elevated Temp. Excellent Fair Moderate Moderate Fair
Performance at Low Temp. Excellent Fair Excellent Excellent Poor
Operating Life Excellent Excellent Moderate Moderate Fair
Self Discharge Rate Very Low Very Low Moderate Moderate Moderate
Operating Temp. -55°C to 100°C -55°C to 125°C -55°C to 85°C -55°C to 60°C 0°C to 60°C

dot.gif Li/CFX cells have an OCV of 2.8 V and moderate energy density. Cylindrical types are manufactured with a spiral cathode for higher rate capability and have crimped plastic seals. Though generally safe, under extreme conditions, the elastomer seal can break, allowing the cell to fail due to loss of the low vapor point electrolyte. This is especially true in areas of high temperature and humidity.


dot.gif Li/MN02 3.0 V cells are similar to Li/CFX cells in terms of construction and problems with high temperature and humidity. Their energy density and voltage is slightly better than Li/CFX cells, especially at cold temperatures.


dot.gif Li/SO2 2.8 V cells are used almost exclusively in military/aerospace applications. Their chief attribute is the ability to deliver high current, especially at cold temperatures. The main drawback also stems from this high rate capability. The electrolyte within the cell is kept in a liquid state by maintaining 2 atmospheres of pressure within the cell. The cells are vented to prevent over pressurization. As a result, service life and energy density of Li/SO2 cells are typically less than half that of lithium thionyl chloride cells.


dot.gif Li/SOCl2-- Lithium thionyl chloride 3.6 V cells have the highest energy density and voltage of all commercial lithium types, with a service life of up to 15 to 25 years. These cells are ideal for applications requiring very low continuous-current and/or moderate pulse-currents. Extremely long service life and low self-discharge make them ideal for life-saving devices such as automatic external defibrillators that must be ready for use at all times without risk of battery failure.


left.gif Bobbin-type vs. Spirally Wound

dot.gif Two types of lithium thionyl chloride cells are available: bobbin and spirally wound construction. With both versions, the non-aqueous electrolyte results in relatively high impedance. To solve this impedance problem, one solution is to increase the surface area by going to a wound cathode. Unfortunately, this solution is not without cost. The drawbacks to spirally wound construction include reduced energy density (you now have more inactive material within the cell) and shorter operating life (with extra surface area you also get a higher self-discharge rate).

dot.gif Bobbin-type lithium Li/SOCl2 cells are particularly well suited for low-current applications due to their high energy density, very low self-discharge rate, and 15 to 20 year storage life. Bobbin-type lithium thionyl chloride cells also offer extended temperature ranges from -55°C to +125°C. High capacity, small size, and an ability to withstand broad fluctuations in pressure, temperature and shock make bobbin-type cells ideal for use in remote monitoring applications.


left.gif High current pulse "hybrid" solutions

dot.gif A growing number of applications require high current pulses, presenting technical challenges to both spirally wound and bobbin-type lithium batteries. Typically, these applications involve low continuous current (or no continuous current) coupled with high pulse currents of up to several Amperes for a period of seconds up to 20 minutes.

dot.gif Spirally wound lithium thionyl chloride batteries deliver the energy density demanded by high current pulse applications. However, this chemistry lacks the required capacity, and has a comparatively high rate of self-discharge, which limits their long-term operation. Bobbin-type cells have the ideal capacity and energy density, but have two main drawbacks: severe passivation problems after storage at elevated temperatures, and low current due to its low rate design.

dot.gif STo overcome these obstacles, engineers at Tadiran developed a hybrid lithium battery called PulsesPlus™ which combines a bobbin-type primary cell with a patented high rate, low impedance HLC (hybrid layer capacitor).

dot.gif This hybrid system delivers extremely high currents with an excellent safety margin. This is accomplished simply because the HLC can store up to 700 Wh/Kg of energy. The rate at which energy can be stored by the HLC varies from 280 A/Sec. with smaller HLCs, to 1,120 A/Sec. with larger size HLCs.


left.gif Tadiran engineers solutions for extreme environments

dot.gif Recognized globally as a leading source for lithium batteries, Tadiran is constantly looking for ways to improve its existing technology. Working with customers and government research organizations, we are committed to developing new technologies that enhance the performance capabilities of our lithium thionyl chloride cells.

dot.gif Our engineers are continuously developing technological innovations designed to meet and exceed customer requirements…now and in the future.



left.gif Tadiran batteries offer unmatched safety


left.gif Tadiran batteries offer the greatest possible peace-of-mind to design engineers and end users. They are 100% safe and environmentally friendly.


left.gif The battery's unique construction offers significant safety advantages including:


dot.gif The electrochemical system is non-pressurized.

dot.gif The safe internal design includes a limited electrode surface area for limiting the short circuit current.

dot.gif Hermetic sealing isolates the cell chemicals from the outside atmosphere, in particular under extreme temperature cycling condition.

dot.gif The electrolyte is non-flammable.

dot.gif Tadiran Lithium batteries are free of heavy metals, so they are extremely environmentally friendly.


 

left.gif Third Party Certifications


ISO 9001:2008

ISO 14001

OHSAS 18001

cert_iso_9001.gif cert_iso_14001.gif cert_ohsas_18001.gif
     

RoHS Compliance

REACH Regulations

 
rohs_compliant.gif reach_memo.gif  


left.gif The following products to be discontinued


dot.gif TL-5101 to be replaced by TL-4902


dot.gif TL-5155 to be replaced by TL-4955


dot.gif TL-5104 to be replaced by TL-4903


dot.gif TL-5134 to be replaced by TL-4934


dot.gif TL-5135 to be replaced by TL-4935


dot.gif TL-2150 to be replaced by TL-5902


dot.gif TL-2100 to be replaced by TL-5903


dot.gif TL-2155 to be replaced by TL-5955


dot.gif TL-2200 to be replaced by TL-5920


dot.gif TL-2300 to be replaced by TL-5930


dot.gif TL-5137 to be replaced by TL-5937


dot.gif TL-2186 to be replaced by TL-4986


dot.gif TL-2134 to be replaced by TL-5934


dot.gif TL-2135 to be replaced by TL-5935


dot.gif TL-4986 to be replaced by TL-2450

상단으로

경기도 부천시 오정구 석천로 345 302동 201호(삼정동, 부천테크노파크) | TEL. 032-715-7886 | FAX. 032-715-7885
대표:강문구 | 사업자등록번호:130-86-35653 | 개인정보관리책임자:강문구 | E-mail. km080605@hanmail.net

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