Sacred Sun SPG Series Technical Manual Download Page 6

VRLA Technology

The electrochemical reaction of batteries in charge and discharge process is as follows:

Discharge

PbO

2

+2H

2

SO

4

+ Pb

PbSO

4

+ 2H

2

O + PbSO

4

Charge

In the final stage of charge process, active substance in positive plate is fully transformed to lead
dioxide, but negative plate has not reached fully charged stage, the process of active substance in
negative plate transforming to spongy lead is not finished, oxygen gas generated in positive plate
reaches the negative plate through separator pores and then reacts with active substance in
negative plate, resulting depolarized state in negative plate, and restraining the generation of
hydrogen.

Principle of the oxygen reduction cycle is as follows:

P

ro

du

ct

In

tr

o

d

u

ct

io

n

04

Summary of Contents for SPG Series

Page 1: ......

Page 2: ...eral Specifications 03 5 VRLA Technology 04 Chapter II Technical Characteristics 1 Discharge Curve 05 2 Charge Curve 06 3 Performance Data 08 Chapter III Operation and maintenance 1 Security Instructi...

Page 3: ...rizontal Design features Positive plates Negative plates Separators Container Lid Electrolyte Terminal posts Posts sealing Vents Flat pasted plate with lead calcium tin grid alloy Flat pasted plate wi...

Page 4: ...plications UPS units Data Center Generators starting EPS unit Standards IEC60896 21 22 2004 JIS C8702 1 2 2009 Eurobat Guide Installation compliant with EN50272 2 Battery Construction Product Introduc...

Page 5: ...00 M6 16 A SPG12 340W 12 90 340 306 171 209 217 27 4 2450 4 90 M6 16 A SPG12 390W 12 100 390 330 174 217 226 31 6 3150 3 80 M8 18 A SPG12 440W 12 115 440 375 174 219 227 36 2 3200 3 70 M8 18 A SPG12...

Page 6: ...but negative plate has not reached fully charged stage the process of active substance in negative plate transforming to spongy lead is not finished oxygen gas generated in positive plate reaches the...

Page 7: ...rical Characteristics Discharge Curve All series common curves Figure 2 1 Floating service life curve under different temperature Figure 2 2 Floating service life and storage time curve Electrical Cha...

Page 8: ...All series characteristic curves Figure 2 3 Discharge characteristic curve under different discharge rates 25 Charge Curve Figure 2 4 Charge characteristic curve Electrical Characteristics 06...

Page 9: ...Figure 2 5 Floating charge service life characteristic curve Electrical Characteristics 07...

Page 10: ...8 8 52 5 50 SPG12 255W 1 60 266 200 160 133 113 96 6 67 3 53 7 36 7 29 0 20 8 16 1 13 5 11 5 7 70 1 65 245 190 154 127 108 93 1 65 6 52 0 35 6 28 2 20 2 15 6 13 1 11 3 7 49 1 67 235 182 147 122 104 89...

Page 11: ...26 323 266 222 189 161 112 89 5 61 1 48 4 34 7 26 8 22 5 19 2 12 8 1 65 392 307 257 212 181 155 109 86 7 59 3 47 0 33 6 26 1 21 8 18 8 12 5 1 67 376 294 245 204 175 152 105 84 2 58 3 46 3 33 1 25 7 21...

Page 12: ...60 586 477 400 324 274 238 168 132 103 79 6 55 4 42 5 34 7 29 7 18 4 1 65 554 459 385 313 266 230 163 128 101 78 0 53 8 41 2 34 2 29 3 18 3 1 67 528 444 373 304 258 224 159 125 98 8 76 5 52 7 40 0 33...

Page 13: ...cell Discharge Time 5min 10min 15min 20min 25min 30min 45min 1h 1 5h 2h 3h 4h 5h 6h 10h SPG12 175W 1 60 315 237 183 141 118 103 72 3 62 2 45 7 35 3 26 0 20 9 17 1 14 6 9 63 1 65 302 229 176 136 113 1...

Page 14: ...60 560 424 352 297 245 223 162 128 96 9 73 2 54 7 42 5 34 6 29 5 19 4 1 65 545 412 345 288 238 216 157 124 94 3 71 1 53 3 41 7 33 7 29 0 19 2 1 67 521 403 340 282 233 210 154 122 91 9 69 3 52 2 40 7...

Page 15: ...60 898 715 602 479 413 375 269 219 164 124 85 4 67 9 57 9 50 7 31 8 1 65 852 685 585 465 405 367 263 213 159 121 82 8 66 7 56 9 49 9 31 1 1 67 830 660 570 449 397 360 258 209 154 118 81 1 65 8 55 5 4...

Page 16: ...0 1081 890 752 612 531 478 348 284 209 168 115 93 9 79 4 67 9 42 4 1 75 1045 853 725 589 514 464 341 276 204 165 113 92 8 78 0 66 8 41 6 1 80 1005 813 690 565 495 445 330 264 198 161 111 90 6 75 6 64...

Page 17: ...ed by skilled personnel only Used batteries must be recycled and disposed properly as improper disposal of batteries is harmful to the environment and health Used batteries shall be properly disposed...

Page 18: ...related to discharge current end voltage and discharge temperature Temperature Effect on Battery Capacity Figure 3 1 describes temperature effect on battery capacity C10 For example if temperature fal...

Page 19: ...ure 0 10 20 25 30 35 Floating charge voltage V cell 2 33 2 36 2 30 2 33 2 27 2 30 2 25 2 28 2 24 2 27 2 22 2 25 Cycle application Charge method 2 40V cell with limited current of 0 25 C10 A Charge vol...

Page 20: ...battery racks The structure should be assembled in accordance with instructions supplied with the equipment Racks Ensure that the stretchers and cross members are correctly interlinked Take up any irr...

Page 21: ...y time lower than 1 hour General recommendations Do not wear clothing of synthetic material to avoid the generation of static potentials Use insulated tools Place the cells beginning with the least ac...

Page 22: ...ronment Storage temperature Maximum storage times Freshening charge intervals Recommended freshening charge method 10 30 Every 6 months Using constant current 0 1C10A 0 15C10A to charge battery bank t...

Page 23: ...tainer temperature by using infrared thermometer 2 Use infrared thermometer to measure ambient temperature 1 Ambient Temp 20 55 2 Recommended Temperature 25 5 1 Check that the battery temperature comp...

Page 24: ...Item Content Standard Maintenance 1 Measurement of each battery s floating voltage Measure each battery s floating voltage by using multimeter Battery floating voltage differential pressure must meet...

Page 25: ...capacity to be maintained must be more than 80 and in energy storage use more than 60 of the reference capacity Recovery test measure and record various parameters specified in the monthly quarterly...

Page 26: ...No 1 Shengyang Road Qufu City Shandong Province 273100 P R China Tel 0086 537 4422313 Fax 0086 537 4411980 E mail sales sacredsun cn...

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