Sanyo Twicell SEB-015SEB-015SEB-015 User manual

Sanyo Twicell SEB-015SEB-015SEB-015 User manual
Sanyo Nickel-Metal Hydride
Rechargeable Batteries
URL http://www.sanyo.co.jp/energy/
SEB-015
Twicell Batteries Handling Precautions
Carefully read this instruction manual before using Twicell batteries for the first time.
Important : For your safety and that of your customers observe all cautionary information provided in
this manual. Save this manual for future reference. The following information is intended to highlight
potential safety hazards that can be associated with the misuse, misapplication or damage to Twicell
batteries. Please carefully evaluate the information in this section when using Twicell batteries (single
cell or packed cells) or when using or manufacturing equipment incorporating Twicell batteries.
This manual is no substitute for your independent evaluation of equipment incorporating Twicell batteries. Customers incorporating Twicell batteries into their equipment must assure that their completed
product has been properly designed, manufactured and tested. End users of equipment incorporating
Twicell batteries should also be provided with sufficient warnings and instructions on their safe operation. As appropriate, some or all of the following warnings and information should be incorporated by
you into the instruction manual accompanying your equipment.
DANGER!
●Failure
1
to carefully observe the following procedures and precautions can result in leakage of battery fluid (electrolyte), heat generation, bursting,
fire and serious personal injury!
・Never dispose of Twicell batteries in a fire or heat
them.
Doing so may melt the insulation, damage the gas
release vents or protective devices, ignite hydrogen gas, cause leakage of battery fluid (electrolyte), heat generation, bursting and fire.
+ (positive) and ○
− (negative)
・Do not connect the ○
terminals of Twicell batteries together with electrically conductive materials, including lead wires. Do
not transport or store Twicell batteries with their
uncovered terminals or connected with a metal
necklace or other conductive material. Doing so
may short circuit a battery, which would result in
excessive current flow and possibly cause leakage
of battery fluid, heat generation, bursting and fire.
When carrying or storing batteries, use a special
case.
・Only charge Twicell batteries using those specific
chargers that satisfy Sanyo’s specifications. Only
charge batteries under the conditions specified by
Sanyo. Failure to follow proper charging procedures may cause excessive current flow, loss of
control during charging, leakage of battery fluid,
heat generation, bursting and fire.
・Never disassemble Twicell batteries. Doing so
may cause an internal or external short circuit or
result in exposed material of battery reacting
chemically with the air. It may also cause heat
generation, bursting and fire. Also, this is dangerous as it may cause splashing of alkaline fluid.
・Never modify or reconstruct Twicell batteries.
Protective devices to prevent danger are built into
batteries(single cell or packed cells). If these are
damaged, excessive current flow may cause loss
of control during charging or discharging of the battery, leakage of battery fluid, heat generation,
bursting and fire.
・Never solder lead wires directly on to Twicell batteries.
The heat of the soldering operation may melt the
insulation, damage the gas release vents or protective devices, cause leakage of battery fluid, heat
generation, bursting and fire.
+ (positive) and ○
− (negative) terminals of Twi・The ○
cell batteries are predetermined. Do not force the
terminal connection to a charger or equipment. If
the terminals can not be easily connected to the
+ and ○
− termicharger or equipment, check if the ○
nals are correctly positioned. If the terminals are
reversed, during charging the battery may be discharged rather than charged. Furthermore, reversed connections may cause abnormal chemical
reaction in the battery, the flow of abnormal currents, leakage of battery fluid, heat generation,
bursting and fire.
・The gas release vent which release internal gas is
+ positive terminal of the Twicell batlocated in the ○
tery. For this reason, never deform this section or
cover or obstruct its gas release structure. If this
section is deformed or covered or obstructed, the
gas release vent will not function properly, possibly
causing leakage of battery fluid, heat generation,
bursting and fire.
・Do not directly connect Twicell batteries to a direct power source or the cigarette lighter socket in
a car. High voltage may cause excessive current
flow, leakage of battery fluid, heat generation,
bursting and fire.
・Do not use Twicell batteries in any equipment
other than those specified by Sanyo. Depending
on the equipment being used, doing so may cause
abnormal current flow, leakage of battery fluid,
heat generation, bursting and fire.
●Twicell batteries contain the strong colorless alkaline solution(electrolyte). The alkaline solution is
extremely corrosive and will cause skin damage. If
any fluid from Twicell battery comes in contact with
a user’s eyes, they should immediately flush their
eyes and wash them thoroughly with clean water
enough from the tap or another source and consult
a doctor urgently. The strong alkaline solution can
damage eyes and lead to permanent loss of eyesight.
●When Twicell batteries are to be incorporated in
equipment or housed within a case, avoid air-tight
structures as this may lead to the equipment or
case being damaged or may be harmful to users.
WARNING!
●Do
not apply water, seawater or other oxidizing
reagents to Twicell batteries, as this can cause rust
and heat generation. If a battery becomes rusted,
the gas release vent may no longer operate, and
can result in bursting.
●Do not connect more than 21 Twicell batteries in
series, as this may cause electrical shocks, leakage of battery fluid and heat generation.
●Keep Twicell batteries or the equipment out of
the reach of babies and small children, in order to
avoid them to swallow batteries. In the event the
batteries are swallowed, consult a doctor immediately.
●Do not charge or use Twicell batteries with the ○
+
− terminals reversed. Charging batteries with
and ○
the terminals reversed may discharge rather than
charge the batteries, or it may cause abnormal
chemical reaction in the batteries. Using batteries
with the terminals reversed may discharge with of
abnormal current, leakage of battery fluid, heat
generation, bursting and fire.
●Do not over-charge Twicell batteries by exceeding the predetermined charging period specified by
the battery charger’s instructions or indicator. If
Twicell batteries are not fully charged after the battery chargerユs predetermined charging period has
elapsed, stop the charging process. Prolonged
charging may cause leakage of battery fluid, heat
generation, bursting. Be sure to handle recharged
batteries carefully as they may be hot.
●Do not remove the outer tube from a battery or
damage it. Doing so will expose the battery to the
risk of a short circuit, and may cause leakage of
battery fluid, heat generation, bursting and fire.
● If Twicell batteries leak fluid, change color,
change shape, or change in any other way, do not
use them, otherwise they may cause heat generation, bursting and fire.
●Twicell batteries contain the strong colorless alkaline solution(electrolyte). If the skin or clothing
comes in contact with fluid from Twicell battery,
thoroughly wash the area immediately with clean
water from the tap or another source. Battery fluid
can irritate the skin.
●When the operating time of a Twicell battery becomes much shorter than its initial operating time
even after recharged, it should be replaced to a
new battery as its battery life has ended.
CAUTION!
●Do
not strike or drop Twicell batteries. Sharp impacts or concussions to Twicell batteries may
cause leakage of battery fluid, heat generation,
bursting and fire.
●Store Twicell batteries out of the reach of babies
and small children. When charging or using a battery, do not let babies or small children remove the
battery from the charger or the equipment being
used.
●Children
should not use Twicell batteries unless
they have been carefully instructed on the contents
of this instruction manual and their parents or guardians have confirmed that the children understand
and appreciate the proper usage and safety hazards presented by the batteries.
●Be sure to charge Twicell batteries within a temperature range of 0 to 40 ℃(degrees Celsius).
When used at temperatures outside this range(0 to
40 ℃) the batteries may cause leakage of battery
fluid or heat generation. It could also impair performance or shorten service life of Twicell batteries.
●Do not charge Twicell battery when it has been
cooled to 0 ℃ or below. Doing so may cause leakage of battery fluid, impair performance or shorten
operating life of Twicell batteries.
●Do not use or store battery at high temperature,
such as in strong direct sunlight, in cars during hot
weather, or directly in front of a heater. This may
cause leakage of battery fluid. It could also impair
performance and shorten operating life of Twicell
batteries.
●Do not use old and new batteries mixed together,
or batteries at different charge levels. Do not use
the Twicell battery mixed together with a dry cell or
other battery of different capacity, type, or brand
name. This may cause leakage of battery fluid and
heat generation.
●When more than two batteries are to be used together, charge them simultaneously prior to use. If
they are not charged at the same time, it could
cause leakage of battery fluid and heat generation.
●Do not connect Twicell batteries in parallel as
this may cause leakage of battery fluid, heat generation, bursting and fire.
●For the recommended charging method for Twicell batteries, read the battery charger’s instruction
manual carefully.
●If Twicell batteries do not perform or function well
with certain equipment, refer to the instruction
manual or warnings of the subject equipment.
●Do not charge Twicell batteries beyond the recommended time described in the instruction manual for charger or equipment. Over charging cause
leakage of battery fluid, heat generation, bursting
and fire. It could also impair performance and
shorten service life of Twicell batteries.
●After long term storage, there is a possibility that
the battery could not be fully charged. In order to
fully charge it, charge and discharge the battery for
a few times.
●Be sure to turn off the equipment after use of
Twicell batteries, as this may result in leakage of
battery fluid.
●After they have been removed from equipment,
store Twicell batteries in a dry place and within the
recommended storage temperature range. This
will help preserve the batteries’ performance and
durability and to minimize the possibility of leakage
of battery fluid or corrosion. (For the indicated storage temperature range, refer to the rating table of
this catalog. Sanyo recommends a temperature
range from -20 to 30℃ for longer service life).
●Before using the Twicell, be sure to read the operation manual and all precautions carefully, then
store the manual and precautions carefully to use
as reference when the need arises. If you have
specific questions about the operation manual or
the precautions, contact Sanyo at the location listed on the last page of this manual.
●If corrosion, heat generation or other abnormalities with new Twicell batteries are detected. Immediately stop using them and return them to the
store that they were purchased from.
● If the Twicell battery terminals become dirty,
clean them with a soft dry cloth prior to use. Dirt
on the terminals can result in poor contact with the
equipment, loss of power, or inability to charge.
The name "Twicell" derives from that it can be used for approximately twice as long as our standard Cadnica
(Nickel-Cadmium) battery after one charging.
High Capacity, Quick Charging, Greater ReliabilityTwicell Provides Powerful Support for High-Tech Equipment.
SANYO named its high-performance nickel-metal hydride rechargeable batteries "Twicell", a name to suggest their outstanding
characteristics. Twicell batteries last twice as long as SANYOユs standard Cadnica [nickel-cadmium] batteries from a single charging cycle.
In 1990, SANYO began the mass-production of Twicell batteries. Now Twicell batteries are one of the keys for the downsizing and
advanced functions of high-tech equipment.
Twicell batteries use a positive electrode made of nickel oxide compound and a negative electrode made of a oxide absorbing alloy. These
sophisticated materials combine with SANYOユs proprietary technology to ensure unbeatably high performance and dependability. As a
result, Twicell batteries have been a top seller right from the start. And now an extended Twicell line accommodates a broader range of
applications.
A Powerful Range
Rapid Charging Capability
A broad range of nickel-metal hydride rechargeable
batteries is available, ranging from cylindrical to
rectangular (prismatic) types. Twicell SLIM rectangular
batteries are ideal for more compact, efficient
applications.
When a specifically designed charger is used, Twicell
batteries can be charged in only 1.2 hours*. A charge
control module is also available.
*Needs special charge control circuit.
High Capacity
High Reliability
SANYO's pursuit of higher capacity has increased
Twicell capacity up nearly twice as high as standard
Cadnica batteries, meaning Twicell batteries work much
longer. This performance makes Twicell an effective
power source for many kinds of high-tech equipment.
Twicell batteries can also withstand over 500charge /
discharge cycles (conditions stipulated in IEC61951characteristics
2(Clause
) for superior
economy.
graph) for4.4)
superior
economy.
Following the market launch of Twicell batteries in
October 1990, SANYO opened a new plant in
Tokushima, Japan, in April 1992. SANYO's advanced
manufacturing technology and strict quality control are
the secrets behind the outstanding reliability of Twicell.
2
High Cost Performance, Stable Discharge Voltage
Powerful Twicell
■Principle of the Nickel-Metal Hydride
Battery
■Features of Twicell Batteries
The nickel-metal hydride battery makes electrochemical use
of the reversibility of the hydrogen absorption/release
reaction in the hydrogen absorbing alloy. The battery uses a
nickel oxide compound for the positive electrode, a hydrogen
absorbing alloy for the negative electrode, and an aqueous
alkaline solution for the electrolyte, which includes such
constituents as potassium hydroxide (KOH). During
charging, the electrolytic reaction of water causes the
hydrogen, which forms in atomic form on the surface of the
hydorgen absorbing alloy in the negative electrode, to
diffuse into and be absorbed by the alloy (charge reaction).
During discharge, the absorbed hydrogen reacts with
hydroxide ions at the surface of the hydrogen absorbing
alloy to once again become water (discharge reaction). In
other words, the active material of the negative electrode
reaction is hydrogen, and the hydrogen absorbing alloy acts
as a storage medium for the active material. Sanyo has
developed a hydrogen absorbing alloy, which absorbs a
large quantity of hydrogen at low pressure and which can
also release it. Sanyo employs this alloy in the Twicell.
Despite discharge capacity that is virtually equal to that of
conventional dry cells, Sanyo Twicell batteries feature
minimal internal resistance and exhibit excellent discharge
characteristics under high-rate discharge current conditions.
With output power much higher than that of dry cells. Twicell
batteries can withstand over 500 repeated charge / discharge
cycles (conditions stimulated in IEC61951-2(Clause 4.4) , as
well as offering outstanding economy. In addition, even
though the batteries are stored for a long time, the original
capacity is almost recovered by repeated
charging/discharging, offering excellent storage
characteristics.
Extended service life and superior economy
Wide-ranging lineup and interchangeability with
dry cells
Customized assembled batteries tailored to specific
equipment space requirements are also available.
Excellent high-rate discharge performance and
overcharge/overdischarge capability
Sanyo's original electrode manufacturing process and current
collectors minimize internal resistance, which in turn enables
high-rate discharging and guarantees stable discharge
voltage.
Improved reliability with wide operating
temperature and humidity ranges
Structural Design
+ Positive terminal
○
(with built-in gas release vent)
Cover plate
Gasket
Spring
Seal plate
Rubber plate
Positive
current
collector
Positive electrode
insulation washer
Separator
In addition to displaying only minimal variation in performance
over a wide temperature range, their totally-sealed
construction gives Twicell batteries high resistance to
humidity. Sanyo Twicell batteries are manufactured under
strict quality control conditions, and undergo 100% inspection
before shipment. This assures superior reliability.
Simple to maintain and strong
Casing
− negative
(○
terminal)
Negative
current
collector
3
Negative electrode
Positive electrode
The special sealed construction eliminates the need to
replenish the electrolyte, for easier maintenance. As Sanyo
Twicell batteries may be installed in any direction in
equipment, they are exceptionally easy to handle. Moreover,
Twicell batteries employ a rigid metal casing for superior
resistance to shock and vibration.
Twicell Line up
A broad range of Twicell is available. Twicell significantly contributes to the compact, lightweight, multi-function
and low-cost features of various portable equipment
High capacity Twicell
High-rate discharge Twicell
For mobile phones,
notebook computers, etc
For power tools, electric motor
applications, etc
High durability Twicell
For cordless phones, razors,
power back-up uses, etc
Dry cell compatible Twicell
High capacity Twicell Slim
For digital cameras,
audio equipment, etc
For mobile phones,
audio equipment, etc
●Twicell
and Cadnica chargers.
SANYO developed and manufactured fast-speed charging control
hydrid IC (Integrated Circuit)“SI-111” for charging Twicell (Nickelmetal hydride rechargeable) and Cadnica (Nickel-Cadmium) batteries. The SI-111 charging system is perfect for batteries as it
makes maximum use of the specialized knowhow accumulated by
an advanced battery manufacturer like SANYO which is dedicated
to researching battery performance and features.Orders for the
charger involved the initial development stages right up to the finished product as this new technology aroused considerable interest. SANYO manufactures chargers optimized for battery categories and applications that require normal or fast charging.
4
High Capacity Twicel
High Cost Performance,
High Energy Density
■Features
Characteristics(HR-AAU)
●Change Characteristics
1It
0.5It
Cell temperature
1It
0.5It
1.5
1.3
︵
1.1
Cell voltage V
A broad range of high capacity Twicell is available. High capacity
Twicell is ideal for more compact, efficient applications.
0
20
40
60
80
100
0.1It
40
20
at:20℃
0
160
140
120
●Discharge Characteristics
︵
A broad range
80
Charge input(%)
︶
*Needs special charge control circuit.
100
60
1.4
1.2
When a specifically designed charger is used, Twicell batteries can
be charged in only 1.1 hours*. A charge control module is also
available.
0.1It
120
℃ ℃
Charge temperature
︶
Cell voltage V
Cell voltage
1.6
︵
Rapid charging capability
1.7
︶
High capacity Twicell has shown the high energy density by using
newly developed materials and constitution. High capacity Twicell
can contribute to prolonging the running time of the equipment.
High capacity
1.6
1.4
0.2It
1.2
1It
3It
1.0
Charge:0.1It×16h
at:20℃
0.8
0.6
0
20
40
60
80
100
120
Discharge capacity(%)
■Use
●Temperature Characteristics
Discharge capacity %
︶
For mobile phones, 2-way radios and other communication
devices.
For notebook computers, etc.
120
100
80
60
40
Charge:0.1It ×16h, at 20℃
Rest:3h
Discharge:1It(E.V.=1.0V)
20
0
0
10
20
30
40
︵
Ambient temperature(℃)
●Charge/Discharge Cycle Characteristics
Discharge capacity %
︶
︵
D
H
120
100
80
Charge:1It(-ΔV=10mV)
Rest:1h
Discharge:1It(E.V.=1.0V)
Rest:1h
at:20℃
60
40
20
0
0
100
200
300
400
500
Number of cycles
Cylindrical type
■Ratings
〈High capacity Twicell〉
5
Quick-Charge*3
Voltage
Typical Capacity
Minimum Capacity
(V)
(mAh)*1
(mAh)*2
HR-AAAU
1.2
730
650
730
1.1
HR-5/4AAAU
HR-5/3AAAU
HR-4/5AAU
HR-AAUL
HR-AAU
HR-4/5AU
HR-AU
HR-4/3AU
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
HR-4/3FAU
1.2
850
1000
1350
1450
1650
2150
2700
4000
4000
4500
760
920
1300
1300
1500
1950
2450
3600
3600
4100
850
1000
1350
1450
1650
2150
2700
3000
3000
3000
Model No.
Current(mA)*3
Time(hr.)
Dimensions(mm) (incl. tube)*4
Diameter(D)
Height(H)
Weight
(approx.g)*4
Notes
43.6
44.5
50.0
67.5
43.0
49.0
50.0
43.0
50.0
67.5
13
For mobile phones and other communication devices
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.5
10.5
10.5
10.5
10.5
14.5
14.2
14.2
17.0
17.0
17.0
15
19
24
27
28
35
40
55
For mobile phones and other communication devices
For mobile phones and other communication devices
For mobile phones and other communication devices
For 2-way radios and other communication devices
For 2-way radios and other communication devices
For 2-way radios and other communication devices
For 2-way radios and other communication devices
For notebook computers, etc.
1.5
18.0
67.5
62
For notebook computers, etc.
*1 Average capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *2 Minimum capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *3 Needs specific charger. *4 Including tube.
High Durability Twicell
Superior Reliability
and Stable Characteristics
■Features
Characteristics(HR-AAC)
●Change Characteristics
1It
Cell voltage
1.5
0.1It
1It
1.3
︵
1.1
40
0.1It
Cell temperature
20
Cell voltage V
For cordless phones, razors, power back-up uses, etc.
at:20℃
0
20
40
60
80
100
120
160
140
0
●Discharge Characteristics
︵
■Use
80
Charge input(%)
︶
A broad range of high durability Twicell is available. High durability
Twicell is available for many applications.
100
60
1.4
1.2
A powerful range
120
Cell temperature ℃
︶
Cell voltage V
1.6
︵
1.7
︶
High durability Twicell realizes superior service life than high
capacity Twicell at continuous low-rate charging and charge and
discharge cycles. High durability Twicell offers better performance
for cordless phones, power back-up uses, etc.
Superior service life
1.6
1.4
0.2It
1.2
1.0
3It
0.8
0.6
1It
Charge:0.1It ×16h
at:20℃
0
20
40
60
80
100
120
Discharge capacity(%)
●Temperature Characteristics
︶
Discharge capacity %
120
100
80
60
40
Charge:0.1It ×16h, at 20℃
Rest:3h
Discharge:1It(E.V.=1.0V)
20
0
0
10
20
Ambient temperature(℃)
30
40
︵
●Charge/Discharge Cycle Characteristics
︶
Discharge capacity %
120
100
80
60
Charge:1It(-ΔV=10mV)
Rest:1h
Discharge:1It(E.V.=1.0V)
Rest:1h
20℃
40
20
0
0
100
200
300
400
500
︵
Number of cycles
D
H
■Ratings
Cylindrical type
〈High durability Twicell〉
Model No.
HR-2/3AAAUC
HR-4UC
HR-4/5AAUC
HR-AAC
HR-4/5AUC
HR-AUC
HR-4/3FAUC
HR-SCC
Voltage
Typical Capacity
Minimum Capacity
(V)
(mAh)*1
(mAh)*2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
400
650
1100
1100
1700
2100
3700
2100
350
600
1000
950
1550
1900
3300
1900
Quick-Charge*3
Current(mA)*3
400
650
1100
1100
1700
2100
3000
2100
Time(hr.)
1.1
1.1
1.1
1.1
1.1
1.1
1.5
1.1
Dimensions(mm) (incl. tube)*4
Diameter(D)
Height(H)
10.5
10.5
14.2
14.2
17.0
17.0
18.0
23.0
30.0
44.5
43.0
50.0
43.0
50.0
67.5
43.0
Weight
(approx.g)*4
Notes
9
13
23
27
35
40
62
59
For cordless phones, PHS, etc.
For cordless phones, PHS, etc
For razors, cordless phones, toothbrushes, etc.
For razors, cordless phones, toothbrushes, etc.
For razors, toothbrushes, etc.
For power back-up uses, etc.
For power back-up uses, etc.
For power back-up uses, etc.
*1 Average capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *2 Minimum capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *3 Needs specific charger. *4 Including tube.
6
High-rate Discharge Twicell
Stable Discharge Voltage
at High-rate Discharge
■Features
Characteristics(HR-4/3FAUP)
Superior high-rate discharge characteristics
●Change Characteristics
Cell voltage V
︶
︵
Sanyo's original electrode manufacturing process and current
collectors minimize internal resistance, which in turn enables highrate discharging and guarantees stable discharge voltage.
Improved reliability with wide operating temperature
In addition to displaying only minimal variation in performance over
a wide temperature range.
1.7
1.6
1.5
1.4
1.3
1.2
1.1
1.0
1It
0.5It
0.15It
at:20℃
0
20
40
60
80
100
120
160
140
Charge input(%)
●Discharge Characteristics
A powerful range
Cell voltage V
︶
︵
High-rate discharge Twicell consists of wide variation. It enables to
be used many applications.
■Use
For power tools, cordless cleaners, electric motor applications,
power back-up uses, etc.
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
5A
10A
20A
30A
40A
Charge:1It(-ΔV=10mV)
at:20℃
0
20
40
60
80
100
120
Discharge capacity(%)
●Temperature Characteristics
︶
Discharge capacity %
120
100
80
60
40
Charge:1It(-ΔV=10mV, at 20℃)
Rest:3h
Discharge:5A(E.V.=0.8V)
20
0
-10
0
10
20
30
40
︵
Ambient temperature(℃)
●Charge/Discharge Cycle Characteristics
︶
Discharge capacity %
120
100
80
Charge:2It ×40%+1It(-ΔV=10mV)
Rest:15min
Discharge:7A(E.V.=0.8V)
Rest:15min
at:20℃
60
40
20
0
0
100
200
300
400
500
︵
Number of cycles
D
H
■Ratings
Cylindrical type
〈High-rate discharge Twicell〉
Model No.
HR-4/5FAUP
HR-4/3FAUP
HR-4/5SCU
HR-SC
HR-SCU
HR-D
7
Voltage
Typical Capacity
Minimum Capacity
(V)
(mAh)*1
(mAh)*2
1.2
1.2
1.2
1.2
1.2
1.2
1950
3200
2100
2600
3000
7300
1800
3050
1900
2300
2700
6500
Quick-Charge*3
Current(mA)*3
1950
3200
2100
2600
3000
5000
Time(hr.)
1.1
1.1
1.1
1.1
1.1
1.7
Dimensions(mm) (incl. tube)*4
Diameter(D)
Height(H)
18.1
18.1
23.0
23.0
23.0
34.0
43.2
67.0
33.5
43.5
43.5
59.3
Weight
(approx.g)*4
39
60
47
62
61
175
Notes
For power tools, cleaners, electric motor applications, power back-up uses, etc.
For power tools, cleaners, electric motor applications, power back-up uses, etc.
For power tools, cleaners, electric motor applications, etc.
For power tools, cleaners, electric motor applications, power back-up uses, etc.
For power tools, cleaners, electric motor applications, power back-up uses, etc.
For electric motor applications, power back-up uses, etc.
*1 Average capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *2 Minimum capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *3 Needs specific charger. *4 Including tube.
Dry Cell Compatible Twicell
High Capacity and Convenience
■Features
Top level capacity in retail use rechargeable battery.
The equipment which need the high capacity like the digital camera
is suitable.
Long charge/dischargecycle life as well as offering
outstanding economy
Twicell can withstand over 500 repeated charge/discharge cycles
(conditions stipulated in IEC61951-2(Clause 4.4) ). Twicell can
reduce waste (the amount of used batteries) than that of dry cell.
Portable charger which can charge
AA/AAA size batteries at a time quickly
and have auto voltage function for
AC100V-240V
The charger for
Nickel-Metal Hydride batteries
NC-MQR02
■Features
●NC-MQR02 can charge AA/AAA size Nickel-Metal Hydride
batteries at a time.
■Use
AA size Nickel-Metal Hydride batteries (HR-3U, Typ.2100mAh type)
: approx. 230min.(four batteries), approx.105min.(two batteries)
AAA size Nickel-Metal Hydride batteries (HR-4U, Typ.750mAh type)
: approx. 145min.(two batteries)
For digital cameras, PDA and audio equipment, etc.
●Newly developed control systems prevent the battery
from overcharging and charging error.
Newly developed peak detection and pulse control systems prevent the
battery from overcharging and charging error. And the light informs the
charging status.
●Light weight and compact design.
NC-MQR02 is handy to carry. Weight : approx.95g (except the batteries),
Thickness : 27.5mm. And they have the storage space of plug.
AA size HR-3U
AAA size HR-4U
D
H
■Ratings
Cylindrical type
〈Dry cell compatible Twicell〉
Voltage
Typical Capacity
Minimum Capacity
(V)
(mAh)*1
(mAh)*2
HR-4U
1.2
HR-3U
1.2
750
1850
2100
700
1750
2000
Model No.
Quick-Charge*3
Current(mA)*3
750
1850
2100
Time(hr.)
1.1
1.1
1.1
Dimensions(mm) (incl. tube)*4
Diameter(D)
Height(H)
10.5
14.2
14.35
44.2
50.0
50.4
Weight
(approx.g)*4
13
28
29
Notes
For PDA, audio equipment, etc.
For digital cameras, information equipment, etc.
*1 Average capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *2 Minimum capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *3 Needs specific charger. *4 Including tube.
8
High Capacity Twicell SLIM
Space Saving
Twicell SLIM / Rectangular Type
■Features
Structural Design
+ Positive terminal
○
(with built-in gas release vent)
Flat, rectangular shape
Compared with a cylindrical battery of the same capacity, storage
space is reduced.
Charges in almost one hour
Gasket
Cover plate
Positive current collector
The revolutionary Twicell SLIM, with its superior gas recombination
ability and voltage characteristics, can be initially charged in one
hour in the fast charge control circuit using the cell voltage
sensoring method.
Spacer
Positive electrode
High energy density
Twicell SLIM has shown the high energy density by using newly
developed materials and constitution. Twicell SLIM can contribute
for prolong the running time of the equipment.
Stable discharge characteristics
This battery can maintain almost stable voltage during discharge.
Special sealed configuration
This effectively sealed battery can installed in any direction for easy
incorporation into equipment. In addition, there is no need to
replenish electrolyte, making maintenance easy.
Long life and high reliability
Sanyo's innovative technologies realize high performance for a
long time.
■Use
For mobile phones, 2-way radios and other communication devices
For audio equipment, etc.
9
Negative electrode
Separator
Casing
(○
− negative terminal)
Characteristics(HF-CIU)
●Change Characteristics
1.5
100
0.5It
0.1It
80
60
1.4
1.3
0.5It
1It
Cell temperature
0.1It
40
1.2
20
1.1
at:20℃
0
160
120
140
0
20
40
60
80
100
Charge temperature ℃
1It
Cell voltage
1.6
︵
︶
Cell voltage V
︶
120
1.7
︵
Charge input(%)
●Discharge Characteristics
︶
Cell voltage V
1.6
1.4
0.2It
1.2
1It
1.0
3It
Charge:1It(-ΔV=4mV)
at:20℃
0.8
︵
0.6
0
20
40
60
80
100
120
Discharge capacity(%)
●Temperature Characteristics
︶
Discharge capacity %
120
100
80
60
40
Charge:1It(-ΔV=4mV), at 20℃
Rest:3h
Discharge:1It(E.V.=1.0V)
20
0
0
10
20
30
40
︵
Ambient temperature(℃)
●Charge/Discharge Cycle Characteristics
Discharge capacity %
︶
︵
W
T
H
H
Rectangular type
120
100
80
Charge:1It(-ΔV=4mV)
Rest:1h
Discharge:1It(E.V.=1.0V)
Rest:1h
at:20℃
60
40
20
0
0
100
200
300
400
500
Number of cycles
■Ratings
〈High capacity Twicell Slim〉
Model No.
HF-C1U
HF-C2U
HF-B1U
HF-A1U
HF-D4U
HF-E5U
Quick-Charge*3
Voltage
Typical Capacity
Minimum Capacity
(V)
(mAh)*1
(mAh)*2
Current(mA)*3
Time(hr.)
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
650
700
900
860
1350
1350
640
900
580
670
830
785
1250
1300
600
830
650
700
900
860
1350
1350
640
900
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
Weight
Dimensions(mm) (incl. tube)*4
Width(W)
Height(H)
Thickness(T) (approx.g)*4
17.0
17.0
17.0
17.0
17.0
17.0
16.0
14.5
35.5
35.5
35.5
48.0
67.0
67.0
34.0
48.2
6.2
6.2
8.4
6.2
6.2
6.2
6.6
7.4
13
14
18
18
26
26
13
18
Notes
For mobile phones and other communication devices
For mobile phones and other communication devices
For mobile phones and other communication devices
For mobile phones, PDA, etc.
For audio equipment, etc.
For mobile phones and other communication devices
For mobile phones and other communication devices
*1 Average capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *2 Minimum capacity when a single cell is discharged at 0.2It after being charged at 0.1It for 16 hours. *3 Needs specific charger. *4 Including tube.
10
Types and Applications of Twicell Batteries
Twicell Batteries
Type
Application
Twicell
Twicell SLIM
●
●
●
●
●
●
●
●
Radio Cassette Recorder
Radio
Head Set Stereo
Mini Disc
Wireless Microphone
Camcorder
AF Camera
Digital Camera
Remote controller
Notebook Computer
Mini-Notebook Computer, PDA
Potable Printer
Organizer, Calculator
Fax, Copy
Data Entry
2 Way Radio
Cordless Phone
Mobile Phone
DECT Phone
Electric Razor
Vacuum Cleaner
Power Tool
Fire Alarm
Emergency lights
Emergency Communicator
Photographic Lighting Equipment
Light
Remote Control Toys
Game Machine
Medical Equipment
Solar-powered Equipment
Power Assisted Bicycles or Vehicles
Dry Cell-applied Products
Robots,, Uninterrupted Power Systems (UPS)
Measuring Instrument
Audio
Camera
Remote controller
Information
Communication
Home Appliance
Power Tool
Emergency
Light
Toy
Medical
Construction
Transport
Others
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
●
※Typical applications are shown in the table. For other purposes, consult Sanyo.
Precautions for Incorporating Assembled Batteries
●When batteries are used at high temperature, their
charge efficiency decreases and degradation of their
performance and material properties is accelerated.
To prevent this, keep the battery away from heat
generating parts such as in transformers, and
attempt to improve the heat radiation of equipment
and battery.
●Reverse charging of battery may cause leakage of
electrolyte (strong alkaline), thus calling for alkaline-
resistant materials in the periphery of the battery.
Together with the electrolyte, oxygen or hydrogen
gas may leak. During design, measures must be
incorporated to prevent combustion. which may be
caused by sparks from motors or switches.
●Avoid contact-type connections such as those
employing a spring, as an oxidized coating will from
on the contact surface after prolonged periods of
use, leading to possible improper contact. If a
Certified by ISO 9000S
contact-type connection is used, remove the battery
and wipe the contact with a cloth every few months
to improve conductivity.
●Select the material for the connection plate that has
excellent resistance to alkaline. The materials that
contain copper may cause a trouble like rust.
●Avoid direct attachment to a printed board, as
leakage will corrode the board. If direct attachment
is necessary, consult Sanyo representative.
SANYO Electric Co., Ltd. Soft Energy
Company, as a part of the SANYO Electric
Group, have received the Environmental
Management System ISO 14001
certification.
・Approval Certificate NO:EC00J0303
・Registration Date:19/Mar/2001
USA
SANYO Energy (USA) Corporation
TEL :(+1)619-661-6620
FAX:(+1)619-661-6743
New Jersey Office
TEL :(+1)201-843-7200
FAX:(+1)201-843-3870
Chicago Office
TEL :(+1)630-285-0333
FAX:(+1)630-285-1133
Florida Office
TEL :(+1)352-376-6711
FAX:(+1)352-376-6772
Atlanta Office
TEL :(+1)770-476-4558
FAX:(+1)770-476-7558
Dallas Office
TEL :(+1)972-398-0307
FAX:(+1)972-398-8477
CANADA
SANYO Canada Inc.
TEL :(+1)905-760-9944
FAX:(+1)905-760-9303
EUROPE
SANYO Energy (Europe) Corporate
GmbH
TEL :(+49)89-4600950
FAX:(+49)89-460095190
Scandinavia Representative Office
TEL :(+45)33-27-09-10
FAX:(+45)33-27-04-44
Italy Representative Office
TEL :(+39)2-55180490
FAX:(+39)2-55180502
France Representative Office
TEL :(+33)1-4131-8484
FAX:(+33)1-4131-8485
SANYO Energy (UK) Company Ltd.
TEL :(+44)1442-213121
FAX:(+44)1442-212021
ASIA
SANYO Energy (HK) Company Ltd.
TEL :(+886)2-8780-8810
FAX:(+886)2-8780-8850
SANYO Energy (Taiwan)Company Ltd.
TEL :(+886)2-8780-8810
FAX:(+886)2-8780-8850
SANYO Energy (Singapore)
Corporation Pte., Ltd.
TEL :(+65)6736-3100
FAX:(+65)6736-1230
AUSTRALIA
SANYO Australia Pty. Ltd.
TEL :(+61)2-8825-2822
FAX:(+61)2-9678-9381
SANYO Electric Co., Ltd.
〈Soft Energy Company〉
〈Factory, Sales〉
Sumoto-city, Hyogo, Japan
TEL :(+81)799-24-4111
FAX :(+81)799-24-4123
For more detailed information, contact the above:
●
This brochure was printed on recycle paper.
Printed in Japan 2002.10. 5,000
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