century deep cycle batteries · pdf filecause to a standard automotive battery. for steady...
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DEPENDABILITYCentury Deep Cycle Batteries
D E E P C Y C L E B A T T E R I E S
PLUS!
Century Deep Cycle Batteries
Century’s Deep Cycle Batteries are designed to provide
longer life performance when continually discharged and
recharged, delivering energy for extended periods of time,
without sustaining life shortening damage such use would
cause to a standard automotive battery.
For steady power over a long period of time a Deep Cycle
battery is your best choice.
Typical applications include:
Mobility Scooters
Golf Carts
Camper Vans
Portable Lifting Equipment
Solar Heating
Hunting Spot Lighting
Marine Auxillary Equipment
Remote Area Power Systems
Portable Roading Systems
Inverter Integrated Systems
Portable Communication Systems
C Y C L I C D U T Y
Choosing the right BatteryCentury Batteries provide a wide variety of products to suit many needs, ranging from Wet Flooded batteries to Sealed Gel products. Whatever your choice, it is important to have adequate capacity (Amp Hours) in the battery for the amount of power your application will use. You can work this out quickly and easily by establishing: the power consumption of each piece of equipment (marked in watts on the equipments’ information panel); the number of hours you will use between recharges; and the voltage of the system.
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Now divide the total Watt Hours by the system voltage to obtain the Amp Hours.
498 Watt Hours / 12 Volts (12 volt system) = 41.5 Amp Hours
This figure is basically your guide to the battery size you need, after one more very important calculation. Electrical systems are not always perfect, so we strongly recommend you allow a little power in reserve. A 30% safety margin is a reasonable allowance for most applications. For larger more critical systems allow 50%.
Estimated Amp Hours (41.5) + 30% (12.45) = Total Amp Hours 53.95
Now you can select the correct battery for your needs simply by comparing your total calculated Amp Hours with the 20-hour capacity figures shown in the battery specification tables.
Note: the faster a battery is discharged, the fewer Amp Hours it will deliver before requiring a recharge. That is why Deep Cycle batteries carry Amp Hour ratings for various periods of discharge time. For each discharge rate and battery type, divide the Amp Hour capacity by the number of hours, to determine how many amps you can draw per hour per battery.
CENTURY DEEP CYCLE (Wet / Flooded Batteries)Battery Type Amp Hour Capacity @ 25ºC Terminal TypeWeight (kg)Overall Dimensions (mm)Volts
20Hr 10Hr 5Hr Length Width Height
• Extra thick plates – long cycle life in harsh applications• Fibreglass separator technology – locks active material to maximise capacity• Carry handles – lift and place with ease
Equipment Loading (Watts) Estimated Usage (Hours) Watt Hours
Refrigerator 40 x 10 = 400
Interior Lights 20 X 4 = 80
Winch 90 X 0.2 = 18
Total Watt Hours = 498
6V
12V
12V
12V
12V
12V
12V
12V
12V
12DC
47DC
N70DC
86DC
24DC
27DC
30DC
N150DC
N200DC
105
50
75
85
85
100
115
180
240
92
44
66
75
75
87
100
158
211
82
39
60
68
68
80
92
143
187
173
175
175
175
171
168
171
221
275
228
235
305
350
260
305
327
517
520
205
210
225
241
225
227
248
249
245
14
15
22
27
19
24
28
52
68
Standard
Multifit
Multifit
Multifit
Wingnut
Wingnut
Twin Marine
Standard
Standard
OPTIMA DEEP CYCLE (High Performance Sealed Spiralcell™ Technology)Battery Type Amp Hour Capacity @ 25ºC Terminal TypeWeight (kg)Overall Dimensions (mm)Volts
20Hr 10Hr 5Hr Length Width Height
• Fully sealed – non-spillable even when inverted• Spiralcell technology – corrosion resistant plate design for long cycle life coupled with extreme cranking capability• Absorbed glass matt separators – high internal compression results in superior vibration resistance• Ergonomic carry handle – lift and place with ease
D34/78
D31A
D27M
12V
12V
12V
55
75
66
48
65
57
42
57
51
173
165
172
254
325
310
198
238
223
20
27
24
Standard + Side
Standard
Twin Marine
CENTURY GEL (Gel Valve Regulated Sealed)Battery Type Amp Hour Capacity @ 25ºC Terminal TypeWeight (kg)Overall Dimensions (mm)Volts
20Hr 10Hr 5Hr Length Width Height
• Fully sealed – non-spillable GEL design• Maintenance free – gas recombination technology• GEL technology – superior vibration resistance• Strong case material – high quality ABS case and lid resist distortion• Carrying convenience – pre-fitted carry handles for ease of transportation and placement
GU1H
GDC33
GDC40
GDC78
GDC110
GDC150
GDC232
12V
12V
12V
12V
12V
12V
12V
32
33
40
78
110
150
232
29
29
36
70
99
135
209
25
25
31
60
85
116
180
130
130
165
169
172
170
270
211
195
198
260
330
490
522
184
170
171
220
225
245
219
11
11
14
24
31
46
70
Lug
Insert M6
Insert M6
Insert M6
Insert M8
Insert M8
Insert M8
CENTURY SPECIALIST APPLICATIONS (Wet / Flooded Batteries)Battery Type Amp Hour Capacity @ 25ºC Terminal TypeWeight (kg)Overall Dimensions (mm)Volts
20Hr 10Hr 5Hr Length Width Height
• Larger sizes – dependable power for speciallist applications such as mobility, golf buggy and remote area power supply use• Fibreglass separator technology – locks active material to maximise capacity• Rugged case and lid – impervious to harsh environments
CY220-6
CY245-6
CY350-6
8VGC
6V
6V
6V
8V
225
245
350
167
198
216
308
147
176
176
273
130
179
179
181
179
262
262
314
262
276
302
419
276
27
33
54
28
Multifit
Multifit
Multifit
Wingnut
cell. Voltage checks (open circuit, charged and discharged) can locate a bad battery or weak battery. Load testing will pick out a bad battery when other methods fail. A weak battery will cause premature failure of companion batteries.
• Always use a matched voltage charger and battery pack system. An undersized charger will never get the job done, no matter how long you let it run. An oversized charger will cause excess gassing and heat; this situation could cause explosions or other damage.
• As batteries age, their maintenance requirements change. This means longer charging time and/or higher finish rate (higher amperage at the end of the charge). Usually older batteries need to be watered more often. And, their capacity decreases.
• Lead acid batteries should be brought up to full charge at the earliest opportunity. Avoid continuously operating batteries in a partially charged condition. This will shorten their life and reduce their capacity.
• Extreme temperatures can substantially affect battery performance and charging. Cold reduces battery capacity and retards charging. Heat increases water usage and can result in overcharging. Very high temperatures can cause “thermal run-away” which may lead to an explosion or fire. If extreme temperature is an unavoidable part of an application, consult a battery/charger specialist about ways to deal with the problem.
• Inactivity can be extremely harmful to all lead acid batteries. If seasonal use is anticipated, we recommend the following:
A) Completely charge the battery before storing.
B) Remove all electrical connections from the battery, including series/parallel connectors.
C) Store the battery in as cool a place as possible. However, do not store in a location which will consistently be below 0°C (32°F). Batteries will discharge when stored, the lower the temperature the lower the self discharge.
D) When not in use, boost every two months.
• New batteries should be given a full charge before use.
• New deep cycle batteries need to be cycled several times before reaching full capacity (50 - 125 cycles, depending on type). Usage should be limited during this period.
• Battery cables should be intact, and the connectors kept tight at all times. Systematic inspection is recommended.
• Vent caps should be kept in place and tight during vehicle operation and battery charging.
• Batteries should be kept clean and free of dirt and corrosion at all times.
• Batteries should be watered after charging unless plates are exposed before charging. If exposed, plates should be covered by approximately 1/8” of acid. Check acid level after charge. The acid level should be kept 1/4” below the bottom of the fill well in the cell cover.
• Water used to replenish batteries should be distilled or treated not to exceed 200 T.D.S. (total dissolved solids...parts per million). Particular care should be taken to avoid metallic contamination (iron).
• For best battery life, batteries should not be discharged below 80% of their rated capacity. Proper battery sizing will help avoid excessive discharge.
• Battery chargers should be matched to fully charge batteries in an eight hour period. Defective chargers will damage batteries or severely reduce their performance.
• Avoid charging at temperatures above 49°C (120°F) or ambient, whichever is higher.
• Deep cycle batteries need to be equalized periodically. Equalizing is an extended, low current charge performed after the normal charge cycle. This extra charge helps keep all cells in balance. Actively used batteries should be equalized once per week. Manually timed chargers should have the charge time extended approximately 3 hours. Automatically controlled chargers should be unplugged and reconnected after completing a charge.
• In situations where multiple batteries are connected in series, parallel or series/parallel, replacement battery(s) should be of the same size, age and usage level as the companion batteries. Do not put a new battery into a pack which has 50 or more cycles. Either replace with all new or use a good used battery(s).
• Periodic battery testing is an important preventative maintenance procedure. A hydrometer reading of each cell (fully charged) gives an indication of balance and true charge level. Imbalance could mean the need for equalizing and is often a sign of improper charging or a bad
• Charging parameters may vary according to environmental usage and equipment factors. Two or three stage constant voltage chargers are recommended for batteries used in Deep Cycle applications.• Vessels and vehicles with dual battery systems require specialist battery isolation systems (refer to “The Importance Of Battery Isolation”) and a qualified marine or automotive electrician should be consulted.• Marine chargers should be fitted with isolated transformers and the AC shore power circuit should be fitted with galvanic isolation.
Type Bulk / Absorption Rate Float rate Equalisation
Century Deep Cycle 2.40 - 2.50 Volts Per Cell (VPC) 2.25 - 2.27 VPC 2.55 - 2.60 VPC
Century Semi Traction 2.50 VPC 2.25 - 2.27 VPC 2.55 - 2.60 VPC
Optima Spiralcell 2.30 - 2.50 VPC 2.20 - 2.30 VPC 2.60 VPC
Century Gel 2.45 VPC 2.25 - 2.27 VPC N/A
RECOMMENDED CHARGING INFORMATION - Cyclic Application @ 25ºC
For sales and service call 0800 93 93 93www.cyb.co.nz
Taking Care of Your Battery
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