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Network Components Business Unit

Micro Batteries

Network Components Business Unit
Micro Batteries
Product Catalogue
CMOS IC Quartz Crystals
Micro Batteries
Materials Liquid Crystal Display Custom LCD Module
October 2002
Precautions for Your Safety
SII Lithium-ion rechargeable batteries (MS, RB, HB, TS) contain flammable organic solvents. For your safety, please follow following prohibitions.
· Do not charge by high current or high voltage.
Doing so may generate gas inside the battery, resulting swelling, catching fire, heat generation or bursting.
· Do not discharge by force If the battery is discharged by direct connection to an external
power supply etc., voltage of the battery will decline lower than 0 volts (electrical reversal) and will cause the battery case to expand, overheat, leak, explode or burn.
· Do not heat, disassemble nor dispose of in fire
Doing so damages the insulation materials and may cause catching fire, heat generation, leakage or bursting.
· Do not solder directly to the battery
If soldering is performed directly to the battery, the battery is heated up, consequently causes leakage, explosion or fire due to overheating from internal short-circuiting.
· In case of leakage or a strange-smell, keep away from fire to prevent ignition of any leaked electrolyte. · In case of disposal, insulate between (+) and (-) of battery by an insulating
Jumbling batteries or with other metal materials cause shortcircuiting. As a result, catching fire, heat generation, leakage or bursting may occur.
Do not jumble batteries Short-circuiting
· Do not short. If the (+) and (-) come into contact with metal materials, shortcircuiting occurs. As a result, catching fire, heat generation, leakage or bursting may occur.
If leaked liquid is ingested or a battery is swallowed, consult a physician immediately.
Example Example of insulation
Insulating tape discharge discharge
· Do not reverse placement of (+) and (-)
If the (+)and(-) side of the battery is reverse inserted, it may cause a short-circuiting or over discharge of the battery on some equipment and it may induce overheating, explosion or fire.
Contacting between batteries cause short-circuiting such as above diagram.
· If leaked liquid gets in the eyes, wash them with clean water and consult a physician immediately. · Do not use new and used batteries together. Do not use different types of batteries together.
It may cause catching fire, heat generation, leakage or bursting.
· Do not apply strong pressure to the batteries nor handle roughly.
It may cause catching fire, heat generation, leakage or bursting.
· Avoid contact with water.
It may cause heat generation.
· If you connect two or more batteries in series or parallel, please consult us in advance.
It may cause bursting or catching fire due unbalanced load or voltage.
· Keep batteries away from direct sunlight, high temperature and humidity.
It may cause heat generation or performance deterioration.
· Do not use nor leave the batteries in direct sunlight nor in high-temperature areas.
It may cause catching fire, heat generation, leakage or bursting.
For prevention the performance deterioration of battery · Pay attention to mat or sheet for ESD · Pay attention to soldering by tips
Battery with tabs or battery on PCB may short circuit on the mat for ESD. As a result the voltage of cell drops down. Do no touch the battery by solder chips, in case of soldering another components after equipping battery. Basically, keep any high temperature process away from battery.
· Pay attention to material of jig for pick and place Use nonconductive material of jig for pick and place of batteries, for short-circuit protect. If short circuit of battery is occurred, the voltage of battery drops down quickly but raises gradually. · Pay attention to washing and drying Some detergent or high temperature drying cause deteriorate of battery. If you need to wash batteries, consult us.
International Transportation and Disposal International Transportation
(Air Transport) Based on DGR (Dangerous Goods Regulations) of ICAO (International Civil Aviation Organization), IATA (International Air Transport Association) has determined transport regulations. The regulation states that lithium batteries are considered not dangerous if they meet the following requirements Each bare cell with a solid cathode must contain 1.0g or less of lithium or lithium alloy. They may be transported in rigid packaging with short-circuit protection. The SII lithium-ion rechargeable batteries contain under 1.0g of lithium or lithium alloy per cell. (Marine Transport) IMO (International Marine Organization) has determined transport regulations based on IMDG (International Marine Dangerous Goods). The judgement standard of dangerous goods is based on DGR of ICAO. When the batteries are not regarded as dangerous goods, they should be transported in rigid packaging with short-circuit protection, according to IATA standards. DOT (department of Transportation) Regulations for packaging and transportation of lithium batteries in the U.S.A. are determined by Code 49 CFR173 185 of Federal Resister. The judgement standard of dangerous goods corresponds to DGR of ICAO. When the batteries are not regarded as dangerous, any transportation method is acceptable if they are transported in rigid packaging with short-circuit protection. We will stick "Caution label"on outside of the shipping package to the U.S.A., please let us know if you need it.
Disposal
Recent environmental protection concerns have increased globally and waste and recycling are regulated in the world. The current regulations differ in each country, state and local municipality. Please consult local regulations and authorities for recommended disposal of batteries. If you are in question of application or safety of our batteries, please consult your local authorities.
Precautions for Your Safety
SII capacitors (XC, XH) contain flammable organic solvents.For your safety, please follow following prohibitions.
· Do not charge by high current or high voltage.
Doing so may generate gas inside the capacitor, resulting swelling, catching fire, heat generation or bursting.
· Do not heat, disassemble nor dispose of in fire
Doing so damages the insulation materials and may cause catching fire, heat generation, leakage or bursting.
· Do not reverse placement of (+) and (-)
SII capacitors have polarity. If the (+) and (-) side of the capacitor is reverse inserted, it may cause a short-circuiting or over discharge of the capacitor on some equipment and it may induce overheating, explosion or fire.
· Do not discharge by force
If the capacitor is discharged by direct connection to an external power supply etc., voltage of the capacitor will decline lower than 0 volts (electrical reversal) and will cause the capacitor case to expand, overheat, leak, explode or burn.
· Do not solder directly to the capacitor
If soldering is performed directly to the capacitor, the capacitor is heated up, consequently cause leakage, explosion or fire due to overheating from internal short-circuiting.
· Incase of leakage or a strange-smell, keep away from fire to prevent ignition of any leaked electrolyte.
· If leaked liquid gets in the eyes, wash them with clean water and consult a physician immediately. · Do not use nor leave the capacitors in direct sunlight nor in high-temperature areas.
It may cause catching fire, heat generation, leakage or bursting.
· If you connect two or more capacitors in series or parallel, please consult us in advance.
It may cause bursting or catching fire due unbalanced load or voltage.
· Keep capacitors away from direct sunlight, high temperature and humidity.
It may cause heat generation or performance deterioration.
· Do not use new and used capacitors together. Do not use different types of capacitors together.
It may cause catching fire, heat generation, leakage or bursting.
Precautions for Your Safety
· Do not heat, disassemble nor dispose of in fire Doing so damages the insulation materials and may cause catching fire, heat generation, leakage or bursting.
· Do not short.
If the (+) and (-) come into contact with metal materials, short-circuiting occurs. As a result, catching fire, heat generation, leakage or bursting may occur.
· If leaked liquid, alkaline, get in the eyes, do not rub them, wash them with clean water and consult a physician immediately. · If leaked liquid, alkaline, stick upon wears, for protecting irritation, wash them with clean water immediately.
If leaked liquid is ingested or a battery is swallowed, consult a physician immediately.
· Do not reverse placement of (+) and (-) · Do not solder directly to the battery · Do not use new and used batteries together. Do not use different types of batteries together. · Do not charge. · Do not use nor leave the batteries in direct sunlight nor in high-temperature areas. · Keep batteries away from direct sunlight, high temperature and humidity. · Avoid letting battery contact with water. · Make sure to insert batteries without having (+) and (-) come in contact with metal parts of equipment. · Read the equipment instruction manual and precautions carefully before use. Some usage or types of equipment do not suit the specifications or performance of these batteries. · Remove batteries from the equipment, if finish using. Do not leave batteries connecting with equipment after using. · In case of disposal, insulate between (+) and (-) of battery by an insulating
GENERAL DESCRIPTION
FEATURES
1. Superior leakage resistance Electrolytic leakage may lower the contact with terminals of the electronic instruments which use microbatteries. This interrupts the stable operations. Special sealing materials and processing technologies are employed in the manufacture of our batteries. 2. Large capacity In order to extend the operating time of the machinery and equipment with-in the limited battery space, batteries need large capacity. Our microbatteries have large capacity. It is obtained by our original design technologies and by use of high purity materials. 3. Stable operating voltage The battery Voltage depends on the temperature and the depth of discharge. Since the change of the voltage affects characteristics of machinery and equipment, the operating voltage must be stable. Our microbatteries have a stable operating voltage over a wide temperature range and in a depth of discharge. 4. High reliability Batteries are required to have high performance in any event, that is, high reliability. Our microbatteries are manufactured under our high quality control. Only batteries with high quality are delivered to customers.
CONTENTS
Safety Precautions for handling Battery and Capacitor ... 2 Lineup of Micro Batteries and Capacitors .......... 5 MS Lithium-Ion Rechargeable Battery ................ 6 Battery Holder .................................. 11 Reflowable RB lithium-Ion Rechargeable Battery ..... 12 Pb-free reflowable HB lithium-Ion Rechargeable Battery .. 14 TS Lithium-Ion Rechargeable Battery ............... 16 Reflowable XC Capacitor (2.5V Rated Voltage Type) ..... 18 Reflowable XH Capacitor (3.3V High-Rated Voltage Type) ...... 20 Pb-free reflowable XHxxH Capacitor (3.3V Rated Voltage type) .. 22 Silver Oxide Battery ......................... 24 SII GROUP ENVIRONMENTAL POLICY ......... 26 Check Sheet for Selecting Micro Battery ........... 27 4
Lineup of Micro Batteries and Capacitors
Features of Micro Battery and Capacitor
Size Diameter
4.8mm 2.1mm (2.0mm) 1.4mm
MS421S
MS414 XC 414 MS414F XH 414 RB 414 XH414H HB414
Standard Voltage Range
12.5mm
MS1220
6.8mm
MS621 MS621F TS 621 XC 621 MS614 MS614F MS614S XC614
9.5mm
MS920 MS920S TS 920
3.3V 3.0V 2.5V 2.3V 2.0V 1.5V
MS Series
HB / RB Series
Height
XH Series
TS Series
XC Series
1.2mm
MS412F
0.9mm
XC609
0.7V 0V
Fitting List by Applications
Usage GSM PDC / CDMA Telephone Digital Camera VCR Camera Camera TV / VTR Backup use GPS PDA Personal Computer FAX PC Card Long time backup Short time backup Power Supply Watch Main Recharge Recharge Recharge -able -able -able Capacitor Capacitor Long cycle life Large capacity Large capacity Long cycle life and large capacity Long cycle life Large capacity Long cycle life Large capacity and small self-discharge, Over-discharge, stable. Application SR TS MS RB / HB XC XH Necessary Features Long cycle life and Overdischarge Small and Large capacity Long cycle life and large capacity Long cycle life Long cycle life and large capacity Long cycle life and Overdischarge Long cycle life
Battery Type
FEATURES
Sll own developed MS(Manganese Silicon) Lithium-ion rechargeable battery addresses the demand most effectively. The battery uses silicon oxide as anode and lithium manganese composite oxide as cathode. As a result, it offers twenty times the capacity of conventionally available batteries, in addition to longer cycle-life and highly stable over-discharge characteristics.
APPLICATIONS
· Back up power supply for memory or clock in various electronic equipment e.g. cellular-phones, cordless phones, PHS, pagers, memory-cards, FAX machines, personal computers, PDA, Video cameras, digital cameras, tuners, handy terminals etc. · Combined use with solar cells. · Main power source for small and slim portable equipment.
Size(mm) Diameters 4.8 4.8 4.8 4.8 6.8 6.8 6.8 6.8 6.8 9.5 9.5 12.5 Height 1.2 1.4 1.4 2.1 1.4 1.4 1.4 2.1 2.1 2.1 2.1 2.0 Weight (g) 0.07 0.07 0.07 0.11 0.17 0.16 0.17 0.23 0.23 0.46 0.47
SPECIFICATIONS
MS412F MS414 MS414F New MS421S MS614 MS614F MS614S MS621 MS621F MS920 New MS920S Developing MS1220S
(24°C, 3.3V to 2.0V / 3.1V to 2.0V(F, S type))
Principle System of MS Lithium-Ion Rechargeable Battery
ePower Source e
1. High Capacity
Anode (negative electrode) Lithium silicon composite oxide developed by SII in our MS battery is :
Discharge
1 able to absorb a large quantity of Lithium ions. 2 stable during Absorption (charging) and Release (discharging) of the Lithium ions
2. Long Cycle Life
Charge
Cathode
(Positive Electrode)
Anode
(Negative Electrode)
3. Overdischarge Characteristics
Discharge Characteristics at Various Charge Voltage
MS412F
MS421S
Voltage V
2.70V 2.75V 2.80V 2.85V 2.9V 3.3V
2.85V
Capacity mAh
MS614
MS614S
Voltage V
2.5 3.3V 2.0 2.8V 2.9V 3.0V 1.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.1 3.2V
2.7V 2.75V
2.8V 3.0V 2.9V
Capacity mAh
MS621
MS621F
Voltage V
2.5 3.3V 2.0 2.8V 2.9V 3.0V 1.5 0.0 3.1V 3.2V
Voltage V
2.5 3.3V 2.0 2.7V 2.8V 2.85V2.9V 3.0V
Capacity mAh
MS920
MS920S
Voltage V
3.1-3.3V
2.0 2.8V 2.9V 3.0V 3.1V 3.3V
Capacity mAh
CHARACTERISTICS MS621
Cycle Life-Depth of Discharge
High Temperature Storage Characteristics(80°C)
Cycle Number Time
Capacity mAh
Storage Period at 80°C days
High Temperature Storage Characteristics(60°C)
Over Discharge Characteristics
Capacity mAh
Storage Period at 60°C days
Over Discharge Period month
Over-Charge (Floating-Charge) Characteristics
Self Discharge Characteristics
Open Circuit Voltage V
Storage Period at 60°C 3.3V days
Room Temperature Storage Period month
Temperature Characteristics (Capacity)
Temperature Characteristics (Internal Resistance (Ri ac) )
Alternating Current method 1kHz / 1mA
Internal Resistance
Capacity mAh
Maximum
Average
Temperature °C
CHARGING CIRCUIT
Standard Charging Circuit Settings List for Using MS Rechargeable Battery with Constant Voltage and Constant Resistance.
Power Supply Vc
CLOCK CMOS etc.
Charging Voltage : 3.3V Max. Charging current limiting resistance : R D1 : Diode(Item of smaller VF, IR is recommendable) D2 : Using a schottky type of smaller VF will lead better performance
3.3V Max.
Charging Voltage Range (V)
Recommendable Charging Current (mA) At Battery Voltage of 3.0V Ic 0.08max. 0.08max. 0.08max. 0.30max. 0.30max. 0.60max. 0.40max.
Maximum Charging Current (mA) At the Battery Voltage of 3.0V IU 0.15 0.15 0.15 0.5 0.5 1.0 0.5 At the Battery Voltage of 0V IL 2 2 2 10 10 20 10
MS412F MS414 MS421S MS614, 614F, 614S MS621, 621F MS920 MS920S
2.7 to 3.3 2.7 to 3.3 2.7 to 3.3 2.7 to 3.3 2.7 to 3.3 2.7 to 3.3 2.7 to 3.3
Circuit Example in the case of using 3V for Power Supply.
D2 Load MS
Over 330
3.0V to 3.5V 3.3V Max.
MS614F
Circuit Example in the case of using 5V for Power Supply.
(1) with using voltage regulator IC (2) with using Zener diode
D1 D3 3.3V Max. ZD MS Load
3.3V Max.
(3) with using charge / discharge control IC
(4) with using devided resistance for valtage
5V 3.3V Max.
R MS Load
R2 3.3V Max. MS Load
DIMENSIONS OF STANDARD TAB-WELD FOR MANGANESE SILICON LITHIUM-ION BATTERY
MS414, 412F FL26N / FL26E
1.65 (Solder Plating Area)
MS414, 412F IL21N / IL21E
MS614, 614F, 614S FL28N / FL28E
MS614, 614F, 614S FL29N / FL29E
1.8max.
MS614, 614F, 614S IL38N / IL38E
MS614, 614F, 614S LL32N / LL32E
MS614, 614F, 614S VI02N / VI02E
MS621, 621F FL11N / FL11E
0.5max.
1.8max.
MS621, 621F IL36N / IL36E
MS621, 621F VN31N / VN31E
MS920 FL27N / FL27E
MS920 IL37N / IL37E
2.7max.
BATTERY HOLDER
BH0414
MS414, MS412F, MS414F
Area for which patterns are prohibited. (Negative electrode patterns are permited.)
Item With Standing Voltage Contact Resistance Insulation Resistance Operational Temperature Range Standard DC500V / minute Less than 100m More than 100M -40°C ~ +85°C
Area for which patterns are prohibited. (Positve electrode patterns are permited.)
Reflowable RB Lithium-Ion Rechargeable Battery
FEATURES
APPLICATIONS
Power supply back up use for Cellular phone, Wireless phone, PHS, Digital still Camera, PDA, MD player.
SPECIFICATIONS
Type Nominal Voltage (V) Nominal Capacity (Voltage Range) (mAh)
Standard Charge Discharge Current (mA)
Cycle Life (Time)
Diameter (mm)
Height (mm)
Weight (g)
CHARACTERISTICS
Charge-Discharge Characteristics
1. 3.3V
2. 3.0V
3. 2.5V
Voltage V
2.0 1.5 1.0 0.5 Charge : 3.3V / max.25µA / 48hr / RT(CC / CV)
Voltage V
Capacity mAh
CHARACTERISTICS
High Temperature Strage Characteristics (60°C)
Capacity mAh
5µA Discharge / 25µA, 30hr Charge
Voltage V
initial 2.0 After 60°C x 100 storage days
20µA Discharge / 500µA, 5hr Charge
Cycle Number (times)
Capacity mAh
REFLOW SOLDERING CONDITION
Reflow Soldering Temperature Profile Example
Temperature on the cell surface (°C)
Recommended Reflow Condition
240 °C Peak Temperature: under 5sec.
Peak Temperature (°C)
above 200°C Reflow region Pre heat region
Time (Seconds) The times of repeated reflow soldering must be two times or less. The Temperature must be measured at top of the cell.
Time above 200 °C (Seconds)
DIMENSIONS OF STANDARD TAB-WELD FOR REFLOWABLE RB BATTERY
RB414 II06N / II06E
RB414 IV02N / IV02E
RB414 IV01N / IV01E
4.8MAX
Example of battery mounting
Recommendable P.C.Board layout
Pb-free Reflowable HB Lithium-Ion Rechargeable Battery
FEATURES
For protecting the global environment, SII developed Lithium-ion rechargeable battery which allows Pb-free reflow soldering (automatic mounting by Pb-free solder) HB414 is the Pb-free reflowable Lithium-ion rechargeable battery, by adopting highly heat resistant material and precise sealing technology. HB series features high capacity and long cycle life with possible charging voltage range from 1.8V to 3.3V, which is most suitable for backup use of real time clock and SRAM etc.
APPLICATIONS
Power supply back up use for Cellular phone, Wireless phone, PHS, Digital still Camera, PDA, MD player.
SPECIFICATIONS
Type Nominal Voltage (V) Nominal Capacity (Voltage Range) (mAh)
Standard Charge Discharge Current (mA)
Cycle Life (Time)
Diameter (mm)
Height (mm)
Weight (g)
REFLOW SOLDERING CONDITION
Reflow soldering profile (for reference only)
270 250 The peak temperature is within five seconds.
Recommended Reflow Condition
Temperature (°C)
200 150 Time above 200°C
Peak temperature (°C)
Time (seconds) The times of repeated reflow soldering must be two times or less. The Temperature must be measured at top of the cell. Peak Temperature Max.260°C
Time above 200°C (seconds) Recommended Reflow Condition Model HB414 XH414H
Applicable (within 5 seconds)
CHARACTERISTICS
Charge-Discharge Characteristics
High Temperature Storage Characteristics (60°C)
2nd Discharge Curves
Voltage V
initial
after 100days
Capacity mAh
Charge-Discharge Cycle Characteristics
Over Discharge Cycle Characteristics
5µA Discharge / 25µA, 30hr Charge
5µA Discharge / 25µA 30hr Charge
Capacity mAh
20µA Discharge / 500µA, 5hr Charge 20µA Discharge / 500µA 5hr Charge
Cycle Number times
DIMENSIONS OF STANDARD TAB-WELD FOR REFLOWABLE HB BATTERY
HB414 II06E
HB414 IV02E
HB414 IV01E
4.8MAX
Example of battery mounting
Recommendable P.C.Board layout
FEATURES
TS(Titanium Silicon) Lithium-lon battery is 1.5V type rechargeable battery features large capacity, wide charging voltage range, long cycle-life and excellent reliability with using titanium composite oxide as cathode and originally developed Litium silicon oxide as anode.
APPLICATIONS
· Power supply for backing up memory or clock in cellular phone, PHS, pagers etc. · Combined use with solar cells (watch, calculator, blinking road-marker etc.) · Main power source for small portable equipment.
SPECIFICATIONS
TS621 TS920
For Charging Circuit Design
Charge Voltage In case of under 1.6V In case of 1.6 to 3.0V
voltage ( When battery0.7V ) reaches
TS621 TS920
3mA 6mA
0.2mA 0.4mA
CHARACTERISTICS TS621
Charge / discharge characteristics
Charge voltage dependence of discharge capacity
Discharge capacity
Discharge Capacity mAh
Charge
Charge period
Discharge
Capacity mAh
Charge Voltage V
Charge Time hr
Voltage V
TS621
Over charge (Floating charge) characteristics
Charge / discharge cycle characteristics
Continued
Capacity mAh
Voltage V
Charge : 0.1mA / 2.3V / 36hr (CC / CV) Discharge : 50µA (CC)
Initial
after 60°C, 3.0V -impressed, 200days
Discharge Capacity mAh
Cycle Number time
Over discharge characteristics
Storage characteristics
Voltage V
Initial
after over discharge (10K-200days)
after 200days storage in 60°C
Discharge Capacity mAh
Discharge Capacity V
Over discharge cycle characteristics
Temperature characteristics
Voltage V
20th Cycle
Voltage V
Initial 50th Cycle
-20°C 25°C 60°C
Discharge Capacity mAh
TS920
Charge / discharge characteristics
Temperature Characteristics
Capacity
Internal Resistance
Voltage V
Capacity mAh
Temperature °C
Internal Resistance
Capacity mAh
FEATURES
· Able to conduct reflow soldering · Large-capacitance Higher-capacitance of 0.3F is available for size 621(6.8 2.1mm), compared to conventional electric double layer capacitors. · Low-impedance & Excellent charge-discharge rate. Impedance is less than that of conventional capacitors, and it realizes quick charge, discharge. · High-rated voltage 2.5V rated operating voltage allows for flexible design. · Long cycle life over 100, 000times · Excellent long-term reliability There is no characteristic deterioration due to overcharge and overdischarge. · Charge / discharge circuit is very simple (constant voltage charge)
Using chemically-stable large surface area activated carbon as electrode, this new type of capacitor features highcapacitance, low-impedance, high-rated voltage, and long-term reliability through unique sealing technology. Moreover, using original heat resistant materials and cell design, the capacitor allows reflow soldering in response to the demand of automatic mounting.
APPLICATIONS
· Back up for memory and clock function, in various electronic equipments, cellular phones, cameras, PDA, Faxmachines, VTR, TV, printer, pagers, etc. · Combined use with solar cells. · Auxiliary power supply for voltage drop of battery.
SPECIFICATIONS
Type Electrical Characteristics (at Room Temperature) Electrostatic Internal Rated Operating Capacity Resistance Voltage (F) () (V) 2.5 60 0.06 25 0.07 2.5 0.18 25 2.5 25 0.30 2.5 Dimensions Diameter (mm) 4.8 6.8 6.8 6.8 Height (mm) 1.4 0.9 1.4 2.1 Weight (g) 0.06 0.14 0.16 0.21
XC414 XC609 XC614 XC621
Operating Temperature Range: -25°C~+70°C
CHARACTERISTICS XC414
Charge-Discharge Characteristics
Charge
Charge-Discharge Cycle Characteristics
Temperature Characteristics
Capacity F
0.06 Continued 0.04 0.02 0.00
Capacity F
Voltage V
Discharge
0.06 0.04 0.02 0.00 Charge: max. 2.5V, 25mA Discharge: 0.02mA - 25 25 70
Capacity µAh
Cycle time
Temperature °C
XC614
Charge-Discharge Characteristics
3.0 2.5 2.0 1.5 1.0 0.5 0.0 0 20 40 60 80 100 120 140 160 Discharge
Charge-Discharge Cycle Characteristics
0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00 Continued
Temperature Characteristics
Voltage (V)
Capacity F
Charge
Capacity (µAh)
Cycle time
Capacity F
Temperature °C
XC609
Charge Characteristics (Charge Voltage 2.5V)
Discharge Characteristics (constant resistance)
Leak Current Characteristics(Charging at 2.5V)
Current(µA)
Voltage(V)
2.0 1.5 1.0 0.5 0.0 5.1k 56k 510k
Time(hour)
Time (hour)
XC621
Charge Characteristics (Charge Voltage 2.5V)
Discharge Characteristics (constant resistance)
Leak Current Characteristics(Charging at 2.5V)
Voltage(V)
1.5 1.0 0.5 0.0 0.01 0.1 1 10 5.1k 56k 510k
Current(µA)
Time(hour)
10 12 14 16 Time (hour)
Note: Before assembly, please make sure the polarity( + /
- ) of capacitor.
REFLOW PROFILE SAMPLE
Temperature on the cell surface (°C)
XC414 II06N / II06E
7.5MAX
Pre heat region
(Solder Plating)
(Side Solder Plating Area)
Time (Seconds) The times of repeated reflow soldering must be two times or less. The Temperature must be measured at top of the cell.
DIMENSIONS OF STANDARD TAB-WELD FOR REFLOWABLE XC CAPACITOR
XC609 II38N / II38E
XC614 II21N / II21E
XC621 II31N / II31E
11.9MAX
10.3MAX
(Side Solder Plating Area)
above 200°C Reflow region
FEATURES
· High-rated voltage : Able to be used at wide range voltage form 0V to 3.3V and be used for various applications · Reflowable · High Capacity : 0.07F with "414" size (diameter4.8 mm : hight 1.4mm) · Low Impedance : Quick Charge-Discharge Performance · Long Cycle Life : More than 10, 000 times charge-discharge cycle · Able to make simple charging circuit (Constant-voltage charging)
APPLICATIONS
Power supply back up use for Cellular phone, Wireless phone, PHS, PDA, MD player
SPECIFICATIONS
Electrical Characteristics(at Room Temperature) Type
XH414
Dimensions Diameter (mm)
Nominal Voltage (V)
Electrostatic Capacity (F)
Internal Resistance ()
Height (mm)
Weight (g)
Recommended Operating Temperature Range: -25°C to +70°C
CHARACTERISTICS
Charge-Discharge Characteristics
3.5 3.0 2.5 120 Continued 100 80 60 40 1.0 0.5 0.0 0.00 0.05 0.10 0.15 0.20 0.20 20 0 0 3000 6000 9000 12000 15000 18000
Charge-Discharge Cycle Characteristics
Voltage V
Charge:50µA / 3.3V 5hr, RT Discharge: 20µA
Capacity mAh
Cycle Number
CHARACTERISTICS
Discharge Current Characteristics
Temperature Characteristics
Discharge Current(µA)
Temperature(°C)
REFLOW SOLDERING CONDITION
Reflow Soldering Temperature Profile Example
Temperature on the cell surface (°C)
Recommended Reflow Condition
Peak Temperature Peak Temperature (°C)
240 °C Peak Temperature: under 5sec.
above 200°C Reflow region Pre heat region
Time (Seconds) The times of repeated reflow soldering must be two times or less. The Temperature must be measured at top of the cell.
Time above 200 °C (Seconds)
DIMENSIONS OF STANDARD TAB-WELD FOR REFLOWABLE XH CAPACITOR
XH414 II06N / II06E
XH414 IV02N / IV02E
XH414 IV01N / IV01E
4.8MAX
Recommendable P.C.Board layout
Example of battery mounting
FEATURES
· Pb-free reflowable Superior heat resistance (260°C peak) allows reflow soldering by Pb-free solder · High-rated voltage : Able to be used at wide range voltage form 0V to 3.3V and be used for various applications · High Capacity : 0.07F with "414" size (diameter 4.8 mm : hight 1.4mm) · Low Impedance : Quick Charge-Discharge Performance · Long Cycle Life : More than 10, 000 times charge-discharge cycle · Able to make simple charging circuit (Constant-voltage charging) For protecting the global environment, SII developed Capacitor which allows Pb-free reflow soldering (automatic mounting by Pb-free solder) XH414H is the Pb-free reflowable Capacitor, by adopting highly heat resistant material and precise sealing technology. The XH414H Capacitor features high-capacity, low-impedance and long term reliability. It is most suitable for clock and memory backup in various electric equipments due to its wide operating voltage.
APPLICATIONS
Power supply back up use for Cellular phone, Wireless phone, PHS, PDA, MD player
SPECIFICATIONS
Electrical Characteristics(at Room Temperature) Type
XH414H
Dimensions Diameter (mm)
Nominal Voltage (V)
Electrostatic Capacity (F)
Internal Resistance ()
Height (mm)
Weight (g)
Recommended Operating Temperature Range: -25°C to +70°C
REFLOW SOLDERING CONDITION
Reflow soldering profile (for reference only)
270 250 The peak temperature is within five seconds.
Recommended Reflow Condition
Temperature (°C)
200 150 Time above 200°C
Peak temperature (°C)
Time (seconds) The times of repeated reflow soldering must be two times or less. The Temperature must be measured at top of the cell. Peak Temperature Max.260°C
Time above 200°C (seconds) Recommended Reflow Condition Model HB414 XH414H
Applicable (within 5 seconds)
CHARACTERISTICS
Charge-Discharge Characteristics
High Temperature Storage Characteristics (70°C)
Voltage V
Capacity µAh
Storage Period days
Temperature Characteristics (Discharge Capacity)
Temperature Characteristics (Internal impedance)
Temperature °C
DIMENSIONS OF STANDARD TAB-WELD FOR REFLOWABLE XH414H CAPACITOR
XH414H II06E
XH414H IV02E
XH414H IV01E
4.8MAX
Recommendable P.C.Board layout
Example of battery mounting
Silver Oxide Battery
High performance batteries acknowledged in the quartz watch market
FEATURES
· Large capacity Energy density per volume is about 2 times higher than that of alkaline-manganese batteries. · Stable operating voltage Operating voltage is very stable until the end of discharge. · Excellent leakage resistance Excellent leakage resistance is achieved by our special sealing materials and superior processing technologies. · Excellent pulse load characteristics Batteries using pottasium hydroxide solution are most suitable for functions which consume relatively high current, such as an alarm-or-backlight-function incorporated into digital quartz watches. · A comprehensive variety of products The diameter is from 4.8 mm to 11.6mm, the height is from 1.2mm to 3.6mm. Users can select the most suitable battery for their applications.
Silver oxide is used as cathode, zinc is used as anode, and sodium hydroxide solution or pottasium hydroxide solution is used as electrolyte. These batteries with large capacity and stable voltage characteristics are widely applied to products demanding high accuracy, like quartz watches.
CROSS SECTION
Anode cap Anode Gasket Separator Cathode can Cathode Absorbent layer
APPLICATIONS
Watches, Clocks, Calculators, Hearing aids, Digital clinical thermometers, Cameras, Electronic games, Card radios, Remote controllers.
SPECIFICATIONS
SR416SW SR421SW SR512SW SR516SW SR521SW SR527SW SR616SW SR621SW Low Drain SR626SW SR712SW SR716SW SR721SW SR726SW SR41SW SR916SW SR920SW SR927SW SR1120SW SR626W SR721W SR726W High Drain SR41W SR920W SR927W SR1120W
C.C.V. : Closed Circuit Voltage
Low Drain 2k 7.8msec Pulse
High Drain 200 5sec.
Silver Oxide Battery
CHARACTERISTICS SR621SW
Load-discharge characteristics
1.6 1.4 Temp:24°C 1.6 1.4
Pulse-discharge characteristics
39k Continuous(24°C)
Load-temperature-voltage characteristics
1.6 1.4 24°C
Voltage (V)
2k 7.8msec(-10°C) 1.2 1.0 0.8 0.6
Voltage (V)
1.2 -10°C 1.0 0.8 0.6
Discharge time (hr)
Load ()
SR920SW
Load-discharge characteristics
1.6 1.4 Temp:24°C 1.6 1.4
Pulse-discharge characteristics
20k Continuous (24°C)
Load-temperature-voltage characteristics
1.6 1.4 24°C
Voltage (V)
2k 7.8msec (-10°C)
-10°C
Discharge time (hr)
Load ()
SR41W
Load-discharge characteristics
Temp:24°C 1.6 1.4 1.6 1.4 200 5sec (24°C)
Pulse-discharge characteristics
15k Conitnuous (24°C)
Load-temperature-voltage characteristics
1.6 1.5 24°C
Voltage (V)
1.2 200 5sec (-10°C) 1.0 0.8 0.6
-10°C
Discharge time (hr)
Load ()
SR920W
Load-discharge characteristics
Temp:24°C 1.6 1.4 1.6 1.4 200 5sec (24°C)
Pulse-discharge characteristics
20k Continuous (24°C)
Load-temperature-voltage characteristics
1.6 24°C 1.5
Voltage (V)
200 5sec (-10°C)
-10°C
Discharge time (hr)
Load ()
Environmental Activities at Seiko Instruments Inc. BM Business Unit
SII Group Environmental Policy : Environmental Concept
SII is concerned about every facet of the global environment and is aiming toward a world where all living things can exist in harmony together. SII works for the protection of the environment and its continual improvement in every corporate activity.
SII BM Business Unit is implementing following actions (These actions are taken mainly at SII Micro Parts Ltd., the manufacturer of BM products)
100 76.5 CO2 FY1990 FY2001
100 Total waste emitted FY1997 47.4 FY2001 43 FY2005
73ton Final disposal of waste 10ton FY1997 FY2001 0ton End of FY2003
4. Green Purchase Promoting "Green Purchase" action for manufacturing materials. To achieve this, we conduct "Suppliers Structure Audit" and "Purchased Product Audit" and will extend this action to all materials we purchase. 5. Green Life Promoting "Green Life" actions such as cleaning-up campaign in the neighbor area, planting greenery, stop unnecessary car-idling campaign, and so on.
Check Sheet for Selecting Micro Battery
Please use check sheet below when you select our Micro Battery for selecting the best suited battery for your use.
Fax Sheet
Seiko Instruments Inc. BM Sales Sec. 043-211-8035 Battery Sales Person
hour / day / month
4. Your requested delivery
5. Operation voltage of the device for backup
6. Consumption current at backup time µA 7. Setting value of charging voltage
8. Exist of a back current protection diode
9. Vf characteristics of the back current protection diode(at 10µA) 10. Resistance value of charging protection resistance
11. Limit of charging time 12. Necessary number of cycle
times
13. Other your requests
Your contact information
Name Section Phone Fax E-mail
SII Micro Parts Ltd. who manufactures the products described in this catalog holds the ISO-9001 quality management system certificate and the ISO-14001 environmental management system certificate.
IMPORTANT
1. The information herein is subject to change without notice. 2. Neither reproduction nor duplication of this catalog in whole or part is allowed without the prior written approval of Seiko Instruments Inc. 3. The colors of the products reproduced herein may be different from the actual colors. Check color on actual products before using the product. 4. Circuits and respective application methods described herein are for reference only. Seiko Instruments Inc. is not responsible for any and all infringement or damages to the rights of third parties (including industrial properties) caused by the use of circuits or application methods herein. Seiko Instruments Inc. shall not license any industrial properties owned by Seiko Instruments Inc. or any third party through this catalog. 5. When products described herein include Strategic Products (or Services) stipulated in the Foreign Exchange and Trade Control Law, they shall not be exported without permission of governmental authorities. 6. The products described herein are designed for consumer equipment and cannot be used as part of any device or equipment which influences the human body or requires a significantly high reliability, such as physical exercise equipment, medical equipment, disaster prevention equipment, gas related equipment, vehicles, aircraft and equipment mounted on vehicles.
Seiko Instruments Inc.
www.sii.co.jp / compo
Released in Oct. 2002