International English

2 International English

NOTICE TO READERS It is the responsibility of each user to ensure that each battery application system is adequately designed safe and compatible with all conditions encountered during use, and in conformance with existing standards and requirements. Any circuits contained herein are illustrative only and each user must ensure that each circuit is safe and otherwise completely appropriate for the desired application. This literature contains information concerning cells and batteries manufactured by Matsushita Battery Industrial Co., Ltd. This information is generally descriptive only and is not intended to make or imply any representation guarantee or warranty with respect to any cells and batteries. Cell and battery designs are subject to modification without notice. All descriptions and warranties are solely as contained in formal offers to sell or quotations made by Matsushita Battery Industrial Co., Ltd., Panasonic Sales Companies and Panasonic Agencies.

LITHIUM ION BATTERIES: TABLE OF CONTENTS Lithium Ion Batteries: Table of Contents Notes and Precautions...2 Safety Precautions for the Lithium Ion Battery Pack...4 Overview of Lithium Ion Batteries...6 Features of Lithium Ion Batteries...8 Overcharge/Overdischarge/Overcurrent Safety Circuits...9 How to Charge the Batteries... 11 Flowchart for Charging the Lithium Ion Battery Packs Glossary of Terminology for Lithium Ion Batteries...13 Specification Summary Table...14 Individual Data Sheets...15 Battery Pack Specification Checklist...33 Charger Specification Checklist... 34 1 Lithium Ion Batteries

NOTES AND PRECAUTIONS Safety Precautions for the Lithium Ion Battery Pack Use of Lithium Ion Batteries and the Design of Equipment That Uses These Batteries In general, lithium ion batteries are used in battery packs that contain both lithium ion batteries and battery protection circuits. Both items are sealed in a container made of a material such as resin so that the battery pack cannot be easily disassembled. 1. Charging the Batteries The constant voltage/constant current method is used to charge lithium ion batteries. (See Figure below.) Schematic diagram of the charging process (assuming a single cell) Constant voltage/constant current MAX4.2V.7CmA Duration (1) Charge The maximum voltage is 4.2 V x the number of cells connected in series. (2) Charge We recommend.7 CmA. When the voltage per cell is 2.9V or less, charge using a charge current of.1cma or less. (Contact Panasonic for information regarding pulse charging.) (3) Charge Temperature The batteries should be charged at temperatures between C and 45 C. (4) Reverse-polarity Charging Verify the polarity of the batteries before charging to insure that they are never charged with the polarity reversed. 2. Discharging the Batteries (1) Discharge The current should be maintained at 1. CmA or less (Consult Panasonic if you plan to discharge the batteries with a current in excess of 1. CmA). (2) Discharge Temperature The batteries should be discharged at a temperature between -2 C and +6 C. (Consult Panasonic if you plan to discharge the batteries at temperatures less than -1 C.) (3) Discharge Termination Avoid discharging at voltages less than V per cell. Overdischarge can damage the performance of the battery. Equip the unit with a mechanism to prevent overdischarge, especially in situations where the user may forget to turn the equipment off. 2 Lithium Ion Batteries

NOTES AND PRECAUTIONS - CONTINUED 3. Equipment Design (1) Installing Battery Packs in the Equipment To avoid damage to the battery pack, make sure that the battery pack is positioned away from heat sources in the equipment or in the battery charger. (2) Mechanisms to Prevent Dropping Be sure to use a battery pack lock mechanism to prevent the battery pack from being ejected when the equipment is dropped or receives a sudden impact. (3) Preventing Short Circuits and Reversed Connections Use a terminal structure that makes it unlikely that the terminals will be shorted by metallic necklaces, clips, hairpins, etc. Structure the battery and the terminals to the battery in such a way that the battery pack cannot be put in backwards when installed in the charger or the equipment. (4) Inclusion in Other Equipment If the battery is built into other equipment, use caution to strictly avoid designing airtight battery compartments. (5) Terminal Materials in the External Equipment Use materials that are highly resistant to corrosion (such as nickel or nickel-coated copper). If contact resistance is an issue, we recommend that you use contact plating (such as gold plating) on the terminals. 4. Storing the Batteries The batteries should be stored at room temperature, charged to about 3 to 5% of capacity. We recommend that batteries be charged about once per year to prevent overdischarge. 5. Use of the Batteries See the section on Safety Precautions for the Lithium Ion Battery Pack. 6. Other The Chemical Reaction Because batteries utilize a chemical reaction they are actually considered a chemical product. As such, battery performance will deteriorate over time even if stored for a long period of time without being used. In addition, if the various usage conditions such as charge, discharge, ambient temperature, etc. are not maintained within the specified ranges the life expectancy of the battery may be shortened or the device in which the battery is used may be damaged by electrolyte leakage. If the batteries cannot maintain a charge for long periods of time, even when they are charged correctly, this may indicate it is time to change the battery. 7. Please Note The performance and life expectancy of batteries depends heavily on how the batteries are used. In order to insure safety, be sure to consult with Panasonic in advance regarding battery charging and discharging specifications and equipment structures when designing equipment that includes these batteries. Please Note: Panasonic assumes no liability for problems that occur when the Notes and Precautions for use listed above are not followed. 3 Lithium Ion Batteries

SAFETY PRECAUTIONS FOR THE LITHIUM ION BATTERY PACK Safety Warnings 1. When Using the Battery! (1) Misusing the battery may cause the battery to get hot, explode, or ignite and cause serious injury. Be sure to follow the safety rules listed below: Do not place the battery in fire or heat the battery. Do not install the battery backwards so that the polarity is reversed. Do not connect the positive terminal and the negative terminal of the battery to each other with any metal object (such as wire). Do not carry or store the batteries together with necklaces, hairpins, or other metal objects. Do not pierce the battery with nails, strike the battery with a hammer, step on the battery, or otherwise subject it to strong impacts or shocks. Do not solder directly onto the battery. Do not expose the battery to water or salt water, or allow the battery to get wet. (2) Do not disassemble or modify the battery. The battery contains safety and protection devices which, if damaged, may cause the battery to generate heat, explode or ignite. (3) Do not place the battery on or near fires, stoves, or other high-temperature locations. Do not place the battery in direct sunshine, or use or store the battery inside cars in hot weather. Doing so may cause the battery to generate heat, explode, or ignite. Using the battery in this manner may also result in a loss of performance and a shortened life expectancy. (1) If the device is to be used by small children, the caregiver should explain the contents of the user s manual to the children. The caregiver should provide adequate supervision to insure that the device is being used as explained in the user s manual. (2) When the battery is worn out, insulate the terminals with adhesive tape or similar materials before disposal. (3) Immediately discontinue use of the battery if, while using, charging, or storing the battery, the battery emits an unusual smell, feels hot, changes color, changes shape, or appears abnormal in any other way. Contact your sales location or Panasonic if any of these problems are observed. (4) Do not place the batteries in microwave ovens, high-pressure containers, or on induction cookware. (5) In the event that the battery leaks and the fluid gets into one s eye, do not rub the eye. Rinse well with water and immediately seek medical care. If left untreated the battery fluid could cause damage to the eye. 2. While Charging!! (1) Be sure to follow the rules listed below while charging the battery. Failure to do so may cause the battery to become hot, explode, or ignite and cause serious injury. When charging the battery, either use a specified battery charger or otherwise insure that the battery charging conditions specified by Panasonic are met. Do not attach the batteries to a power supply plug or directly to a car s cigarette lighter. Do not place the batteries in or near fire, or into direct sunlight. When the battery becomes hot, the builtin safety equipment is activated, preventing the battery from charging further, and heating the battery can destroy the safety equipment and can cause additional heating, breaking, or ignition of the battery. (2) Do not continue charging the battery if it does not recharge within the specified charging time. Doing so may cause the battery to become hot, explode, or ignite. 4 Lithium Ion Batteries

SAFETY PRECAUTIONS FOR THE LITHIUM ION BATTERY PACK - CONTINUED! The temperature range over which the battery can be charged is C to 45 C. Charging the battery at temperatures outside of this range may cause the battery to become hot or to break. Charging the battery outside of this temperature range may also harm the performance of the battery or reduce the battery s life expectancy. 3. When Discharging the Battery! Do not discharge the battery using any device except for the specified device. When the battery is used in devices aside from the specified device it may damage the performance of the battery or reduce its life expectancy, and if the device causes an abnormal current to flow, it may cause the battery to become hot, explode, or ignite and cause serious injury.! The temperature range over which the battery can be discharged is -2 C to 6 C. Use of the battery outside of this temperature range may damage the performance of the battery or may reduce its life expectancy. To insure the safe use of this battery, contact Panasonic when designing a device that uses this battery. 5 Lithium Ion Batteries

OVERVIEW OF LITHIUM ION BATTERIES Meeting the Needs of Portable Electronic Devices: Lithium Ion Batteries Overview Panasonic lithium ion batteries, products of Panasonic s long experience with batteries and leading-edge battery technology, are excellent sources for high-energy power in a variety of portable devices, such as portable computers and cellular phones. Light weight and boasting high voltage ratings (3.7 V), these high-energy density batteries provide a variety of features that will contribute to the weight reduction and downsizing of portable products. Structure The lithium ion battery has a three-layer, coiled structure within its case. These three layers are comprised of a positive electrode plate (made with lithium cobalt oxide as its chief active ingredient), a negative electrode plate (made with a specialty carbon as its chief active ingredient), and a separator layer. The Structure of Lithium Ion Batteries (Cylindrical) Positive Terminal Exhaust Gas Hole PTC Element Anti-Explosive Valve Positive Terminal Lead Gasket Separators The battery is equipped with a variety of measures to insure safety, along with an anti-explosion valve that releases gas if the internal pressure exceeds a specific value, thereby preventing the battery from explodeing. Safety Panasonic s lithium ion batteries (CGR175, CGR1767HC, CGR1865, CGR1865H, CGR1865HM, CGR1865HG, CGP3486, CGP3456, CGP3451 and CGP3451G) have obtained UL1642 approval. Insulation Plate Case Insulation Plate Negative Electrode Negative Terminal Lead Positive Electrode 6 Lithium Ion Batteries

OVERVIEW THE LITHIUM ION BATTERIES - CONTINUED Battery Reaction The lithium ion battery makes use of lithium cobalt oxide (which has superior cycling properties at high voltages) as the positive electrode and a highly-crystallized specialty carbon as the negative electrode. It uses an organic solvent, optimized for the specialty carbon, as the electrolytic fluid. The chemical reactions for charge and discharge are as shown below: Positive Electrode LiCoO2 Charge Discharge Li1-x CoO2 + xli + + xe- Negative Electrode C + xli + + xe- Charge Discharge CLix Charge Battery as a Whole LiCoO2 + C Discharge Li1-x CoO2 + CLix The principle behind the chemical reaction in the lithium ion battery is one where the lithium in the positive electrode lithium cobalt oxide material is ionized during charge, and moves from layer to layer in the negative electrode. During discharge, the ions move to the positive electrode and return to the original compound. Schematic Diagram of the Chemical Reaction of the Lithium Ion Battery Positive Electrode Negative Electrode Charge Li + Co O Li Li + Discharge LiCoO2 Specialty Carbon 7 Lithium Ion Batteries

FEATURES OF THE LITHIUM ION BATTERIES High Energy Density Because the lithium ion batteries are high voltage/light weight batteries, they boast a higher energy density than rechargeable nickel cadmium (Ni-Cd) batteries or nickel metal hydride (Ni-MH) batteries. Mass Energy Density (Wh/kg) 2 Lithium-Ion Batteries 15 1 Nickel Hydride Batteries Ni-Cd Batteries 5 5 1 15 2 25 3 35 4 45 5 Volumetric Energy Density (Wh/ ) High Lithium ion batteries produce 3.7 volts, approximately three times the voltage of rechargeable Ni-Cd batteries or Ni-MH batteries. This will make it possible to make smaller, lighter equipment. Ni-Cd Ni-Cd Ni-Cd Li-Ion No Memory Effect Lithium ion batteries have none of the memory effects seen in rechargeable Ni-Cd batteries ( memory effect refers to the phenomenon where the apparent discharge capacity of a battery is reduced when it is repetitively discharged incompletely and then recharged). Battery: CGR175 One cycle One cycle One cycle One cycle 25 cycles Charge: Constant voltage: 4.1 V, with a Discharge: 133 ma at 2 C maximum of 5 ma current for two hours at 2 C Discharge: 133 ma, completed after two hours, at 2 C 2 2 2 2 Hold Time (h) 2 4 6 8 Hold Time (h) Flat Discharge The use of the specialty carbon creates an extremely flat discharge voltage profile, allowing the production of stable power throughout the discharge period of the battery. Coke (Panasonic's Trial Product) Battery: CGR1865 Discharge: 25 ma Panasonic's Specialty Carbon 2. 5 1 15 Discharge 8 Lithium Ion Batteries

OVERCHARGE/OVERDISCHARGE/OVERCURRENT SAFETY CIRCUITS The Functions of the Safety Circuits (Typical Functions) The voltages listed below are typical values and are not guaranteed. The charge voltage varies according to model number. 1. The Overcharge Safety Function The charge stops when the voltage per cell rises above 4.3 ±.5 V. The charge restarts when the voltage per cell falls below ±.15 V. 2. The Overdischarge Safety Function The discharge stops when the voltage per cell falls below 2.3 ±.1 V. The discharge restarts when the voltage per cell rises above ±.15 V. 3. The Overcurrent Safety Function The discharge is stopped when the output terminals are shorted. The discharge restarts when the short is removed. Reference Example of the Safety Circuits Battery Pack Unusable Region Charge 4.3V 4.2V Batteries Safety Circuits Region Used by the Set Charger Discharge Overdischarge Region Unusable Region V 2.3V The safety circuits in the diagram above are for overcharging, overdischarging, and overcurrent for a single cell battery pack. Please contact Panasonic when two or more cells are connected or when actually using this or other circuits. 9 Lithium Ion Batteries

OVERCHARGE/OVERDISCHARGE/OVERCURRENT SAFETY CIRCUITS - CONTINUED Battery Pack Block Diagram (Reference Example) The diagram below shows a diagram of a lithium ion battery pack. The battery pack includes the batteries, the safety circuits, and thermistors. 1. The Safety Circuits 1.1 The Controller IC The controller IC measures the voltage for each cell (or for each parallel battery block) and shuts off a control switch to either prevent overcharging (if the voltage exceeds the specified voltage range) or to prevent overdischarging (if the voltage falls below the specified voltage range). Moreover, the voltage of the control switch is measured on both ends and in order to prevent overcurrent, both control switches are shut off if the voltage exceeds specifications. 1.2 The Control Switches The control switches usually comprise FET structures, and they turn off the charge or discharge depending on the output of the controller IC. 1.3 The Temperature Fuse (Reference Materials) If the control switches experience abnormal heating, this fuse cuts off the current (non-restoring). 2. The Thermistors The thermistors are included in order to accurately measure the battery temperature within the lithium ion battery packs. The battery or charger measures the resistance value of the thermistor between the T- terminal and the negative terminal and during the charging process, controls the charge current along with controlling until the charge is terminated. + Battery Pack Safety Circuits Controller IC T Thermistor - Temperature Fuse Control SW Control SW The battery pack must be equipped with a noise filter at the voltage detectors in the block diagram above to insure that outside noise does not cause the battery to malfunction. Please check against the final product. Please include a total charge timer and a charge completion timer on the charging circuit in order to provide redundant safety control. 1 Lithium Ion Batteries

HOW TO CHARGE THE BATTERIES We recommend the following charging process to insure the optimal performance of the lithium ion battery. Applicable Battery Packs The discussion below assumes that the battery packs are equipped with internal safety circuits to prevent overcharging and overdischarging, and assumes that the battery is a single cell battery. Charging Method The lithium ion battery can be charged by the constant voltage/constant current charging method found in the Notes and Precautions at the beginning of this document. (See page 2, Notes and Precautions ) Functions and Performance Required in the Charger (Recommendations) (1) Charge The voltage between the charging terminals should be no more than 4.2 V (Set this at 4.2 V (max) after taking into account fluctuations in power supply voltages, temperature deviations, etc.). (2) Charge The reference charge current should be.7 CmA. (3) Ambient Temperature of the Battery Pack During Charge C to 45 C (Consult Panasonic if the battery pack is to be used outside of this temperature range). (4) Low- Battery Pack Charge When the voltage per cell is 2.9 V or less, charge using a charge current of.1 CmA or less. (5) Termination of Charging The system will determine that the battery is full by detecting the charge current. Stop charging once the current has reached.1 CmA to.7 CmA. Note that there will be some degree of variation for each individual battery. (6) Charge Timer A total charge timer and a charge completion timer should be included. (7) Countermeasures for Battery Problems Select an overvoltage guard in the power supply so that there will be no excessive voltage applied to the battery even if there is a problem with the power supply. The discussion above assumes a single cell battery. If two or more cells will be used or if there are other situations, please consult with Panasonic. 11 Lithium Ion Batteries

FLOWCHART FOR CHARGING THE LITHIUM ION BATTERY PACKS Lithium Ion Battery Pack Charge Flowchart (Example) Reference example of charging a single-cell lithium ion battery pack NO START Is the battery pack inserted? YES Charge total timer count T1 OCV: Battery pack load open voltage Battery pack insertion check A T1 tmin tbat tmax CV ichg iset1 iset2 T2 T 3 : Charge total timer count : Low temperature threshold setting value : Battery temperature : High temperature threshold setting value : Constant voltage : Charge current : Electrical current set value : Electrical current set value : Charge complete timer count : Recharge timer count YES T1 > 72 minutes Total timer end decision NO tmin<tbat<tmax YES OCV<4.1V YES OCV>2.9V YES Battery temperature check NO NO Wait A Is voltage check 1 (no load) higher than the charge completion voltage? 4.1 V or 4.2 V check 2 (no load).7 CmA charge.1 CmA charge A NO CV mode post-transition charge current check Enter into CV ichg < iset1 YES OCV voltage > 3V YES NO Overdischarge check A Charge complete timer count T2 Re-charge timer count T3 A NO NO Charge complete timer Re-charge timer end decision end decision T2 < 12 minutes T3 < 12 minutes A YES YES NO Charge stop current check ichg<iset 2 YES Timeout error Overcharge error Charge complete 12 Lithium Ion Batteries

GLOSSARY OF TERMINOLOGY FOR LITHIUM ION BATTERIES Words Relating to the Characteristics of Batteries Term Energy Density Overcharge Definiti on The amount of energy that can be produced per unit density is expressed in units of Wh/kg, Wh/, etc. mass or per unit volume. Energy Continued charging after the battery has reached a fully charged state. Generall y charging more than necessary is unsafe and will have a harmful influence on the performance of the battery. O verdischarge Discharge of the battery below the established ending voltage. N ominal The voltage that is used as the battery voltage listed on the battery. Cycle Life Characteristics Time Self Ending Amount Ratio (C) Discharge High Discharge Standard Unused Capacity of Charge Capacity Battery Capacity Retention Ratio Capacity Recovery Ratio An attribute that indicates the time it takes per charge and discharge cycle when the battery is repetitively charged and discharged under specified parameters. This metric is used to indicate the magnitude of the electrical current during charge or discharge. It is indicated in terms of a multiple of a value that indicates the capacity of the battery, and the value is expressed in units of electrical current. Generally the electrical current for charge or discharge is expressed in terms of a multiplier of C. For example, if the capacity is 15 mah, we have the following:.1 C =.1 x 15 ma = 15 ma.2 C =.2 x 15 ma = 3 ma The amount to which the capacity of the battery is current discharged through an external circuit. reduced without there being any The voltage that indicates the limit at which to stop the electrical discharge. voltage roughly corresponds to the limit for use in practical applications. This is the amount of electricity that is used in charging the battery. When there specified current during charge, this is the integral of the current value over the charging time. The units are ampere hours (Ah). Thi s is the This refers to a discharge that has a large electrical current relative to the capacity of the battery. This is also known as "high rate discharge." The standard value for the amount of electricity that can be used from a completely charged battery at the standard temperature, with a standard discharge current to the ending voltage. The units are ampere hours (Ah). An "unused battery" refers to a battery that has less times within one month of manufacturing. This is the electrical ability of the battery. Normally this capacity, and the units are either Ah or C (coulombs). been charged and discharged five or refers to ampere hours of If the standard capacity is indexed to 1, this is the capacity ratio when the battery is first discharged (under specified conditions) after it has been stored for a specified period of time. If the standard capacity is indexed to 1, this is the maximum capacity ratio that can be obtained after repetitively charging and discharging the battery under specified conditions after it has been stored a specific period of time. F luid Leakage This refers to the leakage of electrolytic fluid to the outer surface of the battery. 13 Lithium Ion Batteries

SPECIFICATION SUMMARY TABLE Specifications Shape Cylindrical Prismatic Typical Nominal Diameter / Thickness Approx. Model Number Capacity Height (mm) (v) Width (mm) (mm) Weight (g) (mah) CGR175 83 + 49.5 ±.5 --- 25 17. -1. CGR1767HC 125 66.7 ±.3 --- 35 CGR1865 14 63.2 ±.5 --- 38 CGR1865H 15 64.7 ±.3 --- 4 18.3 ±.5 CGR1865HM 163 64.7 ±.3 --- 41 3.7 CGR1865HG 18 64.7 ±.3 --- 42 CGP3486 68 29.8 ±. 3 47.5 ±.5 5 6.4 ±. 3 23 CGP3456 875 33.8 ±.3 49.5 ±.55 6.5 ±. 3 29 CGP3451 14 49.8 ±.5 1.3 ±. 3 42 3 ±.3 CGP3451G 15 49.8 ±.5 1.3 ±. 3 43 NEW NEW NEW NEW 14 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR175 CGR175: Cylindrical Model Discharge Characteristics External Dimensions (mm) *2 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 17. + - 1. 156mA 156mA 78mA 2 4 6 8 1 49.5 + -.5 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 156 ma. (With Tube) 45 C 6 C C 2 C Specifications Nominal 3.7V 1 Standard Capacity * 83mAh + Diameter 17. -1. mm 2 Dimentions* Height 49.5±.5mm Weight Approx. 25g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 55 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (156 ma). *2 Dimensions of a fresh battery -2 C -1 C 1 2 3 4 5 6 7 8 9 1 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 78mA. -1 C C 45 C 2 C 2 4 6 8 1 2. 4.2 V, 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1..5 1. 2. Discharge Capacity (Wh) 2. 1..5 (A) 15 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR175 Discharge Characteristics Storage Characteristics 2. 4.2 V, 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1..5 1. 2. Discharge Capacity (Wh) 2. 1..5 (A) Capacity Retention Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RETENTION Storage Conditions: Fully charged, 2 C. 4.2 V, 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 156 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) 2. 4.2 V, 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1..5 1. 2. Discharge Capacity (Wh) 2. 1..5 (A) Capacity Recovery Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RECOVERY Storage Conditions: Fully charged, 2 C. 4.2 V, 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 156 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) Charge Characteristics 25 4.75 55 ma (max.), 2 hours, 2 C. 4.25 3.75 3.25 2.75 Capacity 225 2 175 15 125 1 75 5 25.5 1. 2. Time (h) (ma) Storage Conditions: 2 C for 6 months from fully charged. 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 156 ma up to V at 2 C. After Storage (First Time/Capacity Retention) After Storage (Second Time/Capacity Recovery) Before Storage 2 4 6 8 1 Cycle Life Characteristics 1 8 6 4 2 55 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 78 ma up to V at 2 C. Charge/Discharge Rest Period: 2 min. 1 2 3 4 5 Number of Cycles (Cycles) 16 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1767HC CGR1767HC: Cylindrical Model Discharge Characteristics External Dimensions (mm) *2 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 17. + - 1. (+) 24mA 12mA 24mA 2 4 6 8 1 12 14 66.7 + -.3 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 24 ma. 2 C 6 C 1 C 45 C (-) (With Tube) C -2 C -1 C 2 4 6 8 1 12 14 Specifications Nominal 3.7V 1 Standard Capacity * 125mAh + Diameter 17. -1. mm 2 Dimentions* Height 66.7±.3mm Weight Approx. 35g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 84 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (24 ma). *2 Dimensions of a fresh battery 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 12 ma. 1 C C 2 C 6 C 45 C -1 C 2 4 6 8 1 12 14 2. 4.2 V, 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 (A) 17 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1767HC Discharge Characteristics Storage Characteristics 2. 4.2 V, 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 (A) Capacity Retention Ratio (%) 1 9 8 2 C 7 RETENTION 6 5 4 Storage Conditions: Fully charged. 3 2 4.2 V, 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 24 ma up to 1 V at 2 C. 1 2 3 4 5 6 7 Period (Month) 2. 4.2 V, 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 (A) Capacity Recovery Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RECOVERY Storage Conditions: Fully charged. 4.2 V, 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 24 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) Charge Characteristics 84 ma (max.), 2 hours, 2 C..5 1. 2. Time (h) Capacity 2 16 12 8 4 (ma) Cycle Life Characteristics 2 15 1 5 84 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 12 ma up to V at 2 C. Charge/Discharge Rest Period: 2 min. 1 2 3 4 5 Number of Cycles (Cycles) 18 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865 CGR1865: Cylindrical Model Discharge Characteristics External Dimensions (mm) *2 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 18.3 + -.5 (+) 26mA 13mA 26mA 2 4 6 8 1 12 14 16 63.2 + -.5 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 26 ma. 2 C 45 C 6 C (-) (With Tube) -2 C -1 C C 2 4 6 8 1 12 14 16 Specifications Nominal 3.7V 1 Standard Capacity * 14mAh Diameter 18.3±.5mm 2 Dimentions* Height 63.2±.5mm Weight Approx. 38g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 91 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (26 ma). *2 Dimensions of a fresh battery 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 13 ma. C 2 C 45 C -1 C 2 4 6 8 1 12 14 16 2. 4.2 V, 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 7 (A) 19 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865 Discharge Characteristics Storage Characteristics 2. 4.2 V, 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1. 1 2 3 4 5 6 Discharge Capacity (Wh) 2. 1..5 7 (A) Capacity Retention Ratio (%) 1 9 8 2 C 7 RETENTION 6 5 4 Storage Conditions: Fully charged, 2 C. 3 2 4.2 V, 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 26 ma up to 1 V at 2 C. 1 2 3 4 5 6 7 Period (Month) 2. 4.2 V, 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1. 1 2 3 4 5 6 Discharge Capacity (Wh) 2. 1..5 7 (A) Capacity Recovery Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RECOVERY Storage Conditions: Fully charged, 2 C. 4.2 V, 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 26 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) Charge Characteristics 91 ma (max.), 2 hours, 2 C..5 1. 2. Time (h) Capacity 2 16 12 8 4 (ma) Storage Conditions: 2 C for 6 months from fully charged. 91 ma (max.), 2 hours, 2 C Discharge Conditions: Constant current 26mA up to V at 2 C. Before Storage After Storage (First Time/Capacity Recovery) After Storage (Second Time/Capacity Recovery) 2 4 6 8 1 12 14 16 Cycle Life Characteristics 2 15 1 5 91 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 13 ma up to V at 2 C. 1 2 3 4 5 Number of Cycles (Cycles) 2 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865H CGR1865H: Cylindrical Model Discharge Characteristics External Dimensions (mm) *2 18.3 + -.5 (+) 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 28mA 28mA 14mA 2 4 6 8 1 12 14 16 18 64.7 + -.3 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 28 ma. C 6 C 45 C 2 C (-) (With Tube) 1 C -1 C -2 C 2 4 6 8 1 12 14 16 18 Specifications Nominal 3.7V 1 Standard Capacity * 15mAh Diameter 18.3±.5mm 2 Dimentions* Height 64.7±.3mm Weight Approx. 4g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 98 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (28 ma). *2 Dimensions of a fresh battery 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 14 ma. 1 C C 2 C 6 C 45 C -1 C 2 4 6 8 1 12 14 16 18 2. 4.2 V, 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 7 (A) 21 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865H Discharge Characteristics Storage Characteristics 2. 4.2 V, 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 7 (A) Capacity Retention Ratio (%) 1 9 8 2 C 7 RETENTION 6 5 4 Storage Conditions: Fully charged, 2 C. 3 2 4.2 V, 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 28 ma up to 1 V at 2 C. 1 2 3 4 5 6 7 Period (Month) 2. 4.2 V, 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1. 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 7 (A) Capacity Recovery Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RECOVERY Storage Conditions: Fully charged, 2 C. 4.2 V, 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 28 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) Charge Characteristics 98 ma (max.), 2 hours, 2 C..5 1. 2. Time (h) Capacity 2 16 12 8 4 (ma) Cycle Life Characteristics 2 15 1 5 98 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 14 ma up to V at 2 C. Charge/Discharge Rest Period: 2 min. 1 2 3 4 5 Number of Cycles (Cycles) 22 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) NEW CGR1865HM: Cylindrical Model Discharge Characteristics CGR1865HM External Dimensions (mm) *2 18.3 + -.5 (+) 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 32mA 32mA 16mA 2 4 6 8 1 12 14 16 18 2 64.7 + -.3 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 32 ma. C 45 C 2 C (-) (With Tube) -1 C -2 C 2 4 6 8 1 12 14 16 18 2 Specifications Nominal 3.7V 1 Standard Capacity * 163mAh Diameter 18.3±.5mm 2 Dimentions* Height 64.7±.3mm Weight Approx. 41g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 112 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (32 ma). *2 Dimensions of a fresh battery 112 ma (max.), 2 hours, 2 C. Discharge Conditions: 16mA constant current. C -1 C 45 C 2 C 2 4 6 8 1 12 14 16 18 2 2. 4.2 V, 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1. 1 2 3 4 5 Capacity (Wh) 2. 1..5 6 7 (A) 23 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865HM Discharge Characteristics Storage Characteristics 2. 4.2 V, 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 1. 1 2 3 4 5 Capacity (Wh) 4W 2. 1..5 6 7 (A) Capacity Retention Ratio (%) 1 9 8 2 C 7 RETENTION 6 5 4 Storage Conditions: Fully charged, 2 C. 3 2 4.2 V, 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 32 ma up to 1 V at 2 C. 1 2 3 4 5 6 7 Period (Month) 2. 1..5 4.2 V, 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1 2 3 4 5 Discharge Capacity (Wh) 2. 1..5 6 7 (A) Capacity Recovery Ratio (%) 1 9 8 7 6 5 4 3 2 1 2 C RECOVERY Storage Conditions: Fully charged, 2 C. 4.2 V, 112 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 32 ma up to V at 2 C. 1 2 3 4 5 6 7 Period (Month) Charge Characteristics 112 ma (max.), 2 hours, 2 C. Capacity.5 1. 2. Time (h) 2 16 12 8 4 (ma) 24 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) NEW CGR1865HG: Cylindrical Model Discharge Characteristics CGR1865HG External Dimensions (mm) *2 18.3 + -.5 (+) 119 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 34mA 34mA 17mA 2 4 6 8 1 12 14 16 18 2 64.7 + -.3 119 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 17mA 45 C 2 C (-) (With Tube) -1 C C 2 4 6 8 1 12 14 16 18 2 Specifications Nominal 3.7V 1 Standard Capacity * 18mAh Diameter 18.3±.5mm 2 Dimentions* Height 64.7±.3mm Weight Approx. 42g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 119 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (34 ma). *2 Dimensions of a fresh battery 2. 4.2 V, 119 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1. 1 2 3 4 5 Capacity (Wh) 2. 1..5 6 7 (A) 25 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGR1865HG Discharge Characteristics 2. 4.2 V, 117 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1. 1 2 3 4 5 Capacity (Wh) 2. 1..5 6 7 (A) 2. 4.2 V, 117 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1. 1 2 3 4 5 Capacity (Wh) 2. 1..5 6 7 (A) Charge Characteristics 2 117 ma (max.), 2 hours, 2 C. Capacity 16 12 8 4.5 1. 2. Time (h) (ma) 26 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGP3486 CGP3486: Prismatic Model Discharge Characteristics External Dimensions (mm) *2 29.8 + -.3 6.4 + -.3 (+) 45 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 13mA 64mA 128mA 2. 1 2 3 4 5 6 7 8 9 1 + 47.5 -.5 45 ma, 2 hours, 2 C. Discharge Conditions: Constant current 13 ma. -2 C -1 C C 2 C (-) (With Tube) 1 2 3 4 5 6 7 8 Specifications Nominal 3.7V 1 Standard Capacity * 68mAh Width 29.8±.3mm 2 Dimentions* Height 47.5±.5mm Thickness 6.4±.3mm Weight Approx. 23g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 45 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (13 ma). *2 Dimensions of a fresh battery Charging Conditions: Constant voltage/constant current, 4.2 V, 45 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current, 64mA. -1 C C 2 C 2. 1 2 3 4 5 6 7 8 9 1 Charge Characteristics 6. 1 4.2V, 9 45 ma (max.), 2 hours, 2 C. 8 Capacity 7 6 5 4 2. 3 1. 2 1...5 1. 2. Time (h) (ma) 27 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGP3486 Cycle Life Characteristics Storage Characteristics 1 9 8 7 6 5 4 3 2 1 45 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 64 ma up to V at 2 C. Charge/Discharge Rest Period: 2 min. 1 2 3 4 5 Number of Cycles (Cycles) Capacity Recovery Ratio (%) 11 1 9 8 7 6 5 4 3 2 1 2 C Storage Conditions: Fully charged, 2 C. 4.2 V, 45 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 13 ma up to V at 2 C. 1 2 3 4 5 6 7 8 9 1 11 Length of Storage (Months) 12 Storage Characteristics Capacity Maintenance Ratio (%) 11 1 9 8 7 6 5 2 C 4 Storage Conditions: Fully charged, 2 C. 3 Charging Conditions: Constant voltage/constant current, 4.2 V, 45 ma (max.), 2 hours, 2 C. 2 Discharge Conditions: Constant current 13 ma up to 1 V at 2 C. 1 2 3 4 5 6 7 8 9 1 11 12 Length of Storage (Months) 28 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGP3451 CGP3451: Prismatic Model Discharge Characteristics External Dimensions (mm) *2 + 3 -.3 1.3 + -.3 (+) 945 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. 27mA 2 4 6 8 1 27mA 135mA 12 14 16 + 49.8 -.5 Charging Conditions: Constant voltage/constant current, 4.2 V, 945 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 135 ma. (-) (With Tube) 2 C 45 C 6 C C -1 C 2 4 6 8 1 12 14 16 Specifications Nominal 3.7V 1 Standard Capacity * 14mAh Width 3±.3mm 2 Dimentions* Height 49.8±.5mm Thickness 1.3±.3mm Weight Approx. 42g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 945 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (27 ma). *2 Dimensions of a fresh battery 2. 1. 4.2 V, 945 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 2W 1 2 3 4 5 6 Discharge Capacity (Wh) 2. 1..5 7 (A) 2. 1. 4.2 V, 945 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 4W 1 2 3 4 5 6 Discharge Capacity (Wh) 2. 1..5 7 (A) 29 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) CGP3451 Discharge Characteristics Cycle Life Characteristics 2. 1. Charging Conditions: Constant voltage/constant current, 4.2 V, 945 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant wattage up to V at 2 C. 6W 1 2 3 4 5 6 Discharge Capacity (Wh) 2. 1..5 7 (A) 18 15 12 9 6 945 ma (max.), 2 hours, 2 C. 3 Discharge Conditions: Constant current 135 ma up to V at 2 C. Charge/Discharge Rest Period: 2 min. 1 2 3 4 5 Number of Cycles (Cycles) Charge Characteristics 945 ma (max.), 2 hours, 2 C. Capacity.5 1. 2. 2 16 12 8 4 (ma) Time (h) 3 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) NEW CGP3456: Prismatic Model Discharge Characteristics CGP3456 External Dimensions (mm) *2 6 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current at 2 C. 6.5 + -.3 + 33.8 -.3 (+) 17mA 17mA 85mA 2 4 6 8 1 12 + 49.5 -.5 6 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 85 ma. (-) (With Tube) 2 C -1 C C 2 4 6 8 1 12 Specifications Nominal 3.7V 1 Standard Capacity * 875mAh Width 33.8±.3mm 2 Dimentions* Height 49.5±.5mm Thickness 6.5±.3mm Weight Approx. 29g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 6 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (17 ma). *2 Dimensions of a fresh battery 6 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 17 ma. -2 C -1 C 2 4 6 8 1 C 2 C Charge Characteristics 6 ma (max.), 2 hours, 2 C. Capacity.5 1. 2. Time (h) 15 12 9 6 3 (ma) 31 Lithium Ion Batteries

LITHIUM ION BATTERIES (INDIVIDUAL DATA SHEETS) NEW CGP3451G: Prismatic Model Discharge Characteristics CGP3451G External Dimensions (mm) *2 1 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current up to V at 2 C. + 3 -.3 1.3 + -.3 (+) 285mA 1425mA 285mA 2. 2 4 6 8 1 12 14 16 18 + 49.8 -.5 1 ma (max.), 2 hours, 2 C. Discharge Conditions: Constant current 1425mA. 45 C 2 C (-) (With Tube) -1 C C 2. 2 4 6 8 1 12 14 16 18 Specifications Nominal 3.7V 1 Standard Capacity * 15mAh Width 3±.3mm 2 Dimentions* Height 49.8±.5mm Thickness 1.3±.3mm Weight Approx. 43g *1 After a fresh battery has been charged at constant voltage/constant current (4.2 V, 1 ma (max), 2 hours, 2 C), the average of the capacity (ending voltage of 3 V at 2 C) that is discharged at a standard current (285 ma). *2 Dimensions of a fresh battery Charge Characteristics NEW 6. 2 1 ma (max.), 2 hours, 2 C. 18 Capacity 16 14 12 1 8 2. 6 1. 4 2...5 1. 2. Time (h) (ma) 32 Lithium Ion Batteries

BATTERY PACK SPECIFICATION CHECKLIST Battery Pack Specification Checklist Fill in the blanks below to determine specifications when making inquiries or when ordering batteries. 1. Battery Pack: General 1) Schedule: 2) Number of units: 3) Delivery Destination: 4) Operating Temperature: 5) Ambient Humidity: 6) Special Conditions for Use: 7) Applicable Specifications: 8) Applicable Recipient: 9) Application: 1) FG (Fuel Gauge) (1) Completion of design evaluation: Month: Year: (2) Completion of mass production evaluation: Month: Year: (3) Start of delivery: Month: Year k packs per month (Total volume: k packs) (1) Domestic (2) Overseas (Name of country: ) (1) Standard (where the standard is C to 45 C) (2) Custom ( C to C) (1) Standard (where standard is 45 to 85%, non-condensing) (2) Custom ( % to %) (1) No (2) Yes ((1) Automotive (2) Outdoors (3) Other ( )) (1) Electrical Appliance and Material Control Law (2) UL (3) Other ( ) (1) Customer (2) Panasonic (3) Other ( ) (1) Portable telephone (2) AV equipment ( ) (3) Personal computer (4) Other ( ) (1) Required (2) Not required (if required, fill in item 3) 2. Battery Pack Basic Specifications 1) Battery Pack Configuration: 2) Battery Pack Materials: 3) Battery & Structure Used: 4) Rated Capacity: 5) Charging Method: 6) Charge : 7) Charge Time: 8) Discharge Ending : 9) Thermistor: 1) Drop Strength: 11) Flame Retardance Requirements: 12) Dimensions: 13) Weight: 14) Label: 15) Terminal Configuration: (1) Hard case (2) Soft pack (3) Other ( ) Specify ( ) 175/1767HC/1865/1865H/1865HM/1865HG/3486/3456/3451/3451G ( P x S) mah (1) Fast (2) Standard (3) Other ( ) A hours V (1) Standard (Present/Absent) (Standard: 1 KW, 25 C) (2) Other ( ) (1) Present ( cm) (2) Absent (1) Present ( ) (2) Absent width x length x height mm or less g or less (1) Not required (2) Required (Details of label specified elsewhere.) ( ) 3. Fuel Gauge Specifications 1) Range of load currents: 2) Load current waveform: 3) Accuracy: 4) Display method: 5) Mode change 6) Communications data: 7) Charge function ( ma to ma) (1) Wave height ma (2) Conductive period msec (3) Stop period msec (1) ± 1% (2) ± 5% (3) Other ( ) (1) LED (2) Communications (3) LED and communications (communications method ) (1) Not required (2) Required (Modes (suspend, etc.) (1) (2) ) (1) Remainder (2) (3) (4) Temperature (5) ID code (6) Other ( ) (1) Not required (2) Required 33 Lithium Ion Batteries

CHARGER SPECIFICATION CHECKLIST Charger Specification Checklist Fill in the blanks below to determine specifications when making inquiries or when ordering. 1. General 1) Start of Delivery: 2) Delivery Destination: 3) Operating Temperature: 4) Ambient Humidity: 5) Special Conditions for Use: 6) Applicable Specifications: 7) Applicable Recipient: 8) Application: 2. Basic Specifications 1) Battery Pack Compatibility: 2) Charging Method: 3) Charge : 4) Charge Time: 5) Charger Model: 6) Display LED: 7) Power Supply : 8) Drop strength: 9) Dimensions: 1) Weight: 11) Label: Month: Year: Number of units: per month (Total volume: units) (1) Domestic (2) Overseas (Name of country: ) (1) Standard (where standard is C to 45 C) (2) Custom ( C to C) (1) Standard (where standard is 45 to 85%, non-condensing) (2) Custom ( % to %) (1) No (2) Yes ((1) Automotive (2) Outdoors (3) Other ( )) (1) Electrical Appliance and Material Control Law (2) UL (3) Other ( ) (1) Customer (2) Panasonic (3) Other ( ) (1) Portable telephone (2) AV equipment ( ) (3) Personal computer (4) Other ( ) 175/1767HC/1865/1865H/1865HM/1865HG/3486/3456/3451/3451G ( P x S) FG((1) Present ( ) (2) Absent) (1) Fast (2) Standard (3) Other ( ) A (Contact Panasonic regarding charging conditions.) hours Pocket Type: 1 Unit 2 Units Other ( ) No. of Units: V/ Hz (Range of Fluctuation: V to V/ Hz to Hz) cm width x length x height mm or less g or less (1) Not required (2) Required (Details of label ) 34 Lithium Ion Batteries

MEMO 35 Lithium Ion Batteries

MEMO 36 Lithium Ion Batteries

For more details, please contact : Matsushita Battery Industrial Co., Ltd. OEM Sales Division 11-66 Honsyuku-cho, Chigasaki, Kanagawa, Japan Postal code: 253-8567 Fax: +81-467-53-421 http://www.panasonicoembatteries.com Specifications are subject to change without notice for further improvement. Contents valid as of September, 2. Printed in Japan