BATTERIES BATTERIES VRLA / SLA / GEL 2V/6V/12V
VRA / SLA BATTERIES AGM (2V, 12V Cell) Durable and Power Full Batteries A VRLA battery (valve-regulated lead-acid battery) more commonly known as a sealed battery (SLA) is a lead acid rechargeable battery because of their construction, VRLA batteries do not require regular addition of water to the cells, and vent less gas than flooded lead-acid batteries. The reduced venting is an advantage since they can be used in confined or badly ventilated spaces,but sealing cells and preventing access to the electrolyte also has several considerable disadvantages as discussed below. VRLA batteries are commonly further classified as, Absorbed glass mat (AGM) battery & Gel battery ("GEL CELL"). DP Electronice e.k has a high and new technology enterprises in the field of valve-controlled sealed lead-acid battery. DP Electronice e.k has passed ISO1 quality system certification, ISO11 environmental management system certification, products of the battery has passed the international CE, FCC, UL certification. Series of Gel valve-controlled sealed lead-acid battery performance indicators have reached the IEC standard and Germany DIN standard requirements,. Deutsche Power has the following range: Applications AGM NP Series (General ) 12V Cell NPF Series (General ) 12V Cell NPL Series (Deep cycle ) 12V Cell GEL GFM Series 2V Cell NPG Series 12V Cell NPFG Series 12V Cell Audio & Video Equipment, Geo physical Equipment Burglar and Fire Alarm, Solar Power Devices Portable Lights, UPS Equipment, Electric Wheel chairs Riding Toys, Cash Registers, Emergency Lighting Test Equipment, Robotics, Telecommunications Conformity Conform to EU EMC- Directive 4/18/EC EN 6-6-1: 7 EN 6-6-3: 7 IEC, JIS, UL, BS62 - Part 4 Low Self Discharge & Long Shelf Life Because of the use of lead calcium alloy grids, Deutsche Power battery has less than 3% self-discharge monthly at room temperature of 25C and it can be stored for long periods of time without recharge. Gas Recombination System More than % of gasses generated in the normal charge / discharge use of a rechargeable battery are internally recombined during normal operating parameters. Exceptional Leak Proof As all the acid is absorbed in the valve regulated (sealed) construction which provides a safe Non-spillable battery that is leak proof. Innovative Technique Benchmarking Technique - Semi automated Cast On Strap (COS) production, this unique production together with a computer program (CUP) controlling welding temperature and time to guarantee welding quality which provides benefit of plate consistency and enhanced plate performance. Terminals are formed in a single cast on strap operation that greatly reduces the welding resistance of the terminals and increases their current carrying capacity. Electrolyte Maintenance Free Operation The separator used is made of non-woven fabric of fine glass fibers which have high resistance to acid and low electro-conductivity. The high porosity of the separators retains adequate electrolyte for the reaction of active materials in the plates. As a result, no electrolyte maintenance is needed for the life of the battery. There is no need to add water or take specific gravity readings.
AGM (2V, 12V Cell) NP Series (General ) 12V Cell Maintenance-free without rehydration; Internal resistance is small, high rate discharge performance; Wide temperature (-35 C~45 C) Low self discharge Long service life (3-5) Charging factory, easy to use Safe and explosion-proof Unique recipes, deep discharge recovery performance Non-free electrolytes, lateral degrees has been able to use. NPL Series (Deep cycle ) 12V Cell Deep Cycle design 1 Years design Life Maintenance-free without rehydration; Internal resistance is small, high rate discharge performance Wide temperature (-35 C~45 C) Low self discharge Long service life (8-1) years Charging factory, easy to use Safe and explosion-proof Unique recipes, deep discharge recovery performance Non-free electrolytes, lateral degrees has been able to use. NP4-12 NP-12 NP5-12 NP6-12 NP7-12 NP7.5-12 NP8-12 NP9-12 NP12-12 NP14-12 NP18-12 NP-12 NP-12 NP26-12 NP28-12 NP33-12 NP38-12 NP44-12 NP-12 NP-12 NP-12 NP-12 NP-12 NP-12 NP11-12 NP-12 NP-12 NP1-12 NP1-12 NPL-6 NPL1-6 NPL-6 NPL12-12 NPL14-12 NPL18-12 NPL-12 NPL-12 NPL26-12 NPL28-12 NPL33-12 NPL38-12 NPL44-12 NPL-12 NPL-12 NPL-12 NPL-12 NPL-12 NPL-12 NPL11-12 NPL-12 NPL-12 NPL1-12 NPL1-12 NPL1-12 NPL-12 NPL23-12 NPL2-12 NPL2-12 4AH-12V AH-12V 5AH-12V 6AH-12V 7AH-12V 7.5AH-12V 8AH-12V 9AH-12V 12AH-12V 14AH-12V 18AH-12V AH-12V AH-12V 26AH-12V 28AH-12V 33AH-12V 38AH-12V 44AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V 11AH-12V AH-12V AH-12V 1AH-12V 1AH-12V AH-6V 1AH-6V AH-6V 12AH-12V 14AH-12V 18AH-12V AH-12V AH-12V 26AH-12V 28AH-12V 33AH-12V 38AH-12V 44AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V 11AH-12V AH-12V AH-12V 1AH-12V 1AH-12V 1AH-12V AH-12V 23AH-12V 2AH-12V 2AH-12V L±1 W±1 H1±2 H2±2 196 228 3 37 9 341 483 532 167 126 131 137 169 7 1 1 282 1 1 227 231 2 L±1 W±1H1±2 H2±2 195 36 323 196 228 3 37 9 341 483 532 532 522 521 521 5 178 167 126 131 137 169 7 7 2 269 269 269 6 1 1 282 218 3 3 9 2 1 1 227 231 2 2 4 6 6 Weight Kg±.5Kg 1.52 1. 1. 2.15 2.3 2. 2. 2. 3. 4.1 5. 7. 8. 8.1 9.7 1.5 13.3 1 18.6 31.3 26.8 3.5 31.2 36. 41.8 4 53.2 Weight (AH) @ 25 C, 1.V/Cell Kg±.5Kg 17. 28.7 3.2 3. 4.1 5. 7. 8. 8.1 9.7 1.5 13.3 1 18.6 26.8 3.5 31.2 36. 41.8 4 53.4 56.3 61.5 66. 67.. (AH) @ 25 C, 1.V/Cell 1HR 3HR 5HR 1HR HR 2.3 2. 3. 3.3 4.2 4.6 5. 7. 8. 9.9 15.5 18.3.2 32. 38. 41. 45. 51. 3. 3.4 3.8 5.4 5.7 6. 6.8 9.1 1.6 19.5 21. 25.. 35. 43... 61. 69. 3.45 3.83 4.3 4.3 6.1 6.5 6.8 7.7 1.5 17.5 21. 28.2 33. 39.5 47.5 57. 61. 69. 78. 3.8 4.2 4.8 5.7 6.8 7.2 7.5 8.5 13. 17. 22.5 26. 32. 38. 44...... 4. 5. 6. 7. 7.5 8. 9. 14. 18.. 26. 28. 33.. 46. 58. 68. 73... 59. 51. 78. 79. 88... 11. 11... 92. 15.. 13... 115.. 148. 87. 115. 13. 1... 1 1. 1. 1. 1HR 3HR 5HR 1HR HR 2.3 92. 1.5.. 2. 1.. 1.. 3. 152.... 3.3 4.2 4.6 5. 7. 8. 9.9 15.5 18.3.2 9.1 1.6 19.5 21. 25.. 35. 43... 61. 69. 1.5 17.5 21. 28.2 33. 39.5 47.5 57. 61. 69. 78. 13. 17. 22.5 26. 32. 38. 44...... 14. 18.. 26. 28. 33.. 46. 58. 68. 73... 32. 38. 78. 79. 88... 11. 11.. 41. 92. 15.. 13. 45.. 115.. 148. 51. 115. 59. 1 13. 1. 1.. 1. 1. 51. 1.. 1. 1.. 152......5 196. 23. 2. 87. 182. 6. 2. 2.. 1. 215. 2. 2.
AGM (2V, 12V Cell) NPF Series (General Front Terminal ) 12V Cell Maintenance-free without rehydration; Internal resistance is small, high rate discharge performance; Wide temperature (-35-45); Unique recipes, deep discharge recovery performance; Non-free electrolytes, lateral degrees has been able to use. Low self discharge; Long service life (8-1); Charging factory, easy to use; Safe and explosion-proof; VOLUME 6V&12V Charge characteristic curve CURRENT VOLTAGE (%) (A).1 C.2 C.4 C.6 C.8 C 7. 6. 6. 5. FOR 6V VOLUME VOLGTAGE %D.O.D. % Depth of Discharge 25 C CURRENT 6 1 15 25 3 35 1 Charging Time (h) VOLTAGE FOR 12V 14. 13. FOR 12V 13. 1. Temperature effects on capacity 9. 8. 6v&12v Discharge Characteristics FOR 6V 6.5 6. 5.5 5. 4. 1C 7C 3C 5C 2C 1C.4C.6C.2C.1C.5C 1 2 4 6 81 2 4 68 1 2 4 6 81 SECONDS MINUTES HOURS Discharge Time NP-12-F AH-12V NP-12-F AH-12V NP-12-F AH-12V NP-12-F AH-12V NP-12-F AH-12V NP-12-F AH-12V 6V /12V Characteristics Graph (AH)@ 25 C, 1.V/Cell Weight L±1 W±1 H1±2H2±2 Kg±.5Kg 1HR 3HR 5HR 1HR HR 277 3 3 239 (AH%) Self-discharge characteristic 239 18. 28. 34. 38. 42.. 33 48 72 77 97 41 61 97 121 46 68 11 115 1 AGM battery Cycle service life in relation of depth of discharge %DOD %DOD 3%DOD 58 86 17 128 1 Number of cycles (cycles) @25 C (%).5CA.1CA (%) C (32 F).25CA.6CA 1CA 2CA 25 C(14 F) 1 C ( F) C (68 F) 3 C (86 F) - -1 1 3 ( C) -4 14 32 68 86 14 122 1 ( F) Temperature 3 6 9 12 15 18 Storage time (Months)
GEL (2V, 12V Cell) Gel Design Deep Cycle 12V Cell 15 Years Design Life Gel electrolyte, acid-free fluid stratification, plate response uniform, enhancing the reliability of large battery capacity and service life. Minimal maintenance, never needs water Non-spill-able Great for deep-cycle applications Valve regulated with Catalyst Fully tank formed plates Spill proof and leak proof Low gassing on float charge Operates at low internal pressure Increased safety Manifolded gasing system NEGATIVE PLATE: Flat pasted grid POSITIVE PLATE: Lead calcium flat plate grid ELECTROLYTE: Sulphuric acid or thixotropic Gel Shock absorbent thick wall polypropylene cases High purity lead calcium-tin alloy grids (patented) May be operated in virtually any position (upside-down is not recommended) Recombination reaction (recombinant battery) prevents escape of hydrogen and oxygen gases normally lost in flooded lead-acid batteries NPFG-12 NPFG-12 NPFG-12 NPFG-12 NPFG-12 NPG-6 NPG18-12 NPG26-12 NPG33-12 NPG-12 NPG-12 NPG-12 NPG-12 NPG-12 NPG-12 NPG11-12 NPG-12 NPG-12 NPG1-12 NPG-12 NPG2-12 AH-12V AH-12V AH-12V AH-12V AH-12V AH-6V 18AH-12V 26AH-12V 33AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V AH-12V 11AH-12V AH-12V AH-12V 1AH-12V AH-12V 2AH-12V NPFG Series 12V Cell L±1 W±1 H1±2 H2±2 277 3 3 NPG Series 12V Cell 3 195 1 2 2 2 36 36 326 326 341 482 5 5 188 126 131 138 2 2 1 212 212 281 2 1 281 Weight (AH) @ 25 C, 1.V/Cell Kg±.5Kg 3HR 5HR 1HR HR HR 18. 28. 35.5 42.. 33 5.8 1. 19. 25.5 26.5 3.5 32.5 34. 36. 42.5 48.5 66..5.4 57. 45.7. 51. 74..... 72. 81... 1. 15. 115.. 137. 113. 1. 145... Weight (AH) @ 25 C, 1.V/Cell L±1 W±1 H1±2 H2±2 Kg±.5Kg 3HR 5HR 1HR HR HR 1 12.5 19. 22 39 78 88 83 1 21 32 42 95 115 1 1 15 28 36 81 11 1 16 26 31 11 1 2 18.2 35 44 15 13 1 1 2
GEL (2v. 12v Cell) GFM Series (2v. Cell) Gel electrolyte, acid-free fluid stratification, plate response uniform, enhancing the reliability of large battery capacity and service life. Minimal maintenance, never needs water GFM-2 GFM-2 GFM1-2 GFM-2 GFM3-2 GFM-2 GFM4-2 GFM-2 GFM-2 GFM-2 GFM-2 GFM-2 GFM-2 GFM-2 GFM1-2 GFM-2 GFM3-2 Non-spill-able Great for deep-cycle applications Valve regulated with Catalyst Fully tank formed plates Spill proof and leak proof Low gassing on float charge Operates at low internal pressure Increased safety Manifolded gasing system AH-2V AH-2V 1AH-2V AH-2V 3AH-2V AH-2V 4AH-2V AH-2V AH-2V AH-2V AH-2V AH-2V AH-2V AH-2V 1AH-2V AH-2V 3AH-2V GFM Series 2V Cell L±1 W±1 H1±2 H2±2.. 1. 27.5. 82.5 161 171 2 1. 11. 3.... 4. 7.5. 2.. 33.. 3.. 4.. 5.. 6.. 687.5 1. 825. 171 211 31 31 41 4 4 4 471 281. 1. 491 3.. 712 Weight Kg±.5Kg 33 5.8 1. 19. 25.5 26.5 3.5 32.5 34. 36. 42.5 48.5 66..5 (AH) @ 25 C, 1.V/Cell 3HR 5HR 1HR HR HR 1 12.5 19. 22 39 78 88 83 1 21 32 42 95 115 1 1 15 28 36 81 11 1 16 26 31 11 1 2 18.2 35 44 15 13 1 1 2 GEL 2V / 12V Characteristic Charts (%) CHARGED VOLUME (%) (A) 25 C.1C.8C.6C.4C.2C FOR 2V 2.2 2. 1.4 CHARGED CURRENT 2V Charge Characteristic Curve 2.4 2.3 2.2 2.1 2. CHARGED VOLTAGE VOLUME VOLTAGE %D.O.D. %D.O.D CURRENT 4 8 12 16 28 32 36 Charging Time (h) 2V Discharge Characteristic 2.CA 2.1CA 1.1CA.CA 1 2 4 6 8 1 2 4 6 81 (AH%) (%) 25 MINUTES Discharge Time.3CA HOURS Gel battery Cycle service life in relation of depth of discharge.1ca %DOD %DOD 3%DOD 3 1 13 1 Number of cycles (cycles) @25 C Temperature effects on capacity.5ca.1ca.25ca.6ca 1CA 2CA - -1 1 3 ( C) -4 14 32 68 86 14 122 1 ( F) Temperature Self-discharge characteristic C(14 F) 3 C (86 F) C (32 F) 1 C ( F) C (68 F) 3 6 9 12 15 18 Storage time (Months)