background image

bank of batteries presents the same impedance to the load as any other of the parallel banks thereby
ensuring correct equalization of the source to allow for maximum energy transfer to the load.

11. Ripple current (the AC component on the DC charge current). Ideally this should be zero, as it will reduce

the service life of a cell/battery, the larger the component the greater the reduction it will cause. For
example 0.1C Amps R.M.S will reduce the optimum service life by a minimum 3%.) Ripple current can be
source or load generated. ) Ripple current can vary with load change and is often its greatest at part load.

12. When cleaning the battery case, ALWAYS use a water dampened cloth but NEVER use oils, organic solvents

such as petrol, paint thinners etc. DO NOT even use a cloth that is impregnated or has been in contact with
any of these or similar substances.

13. Do not attempt to dismantle the battery. If accidental skin/eye contact is made with the electrolyte, wash

or bathe the affected area/part straight away with liberal amounts of clean fresh water and seek
IMMEDIATE medical attention.

14. DO NOT INCINERATE batteries as they are liable to rupture if placed into a fire. Batteries, that have

reached the end of their service life, can be returned to us for safe disposal.

15. Touching electrically conductive parts might result in an electric shock. Be sure to wear rubber gloves

before inspection or maintenance work.

16. The use of mixed batteries with different capacities, that may have been subjected to different uses, be of

different ages and are of different manufacturers is liable to cause damage to the battery itself and/or the
associated equipment. If this is unavoidable please consult us beforehand.

17. To obtain maximum life, batteries should never be stored in a discharged state.

18. In order to obtain maximum working life, when the batteries are used in an UPS system the following is

advised:

(a) Where the D.C. input exceeds 60 volts, each battery should be insulated from the battery stand by using

suitable polypropylene or polyethylene material.

(b) In high voltage systems the resistance between battery and stand should always be greater than 1 M

. An

appropriate alarm circuit could be incorporated to monitor any current flow.

Ω

12

POWERLINE

SC

SERIES

Design

/Application

Summary of Contents for Powerline SC Series

Page 1: ...SC Powerline Series Product Guide SEALED LEAD ACID BATTERY VALVE REGULATED Standard Commercial ...

Page 2: ...oduction 01 Technical Features 01 Applications Construction 02 General Specifications 03 Discharge 05 Charge 07 11 12 02 Expected Service Life of Powerline SC Design Application Suggestions to Ensure Maximum Service ...

Page 3: ...eration of Powerline SC in any orientation excluding continuous inverted use without loss of capacity service life or leakage of electrolyte The Powerline SC also conforms to IEC 60896 21 22 2004 Powerline SC are equipped with a safe low pressure venting system which is designed to release excess gas and close automatically as the internal gas pressure rising to an unacceptable level This low pres...

Page 4: ...ommunications Equipment Computers Control Equipment Electronic Cash Registers Electronic Test Equipment Emergency Lighting Systems Fire Security Systems Geophysical Equipment Medical Equipment Microprocessor Based Office machines Solar Powered Systems Telecommunication Systems Television Video Recorders UPS EPS Vending Machines l l l l l l l l l l l l l l l l l Applications ...

Page 5: ...51 151 151 151 151 181 50 65 65 65 98 76 94 93 93 93 94 166 100 98 98 98 100 166 1 80 2 40 2 58 2 58 3 57 5 80 84 49 52 56 84 126 240 140 150 160 240 360 9 5 22 20 20 16 14 F1 or F2 F1 or F2 F1 or F2 F1 or F2 F1 or F2 M5 x Ø12 A D D D D B Certification l l l l l CE UL ISO9001 ISO14001 OHSAS18001 l GOST Terminals Terminal Layout F1 F2 M5x 12 φ A B D 4 80 6 35 3 25 6 35 7 95 4 25 0 80 M5 φ12 0 80 ...

Page 6: ...xample if a lead acid battery were discharged to zero volts and left standing in either on or off load conditions for a long period of time severe sulphation would occur raising the internal resistance of the battery abnormally high In such an extreme case the battery may not accept charge Powerline SC have been designed to withstand some levels of over discharge However whilst this is not the rec...

Page 7: ...arious temperatures Available capacity measured by open circuit voltage Figure 4 shows extrapolated service life condition for powerline sc at different ambient temperatures As can be seen from figure 4 higher ambient temperatures will reduce service life Impedance figure 4 Temperature Life characteristics of powerline SC The internal resistance impedance of a battery is lowest when the battery is...

Page 8: ... 120 100 80 60 40 20 0 0 02 0 08 0 1 0 5 10 15 20 25 30 35 40 11 0 12 0 13 0 14 0 4 50 4 00 3 50 0 V 0 04 0 06 7 50 7 00 6 50 6 00 5 50 140 120 100 80 60 40 20 0 5 00 4 50 4 00 3 50 0 2 4 6 8 10 12 14 16 18 20 CHARGE VOLTAGE CHARGED VOLUME AFTER 50 DISCHARGE AFTER 100 DISCHARGE CHARGING TIME HOURS 7 50 7 00 6 50 6 00 5 50 CHARGING CURRENT 11 0 12 0 13 0 14 0 15 0 V 0 1CA 7 20V 14 4V 4 8V CONSTANT ...

Page 9: ...ll is applied occurs after the battery has recovered about 80 of its rated capacity This is one of the most efficient charging methods available as the recharge time is minimized during the initial stage whilst the battery is protected from overcharge by the system switching to stage 2 float standby charge at the switching point Y POWERLINE SC SERIES 07 Charge Figure 15 Characteristics of two SC12...

Page 10: ... the potential for overcharging the battery exists appropriate regulated charging circuitry between the solar panels and the battery is recommended Remote sites and other outdoor applications is where most solar powered systems are to be normally found When designing a solar powered system for this class of application a great deal of consideration must be given to environmental conditions For exa...

Page 11: ... LOAD condition may result in undercharging The constant voltage range required by a battery is always defined as the voltage range applied to a battery which is fully charged Therefore a charger having the output characteristics illustrated in Figure 22 should be adjusted with the output voltage based on point A The most important factor in adjusting charger output voltage is the accuracy at poin...

Page 12: ... speaking the most important factor is depth of discharge Figure 26 illustrates the effects of depth of discharge on cyclic life The relationship between the number of cycles which can be expected and the depth of discharge is readily apparent If an extended cycle life is required then it is common practice to select a battery with a larger capacity than the one that is required to carry the load ...

Page 13: ...duce electrical discharges in the form of sparks 3 When the battery is operated in a confined space adequate ventilation should be provided 4 The battery case is manufactured from high impact ABS plastic resin It should not be placed in an atmosphere of or in contact with organic solvents or adhesive materials 5 Correct terminals should be used on battery connecting wires Soldering is not recommen...

Page 14: ...n fresh water and seek IMMEDIATE medical attention 14 DO NOT INCINERATE batteries as they are liable to rupture if placed into a fire Batteries that have reached the end of their service life can be returned to us for safe disposal 15 Touching electrically conductive parts might result in an electric shock Be sure to wear rubber gloves before inspection or maintenance work 16 The use of mixed batt...

Page 15: ...sun com Email sales abtbatt com Our sales growth is due to a complete Global Network with Master distributors and Country managers who apply ABT commercial strategy and through Global Key Account in ABT World Wide ABT VRLA Battery PowerLine Thunder Enduro Sunwind e Trek ABT Copyright 2010 Shandong Sacred Sun Power Sources Co Ltd All rights reserved Version 201105 ...

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