NI-MH HaNdbook ENglIsH INdustrIal battErIEs

saFEtY, loNg-lIFE aNd Po WEr! PaNasoNIC battErIEs PaNasoNIC INdustrIal EuroPE Panasonic Corporation, foun ded in Osaka 1918, is one of the world’s largest manufacturers of quality electronic and electrical equipment. Its subsidiary, Panasonic Industrial Europe GmbH (PIE) deals with a wide diversified range of in dus trial products for all European countries. This company was formed in 1998 to strengthen Panasonic’s Pan-European industry operation, and today is active in such different business fields as Automotive, Audio/Video & Communication, Appliance and Industry & Devices to satisfy its customer’s needs. Panasonic quality – certified by authorised companies. We are able to offer you a wide range of individual power Panasonic Energy Company (PEC) started its battery produc- When it comes to production our facilities employ leading solu tions for portable and stationary applications. Our prod uct tion in 1931. Today PEC is the most diversified global battery edge manufacturing processes meeting the highest quality range includes high reliability batteries such as Lithium-Ion, manu facturer with a network of 16 manufacturing companies standards. Our factories are certified to ISO standards. This Lithium, Nickel-Metal-Hy dride, Valve-Regu lated-Lead-Acid in 14 countries. More than 12,600 employees are dedicated means that each factory has its own quality and environ- (VRLA), Alkaline and Zinc-Carbon. Based on this battery to the research & development and in the production of new mental management. The ISO 9000 and ISO 14000 series are range we can power your busi ness in virtually all applications. batteries for a new world. the minimum benchmarks that ensure our excellent product reliability. PIE organisation divisions Automotive Furthermore the majority of our factories is also certified to Factory Solutions OHSAS 18001 (Occupational Health and Safety Assessment Series), an international standard for assessing a manage- ment system for occupational safety. This confirms that our PMG (Product Audio/Video & factories have been proactive in putting the occupational Marketing Group) Communication health and safety of its staff at the centre of the com pany‘s dealings. In addition our VRLA batteries are for example approved to German VdS standard and U.S. UL standard. Industry & Devices Appliance 2 3

‘ECo IdEas’ stratEgY PaNasoNIC lEads tHE WaY … WItH ‘ECo IdEas’ Pursuing coexistence with the global environment in its business vision, Panasonic places ‘ECo IdEas’ For ‘ECo IdEas’ For ‘ECo IdEas’ For MaNuFaCturINg ProduCts EvErYbodY, reduction of the environmental impact in all its business activities as one of the important EvErYWHErE themes in its mid-term management plan. In its ‘eco ideas’ Strategy, which focuses in particular on rapid implementation of measures to prevent global warming and global promotion of envi- our plans our plans our plans ronmental sustainability management, Panasonic is advancing three key initiatives: ‘eco ideas’ We will reduce CO emissions across all We will produce energy-efficient pro- We will encourage the spread of environ- for Manufacturing, ‘eco ideas’ for Products, and ‘eco ideas’ for Everybody, Everywhere. 2 our manufacturing sites. ducts. mental activities throughout the world. our goals our goals our goals In each of our factories a CO emissions In March 2010 at least 20 products with Intensive commitment on the part of the 2 of 10% reduction till 2010. the ‘Superior Green Products‘ classifi- company owners, international coopera- cation should be available. tions and involvement of the employees. our measures Our factories are evaluated with regard to our measures our measures CO emission, waste disposal, recycling The developers at Panasonic carry out Not only do we sponsor the work of the 2 measures as well as chemical and water an environmental impact assessment WWF for the Arctic, Panasonic has also consumption within the scope of the for all our products. Products that meet launched a couple of other environmen- ‘Clean Factory’ program and they are set the highest environmental requirements tal initiatives such as the ECO RELAY ini- performance targets according to these in the branch with regard to conservation tiative in which hundreds of colleagues indicators. of energy and energy efficiency are the world over take part voluntarily for the Panasonic ‘eco ideas’ House classified as a ‘Superior Green Product’ several days in environmental campaigns. We are approaching a global turning The concept of this ‘eco ideas’ House Example and awarded the Panasonic logo ‘eco corner and it would not be an ex ag- can be described as follows: The Wakayama Plant of the Energy Com- Example ideas’. geration to call it the ‘Environmental 1. Virtually zero CO emissions in an pany is strengthening its management With the support of the GRS Batterien 2 Industrial Revolution’. Based on this entire house envisaged in three to structure to cut CO emissions from the Example (German Battery Recycling Association) 2 rec og nition, Panasonic has built an five years into the future main production bases for Lithium-Ion We have dispensed with the use of Panasonic arranged a battery collection ‘eco ideas’ House on the premise of our 2. Synergy of technology and nature batteries, which are a core component of highly toxic Lithium Thionyl Chloride in day with the aim of collecting as many of showroom, Panasonic Center Tokyo in Aforementioned concepts shows that Panasonic’s energy business. As a result, the production of our Lithium batteries. these spent energy sources as possible April 2009 in order to help create a Panasonic is not only aware of it´s en vi - it has succeeded in roughly halving CO This is quite rightly classified as highly and giving out information about the 2 carbon-free society and reduce CO ron mental responsibility moreover emissions per production unit, as well as toxic and should never under any cir- recycling loop of batteries from which 2 emissions from a household sector. this Panasonic takes action. sharply curbing an increase in CO emis- cumstances be released into the envi- valuable raw materials such as Zinc, 2 sions even as production has expanded. ronment. Manganese and Iron can be recovered. 4 5

INdEx PrECautIoNs For dEsIgNINg dEvICEs WItH NI-MH battErIEs 1 Chapter Page In order to take full advantage of the properties of Ni-MH trickle charging (continuous charging) 1 Precautions for designing devices with Ni-MH batteries batteries and also to prevent problems due to improper use, Trickle charging cannot be used with Ni-MH batteries, except Charging 7 please note the following points during the use and design of specific high temperature batteries (please contact Panasonic Discharging 7 battery operated products. to get more information). However, after applying a refresh Storage 8 charge using a rapid charge, use a trickle charge of 0.033CmA Service life of batteries 8 CHargINg to 0.05CmA. Also, to avoid overcharging with trickle charge, Design of products which use batteries 8 – 9 which could damage the cell characteristics, a timer meas- Prohibited items regarding the battery handling 9 – 10 Charging temperature uring the total charge time should be used. Other precautions 10 Charge batteries within an ambient temperature range of Ni-MH battery transportation situation 10 0°C to 40°C. Ambient temperature during charging affects Note: ‘Cma’ Final point to keep in mind 10 charging efficiency. As charging efficiency is best within a During charging and discharging, ‘CmA’ is a value indicating 2 Product safety data sheet 11 temperature range of 10°C to 30°C, whenever possible place current and expressed as a multiple of nominal capacity. 3 Ni-MH batteries the charger (battery pack) in a location within this tempera- Substitute ‘C’ with the battery’s nominal capacity when calcu- Overview 12 ture range. lating. For example, for a 1500mAh battery of 0.033CmA, this Construction 12 At temperatures below 0°C the gas absorption reaction is value is equal to 1/30 x 1500, or roughly 50mA. Applications 12 not adequate, causing gas pressure inside the battery to rise, Structure of Ni-MH batteries 13 which can activate the safety vent and lead to leakage of dIsCHargINg The principle of electrochemical reaction involved in Ni-MH batteries 13 – 14 alkaline gas and deterioration in battery performance. Features 14 Charging efficiency drops at temperatures above 40°C. This discharge temperature Five main characteristics 14 – 16 can disrupt full charging and lead to deterioration in perform- Discharge batteries within an ambient temperature range of 4 Charge methods for Ni-MH batteries ance and battery leakage. -10°C to +45°C. Charge methods 17 – 18 Discharge current level (i. e. the current at which a battery is Ni-MH high-temperature series recommended charge for back-up power applications 18 Parallel charging of batteries discharged) affects discharging efficiency. Discharging effi- 5 battery selection 19 Sufficient care must be taken during the design of the ciency is good within a current rangeof 0.1CmA to 2CmA. 6 specification table 20 charger when charging batteries connected in parallel. Discharge capacity drops at temperatures below -10°C or 7 Individual data sheets 21 – 44 Consult Panasonic when parallel charging is required. above +45°C. Such decreases in discharge capacity can lead 8 battery packs 45 to deterioration in battery performance. 9 glossary of terms for Ni-MH batteries 46 – 47 reverse charging Never attempt reverse charging. Charging with polarity overdischarge (deep discharge) reversed can cause a reversal in battery polarity causing gas Since overdischarging (deep discharge) damages the battery pressure inside the battery to rise, which can activate the safety characteristics, do not forget to turn off the switch when vent, lead to alkaline electrolyte leakage, rapid deterioration discharging, and do not leave the battery connected to the in battery performance, battery swelling or battery rupture. equipment for long periods of time. Also, avoid shipping the battery installed in the equipment. overcharging Avoid overcharging. Repeated overcharging can lead to High-current discharging deterioration in battery performance. (‘Overcharging’ means As high-current discharging can lead to heat generation and charging a battery when it is already fully charged.) decreased discharging efficiency, consult Panasonic before attempting continuous discharging or pulse discharging at rapid charging currents larger than 2CmA. To charge batteries rapidly, use the specified charger (or charging method recommended by Panasonic) and follow the correct procedures. 66 77

1 PrECautIoNs For dEsIgNINg dEvICEs WItH NI-MH battErIEs PrECautIoNs For dEsIgNINg dEvICEs WItH NI-MH battErIEs 1 storagE service life with long-term use temperature related the position of batteries in products short-circuiting Because batteries are chemical products involving internal Excessively high temperatures (i.e. higher than 45°C) can Never attempt to short-circuit a battery. Doing so can damage storage temperature and humidity (short-term) chemical reactions, performance deteriorates not only with cause alkaline electrolyte to leak from the battery, thus the product and generate heat that can cause burns. Store batteries in a dry location with low humidity, no corro- use but also during prolonged storage. damaging the product and shorten battery life by causing sive gases, and at a temperature range of -20°C to +45°C. Normally, a battery will last 2 years (or 500 cycles) if used deterioration in the separator or other battery parts. Install throwing batteries into a fire or water Storing batteries in a location where humidity is extremely under proper conditions and not overcharged or overdis- batteries far from heat-generating parts of the product. The Disposing of a battery in fire can cause the battery to rupture. high or where temperatures fall below -20°C or rise above charged. However, failure to satisfy conditions concerning best battery position is in a battery compartment that is Also avoid placing batteries in water, as this causes batteries +45°C can lead to the rusting of metallic parts and battery charging, discharging, temperature and other factors during composed of an alkaline-resistant material which isolates to cease to function. leakage due to expansion or contraction in parts composed actual use can lead to shortened life (or cycle life) damage to the batteries from the product’s circuitry. This prevents of organic materials. products and deterioration in performance due to leakage and damage that may be caused by a slight leakage of alkaline soldering shortened service life. electrolyte from the battery. Never solder anything directly to a battery. This can destroy long-term storage (1 year, -20°C to +35°C) the safety features of the battery by damaging the safety vent Because long-term storage can accelerate battery self- dEsIgN oF ProduCts WHICH usE battErIEs discharge end voltage inside the cap. discharge and lead to the deactivation of reactants, locations The discharge end voltage is determined by the formula given where the temperature ranges between +10°C and +30°C are Connecting batteries and products below. Please set the end voltage of each battery at 1.1 volts Inserting the batteries with their polarities reversed suitable for long-term storage. Never solder a lead wire and other connecting materials or less. Never insert a battery with the positive and negative poles When charging for the first time after long-term storage, directly to the battery, as doing so will damage the battery’s reversed as this can cause the battery to swell or rupture. deactivation of reactants may lead to increased battery voltage internal safety vent, separator, and other parts made of Number of batteries arranged serially and decreased battery capacity. Restore such batteries to organic materials. To connect a battery to a product, spot- 1 to 6 (Number of batteries x 1.0) V overcharging at high currents and reverse charging original performance by repeating several cycles of charging weld a tab made of nickel or nickel-plated steel to the 7 to 12 (Number of batteries - 1) x 1.2) V Never reverse charge or overcharge with high currents (i.e. and discharging. battery’s terminal strip, then solder a lead wire to the tab. higher than rated). Doing so causes rapid gas generation and When storing batteries for more than 1 year, charge at least Perform soldering in as short a time as possible. overdischarge (deep discharge) prevention increased gas pressure, thus causing batteries to swell or once a year to prevent leakage and deterioration in perform- Use caution in applying pressure to the terminals in cases Overdischarging (deep discharging) or reverse charging rupture. ance due to selfdischarging. where the battery pack can be separated from the equip- damages the battery characteristics. In order to prevent Charging with an unspecified charger or specified charger ment. damage associated with forgetting to turn off the switch or that has been modified can cause batteries to swell or sErvICE lIFE oF battErIEs leaving the battery in the equipment for extended periods, rupture. Be sure to indicate this safety warning clearly in all Material for terminals in products using the batteries preventative options should be incorporated in the equip- operating instructions as a handling restriction for ensuring Cycle life Because small amounts of alkaline electrolyte can leak from ment. At the same time, it is recommended that leakage safety. Batteries used under proper conditions of charging and the battery seal during extended use or when the safety vent current is minimized. Also, the battery should not be shipped discharging can be used 500 cycles or more. Significantly is activated during improper use, a highly alkaline-resistant inside the equipment. Installation in equipment (with an airtight battery reduced service time in spite of proper charging means that material should be used for a product’s contact terminals in compartment) the life of the battery has been exceeded. order to avoid problems due to corrosion. ProHIbItEd ItEMs rEgardINg tHE battErY Always avoid designing airtight battery compartments. In Also, at the end of service life, an increase in internal resist- HaNdlINg some cases, gases (oxygen, hydrogen) may be given off, and ance, or an internal short-circuit failure may occur. Chargers there is a danger of the batteries bursting or rupturing in the High alkaline-resistant metals low alkaline-resistant metals and charging circuits should therefore be designed to ensure Nickel, stainless steel, nickel-plated Tin, aluminum, zinc, copper, brass, Panasonic assumes no responsibility for problems resulting presence of a source of ignition (sparks generated by a motor steel, etc. etc. safety in the event of heat generated upon battery failure at from batteries handled in the following manner. switch, etc.). the end of service life. (Note that stainless steel generally results in higher contact resistance.) disassembly use of batteries for other purposes Never disassemble a battery, as the electrolyte inside is Do not use a battery in an appliance or purpose for which it strong alkaline and can damage skin and clothes. was not intended. Differences in specifications can damage the battery or appliance. 88 99

1 PrECautIoNs For dEsIgNINg dEvICEs WItH NI-MH battErIEs ProduCt saFEtY data sHEEt 2 short-circuiting of battery packs FINal PoINt to kEEP IN MINd Special caution is required to prevent short circuits. Care ProduCt saFEtY data sHEEt*1 must be taken during the design of the battery pack shape to In order to ensure safe battery use and to prolong the battery Manufacturer ensure batteries cannot be inserted in reverse. Also, caution performance, please consult Panasonic regarding charge Name of Company: Panasonic Corporation Energy Company must be given to certain structures or product terminal and discharge conditions for use and product design prior to Address: 1-1, Matsushita-cho, Moriguchi, Osaka 570-8511 Japan shapes which can make short-circuiting more likely. the release of a battery-operated product. Document number: PMH-PSDS-100129E Issued: Jan, 29th , 2010 using old and new batteries together Avoid using old and new batteries together. Also avoid Name of product: Nickel-Metal-Hydride Storage Battery (Model Name) The models described as HHR-***** using these batteries with ordinary dry-cell batteries, Ni-Cd batteries or with another manufacturer’s batteries. substance identification Differences in various characteristic values, etc., can cause Substance: Nickel-Metal-Hydride Storage Battery damage to batteries or the product. CAS No.: Not Specified. UN Class: Classified as UN3028, but they are exempted from Dangerous Goods pursuant to UN otHEr PrECautIoNs Special Provision as below. Not restricted, as per Special Provision A123 [Special Provision 304] (UN Recommendations on the TRANSPORT OF DANGEROUS GOODS Model Regulations Batteries should always be charged prior to use. Be sure to Volume 1. 15th revised edition) Battery, dry, containing corrosive electrolyte which will not flow out of the charge correctly. battery if the battery case is cracked are not subject to these Regulations provided the batteries are securely packed and protected against short-circuits. Examples of such batteries are: Alkali-Manganese, Zinc-Carbon, NI-MH battErY traNsPortatIoN Nickel-Metal-Hy dride and Nickel-Cadmium batteries. sItuatIoN*1 Ecological information transport by sea Heavy metal quantity for cell: Hg < 0.5ppm Measurement Analysis: Atomic Absorption Spectrometer Ni-MH batteries are classified as no dangerous goods under Cd < 5.0ppm Measurement Analysis: Atomic Absorption Spectrometer Pb < 40ppm Measurement Analysis: Atomic Absorption Spectrometer IMDG-Code 34-08 (International Maritime Dangerous Goods transport information Code), vaild until 31.12.2011. 1. During the transportation of a large amount of batteries by ship, trailer or railway, do not leave them in the From 01.01.2012 new UN 3496 takes place under IMDG-Code places of high temperatures and do not allow them to be exposed to dew condensation. 35-10 with Special Provision 963. Ni-MH batteries are then 2. Avoid transportation with the possibility of the collapse of cargo piles and the packing damage. classified as dangerous goods in class 9. Batteries shall be 3. Protect the terminals of batteries and prevent them from short circuit so as not to cause dangerous heat securely packed and protected from short circuit. generation. When loaded in a cargo transport unit with 100kg gross regulatory information mass or more, special stowage is requested away from heat - IATA Dangerous Goods Regulations 51th Edition Effective 1 January – 31 December 2010 source. Furthermore an information on the IMO (International - ICAO Technical Instructions for the safe transport of dangerous goods by air Maritime Organization) document is required. - IATA (A123) for air shipment and IMDG (Special Provision) for sea shipment under UN3028 transport by air others As of today there are no fixed regulations for the worldwide references - Ni-Cd, Ni-MH Panasonic Catalogue and technical handbook. transportation of Ni-MH batteries by air. - MSDS of Nickel hydro oxide and potassium hydro oxide and sodium hydro oxide from supplier. - Recommendations on the TRANSPORT OF DANGEROUS GOODS Model Regulations Volume 1. 15th revised edition. transport by road - IATA Dangerous Goods Regulations 51th Edition Effective 1 January – 31 December 2010 As of today there are no fixed regulations for the worldwide - Technical Instructions for the Safe Transport of Dangerous Goods by Air transportation of Ni-MH batteries by road. (Approved and published by decision of the Council of ICAO) 2003-2004 Edition 1100 *1 The aforementioned information is subject to change without any notice. *1 The aforementioned PSDS is only an extract. Please contact Panasonic to get the complete version. 1111

3 NI-MH battErIEs NI-MH battErIEs 3 struCturE oF NI-MH battErIEs 1 2 11 1 Positive pole 11 3 2 Top plate 10 4 3 Gasket 5 4 Safety vent 5 Collector 12 6 Separator 7 Cathode (nickel hydroxide) 8 Negative pole (cell can) 6 9 Anode (hydrogen – absorbing alloy) 9 10 Insulation plate 7 11 Exhaust gas hole 8 12 Tube 10 ovErvIEW tHE PrINCIPlE oF ElECtroCHEMICal Principle of electrochemical reaction involved in batteries rEaCtIoN INvolvEd IN NI-MH battErIEs Ni-MH batteries employ nickel hydroxide for the positive More and more electric products with sophisticated func- existing Panasonic Ni-MH cells to the negative plate alloy and electrode similar to Ni-Cd batteries. The hydrogen is stored tions require extremely compact and light battery solutions separator fiber density. A different electrolyte composition Hydrogen-absorbing alloys in a hydrogen-absorbing alloy for the negative electrode, delivering a high level of energy density. To meet these was achieved to improve performance. Superior long-life Hydrogen-absorbing alloys have a comparatively short and an aqueous solution consisting mainly of potassium needs Panasonic Ni-MH batteries have been developed and char acteristics can be achieved when combined with appro- history which dates back about 20 years to the discovery of hydroxide for the electrolyte. Their charge and discharge manufactured with nickel hydroxide for the positive electrode priate intermittent charge control circuitry. The intermittent NiFe, MgNi and LaNi alloys. They are capable of absorbing reactions are shown below. 5 and hydrogen-absorbing alloys, capable of absorbing and charge consumes 1/30th the electricity compared to trickle hydrogen equivalent to about a thousand times of their own releasing hydrogen at high-density levels, for the negative charge and more than doubles the expected life of the volume, generating metal hydrides and also of releasing the electrode. The Ni-MH battery technology is nowadays the Ni-Cd Ni-MH cells compared to Ni-Cd cells that have been trickle hydrogen that they absorbed. These hydrogen-absorbing Charge (nickel cadmium) successor technology for rechargeable and charged. alloys combine metal (A) whose hydrides generate heat Positive Ni(OH) + OH- NiOOH + HO + e- 2 2 portable devices. All of our Ni-MH batteries are cadmium- exothermically with metal (B) whose hydrides generate heat electrode: Discharge free, in order not to be harmful to human beings and our aPPlICatIoNs endothermically to produce the suitable binding energy so Charge Negative M + HO + e- MH + OH- environment. that hydrogen can be absorbed and released at or around 2 ab electrode: Discharge Panasonic Ni-MH batteries can either be used for standard normal temperature and pressure levels. Depending on Charge CoNstruCtIoN applications with a moderate ambient temperature or for how metals A and B are combined, the alloys are classified Overall Ni(OH)2 + M NiOOH + MHab reaction: Discharge applications which requires high temperature resistance. into the following types: AB (TiFe, etc.), AB (ZnMn , etc.), 2 2 Ni-MH batteries consist of a positive plate containing nickel AB (LaNi, etc.) and A B (MgNi, etc.). From the perspective 5 5 2 2 (M: hydrogen-absorbing alloy; H : absorbed hydrogen) hydroxide as its principal active material, a negative plate standard ambient temperature of charge and discharge efficiency and durability, the field ab mainly composed of hydrogen-absorbing alloys, a separator E-Bikes, Pedelecs, Scooters, Golf-Trollies, Powertools, Grape- of candidate metals suited for use as electrodes in storage made of fine fibers, an alkaline electrolyte, a metal case and a Cutters, Multimeters, Voting Machine, Barcode Readers, batteries is now being narrowed down to AB type alloys in 5 sealing plate provided with a self-resealing safety vent. Their Hand held Scanners, Labelprinters, Vacuum Cleaners, Muscle which rare-earth metals, especially metals in the lanthanum As can be seen by the overall reaction given above, the chief basic structure is identical to that of Ni-Cd batteries. With Electro-Stimulations, Toothbrushes, etc. group, and nickel serve as the host metals; and to AB type characteristics of the principle behind a Ni-MH battery is that 2 cylindrical Ni-MH batteries, the positive and negative plates alloys in which the titanium and nickel serve as the host hydrogen moves from the positive to the negative electrode are divided by the separator, wound into a coil, inserted into High temperature resistance (for back-up use) metals. Panasonic is now focusing its attention on AB during charge and reverse during discharge, with the elec- 5 the case, and sealed by the sealing plate through an electrically Combined Solar Applications, Portable Medical Devices, POS type alloys which feature high capacity, excellent charge trolyte taking no part in the reaction; which means that there insulated gasket, see page 13. Terminals, Emergency Light for buildings and trains, Elevator and discharge efficiency, and excellent cycle life. It has is no accompanying increase or decrease in the electrolyte. Panasonic expands the line of Ni-MH cells that are superior Safety Systems, etc. developed, and is now employing its own MmNi alloy which A model of this battery’s charge and discharge mechanism 5 to standard Ni-MH products in applications with low-rate uses Mm (misch metal – an alloy consisting of a mixture of is shown in the figure on the following page. These are the charge at high temperatures. Improvements were made in rare-earth elements) for metal A. useful reactions taking place at the respective boundary 1122 1133

3 NI-MH battErIEs NI-MH battErIEs 3 faces of the positive and negative electrodes, and to assist Cycle life equivalent to 500 charge and discharge cycles charge methods for details on how to charge the batteries, same as for Ni-Cd batteries. The discharge voltage and one in understanding the principle, the figure shows how the Like Ni-Cd batteries, Ni-MH batteries can be repeatedly see page 17–18. discharge efficiency decrease in proportion as the current reactions proceed by the transfer of protons (H+). charged and discharged for about 500 cycles. (example: IEC rises or the temperature drops. As with Ni-Cd batteries, The hydrogen-absorbing alloy negative electrode success- charge and discharge conditions) Charge characteristics repeated charge and discharge of these batteries under fully reduces the gaseous oxygen given off from the positive high discharge cut-off voltage conditions (more than 1.1V electrode during overcharge by sufficiently increasing the rapid charge in approx. 1 hour per cell) causes a drop in the discharge voltage (which capacity of the negative electrode which is the same method Ni-MH batteries can be rapidly charged in about an hour is sometimes accompanied by a simultaneous drop in employed by Ni-Cd batteries. using a specially designed charger. capacity). The discharge characteristics can be restored by By keeping the battery’s internal pressure constant in this charge and discharge to a discharge end voltage of down to manner, it is possible to seal the battery. Excellent discharge characteristics 1.0V per cell. Since the internal resistance of Ni-MH batteries is low, schematic discharge of Ni-MH battery continuous high-rate discharge up to 3CmA is possible. discharge characteristics Charge temperature characteristics at 1C charge discharge temperature characteristics at 1C discharge FEaturEs FIvE MaIN CHaraCtErIstICs similarity with Ni-Cd batteries These batteries have similar discharge characteristics to As with Ni-Cd batteries, Ni-MH batteries have five main Charge temperature characteristics at various charge rates those of Ni-Cd batteries. characteristics: charge, discharge, storage life, cycle life and safety. double the energy density of conventional batteries Ni-MH batteries have approximately double the capacity 1. Charge characteristics compared with Panasonic’s standard Ni-Cd batteries. The charge characteristics of Ni-MH batteries are affected by current, time and temperature. The battery voltage rises when the charge current is increased or when the temperature is low. The charge efficiency differs depending on the current, time, temperature and other factors. Ni-MH batteries should be charged at a temperature ranging from 0°C to 40°C using a constant current of 1C or less. The charge efficiency is particularly good at a temperature of 10°C to 30°C. Repeated charge at high or low temperatures causes 2. discharge characteristics the battery performance to deteriorate. Furthermore, repeated The discharge characteristics of Ni-MH batteries are overcharge should be avoided since it will downgrade the affected by current, temperature, etc., and the discharge battery performance. Refer to the section on recommended voltage characteristics are flat at 1.2V, which is almost the 1144 1155

3 NI-MH battErIEs CHargE MEtHods For NI-MH battErIEs 4 discharge temperature characteristics Cycle life characteristics CHargE MEtHods 6. dt/dt value: Approx. 1 to 2°C/min. When a rise in the battery temperature per unit time is detected by a thermistor Charge is the process of restoring a discharged battery to or other type of temperature sensor during rapid charge, and its original capacity. In order for a battery to be usable for a the prescribed temperature rise is sensed, rapid charge is long period of time, it must be charged via the proper charge stopped and the charge method is switched over to trickle method. Various methods are used to charge recharge- charge. able cells, but Panasonic recommends the charge methods described below to charge its Ni-MH batteries. 7. temperature cut-off (tCo): 55°C (for A and AA size), 50°C (for AAA size), 60°C (for L-A, LfatA and SC size). The cycle 1. rapid charge current: 1CmA (rapid charge temperature life and other characteristics of batteries are impaired if the range: 0°C to 40°C). In order to exercise proper control batteries are allowed to become too hot during charge. In to stop rapid charge, it is recommended that batteries be order to safeguard against this, rapid charge is stopped and 3. storage characteristics 5. safety charged at over 0.5CmA but less than 1CmA. Charging the charge method is switched over to trickle charge when These characteristics include self-discharge characteristics When the internal pressure of these batteries rises due to batteries at a current in excess of 1CmA may cause the safety the battery temperature has reached the prescribed level. and restoration characteristics after long-term storage. overcharge, short-circuiting, reverse charge or other abuse vent to be activated by a rise in the internal pressure of the When batteries are left standing, their capacity generally or misuse, the self-resealing safety vent is activated to batteries, thereby resulting in electrolyte leakage. When the 8. Initial delay timer: to 10 min. This prevents the - ∆V detec- drops due to self-discharge, but this is restored by charge. prevent battery damage. temperature of the batteries is detected by a thermistor or tion circuit from being activated for a specific period of time other type of sensor, and their temperature is under 0°C or after rapid charge has commenced. However, the dT/dt self discharge characteristics over 40°C at the commencement of the charge, then trickle detection circuit is allowed to be activated during this time. charge, rather than rapid charge, must be performed. Rapid As with Ni-Cd batteries, the charge voltage of Ni-MH batteries charge is stopped when any one of the values among the may show signs of swinging (pseudo - ∆V) when they have been types of control described in (4), (5), (6), and (11) reaches the kept standing for a long time or when they have discharged prescribed level. excessively, etc. The initial delay timer is needed to prevent charge from stopping (to prevent malfunctioning) due to this 2. allowing a high current: to flow to excessively discharged or pseudo - ∆V. deep-discharged batteries during charge may make it impos- sible to sufficiently restore the capacity of the batteries. To 9. trickle current: 0.033 to 0.05CmA. When the trickle charge excessively discharged or deep-discharged batteries, current is set higher, the temperature rise of the batteries is first allow a trickle current to flow, and then proceed with the increased, causing the battery characteristics to deteriorate. Self-discharge is affected by the temperature at which the rapid charge current once the battery voltage has risen. batteries are left standing and the length of time during 10. rapid charge transfer timer: 60 min. which they are left standing. It increases in proportion 3. rapid charge start voltage: Approx. 0.8V/cell rapid charge as the temperature or the shelf-standing time increases. transition voltage restoration current: 0.2 ~ 0.3CmA 11. rapid charge timer: 90 min. (at 1C charge) Panasonic’s Ni-MH batteries have excellent self-discharge characteristics. 4. upper battery voltage limit control: Approx. 1.8V/cell. 12. total timer: 10 to 20 hours. The overcharging of Ni-MH The charge method is switched over to trickle if the battery batteries, even by trickle charging, causes a deterioration in 4. Cycle life characteristics voltage reaches approximately 1.8V/cell due to trouble or the characteristics of the batteries. To prevent overcharging by The cycle life of these batteries is governed by the conditions malfunctioning of some kind. trickle charging or any other charging method, the provision of under which they are charged and discharged, temperature a timer to regulate the total charging time is recommended. and other conditions of use. Under proper conditions of 5. ∆v value: 5 to 10mV/cell. When the battery voltage drops use (example: IEC charge and discharge conditions), these from its peak to 5 to 10mV/cell during rapid charge, rapid Note: The temperature and voltage of Ni-MH batteries varies batteries can be charged and discharged for more than 500 charge is stopped, and the charge method is switched over to depending on the shape of the battery pack, the number of cells, cycles. trickle charge. the arrangement of the cells and other factors. There fore 1166 1177

4 CHargE MEtHods For NI-MH battErIEs battErY sElECtIoN 5 Panasonic should be consulted for more detailed information NI-MH HIgH-tEMPEraturE sErIEs tHE stEPs For sElECtINg a tYPE oF candidates to a few battery types. From those candidates, on the referenced charge control values. The charge methods rECoMMENdEd CHargE For baCk-uP battErY For usE as tHE PoWEr suPPlY select the one battery that most closely satisfies the ideal described previously can be applied also when Ni-MH batteries PoWEr aPPlICatIoNs oF a dEvICE arE sHoWN bEloW: conditions required. In actual practice, the selection of a are employed in a product, but Panasonic should be consulted battery is rarely completed as easily as this. In most cases it for the control figures and other details. The optimal charge system for the Ni-MH ’’H’’ Series for study of the proposed required specifications is necessary to consider eliminating or relaxing some of the back-up power applications is an intermittent timer charge. Verify the battery specifications required for the power supply proposed specifications, and then select the most suitable recommended Ni-MH battery charge system*1 An intermittent timer charge improves charge efficiency, of the device and use those conditions as the standards for battery from among those currently available to meet the 1. Rapid charge current Max. 1CmA to 0.5CmA extends battery life (-vs- trickle charge) and reduces electri- battery selection. For reference, the technological factors adjusted conditions. This process makes it possible to select 2. Rapid charge transition voltage 0.2 to 0.3CmA restoration current city consumption up to 30% compared to trickle charge*2. concerning battery selection are shown below. more economical batteries. If you have any doubts at this 3. Rapid charge start voltage Approx. 0.8V/cell stage, consult closely with a battery engineer. In some cases, 4. Charge terminating voltage 1.8V/cell Intermittent timer charge: (See diagram) At the beginning of battery selection newly improved or newly developed batteries that are not yet 5. ∆V value 5 to 10mV/cell the charge, an IC timer is started and charging is activated at Using the catalogs and data sheets for the batteries currently listed in the catalog may be available. Normally the required 6. Battery temperature rising rate 1 to 2°C/min a current of 0.1lt until the timer stops and the charge is termi- produced and marketed, narrow down the number of specifications are also finalized at this stage. dT/dt value nated. When the batteries self discharge down to a set point 7. Maximum battery temperature TCO 60°C (for L-A, L-fatA and SC size) 55°C (for A, AA and D size) (1.3V), the timer charge is re-activated. 50°C (for QA, AAA and prismatic size) tECHNologICal FaCtors CoNCErNINg battErY sElECtIoN 8. Initial -∆V detection disabling timer 5 to 10 min Example of intermittent timer charger system: 9. Trickle current (after rapid charge) 0.033 to 0.05CmA Average charge current: 0.1ltA Electrical characteristics Charge conditions temperature and humidity conditions size, weight and terminal type 10. Rapid charge transfer timer 60 min Re-charge time: 16 hours Voltage range ➜ Rapid charge Temperature and humidity during use Diameter (mm)_______max. 11. Rapid charge timer 90 min (at 1CmA charge) Pulse charging can be used _____V max. _____V min. ➜ Trickle float charge _____°C max._____°C min. Height (mm)_______max. 12. Total timer 10 to 20 hours _____% max. _____% min. Length (mm)_______max. ➜ Charge time 13. Rapid charge temperature range 0° to 40°C Load pattern Width (mm)_______max. Intermittent charge Continuous load ➜ Charge temperature and atmosphere Temperature and humidity during Mass (g)__________av. Example of a rapid charge system ___________mA (max.) storage Terminal type ___________ ___________mA (av.) _____°C max._____°C min. 4 (Ambient Temp 20°C) ___________mA (min.) _____% max. _____% min. CVoTuelrtrmaegnpet. 1230 813 Ba1tteBrayCt tVheoarlyrtga Tege emCuprerera7nttur6e T5ime 9 Capacity Current Voltage (mAh) (mA) (V) 0.I1nlitt*ia1l6 hcharge ( S Delifs dcihsachrgaer7g ed ) a y s 0 C.1hlta*r4ghe ( S eDlfi sdcishcahragr7ge e d ) a y s 0 C . 1 h l ta * r 4 g he ( S eDlfi sdcishcahragrege) I___IO_nn____ptt____eee____rrrmma____t____iii____ntttt____gee____ nnt____ittm ____ltommmiema AAA de / (((pc mam o uv ain.ln)sxd.e.)i)t liooands bO_S___tpao__tert__raea__grt__yei__n lp__gife__ elr__ifi__eo__d__________________ oAMS__attemh_fcee_ohtr_ysas_pn_hic_ea_rl_i cc_ op_nr_ed_si_tsi_ou_nr_es___ 11 Interchangeability 12 Marketability Fig 1 Stopped time Price ___________ basic pack configuration circuit + Thermal Protector - Thermistor T selection of the battery Fig 2 *1 Matching test is required because these values vary depending on rapid charge current, number of cells, configuration of battery pack, etc. 1188 *2 Trickle charge is not recommended in general for Ni-MH batteries. Please consult Panasonic on any Ni-MH applications requiring trickle charge. 1199

6 sPECIFICatIoN tablE IINNddIIvvIIdduuaall ddaattaa ssHHEEEEttss 7 CYlINdrICal HHr-70aaa/Ft CYlINdrICal aaa sIzE (Hr11/45) 2.0 Nominal discharge capacity*1 (mah) dimensions with tube (mm) approx. 1.9 CChhaarrggee:: 770000mmAA((11 lltt)) xx 11..22hhrrss.. Model diameter size IEC Page 12..80 voltage (v) average*2 rated/min. diameter Height weight (g) 11..79 CChhaarrggee:: 770000mmAA((11 lltt)) xx 11..22hhrrss.. dIMENsIoNs (MM) tYPICal CHargE CHaraCtErIstICs HHR-70AAA/FT AAA AAA 1.2 730 700 10.5 +0/-0.7 44.5 +0/-1.0 12 HR11/45 21 V) 11..68 e ( 11..57 HHHHRR--8705AAAAAA//HHTT**33 AAAAAA AAAAAA 11..22 773800 770500 1100..55 ++00//--00..77 4444..55 ++00//--11..00 1123 HHRR1111//4455 2223 ØØ1100.. 55 -- 0000..77 Voltagge (V) 111121......436509 CChhaarrggee:: 770000mmAA((11 lltt)) xx 11..22hhrrss.. HHR-35AA/FT AA 2/3AA 1.2 390 350 14.5 +0/-0.7 28.5 +0/-1.0 10.5 - 24 Volta 111111......214387 00°°CC HHHHRR--7102A0AAA/F/FTT AAAA A4/A5AA 11..22 17,28200 17,10500 1144..55 ++00//--00..77 4483..80 ++00//--11..50 2213 HHRR1155//4493 2265 age (V) 100111111.........098210654 24224200000000°°°°°°°°CCCCCCCC HHR-70AA/HT*4 AA AA 1.2 780 700 14.5 +0/-0.7 50.5 +0/-1.5 21 HR15/49 27 Volt 01..930 10 20 30 40 50 60 70 80 944000°° CC 100 01..82 Charge time (minutes) HHR-110AA/FT AA AA 1.2 1,180 1,100 14.5 +0/-0.7 50.0 +0/-1.0 24 HR15/51 28 0 10 20 30 40 50 60 70 80 90 100 1.1 00°°CC HHR-150AA/FT AA AA 1.2 1,580 1,500 14.5 +0/-0.7 50.0 +0/-1.0 26 HR15/51 29 1.0 Charge time (minutes) 2200°°CC 0.9 4400°°CC HHR-210AA/HT*4 AA AA 1.2 2,080 2,000 14.5 +0/-0.7 50.5 +0/-1.0 29 HR15/51 30 0.8 HHR-200A/FT A 4/5A 1.2 2,040 2,000 17.0 +0/-0.7 43.0 +0/-1.5 32 HR17/43 31 0 10 20 30 40 50 60 70 80 90 100 Charge time (minutes) HHR-210A/FT A A 1.2 2,200 2,100 17.0 +0/-0.7 50.0 +0/-1.5 38 HR17/50 32 HHR-380A/FT A L-A 1.2 3,800 3,700 17.0 +0/-0.7 67.0 +0/-1.5 53 HR17/67 33 0 HHR-450A/FT A LFat/A 1.2 4,500 4,200 18.2 +0/-0.7 67.0 +0/-1.5 60 - 34 01. - tYPICal dIsCHargE CHaraCtErIstICs HHR-200SCP/FT*5 SC 4/5SC 1.2 2,100 1,900 23.0 +0/-1.0 34.0 +0/-1.5 43 - 35 4.5 1.8 CChhaarrggee:: 770000mmAA((11 lltt)) xx 11..22hhrrss.. 2200°°CC HHR-260SCP/FT*5 SC SC 1.2 2,600 2,450 23.0 +0/-1.0 43.0 +0/-1.5 55 HR23/43 36 4 11..78 DDiisscchhaarrggee tteemmppeerraattuurree:: 2200°°CC 1.6 HHR-300SCP/FT*5 SC SC 1.2 3,050 2,800 23.0 +0/-1.0 43.0 +0/-1.5 57 HR23/43 37 1.7 CChhaarrggee:: 770000mmAA((11 lltt)) xx 11..22hhrrss.. 2200°°CC 1.5 DDiisscchhaarrggee tteemmppeerraattuurree:: 2200°°CC 1.6 V) 1.4 CYlINdrICal For baCk-uP usE (HIgH tEMPEraturE tYPE) ge ( 111...358 Model diameter size vNolotamgien a(vl ) daivsecrhaagreg*e2 capacritayt*e1 d(m/maihn). ddimiaemnestieorns with tuHbeei g(mhtm) waepigphrot x(g.) IEC Page sPECIFICatIoNs VoltaVoltage (V) 1111111111..........2104321765 DCDChihissaaccrrhhggaaeerr::g g 7e7e0 0 t0t0eemmmmAApp((e1e1r r alaltttt)u)u xxrre e 11:: . .22220h0h°r°rCsCs.. 2200°°CC HHHHRR--7600AAAAHAH/F/TF T AAAAA AAAAA 11..22 755500 750000 1140..55 ++00//--00..77 4484..35 ++00//--11..00 1183 HHRR1151//4495 3398 Ndiaammeeter (mm) H10H.5R -+700 /A -A0A.7/FT Voltage (V) 00100111........98098432 0 1 D 2i s c h a r g e t3i m e ( h o u r s4) 1111 44 44 0000 5mmmm AA AA (( ((00 00 .... 2222 llll tttt)) )) 6 HHR-210AH/FT A A 1.2 2,050 1,900 17.0 +0/-0.7 50.0 +0/-1.5 36 HR17/50 40 1.1 0 1 2 3 4 5 6 Height (mm) 44.5 +0 / -1.0 HHR-330APH/FT*5 A LFat/A 1.2 3,300 3,200 18.2 +0/-0.7 67.0 +0/-1.5 60 - 41 1.0 Discharge time (hours) approximate weight (g) 12 0.9 HHR-370AH/FT A LFat/A 1.2 3,700 3,500 18.2 +0/-0.7 67.0 +0/-1.5 60 - 42 114400mmAA((00..22 lltt)) Nominal voltage (v) 1.2 0.8 HHR-250SCH/FT*5 SC SC 1.2 2,650 2,500 23.0 +0/-1.0 43.0 +0/-1.5 55 HR23/43 43 0 1 2 3 4 5 6 average*2 (mah) 730 HHR-300CH/FT*5 C C 1.2 3,300 3,100 26.0 +0/-1.0 50.0 +0/-2.0 80 HR26/50 44 discharge capacity*1 1.8 Discharge time (hours) rated (min) (mah) 700 CChhaarrggee:: 770000mmAA((11 lltt)) x x 11..22hhrrss.. 2200°°CC 1.7 1.8 DDiisscchhaarrggee tteemmppeerraattuurree:: 2200°°CC E-bloCk astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 30 111...657 CDCDhihissaaccrhrghgaeaer:rg: g 7e7e0 0 t0t0eemmmmAApp(e(1e1r r alalttt)tu) ux rxre e 1:1: . .22220h0h°r°rCsCs.. 2200°°CC 1.6 Model diameter vNolotamgien a(vl ) daivsecrhaagreg*e2 capacritayt*e1 d(m/maihn). diametderimensionHs ewigithht tube (mmth)ickness waepigphrot x(g.) IEC Charge srsttaaapnniddd*aa3rr dd(m ((m°aC ax) xh rhsr.s).) 77000 t 0ox x+1 4615.2 Voltage (V)e (V) 11111111........43254387 CDCDhihissaaccrhrghgaeaer:rg: g 7e7e0 0 t0t0eemmmmAApp(e(1e1r r alalttt)tu) ux rxre e 1:1: . .22220h0h°r°rCsCs.. 2200°°CC MHHoHH drRe-l 9-nSu6RmE0 /bBaeAr1a ( eaxaHm /Ep-FBlelto)Ccakp shape: Thi8s. 4appendix is use1d7 5when there 170 26.0 48.5 16.3 42 - mbient temperature Cdsthisoacrrhaggaeerg e (°C) r<<16a pymiedoa n(r°tCh)s 0---122 t000o ttt+ooo4 +++0634555 VoltagVoltage (V) 110011100111111...............10982109865432100 1100 2200 D i s c h33a00r g e t i44m1100114477e 44 007700 (00000000 m 00mm00mm mmmm i AAAAnAAAA((((55u2211((((0022 11 tlllle tttt llll))))s tttt ))))) 6600 7700 8800 is a flat top (HT stands for high top battery). a <1 month -20 to +55 1.0 Discharge time (minutes) Designed for high ambient temperature 0.9 770000mmAA(1(1 l tl)t) 11440000mmAA(2(2 l tl)t) Diameter: AAA, AA, A *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 Multiply this by 10 to obtain the rated capacity (some exceptions) *2 For reference only. 0 10 20 30 40 50 60 70 80 Round *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) Panasonic Nickel-Metal-Hydride battery *1 After charging at 0.1 CmA for 16 hours, discharging at 0.2 CmA. *2 For reference only. *3 Compatible with consumer AAA size. Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining *4 Compatible with consumer AA size. charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 2200 *5 For high power use applications such as Powertools. guarantee or warranty. 2211

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-75aaa/Ht HHr-80aaa/Ht CYlINdrICal aaa sIzE (Hr11/45) CYlINdrICal aaa sIzE (Hr11/45) 2.0 2.0 1.9 Charge: 450mA(0.64 lt) 1.7hrs. 1.9 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaa11ll..79 CCHHaarrggEE CCHHaarraaCCttEErrIIssttCIIhCCassrge: 450mA(0.64 lt) 1.7hrs. dIMENsIoNs (MM) tYPICal11.. 79CHargE CHaraCtErIstICs ØØØ11300.7.. 555 --- 000000...777 Voltage (V)Voltage (V)Voltage (V) 1111111001111111110021111111............................65432109887654321098098765430 10 20 30 40 50 C6h0a rg7e0: 4508m0 A(09.06 4 lt1)0 0 1 24 24 .00000071°°°°°°h1CCCCCCr0s. 120 ØØØ11300.6.. 55 --- 000000...775 Voltage (V)Voltage (V)oltage (V) 001111111011111111111111112...........................8901234569012345678345678900 TCTCDD eehhii ssxxaacctt1rr hh0ggccaaoo eerrnn::gg dd11ee2ii.. tt000ttiiooee llnnmmtt -- pp55(( 11eemm3..rr000VVaa Cttllttuu== hrree77a ::55r 40000g0mm,,e 22 AAt00 i)),,m5 440e55 °°( CCm i6n0u te s7)0 80 24 24 050500°°°°°°9CCCCCC0 100 1.20 10 20 30 4C0h ar5g0e tim60e (m7i0n ut8e0s) 90 100 110 120 V 01..82 110...109 Charge time (minutes) 24 000°°°CCC 011...9010 TCD ehi sxact1r h0gcao ern:g d1e2i. t00tioe lnmt - p5( 1em3.r00Va Ctltu= hre7a :5r 400g0m,e 2 At 0i),m5 40e5 °( Cm i6n0u te s7)0 80 24 050°°°9CCC0 100 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 110 120 0 10 20 30 40 50 60 70 80 90 100 3 Charge time (minutes) 8 Charge time (minutes) 1. 0. n 0 mi 0 01. 01. - ttYYPPIICCaall ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss - tYPICal dIsCHargE CHaraCtErIstICs 44.5 111...878 DChisacrhgaer:g 4e5 t0emmAp(e0r.6a4tu lrte) : 2 10.°7Chrs. 20°C 44.5 11..78 CTehsatr gcoen: d0i.t1ioltn A: (x1 .106 lht A=750mA) 1111....6576 CDhisacrhgaer:g 4e5 t0emmAp(e0r.6a4tu lrte) : 2 10.°7Chrs. 20°C 1.50 1111....5678 RDDCTeheiissssaccttr hh:gc aao5errnh:gg d0eei. :t1 ti0oelt.nm 2A:l p t( xe1A r.1 0at6 toluh tr1 Ae.:0= V72500°CmA) Voltage (V)Voltage (V) 1111111111111.............4321054328765 DChisacrhgaer:g 4e5 t0emmAp(e0r.6a4tu lrte) : 2 10.°7Chrs. 20°C +0 Voltage (V)Voltage (V) 11111111111111..............01234234565678 RDDCTRDeheeiiissssssaccctttr hhh::gc aaao55errrnhh:ggg d0eeei. ::t1 ti00oelt..nm 22A:ll p tt( xe1AA r.1 0att6 tooluh tr11 Ae..:00= VV2705°0CmA) sPECIFICatIoNs 1.1 sPECIFICatIoNs Discharge temperature: 20°C NdHieaaimmgheett (emr m(m)m) H1404H..55R -++7005//--A01A..70A/HT Voltage (V) 001001111.........98098432100 11 D 22i s c h a r g e t33i m e ( h o u r s44) 11 44 0 0 m m 55AA ( ( 0 0 . . 2 2 ll tt )) 66 NdHieaaimmgheett (emr m(m)m) H1404H..55R -++8000//--A01A..70A/HT Voltage (V) 0000111111..........898901123400 11 D 22i s c h a r g e 33ti m e ( h o u r 44s ) 11 55 00 mm AA ((5500 .. 22 II tt )) 66 1.0 Discharge time (hours) 1.0 Discharge time (hours) approximate weight (g) 12 approximate weight (g) 13 0.9 140mA(0.2 lt) 0.9 150mA(0.2 It) Nominal voltage (v) 1.2 Nominal voltage (v) 1.2 0.8 0.8 average*2 (mah) 730 0 1 2 3 4 5 6 average*2 (mah) 780 0 1 2 3 4 5 6 discharge capacity*1 1.8 Discharge time (hours) discharge capacity*1 1.8 Discharge time (hours) rated/min. (mah) 700 11..78 CDhisacrhgaer:g 4e5 t0emmAp(e0r.a6t4u lrte) : 2 01°.7Chrs. 20°C rated/min. (mah) 750 1.7 TCehsatr gcoen: d0i.t1ioltnA: x(1 1.06 hltA=750mA) astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 35 1111....6576 CDhisacrhgaer:g 4e5 t0emmAp(e0r.a6t4u lrte) : 2 01°.7Chrs. 20°C astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 45 1111....5678 RDDTCeheiissssaccttr hh:gc aao5errnh:gg d0eei. :t1 ti0oelt.nmA2: l ptx(Ae1 1r .t0a6o th lut1rA.e0=:V 72500°mCA) mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt16aaaa ppymnniieddddoa*aanr3rrt dd(hm s(ma ax xh rhsr.s).) 7400---12205 tt000 0oox ttt x++1ooo 4461 +++50.7634555 Voltage (V)Voltage (V)Voltage (V) 11111001111110011111111.......................4321098543210988765432100 1100 2200 Disc33hCD00ahi sragcrehg aetri:44gm 400ee5 t0 e(mmmAipn(55e0u00r.ta6 et4su )lrte) :6 620 001 °. 1 17C 7474h0000r0s000.7mm7mm 200AAAA0 (((°(1212C IIIItttt))))8800 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt16aaaa ppymnniieddddoa*aanr3rrt dd(hm s(ma ax xh rhsr.s).) 7700---12255 tt000 0oox ttt x++1ooo 4461 +++50.2634555 Voltage (V)Voltage (V)Voltage (V) 001111100111111111111111........................8901234890123456123456780 10 20 D i s c 3h0a r RDDTCRDD g eheeiiii essss sssa cccct ttr t hhhh:: gci4 maaaao55e0rrrrnhh:gggg e d0eeee i(. : : t1m tti 00oeel t ..nimmA522n:0l l pputtx( AAee 1t 1err .t t0aa6s oo tth) luu t11 rrA6..ee00=0::VV 7 22 1 15 00 77550 °° 5500m CC 0000 Ammmm7)0AAAA (((( 1122 IIII tttt ))))80 a <1 month -20 to +55 1.0 a <1 month -20 to +55 0 10 20 30 40 50 60 70 80 Discharge time (minutes) 1.0 Discharge time (minutes) 0.9 700mA(1 It) 0.9 750mA(1 It) 1400mA(2 It) 0.8 1500mA(2 It) *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 *2 For reference only. 0 10 20 30 40 50 60 70 80 *2 For reference only. 0 10 20 30 40 50 60 70 80 *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 2222 guarantee or warranty. guarantee or warranty. 2233

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-35aa/Ft HHr-120aa/Ft CYlINdrICal 2/3aa sIzE CYlINdrICal 4/5aa sIzE (Hr15/43) 2.0 2.0 1.9 Charge: 1200mA(1 lt) x 1.2hrs. Charge: 350mA(1.0 lt) x 1.2hrs. 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaall CCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCssCharge: 350mA(1.0 lt) x 1.2hrs. dIMENsIoNs (MM) tYPICal11.. 97CHargE CHaraCtErIstICChsarge: 1200mA(1 lt) x 1.2hrs. 11..68 11..86 Ø14. 5 - 00.7 Voltage(V)Voltage(V)Voltage(V) 21111111011110..............086424208642080 10 20 30 C h a4r0g e t i m50eC (h m a ri6gn0eu : t 3e 5 s 0)7m0A ( 1 . 08 0lt ) x 1 24249.00000020°°°°°°hCCCCCC r s . 100 Ø14. 5 - 00.7 Voltage (V)Voltage (V)Voltage (V) 111111110011111100111111112...........................7654321098543210988976543200 10 20 30Char4g0e tim5Ce0 h(amrgine6u:0 t1e2s0)07m0A(1 l8t)0 x 24241 000000.2°°°°°°9hCCCCCC0rs. 100 0 10 20 30 40 50 60 70 80 900°C 100 1.10 10 20 30 40 50 60 70 80 90 100 0°C 1.0 Charge time (minutes) 20°C 1.0 Charge time (minutes) 20°C 40°C 0.9 40°C 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Charge time (minutes) Charge time (minutes) 0 ttYYPPIICCaall ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 01. tYPICal dIsCHargE CHaraCtErIstICs 08.5 - 1.0 11111.....87687 CCDhhisaacrrhggaeer::g 33e55 t00emmmAAp((e11r..00a tullttr))e xx: 2110..22°hhCrrss.. 2200°°CC 43.0 - 11111.....78786 CCDhhisaacrrhggaeer::g 11e22 t00e00mmmpAAe((r11a lltttu))r xxe 11: ..2220hh°rrCss.. 2200°°CC 2 1.5 Discharge temperature: 20°C 1.5 Discharge temperature : 20°C 1.6 1.6 sPECIFICatIoNs Voltage(V)Voltage(V) 111111111111111...............876544321054321 CDhisacrhgaer:g 3e5 t0emmAp(e1r.0a tult7r)e0 x:m 21A0.2°(0hC.r2s .l t2)0°C sPECIFICatIoNs Voltage (V)Voltage (V) 11111111111111..............34503457812126 CDhisacrhgaer:g 1e2 t0e0mmpAe(r1a lttu)r xe 1: .220h°rCs. 20°C NdHieaaimmgheett (emr m(m)m) H1248H..55R -++3005//--A01A..70/FT Voltage(V) 11100100........3219809800 11 22D i s c h a r g e 33t i m e ( h o ur44s ) 7 0 m A (0.552 l t) 66 NdHieaaimmgheett (emr m(m)m) H1443H..50R -++1002//--001A..A70/FT Voltage (V) 001001111.........89089341200 11 D22ischarge ti33me (hours44) 22440055mmAA((00..22 lltt))66 1.0 approximate weight (g) 10,5 0.9 Discharge time (hours) 70mA(0.2 lt) approximate weight (g) 23 1.0 Discharge time (hours) 0.9 240mA(0.2 lt) Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0 1 2 3 4 5 6 0.8 0 1 2 3 4 5 6 average*2 (mah) 390 Discharge time (hours) average*2 (mah) 1,220 discharge capacity*1 rated/min. (mah) 350 1.8 discharge capacity*1 rated/min. (mah) 1,150 1.8 Discharge time (hours) Charge: 1200mA(1 lt) x 1.2hrs. 20°C astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 30 11111.....76587 CCDDhhiissaaccrrhhggaaeerr::gg 33ee55 tt00eemmmmAApp((ee11rr..00aa ttuullttrr))ee xx:: 221100..22°°hhCCrrss.. 2200°°CC astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 19 11111.....78567 CDDhiissaccrhhgaaerr:gg 1ee2 tt0ee0mmmppAee(rr1aa ltttuu)rr xee ::1 22.200h°°rCCs. 20°C 1.6 1.6 standard (ma x hrs.) 35 x 16 V) 1.4 standard (ma x hrs.) 120 x 16 V) 1.4 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) rsr<<t16aaa ppymniiedddoa* anr3rt d(hmsa x hrs.) 300---1225 tt0000oo tttx++ooo 441 +++50.2634555 Voltage(V)Voltage(Voltage(V) 1111111111110011111100......................876543203201985432019800 1100 2200 3300D i s c h4400a r g CD e hi s55atci00rhmg ae er: g 3 (e m5 66t0e00imnm uA p t( e1e r.77s0a00) tu lt r) e x: 2 1880.37372°005050hC 0000r mmmm s . AAAA 299((((0121200° llllC tttt )))) 110000 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) rsr<<t16aaa ppymniiedddoa* anr3rt d(hm sa x hrs.) 100---122, tt2000oo0 ttt0++ooo 44 x+++50 1634.5552 Voltage (V)Voltage (Voltage (V) 0011111100111111111111......................89012345890123123456780 10 20 Dis3c0harCDghiseac rt4higm0aer:eg 1 e(2m t0ei05mnm0uptAee(rs1a) lttu6)r 0xe :1 21212.202424h°0000rC00007smmmm0. 2AAAA0((((°1212C lllltttt))))80 0 10 20 30 40 50 60 70 80 a <1 month -20 to +55 10..19 Discharge time (minutes) 375000mmAA((12 lltt)) a <1 month -20 to +55 1.0 Discharge time (minutes) 0.9 1200mA(1 lt) 0.8 2400mA(2 lt) *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0 10 20 30 40 50 60 70 80 90 100 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 *2 For reference only. Discharge time (minutes) *2 For reference only. 0 10 20 30 40 50 60 70 80 *3 Need specially designed control system. Please contact Panasonic for details. *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 2244 guarantee or warranty. guarantee or warranty. 2255

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-70aa/Ft HHr-70aa/Ht CYlINdrICal aa sIzE (Hr15/49) CYlINdrICal aa sIzE (Hr15/49) 2.0 2.0 1.9 Charge:700mA(1 lt) x 1.2hrs. 1.9 Charge:700mA(1 lt) x 1.2hrs. 2.0 dIMENsIoNs (MM) ttYYPPIICCaall111... 879CCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCCssharge:700mA(1 lt) x 1.2hrs. dIMENsIoNs (MM) tYPICal1112.... 8790CHargE CHaraCtErIstICCsharge:700mA(1 lt) x 1.2hrs. 1.8 1.6 11..68 1.7 0 Ø14. 5 - 00.7 Voltage (V)Voltage (V) 1111211111111111................8976054310654322 Charge:700mA(1 lt) x 1 .02°hCrs. ØØ154. 5 - 0.7 Voltage (V)Voltage (V) 11111111111111112.................54310765438976220 Charge:700mA(1 lt) x 1 0.2°hCrs. Voltage (V) 1111001100..........54329810980 10 20 30Char4g0e tim5e0 (min6u0tes)70 80 2424 000009°°°°°0CCCCC 100 Voltage (V) 0011001111..........98109854320 10 20 30Char4g0e tim5e0 (min6u0tes)70 80 2424 000009°°°°°0CCCCC 100 1.10 10 20 30 40 50 60 70 80 90 100 1.10 10 20 30 40 50 60 70 80 90 100 1.0 Charge time (minutes) 0°C 1.0 Charge time (minutes) 0°C 20°C 20°C 0.9 40°C 0.9 40°C 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 5 0 10 20 30 40 50 60 70 80 90 100 1. Charge time (minutes) Charge time (minutes) 08.8 - 1.5 ttYYPPIICCaall1. 8ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 00.5 - 1.5 tYPICal1. 8dIsCHargE CHaraCtErIstICs 4 1.7 Charge: 700mA(1 lt) x 1.2hrs. 20°C 5 1.7 Charge: 700mA(1 lt) x 1.2hrs. 20°C 1.8 Discharge temperature: 20°C 1.8 Discharge temperature: 20°C 11..76 Charge: 700mA(1 lt) x 1.2hrs. 20°C 11..76 Charge: 700mA(1 lt) x 1.2hrs. 20°C 1.5 Discharge temperature: 20°C 1.5 Discharge temperature: 20°C 1.6 1.6 sNdiPaamEmeCeIteFrI C(mamtI)oNs H14H.5R -+700/-A0A.7/FT Voltage (V)Voltage (V)Voltage (V) 11111111111100111001111.......................345786128903489034512120 1 D2ischaCDrghiseac rthgi3maer:eg 7 e(0h t0eommurAps(4e)1r altt)u xr11 e144:. 0022mmh05r°AAsC((.00 2.. 220 °llCtt)) 6 sNdiPaamEmeCeIteFrI C(mamtI)oNs H14H.5R -+700/-A0A.7/HT Voltage (V)Voltage (V)Voltage (V) 00111110011111111111111.......................89034890345345781212126 0 1 D2ischaCDrghiseac rthgi3maer:eg 7 e(0 ht0eommurAps(4e1)r latt)u xr11 e144:.00 22mmh05r°AAsC((.00 2..220 °llCtt )) 6 Height (mm) 48.8 +0/-1.5 0 1 2 3 4 5 6 Height (mm) 50.5 +0/-1.5 0 1 2 3 4 5 6 approximate weight (g) 21 1.0 Discharge time (hours) approximate weight (g) 21 1.0 Discharge time (hours) 0.9 140mA(0.2 lt) 0.9 140mA(0.2 lt) Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0.8 0 1 2 3 4 5 6 0 1 2 3 4 5 6 average*2 (mah) 780 average*2 (mah) 780 discharge capacity*1 rated/min. (mah) 700 1.8 Discharge time (hours) discharge capacity*1 rated/min. (mah) 700 1.8 Discharge time (hours) Charge: 700mA(1 lt) x 1.2hrs. 20°C Charge: 700mA(1 lt) x 1.2hrs. 20°C approx. internal impedanceat 1,000Hz at charged 11..78 Discharge: 20°C approx. internal impedanceat 1,000Hz at charged 11..78 Dischargetemperature: 20°C state (mΩ) 25 111...567 CDhisacrhgaer:g 7e0: 02m0°AC(1 lt) x 1.2hrs. 20°C state (mΩ) 25 111...567 CDhisacrhgaer:g 7e0t0emmAp(e1r latt)u xr e1:.2 2h0r°sC. 20°C 1.6 1.6 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt16aaaa ppymnniieddddoa*aanr3rrt dd(hm s(ma ax xh rhsr.s).) 7700---12200 tt000 0oox ttt x++1ooo 4461 +++50.2634555 Voltage (V)Voltage (V)Voltage (V) 11111111001111100111111.......................1234567889012348901234500 1100 2200 Dis33c00hargCDehis atc44irhm00gaeer:g (7em0: 0i255nm000u°AtCe(1s )lt)66 x00 111.774420000h0000rmmmms77.00 AAAA2 0((((1122° Clllltttt))))8800 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt16aaaa ppymnniieddddoa*aanr3rrt dd(hm s(ma ax xh rhsr.s).) 7700---12200 tt000 0oox ttt x++1ooo 4461 +++50.2634555 Voltage (V)Voltage (V)Voltage (V)00111110011111111111111.......................89012348901234512345678 00 1100 2200 Dis33c00hargCDehis at44cirm00hgaeer: g (7me0ti055nem00mutApe(es1r) lat66t)u 00xr e111:.77442 20000h00000r°mmmm77sC00. AAAA2 ((0((1122° Clllltttt))))8800 a <1 month -20 to +55 1.0 Discharge time (minutes) a <1 month -20 to +55 1.0 Discharge time (minutes) 0.9 700mA (1 lt) 0.9 700mA (1 lt) 1400mA (2 lt) 1400mA (2 lt) 0.8 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0 10 20 30 40 50 60 70 80 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0 10 20 30 40 50 60 70 80 *2 For reference only. *2 For reference only. Discharge time (minutes) Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. *3 Need specially designed control system. Please contact Panasonic for details. Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 2266 guarantee or warranty. guarantee or warranty. 2277

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-110aa/Ft HHr-150aa/Ft CYlINdrICal aa sIzE (Hr15/51) CYlINdrICal aa sIzE (Hr15/51) 2.0 2.0 1.9 Charge:1100mA (1 lt) x 1.2hrs. 1.9 Charge: 1500mA(1 lt) x 1.2hrs. 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaall11.. 79CCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCChssarge:1100mA (1 lt) x 1.2hrs. dIMENsIoNs (MM) tYPICal11.. 79CHargE CHaraCtErIstICCsharge: 1500mA(1 lt) x 1.2hrs. 11..68 11..68 Ø14. 5 - 00.7 Voltage (V)Voltage (V)Voltage (V) 111110011111110011111111112...........................5431098765431098897654322200 10 20 30Char4g0e timC5e0h (marigne6u0:te1s1)007m0A (18 l0t) x 24241 000000.92°°°°°°0CCCCCChrs.100 Ø14. 5 - 00.7 Voltage (V)Voltage (V)Voltage (V) 111110011111110011111111112...........................54310987654310988976543222000 1100 2200 3300Char44g00e tim55eC00 (hmaring66ue00t:e 1s5)077000mA(188 l00t) x 22441000000.992°°°°°°00hCCCCCCrs.110000 11..100 10 20 30Char4g0e tim5e0 (min6u0tes)70 80 2 009°°0CC 100 11..10 Charge time (minutes) 200°°CC 0.9 40°C 0.9 40°C 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Charge time (minutes) Charge time (minutes) 00.0 - 1.0 ttYYPPIICCaall1. 8ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 00.0 - 1.0 tYPICal1. 8dIsCHargE CHaraCtErIstICs 5 5 1.7 Charge: 1100mA(1 lt) x 1.2hrs. 20°C 1.7 Charge: 1500mA(1 lt) x 1.2hrs. 20°C 1.8 Discharge temperature: 20°C 1.8 Discharge temperature: 20°C 11..76 Charge: 1100mA(1 lt) x 1.2hrs. 20°C 11..76 Charge: 1500mA(1 lt) x 1.2hrs. 20°C 1.5 Discharge temperature: 20°C 1.5 Discharge temperature: 20°C 1.6 1.6 e (V) 1111....3458 e (V) 1111....3458 sNdHiePaaimEmgheCetIt (eFmrI Cm(ma)mtI)oNs H1540H..50R -++1001//--001A..A70/FT VoltagVoltage (V)Voltage (V) 0011100111111111111...................8908903434571212126 00 11 D22ischCDarhisgacerhg taei33rm:g 1ee1 t(0eh0momupAres(44r1)a lttu)r xe :1 222.222000h°mm55rCsAA. ((2000..22°C IItt)) 66 sNdHiePaaimEmgheCetIt (eFmrI Cm(ma)mtI)oNs H1540H..55R -++1005//--001A..A70/FT VoltagVoltage (V)Voltage (V) 0011100111111111111...................8908903434571212126 00 11 D22ischaCDrhisgacerh gtaei33mr:g 1ee5 (t0he0momuprAes(44r1)a lttu)r xe :331 200.2000h°mm55rCsAA.(( 2000..22° Clltt)) 66 1.0 Discharge time (hours) 1.0 Discharge time (hours) approximate weight (g) 24 approximate weight (g) 26 0.9 220mA(0.2 It) 0.9 300mA(0.2 lt) Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0.8 average*2 (mah) 1,180 0 1 2 3 4 5 6 average*2 (mah) 1,580 0 1 2 3 4 5 6 discharge capacity*1 Discharge time (hours) discharge capacity*1 Discharge time (hours) 1.8 1.8 rated/min. (mah) 1,100 rated/min. (mah) 1,500 1.7 Charge: 1100mA(1 It) x 1.2hrs. 20°C 1.7 Charge: 1500mA(1 lt) x 1.2hrs. 20°C approx. internal impedanceat 1,000Hz at charged 1.8 Dischargetemperature: 20°C approx. internal impedanceat 1,000Hz at charged 1.8 Discharge temperature: 20°C state (mΩ) 16 111...567 CDhisacrhgaer:g 1e1t0e0mmpAe(r1a Ittu) rxe 1: .220h°rCs. 20°C state (mΩ) 23 111...567 CDhisacrhgaer:g 1e5 t0e0mmpAe(r1a lttu)r xe :1 2.20h°rCs. 20°C 1.6 1.6 atureCharCghearge (°C) srsrttaaaappnniidddd*aa3rr dd(m (ma ax xh rhsr.s).) 11001, tt10oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V)1111111111111.............0123423455678 CDhisacrhgaer:g 1e1t0e0mmpAe(r1a Ittu) rxe 1: .220h°rCs. 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 11005, tt50oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V)1111111111111.............0123423455678 CDhisacrhgaer:g 1e5 t0e0mmpAe(r1a lttu)r xe :1 2.20h°rCs. 20°C mbient temper dstisocrhagaerg (e° C(°)C) <<13 ymeoanrths ---122000 tttooo +++634555 Voltage (V)0000111111..........8989011234 00 1100 2200 Dis33c00harge t44im00e (mi55n00utes) 6600 112211220000000077mmmm00AAAA((((1122 lllltttt))))8800 mbient temper dstisocrhagaerg (e° C(°)C) <<13 ymeoanrths ---122000 tttooo +++634555 Voltage (V)0000111111..........8989011234 00 1100 2200 Dis33c00harge t44im00e (mi55n00utes) 6600 113355000000000077mmmm00AAAA((((1122 lllltttt))88))00 a <1 month -20 to +55 1.0 Discharge time (minutes) a <1 month -20 to +55 1.0 Discharge time (minutes) 0.9 1100mA(1 lt) 0.9 1500mA(1 lt) 2200mA(2 lt) 3000mA(2 lt) *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 0 10 20 30 40 50 60 70 80 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 0 10 20 30 40 50 60 70 80 *2 For reference only. *2 For reference only. Discharge time (minutes) Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. *3 Need specially designed control system. Please contact Panasonic for details. Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 2288 guarantee or warranty. guarantee or warranty. 2299

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-210aa/Ht HHr-200a/Ft CYlINdrICal aa sIzE (Hr15/51) CYlINdrICal 4/5a sIzE (Hr17/43) 2.0 2.0 1.9 Charge: 1200mA (0.55 It)-dV=10mV 1.9 Charge: 1700mA(0.85 lt) x 1.4hrs. 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaall11.. 79CCHHaarrggEE CCHHaarraaCCttEErrIIssCtthaIICCrgsse: 1200mA (0.55 It)-dV=10mV dIMENsIoNs (MM) tYPICal11.. 79CHargE CHaraCtErIsCthIaCrgse: 1700mA(0.85 lt) x 1.4hrs. 11..68 11..68 ØØ154.5. 5 --- 000000...778 Voltage (V)Voltage (V) 11111111111111112.................54310765438976220 Charge: 1200mA (0.55 It)-dV=21000°°mCCV Ø17. 0 - 00.7 Voltage (V)Voltage (V) 11111111111111112.................54310765438976220 Charge: 1700mA(0.85 lt) x 1.42h00r°°sCC. Voltage (V) 0011001111..........98109854320 10 20 30 4C0harg50e tim60e (m7i0nute8s0) 90 100 244100001°°°°0CCCC 120 Voltage (V) 0011001111..........98109854320 10 20 30Char4g0e tim5e0 (min6u0tes)70 80 442900000°°°°CCCC 100 1.1 0 10 20 30 40 50 60 70 80 90 100 110 120 1.10 10 20 30 40 50 60 70 80 90 100 0°C 0°C 1.0 Charge time (minutes) 20°C 1.0 Charge time (minutes) 20°C 0.9 40°C 0.9 40°C 0 0.8 0.8 1. 0 10 20 30 40 50 60 70 80 90 100 110 120 0 10 20 30 40 50 60 70 80 90 100 n Charge time (minutes) Charge time (minutes) mi 0 01. - 0.5 ttYYPPIICCaall ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 5 tYPICal dIsCHargE CHaraCtErIstICs 5 1.8 01. 1.8 1111....7786 CDChhisaacrrhggaeer::g 11e22 t00e00mmmpAAe rxxa 22tuhhrrress:.. 222000°°°CCC 43.0 - 1111....7786 CCDhhisaacrrhggaeer::g 11e77 t00e00mmmpAAe((r00a..88tu55r llett:)) 2xx0 11°..C44hhrrss.. 2200°°CC 1.5 Discharge temperature: 20°C 1.5 Discharge temperature: 20°C 1.6 1.6 Voltage (V)ge (V) 1111111111..........3434578126 CDhisacrhgaer:g 1e2 t0e0mmpAe rxa 2tuhrres:. 2200°°CC Voltage (V)ge (V) 1111111111..........3434578126 CDhisacrhgaer:g 1e7 t0e0mmpAe(r0a.8tu5r let:) 2x0 1°.C4hrs. 20°C a a sPECIFICatIoNs VoltV) 011111......904512 310mA sPECIFICatIoNs VoltV) 011111......904512 400mA(0.2 lt) Name HHR-210AA/HT ge ( 011...803 Name HHR-200A/FT ge ( 011...803 diameter (mm) 14.5 +0/-0.7 Volta 0011....8912 0 1 D2ischarge ti3me (hours4) 5 310mA 6 diameter (mm) 17.0 +0/-0.7 Volta 0011....8912 0 1 D2ischarge ti3me (hours4) 4005mA(0.2 lt)6 Height (mm) 50.5 +0/-1.0 0 1 2 3 4 5 6 Height (mm) 43.0 +0/-1.5 0 1 2 3 4 5 6 1.0 Discharge time (hours) 1.0 Discharge time (hours) approximate weight (g) 29 approximate weight (g) 32 0.9 310mA 0.9 400mA(0.2 lt) Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0.8 0 1 2 3 4 5 6 0 1 2 3 4 5 6 average*2 (mah) 2,080 average*2 (mah) 2,040 discharge capacity*1 rated/min. (mah) 2,000 1.8 Discharge time (hours) discharge capacity*1 rated/min. (mah) 2,000 1.8 Discharge time (hours) 1.7 CDhisacrhgaer:g 1e2 t0e0mmpAe r(0a.t5u5r eIts):- 2d0V°=C10mV 20°C 1.7 CDhisacrhgaer:g 1e7 t0e0mmpAe(r0a.t8u5r elt:) 2x0 1°.C4hrs. 20°C approx. internal impedanceat 1,000Hz at charged 20 11..68 Charge: 1200mA (0.55 It)-dV=10mV 20°C approx. internal impedanceat 1,000Hz at charged 20 11..68 Charge: 1700mA(0.85 lt) x 1.4hrs. 20°C state (mΩ) 11..57 Discharge temperatures: 20°C state (mΩ) 11..57 Discharge temperature: 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 21000, tt20oo0 x0++ 441x506 2 Voltage (V)Voltage (V)11111111111111..............01234234565678 CDhisacrhgaer:g 1e2 t0e0mmpAe r(0a.t5u5r eIts):- 2d0V°=C10mV 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 21000, tt70oo0 x0++ 441x506 1.4 Voltage (V)Voltage (V)11111111111111..............01234234565678 CDhisacrhgaer:g 1e7 t0e0mmpAe(r0a.t8u5r elt:) 2x0 1°.C4hrs. 20°C per discharge (°C) -10 to +65 V)011...914 2000mA(1lt) per discharge (°C) -10 to +65 V)011...914 2000mA(1 lt) mbient tem storage (°C) <<13 ymeoanrths --2200 ttoo ++3455 Voltage (0001111.......8890123 00 1100 2200 Dis33c00harge t44im00e (mi55n00utes) 6600 42400000000077mmm00AAA(((212lllttt)))8800 mbient tem storage (°C) <<13 ymeoanrths --2200 ttoo ++3455 Voltage (0001111.......8890123 00 1100 2200 Dis33c00harge t44im00e (mi55n00utes) 6600 42400000000077mmm00AAA(((212 lllttt)))8800 a <1 month -20 to +55 a <1 month -20 to +55 1.0 Discharge time (minutes) 1.0 Discharge time (minutes) 0.9 2000mA(1lt) 0.9 2000mA(1 lt) 4000mA(2lt) 4000mA(2 lt) *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 0 10 20 30 40 50 60 70 80 0 10 20 30 40 50 60 70 80 *2 For reference only. *2 For reference only. *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 3300 guarantee or warranty. guarantee or warranty. 3311

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-210a/Ft HHr-380a/Ft CYlINdrICal a sIzE (Hr17/50) CYlINdrICal l-a sIzE (Hr17/67) 0 2.0 Ø17. 0 - 0.7 2.0 1.9 Charge: 2100mA(1 lt) x 1.2hrs. 1.9 Charge: 2000mA dT/dt=1.0°C/min. 20°C 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaall11.. 79CCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCCssharge: 2100mA(1 lt) x 1.2hrs. dIMENsIoNs (MM) tYPICal11.. 79CHargE CHaraCtEChraIrsgte:I 2C0s00mA dT/dt=1.0°C/min. 20°C 0 11..68 11..68 Ø17. 0 - 0.7 Voltage (V)Voltage (V)Voltage (V) 111110011111110011111111112...........................54310987654310988976543222000 1100 2200 3300Char44g00e tim55eC00 (hmaring66ue00t:e 2s1)077000mA(188 l00t) x 42421000000.992°°°°°°00hCCCCCCrs.110000 Voltage (V)Voltage (V)Voltage (V) 111110011111110011111111112...........................5431098765431098897654322200 20 40 C6hC0ahragreg eti8:m 02e00 (0mmi1nA0u 0dteTs/d)t=112.00°C/m4422000000i1n°°°°°°4.CCCCCC 020°C160 1.1 Charge time (minutes) 0°C 1.10 20 40 60 80 100 120 01°4C0 160 1.0 20°C 1.0 Charge time (minutes) 20°C 0.9 40°C 0.9 40°C 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 0 20 40 60 80 100 120 140 160 Charge time (minutes) 5 Charge time (minutes) 01. - 00.0 - 1.5 ttYYPPIICCaall1 .8ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 67.0 tYPICal dIsCHargE CHaraCtErIstICs 5 1.7 Charge: 2100mA(1 lt) x 1.2hrs. 20°C 1.8 Charge: 2000mA dT/dt=1.0°C/min. 20°C 111...786 DChisacrhgaer:g 2e1 t0e0mmpAe(r1a tltu)r xe :1 2.20h°rCs. 20°C 111...786 DChisacrhgaer:g 2e0 t0e0mmpAe rdaTt/udrte=:1 2.00°°CC/min. 20°C Discharge temperature: 20°C 1.7 11..56 1.5 Discharge temperature: 20°C 1.6 Voltage (V)Voltage (V) 1111111111111.............0343455781226 CDhisacrhgaer:g 2e1 t0e0mmpAe(r1a tltu)r xe :1 2.20h°rCs. 20°C Voltage (V)Voltage (V) 1111111111111.............0343455781226 CDhisacrhgaer:g 2e0 t0e0mmpAe rdaTt/udrte=:1 2.00°°CC/min. 20°C sPECIFICatIoNs 1.1 sPECIFICatIoNs 1.1 Ndiaammeeter (mm) H17H.0R -+201/-00A./7FT oltage (V) 0001111.......8990342 0 1 2 3 4 4422005mmAA((00..22 lltt))6 Ndiaammeeter (mm) H17H.0R -+308/-00A./7FT oltage (V) 0001111.......89903420 1 2 3 4 776600mm5AA((00..22lltt)) 6 Height (mm) 50.0 +0/-1.5 V 01..81 0 1 D2ischarge ti3me (hours4) 5 6 Height (mm) 67.0 +0/-1.5 V 01..810 1 D2ischarge ti3me (hours4) 5 6 approximate weight (g) 38 1.0 Discharge time (hours) approximate weight (g) 53 1.0 Discharge time (hours) 0.9 420mA(0.2 lt) 0.9 760mA(0.2lt) Nominal voltage (v) 1.2 Nominal voltage (v) 1.2 0.8 0.8 0 1 2 3 4 5 6 average*2 (mah) 2,200 0 1 2 3 4 5 6 average*2 (mah) 3,800 discharge capacity*1 rated/min. (mah) 2,100 1.8 Discharge time (hours) discharge capacity*1 rated/min. (mah) 3,700 1.8 Discharge time (hours) 11..78 CDhisacrhgaer:g 2e1 t0e0mmpAe(r1a lttu)r xe :1 2.20h°rCs. 2 0°C 11..78 CDhisacrhgaer:g 2e0 0te0mmpAe drTa/tudtr=e1: .200°°CC/min. 20°C astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 20 11..67 CDhisacrhgaer:g 2e1 t0e0mmpAe(r1a lttu)r xe :1 2.20h°rCs. 2 0°C astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 25 11..76 Charge: 2000mA dT/dt=1.0°C/min. 20°C 11..56 11..56 Discharge temperature: 20°C mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt13aaaa ppymnniieddddoa* aanr3rrt dd(hm s(ma ax xh rhsr.s).) 2200---1221, tt10000oo0 tttx0++ooo 441 x+++506 1634.5552 Voltage (V)Voltage (V)Voltage (V)00111110011111111111111.......................89012348901234512345678 00 1100 2200 Dis33c00haCDrghiseacr ht44giam00er:ge 2e 1( mt0e0mi55nm00upAete(r1sa )lttu)66r xe00 :1 22424.201212h°0000rC0000s77mmmm.00 2AAAA 0((((1212°C lllltttt))))8800 mbient temperatureCharCdsgthiesoacrrhaggaeer g( (°e°C C()°)C) srsr<<tt13aaaa ppymnniieddddoa* aanr3rrt dd(hm s(ma ad tx/ hdrt)s.) 3200---1227, tt00000oo0 tttx0++ooo 441 x+++506 1634.5552 Voltage (V)Voltage (V)Voltage (V) 00111110011111111111111.......................8903489034534578121212600 1100 2200 3300 44D00iscCDh55hisa00acrrghgeae66r :tg00 i2me0 0tee077 m(m00mpAien d88ruTa00t/teudstr=)e991:00 .23232007070°0000°C11C0000/00mmmmm00iAAAAn((((.0101 112. . ll55110tt4400°))C lltt))112200 a <1 month -20 to +55 1.0 Discharge time (minutes) a <1 month -20 to +55 1.0 Discharge time (minutes) 0.9 2100mA(1 lt) 0.9 2000mA(0.54 lt) 4200mA(2 lt) 3700mA(1 lt) *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 0 10 20 30 40 50 60 70 80 0 10 20 30 40 50 60 70 80 90 100 110 120 *2 For reference only. *2 For reference only. *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 3322 guarantee or warranty. guarantee or warranty. 3333

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-450a/Ft HHr-200sCP/Ft CYlINdrICal lFat/a sIzE CYlINdrICal 4/5 sC sIzE 0 Ø18. 2 - 0.7 2.0 2.0 1.9 Charge: 2000mA dT/dt=1.0°C/min. 20°C Charge: 2000mA(1 lt) x 1.2hrs. 12..80 12..80 dIMENsIoNs (MM) ttYYPPIICCaall11.. 79CCHHaarrggEE CCHHaarraaCCttEECrrhaIIrssgtte:II 2CC0ss00mA dT/dt=1.0°C/min. 20°C dIMENsIoNs (MM) tYPICal CHargE CHaraCtErIstICCsharge: 2000mA(1 lt) x 1.2hrs. 11..68 11..68 Voltage (V)Voltage (V) 11111111111111112.................54310276543289760 Charge: 2000mA dT/dt=1.0°C/min 2. 002°°0CC°C Ø23. 0 - 01.0 Voltage (V)Voltage (V) 111111112.........406486220 Charge: 2000mA(1 lt) x 1.22h00r°°sCC. Voltage (V) 0011001111..........98109854320 20 40 60 8C0har1g0e0 tim1e2 0(min1u4t0es)160 180 442 200000°°°°0CCCC 220 Voltage (V) 01011.....808420 20 Cha4r0ge time (mi6n0utes) 80 4240000°°°°CCCC100 1.10 20 40 60 80 100 120 140 160 180 2 00°0C 220 0 20 40 60 80 100 1.0 Charge time (minutes) 20°C 1.0 Charge time (minutes) 200°°CC 0.9 40°C 40°C 0.8 0.8 0 20 40 60 80 100 120 140 160 180 200 220 0 20 40 60 80 100 5 Charge time (minutes) Charge time (minutes) 01. - 7.0 6 ttYYPPIICCaall ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss tYPICal dIsCHargE CHaraCtErIstICs 5 1.8 1.8 Charge: 2000mA dT/dt=1.0°C/min. 20°C 0- 1. Charge: 2000mA(1 lt) x 1.2hrs. 20°C 1111....7678 DChisacrhgaer:g 2e0 t0e0mmpAe rdaTt/udrte=:1 2.00°°CC/min. 20°C 34.0 11..86 DChisacrhgaer:g 2e0: 0200m00Am(1A l,t )0 x° C1,. 22h0r°sC. ,2 400°°CC 1.5 Discharge temperature: 20°C Discharge: 2000mA, 0°C, 20°C, 40°C Voltage (V)Voltage (V) 11111111111111..............03412345265786 CDhisacrhgaer:g 2e0 t0e0mmpAe draTt/udrte=:1 2.00°°CC/min. 20°C Voltage (V)Voltage (V) 11111111........04482266 CDhisacrhgaer:g 2e0: 0200m00Am(1A l,t )0 x° C1,. 22h0r°sC. ,2 400°0°C°CC sNdiPaamEmeCeIteFrI C(mamtI)oNs H18H.2R -+405/-00A./7FT Voltage (V)0000111111..........89890134120 1 D2ischarge ti3me (hours4) 5 990000mmAA6 sNdiPaamEmeCeIteFrI C(mamtI)oNs H23H.0R -+200/-01S.C0P/FT Voltage (V) 00111.....880420 10 20 Disc3h0arge ti4m0e (min50utes) 60 70242400000°°°°°CCCCC 80 Height (mm) 67.0 +0/-1.5 0 1 2 3 4 5 6 Height (mm) 34.0 +0/-1.5 0 10 20 30 40 50 60 70 80 1.0 approximate weight (g) 60 0.9 Discharge time (hours) 900mA approximate weight (g) 43 1.0 Discharge time (minutes) 200°°CC 40°C Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0.8 0 1 2 3 4 5 6 0 10 20 30 40 50 60 70 80 average*2 (mah) 4,500 average*2 (mah) 2,100 discharge capacity*1 1.8 Discharge time (hours) discharge capacity*1 1.8 Discharge time (minutes) rated/min. (mah) 4,200 1.7 Charge: 2000mA dT/dt=1.0°C/min. 20°C rated/min. (mah) 1,900 Charge: 2000mA(1 lt) x 1.2hrs. 20°C 1.8 Discharge temperature: 20°C Discharge: 10A, 20A 20°C approx. internal impedanceat 1,000Hz at charged 1.6 approx. internal impedanceat 1,000Hz at charged 11..86 state (mΩ) 25 111...576 CDhisacrhgaer:g 2e0 t0e0mmpAe draTt/udrte=:1 2.00°°CC/min. 20°C state (mΩ) 5 CDhisacrhgaer:g 2e0: 0100mA,A 2(10 Alt ) x2 01°.2Chrs. 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ad tx/ hdrt)s.) 42005, tt00oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V) 1111111111111.............0341234525786 CDhisacrhgaer:g 2e0 t0e0mmpAe draTt/udrte=:1 2.00°°CC/min. 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 22000, tt00oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V) 11111111........04482266 CDhisacrhgaer:g 2e0: 0100mA,A 2(10 Alt ) x2 01°.2Chrs. 20°C bient temper dstisocrhagaerg (e° C(°)C) <<13 ymeoanrths ---122000 tttooo +++634555 Voltage (V)0000111111..........89890134120 20 40Discha6r0ge time8 0(minute1s0)0 1242420505000000000mmmmAAAA140 bient temper dstisocrhagaerg (e° C(°)C) <<13 ymeoanrths ---122000 tttooo +++634555 Voltage (V) 00111.....880420 2 4 6Disc8harge10 time 1(m2inut1e4s) 16 1812120000AAAA20 am <1 month -20 to +55 1.00 20 40 60 80 100 120 140 am <1 month -20 to +55 1.00 2 4 6 8 10 12 14 16 18 20 Discharge time (minutes) Discharge time (minutes) 0.9 2000mA 10A 4500mA 20A 0.8 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *2 For reference only. 0 20 40 60 80 100 120 140 *2 For reference only. 0 2 4 6 8 10 12 14 16 18 20 Discharge time (minutes) Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. *3 Need specially designed control system. Please contact Panasonic for details. Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 3344 guarantee or warranty. guarantee or warranty. 3355

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-260sCP/Ft HHr-300sCP/Ft CYlINdrICal sC sIzE (Hr23/43) CYlINdrICal sC sIzE (Hr23/43) 2.0 2.0 Charge: 2600mA(1 lt) x 1.2hrs. 1.9 Charge: 3000mA(1 lt) x 1.2hrs 2.0 12..80 1.8 dIMENsIoNs (MM) ttYYPPIICCaall CCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCssCharge: 2600mA(1 lt) x 1.2hrs. dIMENsIoNs (MM) tYPICal11.. 79CHargE CHaraCtErIstICsCharge: 3000mA(1 lt) x 1.2hrs 1.8 11..68 1.6 Ø23. 0 - 01.0 Voltage (V)Voltage (V)Voltage (V) 01110111111112..............8024802462468000 1100 2200 3300Char44g00e tim5500eC (mhair66ng00uet:e 2s6)770000mA(188 00lt) x 1992424.200000000h°°°°°°rCCCCCCs.110000 Ø23. 0 - 01.0 Voltage (V)Voltage (V)Voltage (V) 1111100111111100111111111112............................543109876543109889765431222000 1100 2200 3300Char44g00e tim55e00 (Cmhainr66gu00ete: s3)0077000mA(188 l00t) x 24241000000.992°°°°°°00hCCCCCCrs 110000 1.0 Charge time (minutes) 200°°CC 1.0 Charge time (minutes) 200°°CC 40°C 0.9 40°C 0.8 0.8 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Charge time (minutes) Charge time (minutes) 5 5 01. 01. - ttYYPPIICCaall ddIIssCCHHaarrggEE CCHHaarraaCCttEErrIIssttIICCss - tYPICal dIsCHargE CHaraCtErIstICs 43.0 1.8 Charge: 2600mA(1 lt) x 1.2hrs. 20°C 43.0 1.8 Charge: 3000mA(1 lt) x 1.2hrs. 20°C 1.8 Discharge: 2600mA, 0°C, 20°C, 40°C 1.8 Discharge:3000mA, 0°C, 20°C, 40°C 1.6 Charge: 2600mA(1 lt) x 1.2hrs. 20°C 1.6 Charge: 3000mA(1 lt) x 1.2hrs. 20°C Discharge: 2600mA, 0°C, 20°C, 40°C Discharge:3000mA, 0°C, 20°C, 40°C ge (V) 111...468 e (V)111...468 Voltaage (V) 111...246 CDhisacrhgaer:g 2e6: 0206m00Am(1A l,t )0 x° C1,. 22h0r°sC. ,2 400°°CC Voltagage (V)111...246 CDhisacrhgaer:g 3e0:0300m00Am(1A l,t )0 x° C1,. 22h0r°sC. ,2 400°°CC sNdiPaamEmeCeIteFrI C(mamtI)oNs H23H.0R -+206/-01S.C0P/FT VoltVoltage (V) 011111......8002240 10 20 30 40 50 60 70 2424 000000 °°°°°° CCCCCC 80 sNdiPaamEmeCeIteFrI C(mamtI)oNs H23H.0R -+300/-01S.C0P/FT Voltoltage (V)011111......800224 0 10 20 30 40 50 60 702424000000°°°°°°CCCCCC80 0.8 Discharge time (minutes) V0.8 Discharge time (minutes) Height (mm) 43.0 +0/-1.5 0 10 20 30 40 50 60 70 80 Height (mm) 43.0 +0/-1.5 0 10 20 30 40 50 60 70 80 approximate weight (g) 55 1.0 Discharge time (minutes) 200°°CC approximate weight (g) 57 1.0 Discharge time (minutes) 200°°CC 40°C 40°C Nominal voltage (v) 1.2 0.8 Nominal voltage (v) 1.2 0 10 20 30 40 50 60 70 80 0.8 average*2 (mah) 2,600 average*2 (mah) 3,050 0 10 20 30 40 50 60 70 80 discharge capacity*1 Discharge time (minutes) discharge capacity*1 Discharge time (minutes) rated/min. (mah) 2,450 1.8 rated/min. (mah) 2,800 1.8 Charge: 2600mA(1 lt) x 1.2hrs. 20°C Charge: 3000mA(1 lt) x 1.2hrs. 20°C approx. internal impedanceat 1,000Hz at charged 1.8 Discharge: 10A, 20A, 20°C approx. internal impedanceat 1,000Hz at charged 1.8 Discharge: 10A, 20A, 20°C state (mΩ) 5 1.6 Charge: 2600mA(1 lt) x 1.2hrs. 20°C state (mΩ) 4 1.6 Charge: 3000mA(1 lt) x 1.2hrs. 20°C Discharge: 10A, 20A, 20°C Discharge: 10A, 20A, 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 22006, tt60oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V) 11111111........02424668 CDhisacrhgaer: g2e6:0 100mAA, 2(10 Alt,) 2x0 1°.C2hrs. 20°C atureCharCghearge (°C) srsrttaaaappnniidddd* aa3rr dd(m (ma ax xh rhsr.s).) 33000, tt00oo0 x0++ 441x506 1.2 Voltage (V)Voltage (V) 11111111........02424668 CDhisacrhgaer:g 3e0: 0100mA,A 2(10 Alt,) 2x0 1°.C2hrs. 2121200000°AAAAC r r ambient tempe dstisocrhagaerg (e° C(°)C) <<<131 ymmeooannrtthhs ----12220000 ttttoooo ++++63455555 Voltage (V) 001111......88002400 22 44 66DDiisscchh88aarrggee 11tt00iimmee ((11mm22iinnuuttee11ss44)) 1166 118812120000AAAA 2200 ambient tempe dstisocrhagaerg (e° C(°)C) <<<131 ymmeooannrtthhs ----12220000 ttttoooo ++++63455555 Voltage (V) 001111......88002400 22 44 66DDiisscchhaa88rrggee tt11ii00mmee ((mm1122iinnuuttee11ss44)) 1166 11881200AA 2200 10A 20A *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 0.8 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 *2 For reference only. *2 For reference only. Discharge time (minutes) Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. *3 Need specially designed control system. Please contact Panasonic for details. Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 3366 guarantee or warranty. guarantee or warranty. 3377

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 HHr-60aaaH/Ft CYlINdrICal aaa sIzE (Hr11/45) For baCk-uP u2s.0E HHr-70aaH/Ft CYlINdrICal aa sIzE (Hr15/49) For baCk-uP usE 2.0 Charge: 50mA x 16hrs. Charge: 70mA x 16hrs. 1.8 1.8 dIMENsIoNs (MM) ØØ1100.. 55 -- 0000..77 ttYYPPIIVoltage (V)CCaall21211 .....CC08064HHaarrggEE CCHHaarraaCCttEErrIIssttIICCss Charge: 50mA x 16hrs. dIMENsIoNs (MM) Ø14. 5 - 00.7 ttYYPPIIVoltage (V)CCaall11212 .....CC64080HHaarrggEE CCHHaarraaCCttEErrIIssttIICCss Charge: 70mA x 16hrs. Ø4 . 9 - 00.7 Voltage (V)e (V) 11111110........642862080 2 4 6 8 10 12 C h ar1g4e : 5 0 1m6 A - x261 500 11°°°68CCCh r s . 20 Voltage (V)e (V) 11011111........208642860 2 4 6 8 10 12 C h ar1g4e : 7 0 1m6 A – x261 50 011°°°68CCCh r s . 20 Voltag 11..04 Charge time (hours) -2150°°CC Voltag 11..04 Charge time (hours) –2150°°CC 1.2 60°C 1.2 60°C 0.8 -10°C 0.8 –10°C 1.00 2 4 6 8 10 12 14 16 2 5 1°8C 20 1.00 2 4 6 8 10 12 14 16 2 5 1°8C 20 Charge time (hours) 60°C Charge time (hours) 60°C 0.8 0.8 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 130 Charge time (hours) 130 Charge time (hours) 04.5 - 1.0 111210000 048.3 - 1.0 111210000 4 %) 13900 %) 13900 Capacity ( 111112103287600000000 CChhaarrggee: t5e0mmpAer xa t1u6reh:r -s1.0 to 60°C Capacity ( 111112103287600000000 CChhaarrggee: t7e0mmpAer xa t1u6reh:r -s1.0 to 60°C %) 1195000 DCuistc ohfa rvgoelt:a 1g0e0: m1.A0V %) 1159000 DCuistc ohfa rvgoelt:a 1g4e0: m1.A0V sNdiPaamEmeCeIteFrI C(mamtI)oNs H10H.5R -+600/-A0A.7AH/FT Capacity (Capacity (%) 1087654987643000000000000-20 DDDCCCCC uhhhhiii sss taaaa ccc -rrrrohhh1ggggfaaa0eeee rr rv: : ggg ott 55eeeeel 00tmm : a tt mm1 eegpp00mmAeAee 0: rr pp mxxaa 1ee tt .A11rr uu0 aa66 rrVeett1hhuu::0rr rr --ssee 11.. ::T 00 e22 m55tt oo2°° p0CC66 e00 r°° a CC t u3r0e ° C 40 50 60 70 sNdiPaamEmeCeIteFrI C(mamtI)oNs H14H.5R -+700/-A0A.7H/FT Capacity (Capacity (%) 1043876549876000000000000-20 DCCDDCCC hhuhhiii sss aataa ccc -rrrrohhh1ggggfaaa0eeee rrrv: : ggg ott 77eeeeel 0t0mm : a tt mm1 eegpp04mmeAAee 0: r r pp mxxaa 1ee tt .A11rr uu0 aa66 rrVeett1hhuu::0rr rr --ssee 11.. ::T 00 e22 m55tt oo2°° p0CC66 e00 r°° a CC t u3r0e ° C 40 50 60 70 Height (mm) 44.5 +0/-1.0 3500-20 DC ui s t c -oh1fa0 rv go el t: a 1 g00e 0: m 1 .A 0 V10 20 30 40 50 60 70 Height (mm) 48.3 +0/-1.0 3500-20 DC ui s t c -oh1fa0 rv go el t: a 1 g04e 0: m 1 .A 0 V10 20 30 40 50 60 70 approximate weight (g) 13 40 Discharge temperature:T e2m5°pCerature °C approximate weight (g) 18 40 Discharge temperature:T e2m5°pCerature °C 30 30 Nominal voltage (v) 1.2 -20 -10 0 10 20 30 40 50 60 70 Nominal voltage (v) 1.2 -20 -10 0 10 20 30 40 50 60 70 Temperature °C Temperature °C average*2 (mah) 550 average*2 (mah) 750 discharge capacity*1 discharge capacity*1 rated/min. (mah) 500 rated/min. (mah) 700 approx. internal impedanceat 1,000Hz at charged approx. internal impedanceat 1,000Hz at charged 35 25 state (mΩ) tYPICal dIsCHargE CHaraCtErIstICs state (mΩ) tYPICal dIsCHargE CHaraCtErIstICs standard (ma x hrs.) 50 x 16 standard (ma x hrs.) 70 x 16 rapid*3 (ma x hrs.) 250 x 2.4 2.2 rapid*3 (ma x hrs.) 350 x 2.4 2.2 Charge Charge: 50mA x 16hrs. 25°C Charge Charge: 350mA x 2hrs. 24min. 25 x 32 2.0 Discharge: 100mA 35 x 32 2.0 Discharge: 140mA low rate (ma x hrs.) low rate (ma x hrs.) Cutt of voltage:1.0V 17 x 48 10°C 23 x 48 1.8 25°C 1.8 –10°C mbient temperature Cdsthisoacrrhaggaeer g( (°e°C C()°)C) srl<<<ot161aaw pymmnie ddrooaa annrtrttedhh s ------111222000000 ttttttoooooo ++++++646345050555 Voltage (V)ge (V)Voltage (V) 2211112211111110................20864220864642080 1 D2 i s c h a r g e 3tCDCD im hhii ss aa cce rr hh gg (aa eehrr::ogg 55uee00::r4 mms11 )00 AA 00 mm xx AA11 66 hh rrss5.. 22 1261266 550500500 °°°°°°°°° CCCCCCCCC 6 mbient temperature Cdsthisoacrrhaggaeer g( (°e°C C()°)C) srl<<<ot161aaw pymmnie ddrooaa annrtrttedhh s ----++111234000055 ttttttoooooo ++++++646345050555 Voltage (V)Voltage (V)ge (V) 1111022111122111................64208208642208640 1 D2 i s c h a r g e 3t iCDCCDCm huhuii ss eat atcc tt rr hh (ggo ohaaeefforr ::ggvvu 33ooeer455ll::stt 00aa 11) mmgg 44 ee00AA ::mm 11 x x..AA 00 22VV hhrr5ss ..–– 2226262611 4450505000 mm°°°°°° °° CCCCCCCC ii nn .. 6 a <1 week -20 to +65 Volta 11..02 a <1 week +55 to +65 Volta 11..02 0.8 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 1.00 1 2 3 4 5 6 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 1.00 1 2 3 4 5 6 Discharge time (hours) Discharge time (hours) *2 For reference only. *2 For reference only. 0.8 0.8 *3 Need specially designed control system. Please contact Panasonic for details. 0 1 2 3 4 5 6 *3 Need specially designed control system. Please contact Panasonic for details. 0 1 2 3 4 5 6 Discharge time (hours) Discharge time (hours) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 3388 guarantee or warranty. guarantee or warranty. 3399

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 0 HHr-210aH/Ft 2.0 HHr-330aPH/Ft Ø 18. 2 - 0 .7 22..00 CYlINdrICal a sIzE (Hr17/50) For baCk-uP usE CYlINdrICal lFat/a sIzE For baCk-uP usE Charge: 210mA x 16hrs. CChhaarrggee:: 333300mmAA((00..11 lltt)) xx 1166hhrrss.. 1.8 11..88 dIMENsIoNs (MM) Ø17. 0 - 00.7 ttYYPPIIVoltage (V)CCaall1121 ....CC6408HHaarrggEE CCHHaarraaCCttEErrIIssttIICCss Charge: 210mA x 16hrs. dIMENsIoNs (MM) ttYYPPIIVoltage (V)Voltage (V)CCaall1111 ....CC6464HHaarrggEE CCHHaarraaCCttEErrIIssttIICCss 12..20 112...220 1.6 Charge: 210mA- 1x0 °1C6hrs. Charge: 330mA(0.1 lt--) 11x00 1°°6CChrs. age (V) 111...048 2650°°CC 111...008 26265050°°°°CCCC VoltVoltage (V) 01111.....820640 2 4 6 C h a8 r g e t1im0 e ( h 1o2u r s ) 14 16 - 1 2 051°°8CC 20 Voltage (V) 0011....886400 22 44 66 CC hh aa rr88gg ee tt ii mm1100ee (( mm ii11nn22uu tt ee ss))1144 1166 1188 2200 1.2 60°C 1.2 0.8 -10°C -10°C 1.00 2 4 6 8 10 12 14 16 2 51°8C 20 1.0 25°C Charge time (hours) 60°C 60°C 0.8 0.8 0 2 4 6 8 10 12 14 16 18 20 5 0 2 4 6 8 10 12 14 16 18 20 0- 1.5 113200 Charge time (hours) 07.0 - 1. Charge time (minutes) 0.0 111000 6 5 Capacity (%) 1111113210329876500000000000 CCDhhisaacrrhggaeer: g t2ee1m: 04pm2e0Arma txAu 1re6:h -r1s0. to 60°C 111111113210321000000000 sNdiPaamEmeCeIteFrI C(mamtI)oNs H17H.0R -+201/-00A.H7/FT Capacity (%)Capacity (%) 111043987654987600000000000000-20 DCCDCDCCC hhuuhhiii sss aattaa ccc -rrrroohhh1ggggffaaa0eeee rrrvv: : ggg oott 22eeeeell 1tt1mm : aa tt 004 eeggppmm02mmeeee 0A::A rrpp maa 11ee txtx ..Arr uu00 aa 11rrVVeett166uu::0hh rr --eerr 11 ss::T 00 ..e22 m55tt oo2°° p0CC66 e00 r°° a CC t u3r0e ° C 40 50 60 70 sNdiPaamEmeCeIteFrI C(mamtI)oNs H18H.2R -+303/-00A.P7H/FT Capacity (%)Capacity (%) 111132109876549876540000000000000000 CCCDCDDCDChhhhuuiiiissssaaaattcccc rrrroohhhhggggffaaaaeeee rrrrvv:: gggg oott33eeeeeell33ttmm ::aa tt0066eeggppmm66mmeeee00AA::rrpp mmaa((11ee00tt..AArruu..0011aarrVVee ttuull::tt rr--))ee 11xx:: 00 2211 55tt66oo°°hh CCrr66ss00..°°CC Height (mm) 50.0 +0/-1.5 3500-20 DC ui s t c -oh1fa0 rv go el t: a 4 g02e 0: m 1 .A 0 V10 20 30 40 50 60 70 Height (mm) 67.0 +0/-1.5 %) 339000--2200 --1100 00 1100 2200 3300 4400 5500 6600 7700 approximate weight (g) 36 40 Discharge temperature:T e2m5°pCerature °C approximate weight (g) 60 y ( 80 TTeemmppeerraattuurree °°CC Nominal voltage (v) 1.2 30-20 -10 0 10 20 30 40 50 60 70 Nominal voltage (v) 1.2 acit 70 p Charge: 330mA(0.1 lt) x 16hrs. average*2 (mah) 2,050 Temperature °C average*2 (mah) 3,300 Ca 60 Charge temperature: -10 to 60°C discharge capacity*1 discharge capacity*1 50 Discharge: 660mA rated/min. (mah) 1,900 rated/min. (mah) 3,200 Cut of voltage: 1.0V 40 Discharge temperature: 25°C astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 20 tYPICal dIsCHargE CHaraCtErIstICs astpaptero (xm. Ωin)ternal impedanceat 1,000Hz at charged 5.5 tYPICal 3d0-I2s0C H a-1r0 g E C0 H a r 1a0 C t E r20I s t IC30s 40 50 60 70 Temperature °C standard (ma x hrs.) 210 x 16 standard (ma x hrs.) 330 x 16 rapid*3 (ma x hrs.) 1,000 x 2.3 2.2 rapid*3 (ma x hrs.) 1,650 x 2.4 11..88 Charge 105 x 32 2.0 DChisacrhgaer:g 2e1: 04m20Am xA 16hrs. 25°C Charge 165 x 32 11..66 CCRRhheessaattrr::gg 11eehh:: 00..11lltt xx 1166hhrrss.. 2255°°CC low rate (ma x hrs.) low rate (ma x hrs.) 70 x 48 1.8 10°C 100 x 48 DDiisscchhaarrggee:: 1100AA ttoo 00..88VV 2255°°CC 1100AA 25°C 11..44 2200AA standard 60°C standard ambient temperature Cdsthisoacrrhaggaeer g( (°e°C C()°)C) rl<<<<o1611aw pymmwie dreooaa ennrtkttehhs -------11122220000000 tttttttooooooo +++++++64634560505555 Voltage (V)Voltage (V)Voltage (V) 111102211111221111..................6420820864202086420 1 D2 i s c h a r g e 3tDCDC im hhii ss aa cce rr hh gg (aa eehrr::ogg 22uee11::r4 00s44 mm )22 00 AA mm xx AA 11 66 hh5rr ss .. 126126 05005022 °°°°°°55 CCC CCC°° CC 6 ambient temperature Cdsthisoacrrhaggaeer g( (°e°C C()°)C) rl<<<<o1611aw pymmwie dreooaa ennrtkttehhs -------11122220000000 tttttttooooooo +++++++64634560505555 Voltage (V)Voltage (V)Voltage (V) 1100110011111.............208620868642000 CRD h eis22sac tr h:g a1 e r h:g 0e44.: 1 1l t0 xA 166t6oDD h ii0 rss . scc8 .hhV 288 aa5 2rr ° 5gg C °ee C tt11ii00mm ee (( mm1122ii nn uu tt ee 11ss44)) 1166 12 0011AA88 2200 0.8 0 1 2 3 4 5 6 0.8 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. 1.0 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. Discharge time (hours) *2 For reference only. *2 For reference only. *3 Need specially designed control system. Please contact Panasonic for details. 0.80 1 2 3 4 5 6 *3 Need specially designed control system. Please contact Panasonic for details. 0.60 2 4 6 8 10 12 14 16 18 20 Discharge time (hours) Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 4400 guarantee or warranty. guarantee or warranty. 4411

7 INdIvIdual data sHEEts INdIvIdual data sHEEts 7 0 HHr-370aH/Ft Ø 18. 2 - 0 .7 22..00 HHr-250sCH/Ft 2.0 CYlINdrICal lFat/a sIzE For baCk-uPCC hhuaarrsggEee:: 337700mmAA xx 1166hhrrss.. CYlINdrICal sC sIzE (Hr23/43) For baCk-uP usE Charge: 250mA(0.1 lt) x 16hrs. 11..88 1.8 11..66 1.6 dIMENsIoNs (MM) ttYYPPIIVoltage (V)Voltage (V)CCaall11112 .....CC42420HHaarrggEE CCHHaarraaCCttEErrIIssttIICCss dIMENsIoNs (MM) Ø23. 0 - 01.0 ttYYPPIIVoltage (V)CCaall11212 .....CC42080HHaarrggEE CCHHaarraaCCttEErrIIssttIICCCssharge: 250mA(0.1 lt) x 16hrs. Charge: 370mA x 16--h11r00s°°.CC 1.6 Charge: 250mA(0.1 lt) x 16-1h0rs°.C 111...008 2255°°CC V) 11..08 20°C 6600°°CC ge ( 1.4 60°C Voltage (V) 00111.....88642 00 22 44 66 CC hh aa 88rr gg ee tt ii11mm00 ee (( hh oo1122uu rr ss )) 1144 1166 1188 2200 VoltaVoltage (V) 011111......820642 0 2 4 6 C h a 8r g e t i1m0 e ( h o12u r s ) 14 16 - 26110008°°° CCC 20 -10°C -10°C 0.8 1.0 25°C 1.0 0 2 4 6 8 10 12 14 16 2108° C 20 60°C 60°C Charge time (hours) 0.8 0.8 5 0 2 4 6 8 10 12 14 16 18 20 0 2 4 6 8 10 12 14 16 18 20 01. - Charge time (hours) 130 Charge time (hours) 7.0 5 120 6 0- 1. 110 3.0 100 113300 4 (%) 13900 y 80 112200 cit 120 a 70 111100 Cap 11136000 Charge: 250mA(0.1 lt) x 16hrs. 110000 110200 Carge temperature: -10 to 60°C %)%) 9900 %) 1159000 DCuistc ohfafr vgoel:t a5g0e0:m 1A.0(0V.2 lt) sNdiPaamEmeCeIteFrI C(mamtI)oNs H18H.2R -+307/-00A.H7/FT Capacity (Capacity ( 11132187654876540000000000000 CCCCDCDCDDhahauuiiiissssrraattcccc ggrroohhhheeggffaaaa eeffttrrrr ::eevvgggg oo33mmeeeell77:: ttpp tt00aa77eeeemmgg44mmrree00aaAApp::mmtt eeuu11xxAArrrr.. ee00aa11::VVtt66 uu--hh1r1reerr00ss:: ..22tt oo55 °°66CC00°°CC sNdiPaamEmeCeIteFrI C(mamtI)oNs H23H.0R -+205/-01S.C0H/FT Capacity (Capacity (%) 1043876549876000000000000-20 CCDCDDC ahuhiii sssrata-ccc grr1ohhhegg0faaa eef trrr :: evggg o22meee l55: t p tt00a 5eeemmg00mmre 0aAA pp:mt ((eeu 001 Arrr... e110aa( :0 Vtt1 uu.ll-2tt0r1r))ee 0xxlT:: t e22t)11 o 55m66 °°hh 6CCp2rr0ss°0e..C r a t u r3e0 ° C 40 50 60 70 100 Carge temperature: -10 to 60°C Height (mm) 67.0 +0/-1.5 %) 339000--2200 --1100 00 1100 2200 3300 4400 5500 6600 7700 Height (mm) 43.0 +0/-1.5 3500-20 DC ui st-c 1oh0faf r vg oe l:t a 5g00e 0 :m 1 A. 0( 0V1.20 l t ) 20 30 40 50 60 70 approximate weight (g) 60 city ( 80 TTeemmppeerraattuurree °°CC approximate weight (g) 55 4300 Discharge temperatureT: e25m°Cperature °C Nominal voltage (v) 1.2 apa 70 Charge: 370mA x 16hrs. Nominal voltage (v) 1.2 -20 -10 0 10 20 30 40 50 60 70 average*2 (mah) 3,700 C 60 Carge temperature: -10 to 60°C average*2 (mah) 2,650 Temperature °C discharge capacity*1 50 Discharge: 740mA discharge capacity*1 Cut off voltage: 1.0V rated/min. (mah) 3,500 rated/min. (mah) 2,500 40 Discharge temperature: 25°C approx. internal impedanceat 1,000Hz at charged 30 approx. internal impedanceat 1,000Hz at charged 20 -20 -10 0 10 20 30 40 50 60 70 5 state (mΩ) tYPICal dIsCHargE CHaraCtErIstICs state (mΩ) tYPICal dIsCHargE CHaraCtErIstICs Temperature °C standard (ma x hrs.) 370 x 16 standard (ma x hrs.) 250 x 16 rapid*3 (ma x hrs.) 3,000 x 2.4 22..00 rapid*3 (ma x hrs.) 1,250 x 2.4 1.8 Charge CChhaarrggee:: 337700mmAA xx 1166hhrrss.. 2255°°CC Charge Charge: 250mA(0.1 lt) x 16hrs. 25°C low rate (ma x hrs.) 185 x 32 11..88 DDiisscchhaarrggee:: 664400mmAA low rate (ma x hrs.) 125 x 32 1.6 Discharge: 10A, 20A, 25°C 123 x 48 83 x 48 11..66 1100°°CC 10°C standard 2255°°CC standard 1.4 20°C e Charge (°C) rloawpi dra te --1100 ttoo ++6405 Voltage (V)Voltage (V) 11112.....42420 6600°°CC e Charge (°C) rloawpi dra te --1100 ttoo ++6405 Voltage (V) 1111....2868 DChisacrhgaer:g 2e5: 01m0AA,( 02.01A l,t )2 x5 °1C6 hrs. 25°C ambient temperatur dstisocrhagaerg (e° C(°)C) <<<<1611 ymmweeooaennrktthhs -----1222200000 tttttooooo +++++6345605555 Voltage (V) 10101111........08088642 00 11 DD22iiss cc hh aa rr gg ee CD tthisii33amm cr h gee a e (( r: hhg 3eoo 7:uu 0 6rrmss444))0A m x A 1 6 h r s .55 2 1265 050° °°°C CCC 66 ambient temperatur dstisocrhagaerg (e° C(°)C) <<<<1611 ymmweeooaennrktthhs -----1222200000 tttttooooo +++++6345605555 Voltage (V)Voltage (V) 10111111........08420642 0 5 D i s c h DCa h ri sg a ce r hg ate1ir:m0g 2e e 5: 0( 1 mm 0 AiA n , ( u0 2 .t 01 e A s l, )t )2 x15 5°1 C6 h r s . 12122 00005 °°°°° CCCCC 20 1.0 01..80 0 5 10 15 20 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *2 For reference only. 0.8 *2 For reference only. 0.8 Discharge time (minutes) *3 Need specially designed control system. Please contact Panasonic for details. 0 1 2 3 4 5 6 *3 Need specially designed control system. Please contact Panasonic for details. 0 5 10 15 20 Discharge time (hours) Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 4422 guarantee or warranty. guarantee or warranty. 4433

7 INdIvIdual data sHEEts battErY Pa Cks 8 0 HHr-300CH/Ft Ø26 . 0 - 1.0 CYlINdrI2C.0al C sIzE (Hr26/50) For baCk-uP usE Purpose of packs l type Charge: 300mA(0.1 lt) x 16hrs. Ø10.0 1.8 For the most part, Ni-MH batteries are used in battery The required number of single cells are arranged in a line in 1.6 packs when installed in products. When these batteries the axis of the batteries connec ted by connecting plates and dIMENsIoNs (MM) ttYYPPIIge (V)CCaall12 ..CC40HHaarrggEE CCHHaarraaCCttEErrIIssttIICCCssharge: 300mA(0.1 lt) x 16hrs. are used, the type of battery, number of cells, shape of the packed together by heat-shrinkable tubing. a olt 1.8 pack, constituent parts of the pack, etc., are determined by V 12..20 Charge: 300mA(0.1 lt) x 16hrs. 1.6 -10°C the specifications (voltage, load current) of the product. In Composite l type V) 11..08 25°C ge ( 1.4 60°C addition, the charge specifications, space available in the Single cells connected in the L type configuration are further Voltaage (V) 0111....8264 0 2 4 6 C h a 8r g e t i1m0 e ( h o12u r s ) 14 16 - 1108° C 20 bcoanttseirdye creodm. pAatr Ptmaneanst,o onpice,r awtein agr ceo nwdoirtikoinnsg, oentc .t,h me upsrto amlsooti obne scohnri nnekc a tbelde itnu bt iwnog .to five rows and packed together by heat- olt 1.0 25°C V 1.2 60°C of battery packs which emphasize the safety and reliability of 0.8 -10°C 1.0 0 2 4 6 8 10 12 14 16 2158° C 20 the batteries. We customize packs in the shapes that satisfy 60°C Charge time (hours) the unique requirements of each of our customers. do not 0.8 0 2 4 6 8 10 12 14 16 18 20 hesitate to contact us regarding your specific needs. 130 Charge time (hours) 0 02. 120 - 0.0 110 shapes of battery packs (typical & standard types) 5 100 %) 13900 ( city 12800 F type Capa 1113760000 CCharagreg et:e 3m0p0emraAt(u0r.e1: l-t1) 0x t1o6 h6r0s°.C The required number of single cells are arranged side by side 110200 Discharge: 600mA(0.2 lt) %) 1159000 Cut off voltage: 1.0V along their diameter connected by nickel plates and packed sPECIFICatIoNs pacity (%) 1043879000000-20 DC hi s-ac1rhg0a er : g 3e 0 t00em m Ap (e 0 r.11a0 tul t r)e x: 21 562°h0Cr s . 30 40 50 60 70 together with heat-shrinkable tubing. Ndiaammeeter (mm) H26H.0R -+300/-01C.H0/FT CaCapacity ( 654876000000 DDCCCCuahaiissrrtacc ggrohheegfaa efttrr :eevgg o3mmeel0 :tpp t0a6eeemg0mrre0aaAp:mtt (euu01Arrr..ee10a(::0 Vt u.l--2tT1r1)e e 00xl:m t 2t)t1oo5p6 °he66Cr00rsa°°.CCt ure °C Height (mm) 50.0 +0/-2.0 3500-20 DC ui s-tc 1oh0fa fr vg oe l: t a06g 0 e0 :m 1 A.10(00V. 2 l t ) 20 30 40 50 60 70 approximate weight (g) 80 40 Discharge temperature: 25°C Temperature °C 30 Nominal voltage (v) 1.2 -20 -10 0 10 20 30 40 50 60 70 average*2 (mah) 3,300 Temperature °C discharge capacity*1 rated/min. (mah) 3,100 approx. internal impedanceat 1,000Hz at charged 5 state (mΩ) tYPICal dIsCHargE CHaraCtErIstICs standard (ma x hrs.) 300 x 16 rapid*3 (ma x hrs.) 1,500 x 2.4 1.8 Charge Composite F type 150 x 32 Charge: 300mA(0.1 lt) x 16hrs. 25°C low rate (ma x hrs.) 1.6 Discharge: 10A, 20A, 25°C Single cells are connected in the F type configuration but in 100 x 48 10°C standard 1.4 20°C two to five rows rather than one row and packed together by -10 to +60 V) 1.8 Charge (°C) rapid e ( Charge: 300mA(0.1 lt) x 16hrs. 25°C heat-shrinkable tubing. g a 1.2 Discharge: 10A, 20A, 25°C re low rate -10 to +45 Volt 11..68 ambient temperatu dstisocrhagaerg (e° C(°)C) <<<<1611 ymmweeooaennrktthhs -----1222200000 tttttooooo +++++6345605555 Voltage (V)oltage (V) 10111111........08420642 0 5 D1is0c h DC a hri sg a c er h g ate1ir:mg5 3 ee 0: 0 (1 mm 0 A iA n, ( u0 2.t201e0A s l, )t ) 2 x 5 °1 C6 h r2s5. 12122 00005 °°°°° CCCCC 30 V 01..80 0 5 10 15 20 25 30 *1 After charging at 0.1It for 16 hours, discharging at 0.2It. *2 For reference only. Discharge time (minutes) 0.8 *3 Need specially designed control system. Please contact Panasonic for details. 0 5 10 15 20 25 30 Discharge time (minutes) Battery performance and cycle life are strongly affected by how they are used. In order to maximize battery safety, please consult Panasonic when determining charge/discharge specs, warning label contents and design. The data in this document are for descriptive purposes only and are not intended to make or imply any 4444 guarantee or warranty. 4455

9 glossarY oF tErMs For NI-MH battErIEs glossarY oF tErMs For NI-MH battErIEs 9 struCtural-rElatEd ItEMs flows to the external circuit during the discharge of a numerical multiple that represents the rated capacity of the electrolysis of the water causes a sharp decrease in rechargeable battery. the battery. The charge and discharge current are generally the amount of electrolyte. Generally, the overcharge of a active material expressed using a C multiple. For example, for a battery recharge able battery will shorten the battery’s cycle life. The electro-chemical materials of the electrodes. In recharge- safety vent having a rated capacity of 1500mAh: able Ni-MH battery, nickel-hydroxide is the active material Functions to release the gas when the internal pressure rapid charge of the positive electrode and hydrogen-absorbing alloy is the exceeds a predetermined level. In addition to preventing the 0.1CmA = 0.1 x 1500 = 150mA Charge quickly using a large current. active material of the negative electrode. absorption of external air into the rechargeable battery, this 0.2CmA = 0.2 x 1500 = 300mA vent also prevents the rupture of the rechargeable battery rated capacity Cell that would result from the increase in the internal pressure Cut-off discharge voltage The standard value for the amount of electricity which can Each of the individual batteries which comprise a rechargeable caused by the generation of gas during charge or at other The voltage that indicates the limit at which discharge is be obtained from the battery in a fully charged state at the battery. times. completed. In practical use, this voltage is the limit to which speci fied temperature, discharge current, and cut-off the battery can be used. discharge voltage. Measured in units of ampere-hours (Ah). Electrolyte separator Note that CN is used as a symbol to express the rated The medium through which ions are conducted during the A porous or micro-porous thin plate, cloth, bar or frame which Electrolyte leakage capacity at a rate of N hours. electro-chemical reaction inside a rechargeable battery. In is inserted as a spacer between the positive and negative The penetration of the electrolyte to the outside of the battery. rechargeable Ni-MH battery, a potassium hydroxide water electrode plates for the purpose of preventing short-circuits. reverse charge solution is generally used as the electrolyte. The separator must be non-oxidizing, resistant to chemicals, Energy density Charge with the polarities reversed. If the polarities are and be an electrical insulator, and it must not obstruct in any The amount of energy that can be obtained per unit weight or reversed, all of the electrical energy will be used to generate Hydrogen-absorbing alloy way the ionic conduction or diffusion of the electrolyte. The per unit volume of a rechargeable battery. Unit: wh/kg, wh/l. gas. Alloy which can absorb/release hydrogen reversibly. AB separator also functions to retain the electrolyte. 5 or AB type alloy is used for batteries. (MmNi) AB type is Excessive discharge self-discharge 2 5 5 employed in Panasonic’s products. ElECtrICal-rElatEd ItEMs The discharge of a rechargeable battery to lower than the A decrease in the capacity of a rechargeable battery without specified cut-off discharge voltage. any discharge of current to the external circuit. Negative electrode Capacity The electrode that has a lower electrical potential than the The electrical capacity of a rechargeable battery. Normally High rate discharge otHEr tErMs positive electrode to which electrical current flows from the used to mean the capacity as measured in ampere-hours. Discharge at a relatively large current with respect to the external circuit during the discharge of a storage battery. Indicated in units of Ah (ampere hours) or C (coulombs). battery capacity. Also called high efficiency discharge and alkaline storage battery high-current discharge. A storage battery that uses an alkaline water solution as its Nickel oxyhydroxide Charge efficiency electrolyte. Generally refers to Ni-MH bat teries. Expressed in chemical notation as NiOOH, this indicates that A general term meaning either ampere-hour efficiency or Nominal voltage the positive electrode material of the Ni-MH battery is in a watt-hour efficiency. More commonly used to mean ampere- The voltage used to indicate the battery voltage. Generally Cycle use charged state. When in the discharged state, the positive hour efficiency. a value slightly lower than the electromotive force is used. A method of use in which charge and discharge are repeated electrode material becomes nickel hydroxide, or Ni(OH) . For example, the nominal voltage of rechargeable Ni-MH over and over again. 2 Charge level bat teries is 1.2V per cell. Pasted type electrode plate The amount of electricity used for charge. For constant IEC standards An electrode plate made by applying the active material current charge, it is the product of multiplying the current open circuit voltage The standards established by the International Electro- (hydrogen-absorbing compound) in a paste form onto a nickel- value by the charge time. Measured in units of ampere-hours The voltage of a battery when that battery is electrically technical Commission (IEC). plated steel porous plate. Used as the negative electrode. (Ah). cut-off from the external circuit. Positive electrode C (Coulomb) overcharge current The positive electrode that has a higher electrical potential Used to express the amount of the charge or discharge Charge after the fully charged state has been reached. In than the negative electrode from which electrical current current. Expressed by attaching the current units to a a rechargeable battery that requires water replenishment, 4466 4477

CoNtaCt united kingdom/Ireland France Panasonic Industrial Europe GmbH Panasonic Industrial Europe GmbH Willoughby Road 10, rue des petits ruisseaux Bracknell Berkshire 91370 Verrières-le-Buisson RG12 8FP France England Phone: +33 1 - 60 13 57 62 Phone: +44 1344 - 85 32 60 Fax: +33 1 - 60 13 57 72 Fax: +44 1344 - 85 33 13 germany Italy (all other European countries) Panasonic Italia S.p.A. Panasonic Industrial Europe GmbH Viale dell’Innovazione 3 Winsbergring 15 20125 Milano 22525 Hamburg Italy Germany Phone: +39 02 - 6788 - 506 Phone: +49 40 - 85 386 - 157 Fax: +39 02 - 6788 - 207 Fax: +49 40 - 85 386 - 238 spain/Portugal E-mail and Website for all countries Panasonic Industrial Europe GmbH battery-solutions@eu.panasonic.com Sucursal en España http://industrial.panasonic.com/eu Parque Empresarial @ Sant Cugat, Via Augusta 15-25 Edificio B2 Planta 4 Oficina 17 08174 Sant Cugat del Vales Barcelona Spain Phone: +34 93 - 504 30 10 Fax: +34 93 - 675 58 92 Notice to readers It is the responsibility of each user to ensure that every battery application is adequately designed safe and compatible with all conditions encountered during use, and in conformance with existing standards and requirements. This literature contains information concerning cells and batteries manufac tured by Panasonic Corporation. 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. A H/ This catalog has been produced using unc hlor in ated paper. M - Ni - B H A/ N A P For more details please contact: Panasonic is a registered trademark of Panasonic Corporation. Printed in Germany. © Panasonic Corporation