1. handling instruction 3. general features 2. applications

BRIEF

As one of the professional suppliers in south of china, Motoma power , is one of the famous Maintenance

-Free Rechargeable Sealed Lead -Acid battery (GFM/SLA) manufacturers and exporters in P.R.China.

We are engaged in the R&D, produce and marketing of Valve Regulated Lead-Acid (VRLA) Batteries, which mainly used for telecommunication systems, electric powered equipments, power tools, solar powered systems, UPS, Emergency lighting etc.

We are keeping search for the new materials, new construction, new technology of Lead-Acid Batteries, we have much improved the performance & characteristics of VRLA/SLA batteries. The specific energy rise up approx.50% to 55wh/g, specific power improved up approx. 60% to 230wh/g, With an output of

400,000 kvah rating from 0.5 to 3000ah.

Strong R&D support us to customize your products, we have develop series of battery as high rate discharge battery, deep cycle discharge battery etc.

For more information, pls contact your local motoma battery distributors.

A view to workshop

MH46015 ISO9001:2000

1

1. HANDLING INSTRUCTION

Please read the Handling Manual entirety and its contents fully understood before handling or using Motoma rechargeable Valve Regulated Lead-Acid (VRLA) Batteries.

For you safety and that of your customers observe all cautionary information provided in the manual. Save the manual for future reference.

2. APPLICATIONS

Standby use

Emergency Light and Guide Light

UPS

Computers Peripheral Terminals

Fire & Security Alarm Systems

Marine Equipment

Solar Powered Systems

Security and Alarm Systems

Telecommunication Systems

ATM machine

Marine Equipment

Mlitary Equipment

Railway System

Cable Television

Cycle use

Electric powered Bicycle

Medical Equipment

Portable Measuring Instruments

Powers Tools

Television & Video Recorders

Toys

Office Equipment

Garden Lighting

Vending Machines

Electric Wheelchair

Electric Power Station

Golf Car

Electric Fork

3. GENERAL FEATURES

3.1 Stable quality and High Reliability

MOTOMA SLA battery offer stable quality and high reliability .The battery can with-

stand overcharge, over-discharge, vibration and shock.

3.2 Maintenance-Free

MOTOMA SLA battery are maintenance free during service. There is no need to refill

electrolyte or water etc.

3.3 Safety

MOTOMA SLA battery can operate safely and efficiently, and do not generate any

electrolyte leakage. They are safety to human being and environment.

3.4 Sealed Construction

MOTOMA battery`s unique construction and sealing technical ensure that the battery

could be operated safety in any position.

3.5 Heavy Duty Grids

MOTOMA SLA battery provide an extra margin of performance and service life in both

float and cyclic applications.

3.6 Long Service Life

MOTOMA SLA battery has long life in float or cyclic service. The maximum service

life could be more than 10 years at a properly application condition.

3.7 Long Shelf Life and Low Self-Discharge

MOTOMA SLA battery can be stored long time without recharge.

3.8 Wide Operating Environment

MOTOMA SLA battery can be operated at temperature range: ~20 ~60 .

2

4. Electrochemical Principle

PbO + 2H SO

2 2

Discharge

4

+ Pb PbSO + 2H O + PbSO

4 2 4

Charge

(Lead Dioxide)

Active positive

Material

(Sulfuric Acid)

Electrolyte

(Lead)

Negative Active

Material

(Lead Sulfate)

Positive Active

Material

(Water)

Electrolyte

(Lead Sulfate)

Negative Active

Material

Positive Plate.

Negative Plate.

Net.

2 4

+

PbO + S O + 4H + 2e = PbSO + 2H O

+

PbO + 2SO + 4H + Pb = 2PbSO + 2H O

The gassing and water loss reactions are as follows:

Positive Plate.

Negative Plate.

Net.

+

H O = 2H + O + 2e

2

2

2

2H + 2e = H

2

H O = H + O

2 2

1

2

It is noted that the gassing reaction only generally occurs to any extent when the battery is almost

totally charged.

In the valve regulated battery it is obvious that water loss must be avoided. This is done by limiting the escape of hydrogen and oxygen from the battery. The design therefore accomplishes the recombination of the oxygen formed at the positive plate with the hydrogen formed at the negative plate. The reaction is as follows.

Negative a.

Negative b.

Net Negative.

1

2

1

2

+

PbSO + 2H + 2e = Pb + H SO

4

+

O + 2H + 2e = H O

2 2

Because the oxygen gas generated in the final stage of charging is absorbed by the negative, as shown by above equations, there is no increase in internal pressure, despite the sealed construction.

When, however, the charging current exceeds the specified value, or when charging is conducted at less than the specified temperature, the amount of gas generated by reaction (1) cannot all be absorbed by reaction. (2)In the event, an increase in internal pressure develops, and, in the worst case, the safety vent opens.

5. CONSTRUCTION

Table 5.2 Battery Construction and Functions

Battery Parts

Positive and

Negative plates

Material Used Special Function

Pasted type plate in which special lead-tincalcium alloy grids are pasted with active material.

Retain high capacity

Maintain capacity performance throughout service life

Minimize self-discharge

Separator

Safety valve

Electrolyte

Sealing epoxy

Container & cover

& top lid

Terminal

Construction

Microporous glass fiber (AGM) Prevents short-circuit between(+) and (-) plates

Prevents active material from shedding

Retains electrolyte

Synthetic rubber cap with excellent acid resistance

In cap shape

Release gas if internal pressure rises too high.

Vent release pressure is between 2~6Psi

Highly purified dilute sulphuric acid with special additives

Acid-resistant epoxy resin

Injection-moulded made of

ABS synthetic resin

It is absorbed by plates & separator

Conduct electro-chemical reaction in (+) and (-) plates

Sealing condition allow the gas recombination system which transforms the generated gas into water, thus no topping-up is required throughout battery life and is maintenance-free

Leakproof from terminal or case

Ensure safety

Withstands thermal and mechanical shock

Integral handle incorporated into lid for easy lifting

Threaded

Sealing compound

Brass insert

Lead alloy post

O ring

Made of copper or lead alloy integrally moulded with terminal post

Terminal section employs dual complete seal construction of O-ring and sealing compound

Color of sealing compound: red for positive section and black for negative section

Optional type has a nut embedded in terminal

Threaded insert terminal provides maximum conductivity and enhance high rate of discharge characteristics

6. BATTERY CHARGING INSTRUCTION

6.1 Corre ct battery charg ing assures the maximum possible service life for the MOTOMA battery.

Co rrec t charging method assures the maximum possible service life for the MOTOMA battery.

Selecting the appropriate charging method depends on the intended use such as float or

cycle service, recharge time, anticipated frequency & depth of discharge, expected service

life and economic considerations, etc.

There are four major methods of charging.

Constant Voltage Charging.

Constant Current Charging.

Taper-Current Charging.

Two Step Combination Charging.

6.2 Recommended Charging Circuit

FOR 12 VOLT BATTERY

IC

FOR 6 VOLT BATTERY

Notes: It is desirable for the charger to be temperature compensated.

6.3 Constant Voltage Charging

This is the recommended method of charging for MOTOMA SLA batteries. It is necessary

to closely control the actual voltage to ensure that it is within the limits advised.

6.3.1 It is suggested that the initial current be set within 0.2C Amps. The attached graph indicates

the time taken to fully recharge the battery. It should be noted that the graph illustrated is

for a fully discharged battery, i.e : a battery that have reached the minimum cell voltage

recommended for its discharge time. It is seen that it is necessary to charge a greater

amount of energy into the battery than was taken out of the battery on discharge. The actual

current indicating that battery is full charged is approx 5mA/Ah under charging voltage is

2.30 v/cell.

%

120

Recharge at 0.2C

Full discharged charge 0.2c limit 2.30V/CELL

TEMP. 20

0.25

0.2

100

80

0.15

60

0.1

40

0.05

20

0

0

0 5 10 15 20 25 3 0

CHARGE TIME(Hrs)

6.3.2 It is necessary to ensure that the voltage is

correctly set. A charging voltage set too high

will increase the corrosion of the positive

plates and shorten battery life. A cha rgin g

voltage set too low will lead to sulphation of

t h e p l a t e s c a u s i n g l o s s o f c a p a c i t y a n d

ultimately shortening the life of the battery.

6.3.3 The battery requires approx. 110% of the

total discharging energy to fully recharge.

Constant-Voltage Charge

With Current Limited

I

V

Time

5

6.3.4 Recommended Charging Voltage

Application

Charging

Method

(Note: All at 20 ,68 F)

During Storage Standby/Backup use Standby use

Trickle Charge

Operation

Float Charge

Operation

Cyclic Charge

Operation

Refresh Charge

During Storage

Regulation range of controlled voltage(20 ,68 F):

2V Batteries: 2.25V to 2.30V




This method can

Provide a short-time charge

The charge s current capacity must be big enough to maintain the specified charging voltage during float

Regulation range of controlled voltage(20 ,68 F):



8V Batteries: 9.6V to 10V


Short - time charge allowed

Same model batteries, under the same storage, can be charged in series,

Otherwise, they should be recharged in separate groups.

The charge voltage must be stabilized, otherwise, a battery may be overcharged or discharged.

The charger should be temperature compensated when using battery in a wide range of ambient temperature.

Not Recommended Not applicable Not Recommended

Charging current: approx.0.1 C

Charging time control is strictly recommended. Otherwise, overcharge may occur.

No temperature compensation is needed.

Not Recommended Not Recommended Not Recommended

Two-step constant current charge is highly recommended

1)appox.0.4C at the first step.

2)0.002C-0.005C at the

second step.

A time control or a charging voltage detection device is required to transfer from the first step to the second.

Not applicable

Note: C rate in the above table refer to current as a percentage of nominal capacity.

i.e: For model 12M7.0Ah) 0.3C=0.3X7Ah=2.1Amp.

6.4 Constant Current Charging

It is generally not recommended for the battery, yet it is an effective method for supplementary charge of many batteries at one time in series during storage. The charging time must be stric tly controlled, if not, considerable damage will occur to the batteries due to overcharge.

6.5 Two-Step Combination Charging

This system employs two steps of charging, it can be constant current-constant voltage, constant

-current constant current, etc.. Yet is should not be used where the battery and load are connected in parallel.

6.6 Taper Current Charging

In this system, a charging cut-off circuit should be incorporated in the charger to prevent overcharge.

It can be utilized for some industrial uses and trickle charging system.

6

7.1 Float-Charge Standby Application

In this system, the battery and the load are connected in parallel with the rectified power s o u r c e , o n l y a c o n s t a n t v o l t a g e c h a r g e r i s required. The voltage applied is recommended as 2.25~2.30VPC (voltage per cell) at 25 . The initial current is suggested to be set within 0.2C

(A). The attached Figure 1 indicates the time taken to fully recharge the battery.

Figure 1 Float-charge

CHARGING CHARACTERISTICS

CHARGE

VOLUME

%

CHARGING

CURRENT

(A)

CHARGED

VOLTAGE

(V/cell)

Charge At 0.1C amp initial charging current and

2.4V/Cell Constant Voltage At 20

CHARGED VOLUME

120 0.1C

2.4

100 0.08C

2.3

CHARGE VOLUME

(Constant 2.26v/cell)

80

60

40

0.06C

0.04C

0.02C

2.2

2.1

2.0

AFTER 50% DISCHARGE

AFTER 100% DISCHARGE

DISCHARGING CURRENT

(initial at 0.1C Amp)

20 0C

0 4 8 12 16 20 24 28

CHARGING TIME(Hours)

7 .2. Cyclic Application

Cyclic use requires a short time charge and p r o t e c t i o n a g a i n s t e x c e s s i v e c h a r g e s a n d d i s c h a r ge s . T h e c o n s t a n t v o l t a g e a p p l i e d i s r e c o m m e n d e d i s 2 . 4 0 - 2 . 5 0 V P C ( v o l t a g e per cell) at 25 . The initial current is suggested t o b e w i t h i n 0 . 3 C ( A ) . T h e a t t a c h e d Fi gu re

2 i n d i c a t e s t h e t i m e t a k e n t o f u l l y re ch ar ge the battery.

Figure 2 Cyclic use-recharge

CHARGING CHARACTERISTICS

CHARGE

VOLUME

%

CHARGING

CURRENT

(A)

CHARGED

VOLTAGE

(V/cell)

Charge At 0.1C amp initial charging current and

2 .40

V/Cell Constant Voltage At 20

CHARGED VOLUME

120

100

0.1C

0.08C

2.5

2.4

CHARGE VOLUME

(Constant 2.40v/cell)

80 0.06C

2.3

60

40

0.04C

0.02C

2.2

2.1

AFTER 50% DISCHARGE

AFTER 100% DISCHARGE

DISCHARGING CURRENT

(initial at 0.1C Amp)

20 0C

0 4 8 12 16 20 24 28


7.3 Trickle-Charge Standby Application

Under trickle charge operation, AC power is normally supplied for operating the equipment, the batteries are not connected to the load and are normally kept in full charged condition. A two-rate charger or a constant voltage charger can be used.

7.

4 Supplementary charge/refresh charge

During storage, supplementary charge is needed as remaining capacity is 80% or less. Table

10. 4.1 sho ws t he r ecommended supplementary charge interval and method under different

stor age te mper atur e. Som etim es, supplementary charge shall be repeated until capacity is

recovered to the pre-storage capacity. If capacity decreased to over 60% i.e. When open

cir cui t vo lta ge i s 6. 3V or 12.6V at 77 F(25 ), supplementary charge may fail to recover the

capacity. However, storing batteries at 59 F(15 ) or below will give a shelf life of over 12 months

before supplementary charge is necessary.

Table 10.4.1 Supplementary Charge Interval and Charge Method

Storage Temperature Recommended Supplementary Charge Interval Supplementary Charge Method

Below 68 F(20 )

68 F to86 F(20 to 30 )

Over 86 F(30 )

Every six months

Every three months

Storage to be avoided

16-24 hours with a constant voltage of 2.275V/cell

5-8 hours with a constant voltage of 2.34V/cell

5-8 hours with a constant current of 0.05V/CA

7

7.5 Recovery Charge After Deep Discharge

Figure 4 Recovery charge

Battery are over-discharged when it is di scha rged below the specified final voltage. Service life would be shortened and it requires a longer c h a r g i n g p e r i o d . A t t h e f i r s t s t a g e , b a t t e r y vol tag e wil l be hig h whi le charging current keep quite small for about 0.5~2 hours then increase slowly until the internal resistance has been overcome, then normal and full recovery charging characteristics resume. (Figure 4)

100

80

60

40

20

% (XCA)

0.25

0.20

0.15

0.10

0.05

(V)

16.00

14.00

12.00

10.00

0.25CA-14.5V CONSTANT VOLTAGE CHARGING FOR 24HOURS

DEEP DISCHARGE: WITH RESISTOR EQUAL TO 2C DISCHARGE FOR 24HRs

AND STORED FOR 30DAYs IN OPEN CIRCUIT CONDITION

AMBIENT TEMPERATURE: 25 C(77F)

CHARGING CURRENT

CHARGED

VOLUME

CHARGE VOLTAGE

0 2 4 6 8 10 12 14 16 1 8 20 22 24


Deep Discharge Conditions:-

--0.25CA ,14.5V constant voltage charging for 24 hours

--Deep discharge with 2 ohm resistor for 24 hours

--Stored for 30 days in open circuit Condition

--Ambient temperature:20 (68 F)

7.6 Solar Powered Charges

When the output of the solar array exceeds the capacity of the battery or weather conditions a r e p o t e n t i a l f o r o v e r c h a r g i n g , i t n e e d s a n appropriate regulated circuitry between the solar panels and the battery. MOTOMA battery c a n b e c h a r g e d b y t h e s o l a r a r r a y u s i n g regulated circuitry as shown in Figure 5.

Figure 5 A solar powered charing system

Solar Cell or Panel

Regulated Charging

Circuity

(Charging controller)

Battery

Load

7.7 Equalization Charging

MOTOMA batteries do not normally require equalization charges. However, environmental condition or charger variations may cause voltage imbalances in battery systems. This imbalance can be resolved by a short term equalization charge. An equalization charge is accomplished by raising the charging voltage for certain amount of time. The following table should be used for equalization charge. (25 )

Voltage (VPC): 2.25

2.27 V Time in Hours:

2.28

2.32 V 96---168

2.33

2.35 V 72---96

2.36

2.37 V 48---72

NOTE : Do not exceed 2.37 volts per cell (VPC), or safety valve may release excess gas into

the atmosphere. It is not recommended to use an equalizing charge on a regular basis.

7.8 Initial Charge Current Limit

In the majority of standby applications, no current limit is required. Under constant voltage charge to cyclic application, a discharged battery will accept a high charging current at the initial stage of charging, but continuously high charging current can cause abnormal internal heating and thermal run away that may damage the battery. So it is necessary to limit the initial charging current to 3C(A).

8

7.9 Effect of Temperature on Charging Voltage

Electrochemical activities in battery increase as temperature rises and decreases as temperature falls. Therefore as temperature rises, charging voltage should be reduced to prevent overcharge; as temperature falls, charging voltage sh oul d

be increased to avoid undercharge. To assure optimum service life, it is recommended to use a compensation factor for battery 3mv/ /Cell

( c y c l i c u s e ) . T h e s t a n d a r d c e n t r e p o i n t f o r temperature compensation is 25 . Figure 6 shows the relationship between temperatures an d c ha rg in g v ol ta ges in both cyclic and standby applications.

Figure 6 Temperature vs Charging Voltages

15.6

15.0

14.4

13.8

13.2

7.8

7.5

7.2

6.9

6.6

2.6

2.5

2.4

2.3

2.2

CYCLE

USE

STAN

DBY

USE

-10 0 10 20 30 40 50 60( )

14 32 50 68 86 104 122 144( F)

AMBIENT TEMPERATURE

8. DISCHARGING INSTRUCTIONS

8.1 DISCHARGE CHARACTERISTICS AT DIFFERENT DISCHARGE RATE

Amper e hour capacity of the battery on the dischargerate being used. MOTOMA battery is rated

at 20 hour discharge rate which is defined as the nominal capacity or 100 % capac ity poi nt . Fi g. 5

s h o w s t h e d i s c h a r g e p e r fo r m an c e a t v a r io u s d i s c h a r g e r a t e s . W h e n t h e l o a d i n g o n t h e

battery is increased, the available capacity drop.

The standard industry practices to determine

the nominal capacity (`C`) of a battery is to

discharge it at a 20-hous rate to final voltage

of 1.75V per cell.

Figure 7 Characteristic Discharge Curves @ 25

Battery Voltage(v)

13 6.5

12 6.0

77 F

11 5.5

10 5.0

9 4.5

8 4.0

3C

2C

1C

0.6C

0.25C

0.16C 0.09C

0.05C

0 0

1 2 3 5 10 20 30 60 2 3 5 1 0 20 30

Min h

Discharge time

8.2 FINAL DISCHARGE VOLTAGE

Table 8.2 shows the lowest final discharge

voltage at various discharge current.

The battery should never be discharged to less than the predetermined final discharge v o l t a g e . O t h e r w i s e , o v e r d i s c h a r g e m a y result. Repeated overdischarge may cause failure to recover capacity even by charging.

Table 8.2. Discharge Current and Final Discharge Voltage

Discharge Current

(A)

(A)<0.2C

0.2<(A)<1.0C

(A)>1.0C

Final Discharge

Voltage(V/cell)

1.75

1.70

1.60

Remark: Too low amps and long over discharge will damage the battery. The load current less than 0.05C(A) is not recommended.

9

8.3 EFFECT OF TEMPERATURE ON DISCHARGE CAPACITY

Figure 8 Temperature VS Capacity

120

100

0.05CA

0.1CA

Fig.8 shows the temperature effects,

Increasing temperature increased the capacity available.

80

60

40

0.25CA

0.6CA

1CA

2CA

20 (68 F), with 0.05CA discharge capacity at 100%

Avoid to operate battery below 15 (5 F) or beyond 50 (122 F), since this may damage the battery even it may still operate.

20

0

-20 -10 0 10 20 30 40 50 60

Temperature( )

8.4 INTERNAL RESISTANCE CHARGE

Figure 9 Internal Resistance

Temperature 77 F(25 )

Battery Model: 6V10

Measured with 1000Hz AC Bridge

(V)

6.00

(m )

100

80

60

40

20

0

5.50

3HR

5.00

4.50

10HR

5HR

Terminal

Voltage

20HR

4.00

Internal Resistance

0 2 4 6 8 10 12 14 16 1 8 20

Fig. 9 show the internal resistance of a MOTOMA battery measured though a 1000Hz AC bridge.

Internal resistance of a MOTOMA battery is the smallest when the battery is charged completely and it increases slowly as discharge progress but rapidly at the final stage of discharge. It will be observed that the internal resistance decreases slowly when the discharge is terminated as it has reached the final stage.

9. BATTERY LIFE

Battery life depends on a number of key factors. These include:

Method of charging utilized.

Actual use of the product. i.e: float or cycle service.

Figure 10 Service Life at Various Ambient Temperatures

9.1 Float Service

16

12

The estimated life under float is 3-10 years.

6

The float service is effected by the factors

4

listed above and the numbers and depth of

discharges the battery suffers during its life

time. Basically the more discharges suffered

and the deeper the discharges, the shorter

the battery life.

1

0.5

20 30 40 50

Temperature( )

Figure 11. Depth of Discharge Vs. Number of Cycles

9.2 Cycle Service

Due to consideration to the above, the actual

life of a battery in cycle service is dependant

on the depth of discharges of each cycle.The

greater depth of discharge of each cycle, the

lesser number of cycles availab le f rom the

battery.

120

100

80

60

Discharge depth

100%

Discharge depth

50%

Discharge depth

30%

40

20

Discharge current: 0.2C

Final Discharge Voltage: 1.7V/cell

Charge current: 0.1C

Ambient Temperature: 68 ~77 F(20 -25 )

0

0 200 400 600 800 1,000 1,200

Number of cycle(time)

10

Storage

10. STORAGE

10.1 Self Discharge

Fig.12 shows the relation between the

storage time at various temperatures

and the remaining capacity.

Self-discharge rate of MOTOMA battery

i s a p p r o x i m a t e l y 3 % p e r m o n t h w h e n

batteries are stored at an ambient temperature

of 68 F(20 ). The self-discharge rate

varies with different ambient temperature.

Figure 12 Self Discharge Characteristics

(%)100

75

50

32 F(0 )

50 F(10 )

86 F(30 )

68 F(20 )

104 F(40 )

25

0

0 3 6 9 12 15 18

Storage Time(Months)

10.2 Shelf Life

Shelf life is the life of a battery when stored

in the unused condition. Generally, lead

sulphate is formed on the negative plates

which is referred to as sulphation when

lead acid battery is stored in a discharged

condition for an extended period of time.

Higher temperature will accelerate sulphation.

Since the lead sulphate acts as an insolutor,

sulphation decreases the battery charge

acceptance.

Table 10.2. shelf life at various ambient temperatures.

Temperature

32 F(0 ) to 68 F(20 )

70 F(21 ) to 86 F(30 )

88 F(31 ) to 104 F(40 )

108 F(41 ) to 122 F(50 )

Shelf life

12 months

9months

5months

2.5months

Limited use(a few days) at temperatures higher than the ranges recommended above will

adversely affect the service life. Prolonged use of batteries at elevated temperatures will

reduce the shelf life expectancy. Batteries should be kept in a cool and dry place.

10.3 Capacity measurement by open circuit voltage

Figure 13 Open Circuit Voltage Vs Remaining Capacity

(V) for 12V battery

14.0

(V) for 6V battery

7.0

AT 20 (68 F )

The approximate remaining capacity of MOTOMA battery can be empirically determined from Fig. 13

13.0

6.5

12.0

11.0

6.0

5.5

10.0

5.0

0 20 40 60 80 100

Remaining Capacity(%)

11

Storage

10.4 Capacity Selection Chart @68 F(20 )

20

12V200

10

8

12V65

6

12V38

4

12V26

3

12V7

2

60

6V4

12V4

6V3.3

12V3.3

12V17

6V10

12V10

40

12V1.9

6V1.2

12V1.2

2

0

0

A

H

30

20

10

1

.2

A

H

1

.9

A

H

3

.3

A

H

4

A

H

7

A

H

1

0

A

H

1

8

A

H

2

6

A

H

4

0

A

H

6

5

A

H

8

6

30 40 60 80 100 200 300 400 600 800 1000 2 3 4 6 8 10 20 30 40 60 80 100 200 300

Discharge Current

12

Terminals

Terminals Configurations(mm)

F1 F2

0.8

0.8

F3

0.8

F4

13

2.5

6.5

F7

19

R9

16.6

2.5

6.5

8

F5

12

+0.10

-0.00

6

2

+0.10

-0.00

F6

2.5

7.8

11

10

25

6.5

F8 F9

8

27

25

F10

8.5

F11 F12

7

6

24.8

16

25

13

Terminals

Terminals Configurations(mm)

F13 F14

7

6

F15

8

6

18

F16

12 +0.10

-0.00

3

+0.02

-0.00

F17

14

2

M6

15

F18

16.6

M8

18

25

27

F19 F20 F21

M6

15

5.5

M6

16

F22 F23 F24

M6

16

9

14

MS6V1.2

Terminals Position

6V / 12V Terminals

A

2V Terminals

329

269

2V10(A)

407

8.5

2V100(A)

14

4

510

B

407

45

2V10(B)

171

2V100(B)

51

40

2V200(B)

120

174

2V200(C)

175

105

2V300(B)

120

175

2V400(A)

C D

260

10

2V50

174

128

2V100(C)

173

105

2V200(D)

175

105

2V400(B)

348

265

2V60

500

2V200(A)

54

120

175

2V300(A)

174

105

2V500(A)

2V Terminals

120

242

2V500(B)

100 110 100

410

2V600(C)

90

238

2V1000(C)

55 170 180 170

170

712

180

2V3000

170 55

140

300

2V600(A)

120 110 120

476

2V1000(A)

55 190

190 55

400

2V1600

Terminals Position

85

243

2V600(B)

80

197

2V1000(B)

40 105 130 105

105 130

490

2V2000

105

40

15 16

Specifcation

Code

NO

4065

4085

4006

4008

4010

4012

4000

4002

4004

4054

4015

4005

4014

4020

4022

4024

4025

4026

4027

4081

4076

4083

4087

4088

4089

4285

4071

4072

4073

4080

4077

4078

4079

4250

4260

4280

4281

4283

4284

4205

4210

4215

4220

4230

4240

4245

MOTOMA VRLA Series Specification

Voltage

(V)

2

4

6

12

Dimensions

Width Height

94

154

50

51

51.5

97.0

60.5

60

101

101

50

40

59

74

103

101

145

95

330

330

345

345

345

102

166

206

206

330

330

330

351

330

330

52

60.5

60.5

60.5

61

102

105

101

94

94

94

94

101

50

43

14

50

48

44

42

24

32.5

34.5

33

47

46.5

350

350

25

14

27

34

50

43

187

175

175

175

175

350

50

72

102

111

151

176

47

46.5

46.5

34

50

50

50

43

34.5

34.5

34.5

67

70

Length

91

122

102

102

149

57

50

97

65.5

134

124

70

70

490

710

46

39

94

90

91

58

223

241

302

410

475

400

161

171

171

173

171

210

70

70

70

151

151

151

151

97

177.5

177.5

177.5

134

90

Capacity

(AH)

8

9

10

10

25

0.50

1.20

1.20

2000

3000

4

0.5

1.3

3.5

5

5.5

2.50

3.20

3.20

4.00

4.00

450

500

600

800

1000

1500

50

100

150

200

300

400

4.00

4.50

4.50

7.00

8.00

10.00

12.00

1.20

1.90

2.30

2.30

3.20

4.00

Terminal

Type

F2

F1

F2

F1.F2

F1.F2

F1.F2

F2.F3

F1

F1

F1.F2

F1.F2

F1.F2

F1.F2

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F18/F19

F1

F1

F1

F1

F1.F2

F1.F2

F1

F1

F1

F1

F1

F1

F1.F2

F1.F2

F1.F2

F1.F2

F1.F2

F1

Weight

(approx)

(Kg)

1.30

2.55

0.15

0.28

0.32

0.55

0.60

0.66

0.72

0.74

0.07

0.20

0.42

0.77

0.62

1.15

1.20

1.30

3.95

6.20

11.75

16.4

24.5

31.0

34.8

38.0

48.3

63.0

76.0

105.0

146.0

220.0

0.28

0.60

0.90

0.96

1.00

1.35

0.72

0.74

0.85

1.20

1.75

1.90

2.10

1.45

Total

Height

100

160

52

57

57.5

103

66.5

65

107

107

50

45

65

74

106

101

157

101

367

367

382

382

382

108

166

210

227

365

366

367

373

366

367

58

66.5

66.5

66.5

67

114

105

107

100

100

100

100

106

17

Specifcation

Dimensions

4205G

4210G

4215G

4220G

4230G

4240G

4250G

4260G

4280G

42100G

42150G

42200G

42300G

4112G

4118G

4126G

4103G

4104G

4105G

4106G

4107G

4108G

4109G

4110G

4112G

4115G

4120G

Code

NO

Voltage

(V)

Capacity

(AH)

Length Width Height

4044

4045

4046

4047

4049

4060

4056

4058

4062

4063

4065

4066

4050

4027L

4028

4030

4031

4032

4033

4034

4035

4036

4038

4040

4041

4061

4042

4043

12

24

65.00

66.00

66.00

70.00

90.00

100.00

100.00

120.00

150.00

155.00

200.00

200.00

85.00

4.00

4.50

6.50

7.00

7.00

7.00

10.00

12.00

12.00

17.00

25.00

26.00

33.00

38.00

50.00

410

484

259

323

520

619

355

260

350

259

307

330

407

151

151

151

180

175

174

195

197

229

195

90

151

151

151

151

175

175

172

180

178

240

200

167

169

169

168

169

172

98

65

98

75

166

166

130

165

138

47

70

65

65

65

65

227

240

248

248

219

247

179

210

180

208

227

215

210

95

111

95

167

125

126

155

169

211

70

101

95

95

95

95

MOTOMA GEL Series Specification

Dimensions

Code

NO

Voltage

(V)

Capacity

(AH)

Length Width Height

Total

Height

101

117

101

167

125

126

179

169

216

74

106

101

101

101

101

227

240

256

248

224

262

183

228

183

213

227

222

240

2

12

130

165

138

167

169

167

169

172

177

170

240

175

175

350

350

350

98

77

166

50

72

102

111

151

176

175

175

196

197

229

350

259

350

307

328

409

483

522

410

475

400

490

710

151

181

175

161

171

171

173

171

210

241

302

33

40

50

65

73

80

90

100

120

150

200

800

1000

1500

2000

3000

12

18

26

50

100

150

200

300

400

500

600

Total

Height

172

169

215

179

215

179

216

222

225

241

224

367

367

382

382

382

101

167

125

166

210

227

365

366

367

366

367

163

169

210

179

210

179

211

217

225

241

219

330

330

345

345

345

95

167

125

166

206

206

330

330

330

330

330

Weight

(approx)

(Kg)

24.0

24.0

24.00

23.00

30.00

31.50

34.00

36.00

45.00

30.00

33.00

65.00

73.00

1.45

1.70

2.40

2.40

2.10

2.50

3.80

3.80

4.00

6.00

8.10

8.20

12.2

14.0

18.0

Terminal

Type

F1

F1

F1

F1.F2

F1.F2

F1.F2

F1.F2

F1.F2

F1.F2

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

F5.F18

F5.F18

F5.F18

F5.F8.F9.F10

F5.F8.F9.F10

F5.F8.F9.F10

Weight

(approx)

(Kg)

11.9

14.0

18.4

22.0

25.0

25.0

31.0

34.0

36.5

44.5

64.0

63.0

76.0

105.0

146.0

220.0

4.4

6.1

8.9

3.95

6.20

11.75

16.4

24.5

31.0

38.0

48.3

18

MS6V1.2

4000

3.82(97) 0.94(24)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)

Capacity affected by Temperature

Internal Resistance

3.82 inches (97mm)

0.94 inches (24mm)

2.03 inches (51.5mm)


20 hour rate (60mA)

10 hour rate (110mA)

5 hour rate (200mA)

1 hour rate (740mA)

15 minute rate (2.06A)

1.2Ah

1.1Ah

1.0Ah

0.7Ah

0.5Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%

Full charged battery

0 0

77 F(25 C) 44m

Constant voltage

Charge

Cycle

Standby

6V

1.2Ah

Weight

Terminals

Approx

0.71lbs

(320g)

F1/F2

Initial Charging Current less than

0.36A Voltage 7.20-7.50V at 77 (25 ) Temp. Coefficient

15mv/


0.36A Voltage 6.75-6.90V

at 77 (25 ) Temp. Coefficient

10mv/

o

7

6

5

4

3

2

1

0

0 1

3.9A 2.6A

1.3A

0.8A

0.3A

0.2A

0.1A

0.06A

3 5 10 20

Min.

30 60

Discharge Time

2 3 5

Hr.

10 20 30

Discharge Time Vs. Discharge Current

5

3

2

1

50

30

20

104 o o

F(40 C )

10

5

300 500 1

32 o

F(0 C )

2 3 5

(A)

10

Discharge Current

19

MS6V2.5

4002

2.58(65.5) 1.28(32.5)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

2.58 inches(65.5mm)

1.28 inches(32.5mm)

3.82 inches(97mm)

4.05 inches(103mm)



5 hour rate (400mA)



2.5Ah

2.4Ah

2.0Ah

1.6Ah

1.1Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 40m

Constant voltage

Charge

Cycle

Standby

6V

2.5Ah

Weight

Terminals

Approx

1.21lbs

(550g)

F1/F2



15mv/


0.75A Voltage 6.75-6.90V


10mv/

o

4

3

2

1

0

0

7

6

5

7.5A 4.9A

2.5A

1.458A

1.0A

0.3A

0.2A

0.12A

1 3 5 10 20

Min.

30 60 2

Discharge Time

3 5

Hr.

10 20 30


5

3

2

1

50

30

20

104 o o

F(40 C )

10

5

300 500 1

32 o

F(0 C )

2 3 5

(A)

10


20

20

MS6V3.2

4004

5.27(134) 1.36(34.5)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.27 inches (134mm)






5 hour rate (510mA)



3.2Ah

3.0Ah

2.6Ah

2.0Ah

1.4Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 28m

Constant voltage

Charge

Cycle

Standby

6V

3.2Ah

Weight

Terminals

Approx

1.32lbs

(600g)

F1/F2



15mv/


0.96A Voltage 6.75-6.90V


10mv/

o o

Discharge Characteristics @ 77 F(25 C)

4

3

2

1

0

0

7

6

5

10.2A7.8A

3.2A

1.88A

0.95A

0.75A

0.35A 0.22A

1 3 5 10 20

Min.

30 60 2 3

Discharge Time

5

Hr.

10 20 30

1

50

30

20

5


3

2

32 o

F(0 C )

104 o

F(40 C )

10

5

300 500 1 2 3 5 10

(A)


20 30 50

21

4005

MS6V4.0

2.76 (70)

1.83 (46.5)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

2.76 inches(70mm)

1.83 inches(46.5mm)

3.98 inches(101mm)

4.21 inches(107mm)



5 hour rate (640mA)



4.0Ah

3.8Ah

3.2Ah

2.5Ah

1.7Ah

104

0

0

0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%

Full charged battery 77 F(25 C) 24m

Constant voltage

Charge

Cycle

Standby

6V

4.0Ah

Weight

Terminals

Approx

1.72lbs

(780g)

F1/F2



15mv/


1.20A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0

2.8A

1.68A

0.8A

0.4A 0.21A

1 2 3

12.6A 8.4A

5

Min.

10

4.2A

20 30 60 2 3 5

Hr.

10 20 30

Discharge Time

5

3

2

Discharge Time Vs. Discharge Current o o

1

50

30

20

10

5

500 2 3

(A)

5


22

MS6V4.0

4015

2.76 (70)

1.83 (46.5)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

2.76 inches(70mm)

1.83 inches(46.5mm)

3.98 inches(101mm)

4.21 inches(107mm)



5 hour rate (640mA)



4.0Ah

3.8Ah

3.2Ah

2.5Ah

1.7Ah

104

0

0

0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

6V

4.0Ah

Weight

Terminals

Approx

1.59lbs

(720g)

F1/F2



15mv/


1.20A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0

2.8A

1.68A

0.8A

0.4A 0.21A

1

12.6A 8.4A

2 3 5

Min.

10

4.2A

20 30 60 2 3 5

Hr.

10 20 30

Discharge Time

5

3

2


1

50

30

20

10

5

500 2 3

(A)

5


23

4006

MS6V4.5

2.76 (70)

1.83 (46.5)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

2.76 inches(70mm)

1.83 inches(46.5mm)

3.98 inches(101mm)

4.21 inches(107mm)



5 hour rate (720mA)



4.5Ah

4.3Ah

3.6Ah

2.8Ah

1.9Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 22m

Constant voltage

Charge

Cycle

Standby

6V

4.5Ah

Weight

Terminals

Approx

1.87lbs

(850g)

F1/F2



15mv/


1.35A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0 1

2.7A

1.8A

0.9A

0.45A 0.225A

2 3

13.5A 9.0A

5

Min.

10

4.5A

20 30 60

Discharge Time

2 3 5

Hr.

10 20 30

3

2

5


1

50

30

20

10

5

500 2 3

(A)

5


24

MS6V4.5

4085

2.76 (70) 1.83 (46.5)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

2.76 inches(70mm)

1.83 inches(46.5mm)

4.13 inches(105mm)

4.13 inches(105mm)



5 hour rate (720mA)



4.5Ah

4.3Ah

3.6Ah

2.8Ah

1.9Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

6V

4.5Ah

Weight

Terminals

Approx



15mv/

1.63lbs

(740g)


1.35A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0

1.8A

0.9A

0.45A 0.225A

2.7A

1 2 3 5

13.5A 9.0A

4.5A

20 30

Min.

10 60 2 3 5

Hr.

10 20 30

Discharge Time

5

3

2


1

50

30

20

10

5

500 2 3

(A)

5


25

MS6V4.0

4065

2.76(70)

1.85(47)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

2.76 inches(70mm)

1.85 inches(47mm)

4.01 inches(102mm)

4.49 inches(114mm)



5 hour rate (640mA)



4.0Ah

3.8Ah

3.2Ah

2.5Ah

1.7Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 24m

Constant voltage

Charge

Cycle

Standby

6V

4.0Ah

Weight

Terminals

Approx

F1

1.72lbs

(780g)



15mv/


1.20A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0 1

2.8A

1.68A

0.8A

0.4A 0.21A

2 3 5

12.6A 8.4A

4.2A

20 30

Min.

10 60

Discharge Time

2 3 5

Hr.

10 20 30

5

3

2


104 F(40 C) o o

32 F(0 C)

1

50

30

20

10

5

500 2 3

(A)

5


26

MS6V7.0

4008

5.95

151 1.34(34)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

5.95 inches (151mm)

1.34 inches (34mm)

3.70 inches (94mm)

3.94 inches (100mm)






7.0Ah

6.7Ah

5.6Ah

4.3Ah

3.0Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

6V

7.0Ah

Weight

Terminals

Approx

2.65lbs

(1200g)

F1/F2



15mv/


2.10A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0

4.32A

2.88A

1.44A

0.72A

0.36A

1 2 3

21.6A 14.4A

7.2A

5 10

Min.

20 30 60 3

Discharge Time

5 10 20

Hr.

1

50

30

20

5

3

2


10

5

500 1 2 3 5 10 20 30 50

(A)


27

MS6V8.0

4010

5.95

151 1.97(50)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.95 inches (151mm)

1.97 inches (50mm)

3.70 inches (94mm)

3.94 inches (100mm)






8.0Ah

7.6Ah

6.4Ah

5.0Ah

3.4Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 14m

Constant voltage

Charge

Cycle

Standby

6V

8.0Ah

Weight

Terminals

Approx

3.86lbs

(1750g)

F1/F2



15mv/


2.40A Voltage 6.75-6.90V


10mv/

o o


6.5

6

5.5

5

4.5

4

0

0 1

4A

2A

1A

0.5A 0.25A

2 3

25.6A 12.8A

5

Min.

10

8A

20 30 60

Discharge Time

2 3 5

Hr.

10 20 30

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

300 500 1 2 3 5 10

(A)


20 30 50

28

4012

5.95 (151) 1.97 (50)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

5.95 inches (151mm)

1.97 inches (50mm)

3.70 inches (94mm)

3.94 inches (100mm)





15 minite Rate (17.2A)

10.0Ah

9.5Ah

8.0Ah

6.2Ah

4.3Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

6V

10.0Ah

Weight

Terminals

Approx

4.19lbs

(1900g)

F1/F2



15mv/


3.0A Voltage 6.75-6.90V


10mv/

o o

Discharge curves 77 F(25 C)*

5.4

5.1

4.8

4.5

4.2

3.9

6.9

6.6

6.3

6.0

5.9

0 1 2

16.0A

8.0A

4.0A

1.6A 0.93A

0.5A

30A

4 6 810

(min)

20 40 60

Discharge time

2 4 6 810

(H)

20 40

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

300 500 1 2 3 5 10

(A)


20 30 50

29

MS6V10 MS6V12

4014

5.95 (151)

1.97 (50)

Unit: inch(mm)

4.5

4.0

3.5

3.0

7.0

6.5

6.0

5.5

5.0

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.95 inches (151mm)

1.97 inches (50mm)

3.70 inches (94mm)

3.94 inches (100mm)






12.0Ah

11.4Ah

9.6Ah

7.4Ah

5.2Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 12m

Constant voltage

Charge

Cycle

Standby

6V

12.0Ah

Weight

Terminals

Approx

4.63lbs

(2100g)

F1/F2



15mv/


4.0A Voltage 6.75-6.90V


10mv/

o o

Discharge curves 77 F(25 C)*

38.4A

19.2A

9.6A

4.8A

1.92A 1.12A 0.6A

0 1 2 4 6 810

(min)

20 40 60

Discharge time

2 4 6 810

(H)

20 40

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

300 500 1 2 3 5 10

(A)


20 30 50

30

4020

3.82(97) 1.69 (43)

Unit: inch(mm)

11

10

13

12

9

8

0

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

3.82 inches (97mm)

1.69 inches (43mm)

2.05 inches (52mm)

2.28 inches (58mm)

20 hour rate (60mA)


5 hour rate (200mA)

1 hour rate (740mA)


1.2Ah

1.1Ah

1.0Ah

0.7Ah

0.5Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

1.2Ah

Weight

Terminals

Approx

1.32lbs

(600g)

F1



30mv/


0.36A Voltage 13.5-13.8V


20mv/

o o

Discharge curves 77 F(25 C)

0.73A

0.33A

0.22A

0.12A 0.55A

1 2 3

3.9A 2.6A

1.3A

5 10

20 30

Min.

60

Discharge Time

2 3

5

Hr.

10 20


1

50

30

20

10

5

3

2

5

3

1

32

300 500 o

F(0 C )

104 o

F(40 C )

2 3 5

(A)

10


31

MS12V1.2

MS12V1.9

4022

7.00( 177.5

) 1.36(34.5)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

7.00 inches (177.5mm)

1.36 inches(34.5mm)



20 hour rate (95mA)


5 hour rate (300mA)



1.9Ah

1.8Ah

1.5Ah

1.2Ah

0.8Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 45m

Constant voltage

Charge

Cycle

Standby

12V

1.9Ah

Weight

Terminals

Approx

1.98lbs

(900g)

F1



30mv/


0.57A Voltage 13.5-13.8V


20mv/

o o


13.8

13.2

12.6

12.0

11.4

10.8

10.2

9.6

9.0

8.4

7.8

0 1

3.8A

1.9A

0.95A

0.47A

0.24A

0.12A

2 4 6 810

(min)

20 40 60

Discharge time

2 4 6 810

(H)

20 40


1

50

30

20

10

5

3

2

5

3

1

32

300 500 o

104

F(0 C ) o

F(40 C )

2 3 5

(A)

10


32

MS12V2.3

4024

7.00( 177.5

) 1.36(34.5)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

7.00 inches (177.5mm)

1.36 inches(34.5mm)





5 hour rate (370mA)



2.3Ah

2.2Ah

1.8Ah

1.4Ah

1.0Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

2.3Ah

Weight

Terminals

Approx

2.12lbs

(960g)

F1



30mv/


0.69A Voltage 13.5-13.8V


20mv/

o o


10.8

10.2

9.6

9.0

8.4

7.8

13.8

13.2

12.6

12.0

11.4

0 1

4.6A

2.3A

1.56A

0.54A

0.21A 0.115A

2 4 6 810

(min)

20 40 60

Discharge time

2 4 6 810

(H)

20 40


1

50

30

20

10

5

3

2

5

3

1

300 500

32 o

F(0 C )

104 o

F(40 C )

2 3 5

(A)

10


33

MS12V3.2

4026

5.28(134) 2.64(67)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.28 inches (134mm)

2.64 inches(67mm)

2.40 inches (61mm)

2.67 inches (67mm)



5 hour rate (510mA)



3.2Ah

3.0Ah

2.6Ah

2.0Ah

1.4Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 42m

Constant voltage

Charge

Cycle

Standby

12V

3.2Ah

Weight

Terminals

Approx

2.97lbs

(1350g)

F1



30mv/


0.96A Voltage 13.5-13.8V


20mv/

o o


11

10

13

12

9

8

0

0

1.70A

1

9.5A

6.5A

2 3 5 10 20 30

Min.

3.2A

60 2

Discharge Time

0.53A0.30A 0.168A

0.76A

3 5 10 20

Hr.

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

500 2 3 5

(A)


34

4027

4.37(90)

2.76(70)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

4.37 inches (90mm)

2.76 inches(70mm)

3.98inches (101mm)

4.17inches (106mm)



5 hour rate (640mA)



4.0Ah

3.8Ah

3.2Ah

2.5Ah

1.7Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

4.0Ah

Weight

Terminals

Approx

3.20lbs

(1450g)

F1



30mv/


1.2A Voltage 13.5-13.8V


20mv/

o o


11

10

13

12

9

8

0

0

2.0A

0.8A 0.40A 0.2A

1.60A

1

12A

8A

2 3 5 10 20 30

Min.

4A

60 2

Discharge Time

3 5

Hr.

10 20

1

50

30

20

3

2

5


104 o

F(40 C )

32 o o

F(0 C )

10

5

500 2 3 5

(A)


35

MS12V4.0

MS12V4.0

4027L

7.68(195) 1.85(47)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

7.68 inches (195mm)

1.85 inches(47mm)

2.76inches (70mm)

2.91inches (74mm)



5 hour rate (640mA)



4.0Ah

3.8Ah

3.2Ah

2.5Ah

1.7Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

4.0Ah

Weight

Terminals

Approx

F1

3.19lbs

(1450g)



30mv/


1.2A Voltage 13.5-13.8V


20mv/

o o


11

10

13

12

9

8

0

0

2.0A

0.8A 0.40A 0.2A

1.60A

1

12A

8A

2 3 5 10 20 30

Min.

4A

60

Discharge Time

2 3 5

Hr.

10 20

1

50

30

20

3

2

5


104 o

F(40 C )

32 o o

F(0 C )

10

5

500 2 3 5

(A)


36

4028

4.37(90)

2.76(70)

Unit: inch(mm)

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

4.37 inches (90mm)

2.76 inches(70mm)

3.98inches (101mm)

4.17inches (106mm)



5 hour rate (720mA)



4.5Ah

4.3Ah

3.6Ah

2.8Ah

1.9Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 35m

Constant voltage

Charge

Cycle

Standby

12V

4.5Ah

Weight

Terminals

Approx

3.74lbs

(1700g)

F1



30mv/


1.35A Voltage 13.5-13.8V


20mv/

o o


13

12

11

10

9

8

0

0 1

13.5A

9A 4.5A

2.5A

2 3 5 10 20 30

Min.

60 2

Discharge Time

0.8A 0.46A 0.23A

1.68A

3

Hr.

5 10 20

3

2

5


104 o

F(40 C )

1

50

30

20

32 o

F(0 C )

10

5

500 2 3 5

(A)


37

MS12V4.5

MS12V6.5

4030

5.94(151) 2.56(65)

Unit: inch(mm)

13.8

13.2

12.6

12.0

11.4

10.8

10.2

9.6

9.0

8.4

7.8

0 1

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.94 inches (151mm)

2.56 inches(65mm)

3.74 inches (95mm)

3.98 inches (101mm)






6.5Ah

6.2Ah

5.2Ah

4.0Ah

2.8Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 25m

Constant voltage

Charge

Cycle

Standby

12V

6.5Ah

Weight

Terminals

Approx

F1

4.19lbs

(1900g)



30mv/


1.95A Voltage 13.5-13.8V


20mv/

o o


1

50

30

20

3

2

5


32 o o

F(0 C )

104 o

F(40 C )

2

6.5A

3.25A

1.67A

0.84A 0.42A

11.4A

26A

4 6 810

(min)

20 30 60 2 4 6 810

(H)

20 40

Discharge time

10

5

500 2 3 5

(A)


10 20 30 50

38

MS12V7.0

4032

5.94 (151) 2.56 (65)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.94 inches(151mm)

2.56 inches(65mm)

3.74 inches(95mm)

3.98 inches(101mm)






7.0Ah

6.7Ah

5.6Ah

4.3Ah

3.0Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 25m

Constant voltage

Charge

Cycle

Standby

12V

7.0Ah

Weight

Terminals

Approx

4.63lbs

(2100g)

F1(standard)

F2(optional)


2.1A Voltage 14.4~15.0V

o o at 77 F(25 C)Temp.coefficient

o

-30mv/ C


2.1A Voltage 13.5~13.8V


o

-20mv/ C

o

13

12

11

10

4.32A

2.88A

1.44A

0.72A 0.36A

9

8

0

0 1

21.6A 14.4A

7.2A

2 3 4 5 10 20 30

Min.

60

Discharge Time

3 5 10

Hr.

20

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

500 1 2 3 5 10

(A)


20 30 50

39

MS12V7.0

4033

5.94 (151) 2.56 (65)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.94 inches(151mm)

2.56 inches(65mm)

3.74 inches(95mm)

3.98 inches(101mm)






7.0Ah

6.7Ah

5.6Ah

4.3Ah

3.0Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 25m

Constant voltage

Charge

Cycle

Standby

12V

7.0Ah

Weight

Terminals

Approx

5.51lbs

(2500g)

F1(standard)

F2(optional)


2.1A Voltage 14.4~15.0V


o

-30mv/ C


2.1A Voltage 13.5~13.8V


o

-20mv/ C

o

13

12

11

10

4.32A

2.88A

1.44A

0.72A 0.36A

9

8

0

0 1

21.6A 14.4A

7.2A

2 3 4 5 10 20 30

Min.

60

Discharge Time

3 5 10

Hr.

20

1

50

30

20

3

2

5


104 o

F(40 C )

32 o

F(0 C )

10

5

500 1 2 3 5 10

(A)


20 30 50

40

MS12V10

4034

5.94 (151) 3.86(98)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

5.94 inches(151mm)

3.86 inches(98mm)

3.74 inches(95mm)

3.98 inches(101mm)






10.0Ah

9.5Ah

8.0Ah

6.2Ah

4.3Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

10.0Ah

Weight

Terminals

Approx

8.37lbs

(3800g)

F1/F2


3.0A Voltage 14.4~15.0V


o

-30mv/ C


3.0A Voltage 13.5~13.8V

o

o o



10.8

10.2

9.6

9.0

8.4

7.8

13.8

13.2

12.6

12.0

11.4

0 1 2

30A

20A 10A

8A

5A

2.50A

1.25A

0.65A

4 6 810

(min)

20 40 60 2 4 6 810

(H)

20 40

1

50

30

20

10

5

3

2

5

3

1

32 o

F(0 C )

104 o

F(40 C )

Discharge time

500 1 2 3 5

(A)

10 20 30 50 100 200


41

MS12V12

4036

5.94 (151) 3.86(98)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

5.94 inches(151mm)

3.86 inches(98mm)

3.74 inches(95mm)

3.98 inches(101mm)






12.0Ah

11.4Ah

9.6Ah

7.4Ah

5.2Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 20m

Constant voltage

Charge

Cycle

Standby

12V

12.0Ah

Weight

Terminals

Approx

8.60lbs

(3900g)

F1/F2


3.6A Voltage 14.4~15.0V


o

-30mv/ C


3.6A Voltage 13.5~13.8V


o

-20mv/ C

o


13.8

13.2

12.6

12.0

11.4

10.8

10.2

9.6

9.0

8.4

7.8

0 1 2

1.92A

1.12A

0.6A

12A

7.7A

4.6A

35A

4 6 810

(min)

20 40 60 2 4 6 810

(H)

20 40

Discharge time

1

50

30

20

10

5

3

2

5

3

1

32 o

F(0 C )

104 o o

F(40 C )

500 1 2 3 5

(A)

10 20 30 50 100 200


42

MS12V17

4038

7.12 (181)

2.95 (75)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

7.12 inches(181mm)

2.95 inches(75mm)

6.57 inches(167mm)

6.57 inches(167mm)






17.0Ah

16.2Ah

13.6Ah

10.5Ah

7.3Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

17.0Ah

Weight

Terminals

Approx

13.0lbs

(5900g)

F5/F8/F9/F10


5.1A Voltage 14.4~15.0V


o

-30mv/ C


5.1A Voltage 13.5~13.8V

o

o o

Discharge Characteristics @ 77 F(25 C) Discharge Time Vs. Discharge Current

10

9

8

0

0

13

12

11

12.3A

4.0A2.7A

1.8A 0.9A

1 2 3 5 10

Min.

20

18A

30 60 2 3 5 10 20

Hr.

Discharge Time

1

50

30

20

10

5

3

2

5

3

1

32 o

F(0 C )

104 o

F(40 C )

500 1 2 3 5

(A)

10 20 30 50 100 200


43

MS12V25

4040

6.50(166) 6.84(174)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

6.84 inches(174mm)

6.5 inches(166mm)

4.94 inches(126mm)

4.9 4inches(126mm)






25.0Ah

23.8Ah

20.0Ah

15.5Ah

10.8Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 16m

Constant voltage

Charge

Cycle

Standby

12V

25.0Ah

Weight

Terminals

Approx

17.8lbs

(8.1kg)

F5/F8/F9/10


7.5A Voltage 14.4~15.0V


o

-30mv/ C


7.5A Voltage 13.5~13.8V


o

-20mv/ C

o o


13

12

11

6.2A3.8A

2.2A 1.2A

10

16A

9

8

0

0

25A

1 2 3 5 10 20 30

Min.

60 2

Discharge Time

3 5 10 20

Hr.

1

50

30

20

10

5

3

2

5

3

1

32 o o

F(0 C )

104 o

F(40 C )

500 1 2 3 5

(A)

10 20 30 50 100 200


44

MS12V26

4041

6.50(166) 6.84(174)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0


Internal Resistance

6.84 inches(174mm)

6.53 inches(166mm)

4.94 inches(126mm)

4.94 inches(126mm)






26.0Ah

24.7Ah

20.8Ah

16.1Ah

11.2Ah

104

0

0 0

F(40 C)

0

0

32 F(0 C)

0 0

5 F(-15 C)

102%

100%

85%

65%


Constant voltage

Charge

Cycle

Standby

12V

26.0Ah

Weight

Terminals

Approx

18.06lbs

(8200g)

F5/F8/F9/F10


7.8A Voltage 14.4~15.0V


o

-30mv/ C


7.8A Voltage 13.5~13.8V

o

o o


10

9

8

13

12

11

16.1A

6.3A3.8A

2.3A 1.3A

26A

0 1 2 3 5 10 20 30

Min.

60 2

Discharge Time

3 5 10 20

Hr.

1

50

30

20

10

5

3

2

5

3

1

32 o o

F(0 C )

104 o

F(40 C )

500 1 2 3 5

(A)

10 20 30 50 100 200


45

4061

MS12V33

7.68 (195)

Unit: inch(mm)

SPECIFICATIONS

13.0

12 .0

11 .0

10 .0

9 .0

8 .0

0

0

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

7.68 inches(195mm)

5.12 inches(130mm)

6.11 inches(155mm)

7.25 inches(179mm)






33.0Ah

31.4Ah

26.4Ah

20.5Ah

14.2Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 8m

Constant voltage

Charge

Cycle

Standby

12V

33Ah

Weight

Terminals

Approx

26.9lbs

(12200g)

F5/F8/F9/10


9.9A Voltage 14.4~15.0V


o

-30mv/ C


9.9A Voltage 13.5~13.8V


o

-20mv/ C

o

Discharge Time Vs. Discharge Current @ 77 F(25 C)

100

20.6A

8.6A

5.5A 3.15A

1.65A

1

66A 33A

2 3 5 10 20 30 60

Min.

Discharge time

2 3 5 10 20 30

Hrs.

10

1

0.1

0.1

1 10

Discharge Current(Amps)

100

46

MS12V38

4042

6.5(165)

7.76(197)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

7.76 inches(197mm)

6.50 inches(165mm)

6.65 inches(169mm)

6.65 inches(169mm)

38.0Ah

20 hour rate (1.90A)


5 hour rate (6.08A)

1 hour rate (23.6A)


38.0Ah

36.1Ah

30.4Ah

23.6Ah

16.3Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 12m

Constant voltage

Charge

Cycle

Standby

12V

Weight

Terminals

Approx

30.84lbs

(14kg)

F5/F8/F9/F10


11.4A Voltage 14.4~15.0V


o

-30mv/ C


11.4A Voltage 13.5~13.8V


o

-20mv/ C

100

Discharge Time Vs. Discharge Current @ 77 F(25 C) o

14.4

13.8

13.2

12.6

12.0

11.4

10.8

10.2

9.6

9.0

8.4

7.8

0 1

38A

22A

6.3A

3.5A

1.9A

2 4 6 8 10

(min)

20 40 60

Discharge time

2 4 6 8 10

(H)

20

40

10

1

0.1

0.1

1

10


100

47

MS12V65

4044

13.98(355)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

13.98 inches(355mm)

6.56 inches(167mm)

7.05 inches(179mm)

7.20 inches(183mm)



5 hour rate (10.4A)

1 hour rate (40.3A)

15 minite Rate (112A)

65Ah

62Ah

52Ah

40Ah

28Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 8m

Constant voltage

Charge

Cycle

Standby

12V

65.0Ah

Weight

Terminals

Approx

52.8lbs

(24kg)

F5/F8/F9/10


19.5A Voltage 14.4~15.0V


o

-30mv/ C


19.5A Voltage 13.50~13.80V


o

-20mv/ C

o o


100

13

12

11

10

9

8

0

0 1

40.2A

16.8A

10.6A

6.2A

3.25A

2 3 5

Min.

10

130A

20 30

65A

60

Discharge Time

2 3

Hr.

5 10 20 30

10

1

0.1

0.1

1


10 100

48

4060

MS12V100

13.0(330)

Unit: inch(mm)

SPECIFICATIONS

13.0

12 .0

11 .0

10 .0

9 .0

8 .0

0

0

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

13.0 inches(330mm)

6.77 inches(172mm)

8.46 inches(215mm)

9.45 inches(240mm)

20 hour rate (5.0A)

10 hour rate (9.5A)

5 hour rate (16.0A)

1 hour rate (62.0A)

15 minute rate (172A)

100Ah

95Ah

80Ah

62Ah

43Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 4.5m

Constant voltage

Charge

Cycle

Standby

12V

100Ah

Weight

Terminals

Approx

69.5lbs

(31.5Kg)

F5/F18


30A Voltage 14.4~15.0V


o

-30mv/ C


30A Voltage 13.50~13.80V


o

-20mv/ C

o o


100


@ 77 F(25 C)

68A

26A

18.1A

10A

5.0A

1

200A 100A

2 3 5

Min.

10 20 30 60

Discharge Time

2 3 5 10 20 30

Hrs.

10

1

0.1

0.1

10

100


1000

49

MS12V150

4062

19.09(485)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

19.09 inches(485mm)

6.77 inches(172mm)

9.45 inches(240mm)

9.45 inches(240mm)

20 hour rate (7.5A)


5 hour rate (24.0A)

1 hour rate (93.0A)


150Ah

143Ah

120Ah

93Ah

65Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 3.8m

Constant voltage

Charge

Cycle

Standby

12V

150Ah

Weight

Terminals

Approx

99.2lbs

(45Kg)

F5/F8/F9/10




o

-30mv/ C


45A Voltage 13.50~13.80V


o

-20mv/ C

o o

Discharge Characteristics @ 77 F(25 C) Discharge Time Vs. Discharge Current o o

@ 77 F(25 C)

100

13.0

12 .0

11 .0

39A

24.8A

14.2A

7.5A

10 .0

9 .0

92.8A

8 .0

0

0 1

300A 150A

2 3 5

Min.

10 20 30 60

Discharge Time

2 3 5 10 20 30

Hrs.

10

1

0.1

0.1

10 100


1000

50

MS12V200

4066

20.55(520)

Unit: inch(mm)

SPECIFICATIONS

Nominal Voltage

Nominal Capacity

Dimensions

Length

Width

Height

Total Height

Capacity

0 0

77 F(25 C)


Internal Resistance

20.55 inches(520mm)

9.45 inches(240mm)

8.58 inches(218mm)

9.65 inches(245mm)



5 hour rate (32.0A)

1 hour rate (124A)


200Ah

190Ah

160Ah

124Ah

86Ah

104

0

0

0 0

F(40 C)

0

77 F(25 C)

0

0

5 F(-15 C)

102%

100%

85%

65%


0 0

77 F(25 C) 3.5m

Constant voltage

Charge

Cycle

Standby

12V

200Ah

Weight

Terminals

Approx

143lbs

(65Kg)

F5/F8/F9/F10




o

-30mv/ C




o

-20mv/ C

o o

Discharge Characteristics @ 77 F(25 C) Discharge Time Vs. Discharge Current o o

@ 77 F(25 C)

100

13.0

12 .0

11 .0

52A

32.1A

19A

10A

10 .0

9 .0

8 .0

0

0 1

124A

400A 200A

2 3 5 10 20 30 60

Min.

Discharge Time

2 3 5 10 20 30

Hrs.

10

1

0.1

0.1

10

100


1000

51

4215

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

150AH

171mm(6.73inches)

102mm(4.01inches)

206mm(8.11inches)

227mm(8.92inches)

Approx.11.75kg(25.85Ibs)

F18

4220

171

MS2V150

102

Unit: mm

MS2V200

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

200AH

173mm(6.80inches)

111mm(4.36inches)

330mm(12.99inches)

365mm(14.35inches)


F18

52

111 173

Unit: mm

MS2V300

4245

MS2V450

4230

Nominal Voltage

Dimensions

1mm

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

300AH

171mm(6.72inches)

151mm(5.94inches)

330mm(12.98inches)

366mm(14.39inches)


F18

151

4240

171

Unit: mm

MS2V400

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

450AH

223mm(8.77inches)

187mm(7.35inches)

351mm(13.80inches)

373mm(14.67inches)

Approx. 34.8kg(76.56Ibs)

F18

187

4250

223

Unit: mm

MS2V500

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

400AH

210mm(8.27inches)

176mm(6.92inches)

330mm(12.99inches)

367mm(14.43inches)

Approx. 31kg(68.2Ibs)

F18

53

176 210

Unit: mm

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

500AH

241mm(9.48inches)

175mm(6.89inches)

330mm(12.99inches)

366mm(14.39inches)


F18

54

175

241

Unit: mm

MS2V600

4281

MS2V1000

4260

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

600AH

302mm(11.89inches)

175mm(6.88inches)

330mm(12.99inches)

367mm(14.45inches)

Approx. 48.3kg(106.26Ibs)

F18

175

4280

302

Unit: mm

MS2V800

Dimensions

1mm

Nominal Voltage

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

1000AH

475mm(18.68inches)

175mm(6.88inches)

330mm(12.99inches)

367mm(14.45inches)


F18

175

4283

475

Unit: mm

MS2V1500

Unit: mm

Nominal Voltage

Nominal Capacity

Dimensions

1mm

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

800AH

410mm(16.12inches)

175mm(6.88inches)

330mm(12.98inches)

367mm(14.45inches)


F18

55

175 410

Unit: mm

Nominal Voltage

Nominal Capacity

Dimensions

1mm

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

1500AH

400mm(15.75inches)

350mm(13.78inches)

345mm(13.58inches)

382mm(15.04inches)

Approx. 105 kg(231Ibs)

F18

56

400 350

4284

MS2V2000

Unit: mm

350

Nominal Voltage

Dimensions

1mm

Nominal Capacity

Length

Width

Height

Total Height

Weight

Standard Terminal

2V

2000AH

490mm(19.29inches)

350mm(13.78inches)

345mm(13.58inches)

382mm(15.04inches)


F18

4285

490

MS2V3000

Unit: mm

Nominal Voltage

Nominal Capacity

Dimensions

1mm

Length

Width

Height

Total Height

Weight

Standard Terminal

710 350

2V

3000AH

710mm(27.95inches)

350mm(13.78inches)

345mm(13.56inches)

382mm(15.02inches)

Approx. 220kg(484Ibs)

F18

Specifications are subject to change without prior notice

57

Precautions for handling Motoma Valve Regulated Lead-Acid Batteries.

Please read the Handling Book entirety and its contents fully understood before handling or using Motoma rechargeable Valve Regulated Lead-Acid (VRLA) Batteries.

If there are any questions, please contact your local motoma power agents/ distributors.

Due to the potential energy stored in the batteries, improper handling or use of the batteries by not observing the precautions listed in the document may result in bodily injury caused by electrolyte leakage, heat generation, or explosion.

I.DANGER

1.1 Do not load valve-regulated lead-acid batteries (hereinafter described as the battery )

in airtight equipment. Use of the battery in airtight equipment may cause explosion of the

equipment or injury.

1.2 Insulate metallic tools such as torque-wrenches and wrenches with a vinyl tape, etc.

Using uninsulated tools may cause a short circuit, and the heat or sparks generated

by the short circuit could result in burns, damage to the battery, or ignite an explosion.

1.3 Do not place the battery in a closed room or near fire. Placing the battery in such a location

could result in an explosion or fire due to hydrogen gas emitted by the battery.

1.4 Be sure to provide enough insulation around the lead wires and/or plates used between

the batteries and the application. Insufficient insulation may cause an electric shock,

heat generating from a short circuit (or excess current) may result in an injury, burn,

smoke or ignition.

1.5 The batteries must be charged using the specified charger or by maintaining the charging

conditions indicated by Motoma Power. If the batteries are charged under conditions other

than those specified by Motoma Power, they may leak, ignite or explode.

1.6 Do not connect the (+) and (-) terminals of the battery to each other with a metallic material

such as wire; do not allow tools such as pipe wrenches and wrenches to touch points of

different voltages on the battery; and do not bring metallic necklaces or hair pins into

contact with the battery or store them together with the battery. Failure to observe these

precautions may cause the battery to overheat, emit hydro gen gas, leak, ignite, or burst.

II.WARNING

2.1 Charge the battery using a specified charger or under the charging condition specified by

Motoma. Charging the battery under any other conditions may cause the battery to overheat,

emit hydrogen gas, leak, ignite, or burst.

2.2 When using the battery in medical equipment, provide a back-up system other than the

main battery. Failure of the main battery in the absence of a back-up power could lead to injury.

2.3 Avoid direct contact of the battery with metallic containers; acid-and heat-resistant insulators

should be employed. leakage of the battery in the absence of insulators may cause problems

such as release of fumes and ignition.

2.4 Do not place the battery near a device that may cause sparks(such as a switch or a fuse).

The battery may generate flammable gas when charged, so remember to keep the battery

away from fire Oran open flame to prevent any sparks from igniting or causing explosions.

58

2.5 Avoid placing the battery near a heat-generating part (such as a transformer). Using the

battery near a heat source may cause the battery to overheat, leak, ignite, or burst.

2.6 In applications which use more than one battery, first make sure of correct mutual

connections between batteries, and then connect the battery with the charger or the load.

Make sure to firmly connect the (+) pole of the batteries to the (+) terminal of the charger

or load, and the (-) terminal in the same way. If the poles/terminals of the batteries, the

charger and the load are connected improperly, explosion, ignition or damage to the

batteries and/or equipment may occur, causing injury to personnel in some cases.

2.7 Be extremely careful not to drop the battery onto feet to avoid the possibility of serious injury.

2.8 Do not contact any plastic or resin containing a migrating plasticizer with the batteries.

Avoid using organic solvents such as thinner, gasoline, lamp oil, benzene and liquid

detergent to clean the batteries. The use of any of the above materials may cause the

containers and/or the covers ABS resin of the batteries to crack and leak, or could ignite,

Avoid using material containing a migrating plasticizer by asking the manufacturer its contents.

2.9 Take safety measures such as wearing rubber gloves for insulation when handling a voltage

of 45V or higher. Operation without safety measures may result in electric shocks to the operator.

2.10 Avoid placing the battery in an environment which is susceptible to floods. There is the

possibility that if the battery is immersed in water, it may ignite or cause electric shocks

to personnel.

2.11 Do not throw the battery in fire nor heat the battery. The battery may burst or generate a

toxic gas if placed in contact with fire.

2.12 Do not attempt to disassemble, remodel or destroy the battery, as it may cause battery

leakage, fire or bursting, and could also create sulfuric acid spills from the battery resulting

in possible burns to personnel and damage to the immediate environment.

2.13 Battery posts, terminals and related accessories contain lead and lead compounds and

handling this products may also expose you to sulfuric acid mist, chemicals known may

cause cancer and reproductive harm. Wash hands after handling.

2.14 Clean the battery with a slightly damp cloth, ensure there is no excess water on the cloth

by squeezing it well. Do not use a dry cloth or a duster, as it may cause the battery to

generate static electricity, leading to possible ignition and bursting of the battery.

2.15 Replace the battery with a new one within the time period specified in the instruction

manual or equipment.

2.16 Follow the guideline which states the battery should be replaced when its capacity has

decreased to 50% of the initial capacity (at an ambient temperature of 77 (25 ) or below).

In the trickle or float application of the battery (application as stand-by power) at an

ambient temperature higher than 77 (25 ), the period for which the battery can be

used before replacement is shortened by a half for every 10 rise of temperature.

When the discharge current becomes higher than 0.25CA, the run time and battery life

is also shortened.

2.17 The usable period for the battery is markedly shortened near the end of its service life

(when discharge time has decreased to 50% of the initial). This is also the period when

battery problems such as internal short, dry-up of electrolyte (increase in internal resistance)

and corrosion of the cathode grids will occur. Replace the battery before these conditions

are reached: if the battery continues to be used under these conditions, maximum discharge

current will continue flowing, which may lead to thermal runaway or leakage.

2.18 The battery contains diluted sulfuric acid, a very toxic substance. If the battery leaks and

the liquid inside spills on the skin or clothing, immediately wash it off with plenty of clean

water. If the liquid splashes into eyes, immediately flush the eyes, immediately flush the

eyes with plenty of clean water and consult a doctor. Sulfuric acid in the eyes may cause

loss of eyesight and acid on the skin will cause burns.

The batteries should be used in non life critical medical equipment. When any medical equipment incorporating a motoma VRLA batteries is planned, please notify Motoma Power.

III. Storage

3.1 During storage of the battery, charge it at least once every six months (when ambient

temperature is 77 (25 ) or below). Shorten the interval of charging to a half by every

50 (10 ) rise of ambient temperature.

The rate of self discharge of the battery doubles for each 50 (10 ) rise of ambient

temperature. If the battery has been stored for a long period in a discharged state, it

may not be able to regain it's capacity even if it is recharged.

3.2 If the battery is stores for a year or longer without being charged, its service life may

be shortened.

3.3 Store the battery after fully charging it, otherwise its service life may be shortened.

3.4 Use the battery as soon as possible. The battery gradually deteriorates during storage

and thus its decreased capacity may be irreversible even allowing when recharged.

For more details, please read the Handling Book , which come with the batteries.

All descriptions are subject to modification without notice.

59 60

1. handling instruction 3. general features 2. applications

A view to workshop

1. HANDLING INSTRUCTION

2. APPLICATIONS

Standby use

Cycle use

3. GENERAL FEATURES

3.1 Stable quality and High Reliability

3.2 Maintenance-Free

3.3 Safety

3.4 Sealed Construction

3.5 Heavy Duty Grids

3.6 Long Service Life

3.7 Long Shelf Life and Low Self-Discharge

3.8 Wide Operating Environment

4. Electrochemical Principle

5. CONSTRUCTION

Table 5.2 Battery Construction and Functions

6. BATTERY CHARGING INSTRUCTION

There are four major methods of charging.

6.4 Constant Current Charging

6.5 Two-Step Combination Charging

6.6 Taper Current Charging

7.1 Float-Charge Standby Application

7 .2. Cyclic Application

7.3 Trickle-Charge Standby Application

7.

4 Supplementary charge/refresh charge

7.5 Recovery Charge After Deep Discharge

7.6 Solar Powered Charges

7.7 Equalization Charging

7.8 Initial Charge Current Limit

8. DISCHARGING INSTRUCTIONS

8.3 EFFECT OF TEMPERATURE ON DISCHARGE CAPACITY

8.4 INTERNAL RESISTANCE CHARGE

9. BATTERY LIFE

9.1 Float Service

9.2 Cycle Service

10. STORAGE

10.1 Self Discharge

10.2 Shelf Life

10.3 Capacity measurement by open circuit voltage

10.4 Capacity Selection Chart @68 F(20 )

Terminals Configurations(mm)

F1 F2

F3

F4

F7

F5

F6

F8 F9

F10

F11 F12

Terminals Configurations(mm)

F13 F14

F15

F16

F17

F18

F19 F20 F21

F22 F23 F24

6V / 12V Terminals

A

2V Terminals

2V Terminals

MOTOMA VRLA Series Specification

MOTOMA GEL Series Specification

Precautions for handling Motoma Valve Regulated Lead-Acid Batteries.

I.DANGER

II.WARNING

III. Storage

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