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Battery Handling Precautions for Your Own Safety

Lithium batteries contain combustible materials such as lithium metal and organic solvent. Improper handling can lead to

heat generation, bursting or fire. To prevent accidents, follow these precautions and refer to them when precautions

regarding lithium battery usage are described in instruction manuals for equipment you are using.

Coin-type Primary and Rechargeable Lithium Batteries

WARNING!

1. Do not charge.

(Primary batteries, CR series).

When this battery is charged, gas is generated inside and raises

internal pressure, resulting in fire, heat generation, leakage or

bursting.

2. Do not heat, disassemble nor dispose of

in fire.

Doing so damages the insulation materials or the safety vent,

resulting in fire, heat generation, leakage or bursting.

3. Do not insert batteries with the + and  --

polarities reversed.

Make sure the polarities are in the right position when inserting the

batteries into equipment. When using 3 or more batteries, the

equipment may operate even though one of the batteries is

improperly inserted. But this may cause leakage or bursting.

4. Do not short-circuit.

If the  + and  --- come into contact with metal objects, short circuiting

occurs resulting in heat generation or bursting. When carrying or

storing batteries, avoid direct contact with metal objects such as

bracelets or key chains by putting them in a separate bag.

5. Keep batteries out of children's reach.

If leaked liquid is ingested or a battery is swallowed, consult a

physician immediately.

6. In case of leakage or a strange smell, 

keep away from fire to prevent ignition of 
any leaked electrolyte.

7. Do not solder directly.

This can damage the insulation materials, resulting in  fire, heat

generation, leakage or bursting.

8. Be sure to wrap each battery when 

disposing or storing to avoid short sircuit.

Putting batteries together or in contact with metal objects causes

short circuiting, resulting in fire, heat generation or bursting. 

9. Do not force-discharge.

When a battery is force-discharged by an external power source, the

voltage drops to 0 or less (reversal voltage) and gas is generated

inside the battery. This may cause fire, heat generation, leakage or

bursting.

10. Do not charge with high current and high 

voltage.
(Rechargeable batteries, ML, NBL series).

Doing so may generate gas inside the battery, resulting in swelling,

fire, heat generation or bursting.

CAUTION!

1. If leaked liquid gets in the eyes, wash 

them with clean water and consult a 
physician immediately.

2. Do not use new and used batteries 

together. Do not use  different types of 
batteries together.

Doing so may cause heat generation, leakage or bursting.

3. Do not apply strong pressure to the 

batteries nor handle roughly.

Doing so may cause heat generation, leakage or bursting.

4. Do not use nor leave the batteries in 

direct sunlight nor in high-temperature 
areas.

Doing so may cause heat generation, leakage or bursting.

5. Avoid contact with water.

Doing so may cause heat generation.

6. Make sure to insert batteries without 

having the  + and  -- come in contact 
with metal parts of equipment.

7. Read the equipment instruction manual 

and precautions carefully before use. 
Some usages or types of equipment do 
not suit the specifications or performance
of these batteries.

8. Keep batteries away from direct sunlight,

high temperature  and humidity.

Leaving batteries in such places may cause heat generation.

9. For proper disposal, follow local 

government regulations.

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Summary of Contents for CR17335SE

Page 1: ...Sanyo Lithium Batteries SEB 013 SEB 013 URL http www sanyo co jp energy ...

Page 2: ...e 7 Do not solder directly This can damage the insulation materials resulting in fire heat generation leakage or bursting 8 Be sure to wrap each battery when disposing or storing to avoid short sircuit Putting batteries together or in contact with metal objects causes short circuiting resulting in fire heat generation or bursting 9 Do not force discharge When a battery is force discharged by an ex...

Page 3: ...o not solder directly Doing so may cause damage to insulation materials It may also cause fire heat generation leakage or bursting 10 Do not apply strong pressure nor handle roughly Doing so may cause fire heat generation leakage or bursting 11 To prevent damage to the safety vent inside the battery do not deform in any way 12 Do not force discharge When a battery is force discharged by an externa...

Page 4: ...Featuring compact dimensions high energy capacity and long term durability lithium batteries successfully meet today s needs ...

Page 5: ...2 CR17335E R 33 5 CR17335HE R CR17335SE 33 8 CR17335 34 5 CR123A 40 0 CR15400 CR17450E R 45 0 CR17450HE R CR17450SE 50 0 CR23500SE 60 0 CR12600SE Example 1 Example 2 Example 3 Example 4 C R 20 25 2 CR 1 3N CR 17 450 E R CR 17 335 S E height 2 5mm height 1 3 of N size rupture vent laser welding diameter 20 0mm for connection in series 2 laser welding bobbin structure shape round height 45 0mm heigh...

Page 6: ...are currently used in a wide range of equipment such as electronic calculators watches and cameras In addition they are used as a memory backup power source in microcomputer controlled devices By offering a wide range of lithium batteries from coin cells to high power cylindrical type cells spiral structure and high capacity cylindrical type cells bobbin structure Sanyo has been able to meet the d...

Page 7: ...under 0 5 40 to 85 Operational Temperature Range Sanyo lithium batteries have an organic electrolyte with a very low freezing point which guarantees reliable operation even at extremely low temperatures Additionally rigorous selection of materials and superior sealing technology give these batteries excellent characteristics even at high temperatures Coin type primary battery 20 70 High power cyli...

Page 8: ...th a contact system Use nickel plated phosphor bronze or stainless steel for terminal materials to make contact with the batteries For stable contact conditions several N of contact pressure are recommended for the contact 3 5 3 0 2 5 2 0 1 5 60 40 70 load 15kΩ 190μA 23 20 20 0 discharge time in days cell voltage V Temperature Characteristics CR2032 100 80 60 70 23 0 20 end voltage 2 0V 40 20 0 5 ...

Page 9: ...tricity meters memory backup power sources When the batteries are used with a contact system Use nickel plated phosphor bronze or stainless steel for terminal materials to make contact with the batteries For stable contact conditions several N of contact pressure are recommended for the contact 0 1000 2000 3000 4000 0 5 3 0 23 20 10 2 5 2 0 1 5 1 0 60 cycles load 1 2A 3sec on 7sec off cell voltage...

Page 10: ...utomation equipment Main power sources and memory backup power sources for car electronics Various memory backup power sources 3 5 3 0 2 5 2 0 1 5 0 50 40 20 23 85 60 load 5 6kΩ 505μA 100 150 discharge time in days cell voltage V Temperature Characteristics CR12600SE 2500 2000 1500 1000 500 0 1 50 30 10 5 3 1 discharge load kΩ 0 5 20 60 0 3 end voltage 2 0V 40 23 cell capacity mAh Discharge Load v...

Page 11: ... 10 1000 2500 15 6 27 0 11 CR15H270 CR123A 3 1400 10 1500 3500 17 0 34 5 17 CR17345 CR V3 3 3300 20 3500 7000 29 0 L 14 5 W 52 0 H 38 CP3152 CR P2 6 1400 10 1500 3500 34 8 L 19 5 W 35 8 H 37 2CP4036 2CR5 6 1400 10 1500 3500 34 L 17 W 45 H 40 2CP3845 Specifications of Primary Lithium Batteries Operational temperature range 20 to 70 Consult Sanyo when using batteries at temperatures exceeding the 20...

Page 12: ...oltage V Discharge ML2430 Principles and Structure of Coin Type Manganese Dioxide Rechargeable Lithium Batteries Manganese Dioxide Rechargeable Lithium Batteries ML series Manganese dioxide with proven performance is used as the active material for the positive electrode through Sanyo s developed treatment The active material in the negative electrode lithium aluminum alloy offers stable cyclic pe...

Page 13: ...ge depth of 20 respectively Wide Operating Temperature Range The use of an organic electrolyte gives an extended operating temperature range 20 to 60 Charging Possible with 2 8V Even a charging voltage as low as 2 8V ensures high charge efficiency Excellent Continuous Charging Performance Stable characteristics are maintained even when continuously charged for long periods Superior Overcharging Pe...

Page 14: ...atteries are optimized for use as memory backup power sources and can also be used in combination with solar cells 1 0 1 5 2 0 2 5 0 100 200 300 400 discharge time in hours load 100kΩ 13μA temp 23 for shipment fully charged cell voltage V Discharge NBL621 Principles and Structure of Coin Type Niobium Rechargeable Lithium Batteries Niobium Rechargeable Lithium Batteries NBL series These batteries u...

Page 15: ...ging with short circuit protection The following Sanyo lithium batteries contain less than 1 0g of lithium or lithium alloy under 2 0g for assembled batteries per single cell CR1220 CR2016 CR2025 CR2032 CR2430 CR2450 CR 1 3N 2CR 1 3N CR15270 CR15400 CR17335 CR17335E R CR17335HE R CR17450E R CR17450HE R CR2 CR123A CR P2 2CR5 CR V3 CR14250SE CR12600SE CR17335SE CR17450SE CR14250SE R CR17335SE R CR17...

Page 16: ...d all information described or contained this bochure are subject to change without notice due to product technology improvement etc This brochure was printed on recycled paper Sanyo lithium batteries supply power for a wide spectrum of applications denotes common use of solar cells The above table shows typical applications of lithium batteries Categories and Applications of Lithium Batteries SAN...

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