FOR CORRECT USE OF SUPER CAPACITORS
1.Please confirm the operating conditions and the specifications of the
Super Capacitors befor using them.
2.The electrolyte of these Super Caapacitors is sealed with material such as rubber.
When you use the capacitors for a long time at high temperature, the moisture of
the eleotrolyte evaporates and the equivalent series resistance (E.S.R.) increases.
The fundamental failure mode is the open mode depending on E.S.R. increase.
When using a capacitor, please introduce a safe design assuming
unexpected capacitor failure, such as redundancy in design and protection
from fire and erroneous operation.
3.Please read 'Notes on Using the Super Capacitor' on page 56 when you design
the circuits using the Super Capacitors.
ISO 9001
QS 9000 ISO 14001
JQA JQA
JQA-0366 JQA-E-90094
CONTENTS
1. ORGANIZATION OF SUPER CAPACITOR SERIES …………………………………………… 4
2. BACKUP PERFORMANCE FOR SELECTION …………………………………………………… 5
3. DESCRIPTION ………………………………………………………………………………………… 6
4. TYPICAL APPLICATION …………………………………………………………………………… 7
5-1. FC SERIES …………………………………………………………………………………………… 8
5-2. FT SERIES ………………………………………………………………………………………… 12
5-3. FG SERIES FG, FGH TYPE ……………………………………………………………………… 15
5-4. FM SERIES 5.5 V, 3.5 V, FME, FMR, FM 6.5V, FMC TYPE ………………………………… 20
5-5. FA, FE SERIES …………………………………………………………………………………… 33
5-6. FS SERIES ………………………………………………………………………………………… 39
5-7. FR SERIES ………………………………………………………………………………………… 42
5-8. 3.5 V, 6.5 V RATED VOLTAGE SERIES ……………………………………………………… 46
5-9. FY SERIES FYD, FYH, FYL TYPE ……………………………………………………………… 49
6. MEASUREMENT CONDITIONS ………………………………………………………………… 54
7. NOTES ON USING THE SUPER CAPACITOR ………………………………………………… 56
8. ENVIRONMENTAL IMPACT REDUCED PRODUCTS ………………………………………… 58
9. ENVIRONMENTAL IMPACT REDUCED PRODUCTS SPECIFICATIONS ………………… 64
10. SUPER CAPACITOR HV SERIES ……………………………………………………………… 82
4 Super Capacitors Vol.02
Organization of Super Capacitor Series
Miniaturization
Operation at
40˚C guaranteed
Automatic
mounting
Miniaturization
(Operation at
higher voltage)
Long-time Backup Series
A Current Backup Series
Automatic mounting
mA and A Current Backup Series
µ
FA
Series
5.0V to 10V
FE
Series
5.5V
FS
Series
5.5V to 12V(mA)
FM
Series
FME Type
FT
Series
5.5V
Miniaturization, Operation at 85˚C guaranteed
Miniaturization Automatic
mounting
SMD
Radial taping
Automatic mounting Chip curing oven available
Radial taping
Automatic mounting
FY
Series
FYD Type
FYH Type
3.5V to 6.5V
FG
Series
FGH Type
5.5V
FM
Series
3.5V to 5.5V
FM
Series
FMC Type
5.5V
Indented square-hole
plastic tape
Automatic mounting
Operation at 85˚C
guaranteed Operation at 85˚C
guaranteed
Chip curing oven available
FR
Series
5.5V
FC
Series
3.5V to 5.5V
FM
Series
FMR Type
5.5V
Super Capacitors Vol.02 5
Backup Performance For Selection
Low impedance application
High impedance application use
(Backup for all microcomputer systems)
(Backup for actuators, electromagnetic values, etc.)
FA Series
FE Series
FT Series
FS Series
FME Type
FG Series,FY Series (FYD Type, FYH Type, FYL Type)
FM Series (5.5V Type, 3.5V 6.5V Type,FMR Type,FMC Type),
FR Series,FC Series
1 A
100 mA
10 mA
1 mA
100 A
10 A
1 A
1 sec 10 sec 100 sec 1 h
Backup time 10 h 100 h 1 month
Backup Current
• Backup for SRAM and timer
built-in microcomputer
• Backup for DTS
• Backup for SRAM
Backup time depends on capacitance
Backup current depends on SuperCapacitor
equivalent series resistance (ESR)
(High impedance application) (Low impedance application)
High ESR Low ESR
µ
µ
µ
6 Super Capacitors Vol.02
Description
Conductive rubber membranes contain the electrode and
electrolyte material and make contact to the cell. Several
cells are stacked in series to achieve the 5.5 V and 11 V
rated voltages.
Since the Super Capacitor exhibit relatively high ESR, it
is not recommended for ripple absorption in DC power
supply applications.
In some manufacturing operations it has been polarized
with the following voltage direction.
Shorter lead: Positive
Longer lead (connected to case): N egative
Therefore, the use of the Super Capacitor in that direc-
tion is recommended in actual usage.
The Super Capacitor is the most outstanding capacitor
concept to appear in the past decade. The large capaci-
tance, slow rate of discharge and small package make it
useful as a non-battery reserve power source that can
provide currents (1-100 mA) and protect microcomputers
from power shutdowns lasting several seconds.
It is also useful for maintaining the contents of low
dissipation volatile memories (i.e. CMOS) for several
months. (For more detailed applications, refer to the table
shown below.)
The operating principle of the Super Capacitor is based
on an electric double layer appearing at the interface
between activated carbon particles and sulfuric acid
solution as electrolyte. The two electrodes are separated
by an ionically conducting but electrically insulating porous
membrane.
Super Capacitors Vol.02 7
Typical Applications
The following table shows typical applications categorized by the functions and the magnitude of back-up current
required.
FUNCTIONS
Large current
supply
Medium
capacity power
supply
Power backup
for primary
power outages
BACKUP
CURRENT
Up to 1 A
Up to 50 mA
Less than
500
µ
A
APPLICATIONS
Actuator applications
(Large current in a
short period)
Primary power supply
for LED displays, toys,
electric buzzers, etc.
Secondary power
source for undesirable
voltage drops
Motor Start
CMOS Microcomputers
CMOS RAMs
ICs for Clocks
CMOS RAMs
ICs for Clocks
High operating
temperature (85°C)
EQUIPMENT
Actuators
Relay/Solenoid starter
Igniters
Handheld toys
Displays, Smoke detectors, Alarm
devices, Emergency display
Car radio back-up at the engine start, etc.
VCR, Video disk
Record player
Phones (Memory dial, Auto-answering)
Electric cash registers
Electric typewriters
Computer terminals
Automatic measuring instruments, etc.
Digital tuning audio system
(LW-MW-FM Radio, Car Radio, Stereo, etc.)
Programmable consumer electronic products
(VCR, Microwave overun, Games, etc.)
Measuring instruments
Automatic control
Communications
Car
ADEOUATE
SERIES
FA and
FE series
FT series
FS series
3.5 V 6.5 V
series
(FSH)
FME type
FC series
FY series
FYD Type
FYH Type
FYL Type
3.5 V 6.5 V
Series
(FYD)
FM series
FG series
FR series
Other Applications
Programmable Thermostat, Copiers, Vending Machines, Automatic Electricity Counters, Traffic Signals, Taxi Meters, Fuel
Management Systems, Process Monitoring or Control, Satellite Communications, Portable "Battery" Operated Equipment,
Fare Collection System, POS Terminals, Mail Sorters, Scale, Flow Metering, Eiectronic Slot Machines, W ater Heat Controllers.
8 Super Capacitors Vol.02
FC Series
Features
• Enables surface mounting.
• High rated voltage of 5.5V.
• High reliability solution leakage.
Dimensions
Applications
• Subsidiary power supply.
Buck up power supply line.
Memory backup during battery exchange.
Precautions for use
• This capacitor is exclusive use of reflow soldering.
It's designed for thermal conduction system such
as infrared ray (IR) or heat blow.
For applying other methods, Please consult with
us first.
• Graph attheleft,"Reflow Condition" indicares the
surface temperature at the top of capacitor.
B ± 0.2
D ± 0.5
A ± 0.2
K
I
L
H max.
PI
W ± 0.1
Anode polarity
Negative polarity
Markings
Max. rated
voltage
Date code
Nominal capacitance
473
5.5V
L5
Negative polarity
Max. rated voltage
Date code
Nominal capacitance
FC 5.5V
474
L5-001
FC Series
Negative polarity
N T
FC0H473ZTBR24
FC0H104ZTBR24
FC0H224ZTBR24
FC0V104ZTBR24
FC0V224ZTBR24
FC0V474ZTBR24
FC0H474ZTBR32
FC0H105ZTBR44
Standard Rating
FC0H473ZTBR24 5.5 0.047 50 0.071 4.2 10.5 5.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
FC0H104ZTBR24 5.5 0.10 25 0.15 4.2 10.5 5.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
FC0H224ZTBR24 5.5 0.22 25 0.33 4.2 10.5 8.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
FC0H474ZTBR32 5.5 0.47 13 0.71 4.2 16.0 9.5 16.3 16.3
6.8
±
1.0
1.2 5.0
1.2
±
0.35
0
FC0H105ZTBR44 5.5 1.00 7 1.50 4.2 21.0 10.5 21.6 21.6
7.0
±
1.0
1.4 10.0
1.2
±
0.35
0
FC0V104ZTBR24 3.5 0.10 50 0.090 10.5 5.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
FC0V224ZTBR24 3.5 0.22 25 0.20 10.5 5.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
FC0V474ZTBR24 3.5 0.47 25 0.42 10.5 8.5 10.8 10.8
3.6
±
0.5
1.2 5.0
0.7
±
0.2
0
Nominal
Capacitance
Discharge
system
(F)
Part Number
Max. Rated
Voltage
(Vdc)
Max. ESR
(at 1kHz)
()
Max. current
at 30 minutes
(mA)
Voltage
Holding
Characteristic
Min. (V) DH A B I WP K L
Dimension (Unit:mm)
• Reflow Condition
Reflow Profile
250
200
150
100
50
0
160˚C 220˚C
120sec
time(sec)
Peak Temperature
Ts(Top-surface of Parts)˚C
TP
+0.3
-0.1
+0.3
-0.1
+0.3
-0.1
+0.3
-0.1
+0.3
-0.1
+0.3
-0.1
+0.5
-0.1
+0.5
-0.1
Super Capacitors Vol.02 9
Tape and Reel Dimensions
[Reel Dimensions]
Dimensions of indented [square-hole plastic tape]
t1
t2
Sprocket hole
φD0Indented square-hole
for fitting super capacitors
Super capacitors fitting on square-hole
AP1P2P0Forward direction
FE
W
B
+
+
+
B
W
A
C
E
D
R:10
t
Number of pachaged Super capacitors
Mark TBR24 TBR32 TBR44
(mm)
A
B
C
D
E
W
t
380±2
13±0.5
21±0.8
2±0.5
25.5±0.5
330±2
100±1
13±0.5
21±0.8
2±0.5
32.5±0.5
2.8
380±2
100±1
13±0.5
21±0.8
2±0.5
44.5±0.5
2.8
80±1
100±1
Product height 5.5mm
Product height 8.5mm
3.0
2.8
Product height 5.5mm
Product height 8.5mm
Mark TBR24 TBR32 TBR44
(mm)
W
A
B
P
0
P
1
P
2
F
φD
0
t
1
E
t
2
24.0
11.4
13.0
4.0
16.0
2.0
11.5
1.55
0.4
1.75
5.8
32.0
18.0
20.0
4.0
24.0
2.0
14.2
1.55
0.5
1.75
10.0
44.0
23.0
25.0
4.0
32.0
2.0
20.2
1.55
0.5
1.75
12.0
Part Number Packaging
1000pcs./reel
1000pcs./reel
500pcs./reel
200pcs./reel
150pcs./reel
1000pcs./reel
1000pcs./reel
500pcs./reel
FC0H473ZTBR24
FC0H104ZTBR24
FC0H224ZTBR24
FC0H474ZTBR32
FC0H105ZTBR44
FC0V104ZTBR24
FC0V224ZTBR24
FC0V474ZTBR24
10 Super Capacitors Vol.02
Standard
–25°C to +70˚C
5.5 VDC
0.047 to 1.0F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage20
Phase 2
Phase 5
Phase 6
Vibration Resistance
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Dischage )
Test Conditions conforming to JIS C 5102
-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V(5.5V products)
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Charge resistance: 0.047F 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25 ±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25 ±2°C
Phase 5: +70 ±2°C
Phase 6: +25 ±2°C
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications 5.5V Type
+48
0
Temperature
Variation of
Characteristics
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than
25
°C
Charging
condition
Storage
*
* The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page ).
*
*
*
*
*
*
*
Super Capacitors Vol.02 11
Standard
–25°C to +70˚C
3.5 VDC
0.010 to 0.47F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Vibration Resistance
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions conforming to JIS C 5012
-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.12
Phase 1: +25 ±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25 ±2°C
Phase 5: +70 ±2°C
Phase 6: +25 ±2°C
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 3.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications 3.5V Type
+48
0
Temperature
Variation of
Characteristics
*
*
*
*
*
*
*
* The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page ).
Conforms to 7.14
Surge Voltage: 4.0 V(3.5V products)
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Charge resistance : 0.10F 150
: 0.22F 56
: 0.47F 30
: 1.0F 15
Discharge resistance: 0
12 Super Capacitors Vol.02
FT 0H 473 Z Capacitance tolerance: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow microfarad code.
Maximum rated voltage
0H: 5.5 VDC
Super Capacitor: FT series
FT Series
The FT series Super Capacitors are ideal as short-time (30 minutes max.) backup devices in small and lightweight
systems. 5.5 VDC (0.10 F to 5.6 F)
Features
• Ideal for supplying current of several hundred
µ
A to several mA for short time
Applications
• Backup source for microcomputers and buffer for momentary high-current loads (for example, motors)
Part Number System
Super Capacitors Vol.02 13
Markings
Markings are made with black ink on the green sleeve.
Dimensions and Standard Ratings
P±0.5
D±0.5
φ
0.3 min.
H max.
d1±0.1
d2±0.1
rmin.
Sleeve
Lead (case)
Negative polarity
Lead
Note: Weight is typical.
Sleeve
Lead terminal
connected to the
metal can case
Negative polarity
Negative polarity
identification mark
Marking of sleeve
Super Capacitor
Date code
K1
5.5V
K1
001 FT
0.22F
5.5VFT
85ßC 85ßC
0.22F
Part No. Dimensions mm (inch)
DHP r
d1
Weight
(g)
(oz)
d2
11.5
(0.453)
14.5
(0.57)
16.5
(0.65)
21.5
(0.85)
28.5
(1.12)
36.5
(1.44)
44.5
(1.75)
8.5
(0.335)
12.0
(0.47)
13.0
(0.512)
13.0
(0.512)
14.0
(0.55)
15.0
(0.588)
17.0
(0.67)
5.08
(0.2)
5.08
(0.2)
5.08
(0.2)
7.62
(0.3)
10.16
(0.4)
15.00
(0.59)
20.00
(0.79)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
1.0
(0.039)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
1.7
(0.067)
1.4
(0.055)
2.7
(0.106)
2.2
(0.087)
2.7
(0.106)
3.0
(0.118)
6.1
(0.240)
6.1
(0.240)
6.1
(0.240)
1.6
(0.057)
4.1
(0.145)
5.3
(0.187)
10.0
(0.353)
18.0
(0.635)
38.0
(1.34)
72.0
(2.54)
FT0H104Z
FT0H224Z
FT0H474Z
FT0H105Z
FT0H225Z
FT0H335Z
FT0H565Z
Part Number Max.
Rated Voltage
( V )
5.5
5.5
5.5
5.5
5.5
5.5
5.5
0.10
0.22
0.47
1.0
2.2
3.3
5.6
0.14
0.28
0.60
1.3
2.8
4.2
7.2
Max. ESR
(at 1 kHz)
( )
Max. Current at
30 minutes
( mA )
Nomial Capacitance
Charge System
( F )
Discharge System
( F )
FT0H104Z
FT0H224Z
FT0H474Z
FT0H105Z
FT0H225Z
FT0H335Z
FT0H565Z
0.15
0.33
0.71
1.5
3.3
5.0
8.4
16
10
6.5
3.5
1.8
1.0
0.6
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
14 Super Capacitors Vol.02
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High temperature Load
Specification
–40˚C to +85˚C
5.5 Vdc
0.1 to 5.6 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Not to exceed 3 times initial value
Capacitance More than 30 % of initial value
Equivalent Series Resistance
Not to exceed 7 times initial value
Capacitance Not to exceed 150 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
C/C Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should b e covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Not to exceed120 % of initial requirement
Current at 30 minutes
Not to exceed120 % of initial requirement
Capacitance change Within ±30% of initial value
Equivalent Series Resistance
Not to exceed 200% of initial requirement
Current at 30 minutes
Not to exceed 200% of initial requirement
Test Conditions
conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
At 85˚C Surge voltage 6.3 V
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1000 cycles
Charge resistance:
0.10 F 150
0.22 F 56
0.47 F 30
1.0 F 15
2.2 F 10
3.3 F 10
5.6 F 10
Discharge resistance:
Not applicable (0 )
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +85±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2(1)
0.022 to 0.47 F: 1 kg, 10 sec.
1 F: 2.5 kg, 10 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
230 ±5˚C
5 ±0.5 sec. 1.6 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
1.6 mm from body
Conforms to 9.3
Temperatuve condition:
–40˚C Normal temperature
+85˚C Normal temperature
Number of cycles : 5 cycles
Conforms to 9.5
40 ±2˚C, 90 to 95% RH
240 ± 8 hours
Conforms to 9.10
Temperature: 85 ± 2°C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
Temperature
Variation of
Characteristics
Specifications
+48
–0
Super Capacitors Vol.02 15
FG S eries
The FG series includes small-size electric double-layer capacitors with excellent voltage holding characteristics.
The FG series are ideal as long-time backup devices for minute-current loads in small and lightweight systems.
Features
• The volume of the products is approx. 1/2 that of the FYD type products. (0.22F~2.2F)
Added 4.7F/5.5V to series.
• Miniaturized 0.047F/5.5V and 0.10F/5.5V
Applications
• Backup of CMOS microprocessors, static RAMs, DTSs (digital tuning systems)
• Memory backup of remote controllers and handy cassette player during battery exchange
Part Number System
FG 0H 473 Z
Capacitance tolerance:
Z: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow F code.
Maximum rated voltage
0H: 5.5 VDC
Super Capacitor: FG series
µ
16 Super Capacitors Vol.02
Max. Current at
30 minutes
(mA)
0.015
0.033
0.071
0.15
0.33
0.71
1.5
3.3
7.1
Markings
Markings are made with black ink on the green sleeve.
Dimensions and Standard Ratings
P±0.5
0.3 min.
H max.
d
1
±0.1
d
2
±0.1
D±0.5
L min.
Sleeve
Lead (case)
Negative polarity Lead
φ
Part Number
FG0H103Z
FG0H223Z
FG0H473Z
FG0H104Z
FG0H224Z
FG0H474Z
FG0H105Z
FG0H225Z
FG0H475Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.01
0.022
0.047
0.10
0.22
0.47
1.0
2.2
4.7
Max. ESR
(at 1 kHz)
()
300
200
200
100
100
120
65
35
35
Note: Weight is typical.
Part No.
FG0H103Z
FG0H223Z
FG0H473Z
FG0H104Z
FG0H224Z
FG0H474Z
FG0H105Z
FG0H225Z
FG0H475Z
D
11.0
(0.43)
11.0
(0.43)
11.0
(0.43)
11.0
(0.43)
13.0
(0.512)
14.5
(0.571)
16.5
(0.65)
21.5
(0.85)
28.5
(1.122)
H
5.5
(0.215)
5.5
(0.215)
5.5
(0.215)
6.5
(0.256)
9.0
(0.355)
18.0
(0.709)
19.0
(0.749)
19.0
(0.749)
22.0
(0.867)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
7.62
(0.300)
10.16
(0.400)
d1
0.2
(0.016)
0.2
(0.016)
0.2
(0.016)
0.2
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
Dimensions mm (inch)
Sleeve
Lead terminal
connected to the
metal can case
Negative polarity
Negative polarity
identification mark
Date code
Marking of sleeve
K1
5.5V
K1
001 FG
0.22F
5.5V
FG
0.22F
Super Capacitor
Super Capacitor
Weight
g (oz)
0.9
(0.032)
1.0
(0.035)
1.0
(0.035)
1.3
(0.046)
2.5
(0.088)
5.1
(0.180)
7.0
(0.247)
12.1
(0.427)
27.3
(0.964)
L
2.7
(0.106)
2.7
(0.106)
2.7
(0.106)
2.7
(0.106)
2.2
(0.087)
2.4
(0.095)
2.7
(0.106)
3.0
(0.118)
6.1
(0.240)
Voltage
Holding
Characteristic
Min.(V)
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
Discharge System
(F)
0.013
0.028
0.060
0.13
0.28
0.60
1.3
2.8
6.0
Nomial Capacitance
Super Capacitors Vol.02 17
Standard
–25˚C to +70˚C
5.5 Vdc
0.010 to 4.7 F
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current at 30 min.
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Meet initial standard value
Current at 30 min.
Appearance
No obvious abnormality
3 / 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Should satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current at 30 min.
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within ±30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current at 30 min.
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2V
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
Conforms to 7.14
Surge voltage: 6.3V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min 30 sec.
Number of cycles: 1000 cycles
Series resistance:
0.010F: 1500 0.47F: 30
0.022F: 560 1.0F: 15
0.047F: 300 2.2F: 10
0.10F: 150 4.7F: 10
0.22F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25 ±2˚C
Phase 3: –40 ±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
Conforms to 8.2.3 (1)
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230±5˚C
Dipping duration: 5±0.5 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 8.5
Solder temperature: 260±10˚C
Dipping duration: 10±1 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 9.3
Temperature: –25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40±2˚C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8hours
Conforms to 9.10
Temperature: 70±2˚C
Voltage applied: 5.5Vdc
Series protection resistance: 0
Test duration: 1000 hours
Voltage applied: 5.0VDC
(with case side terminal negative)
Series resistance: 0
Charging time: 24 hours
Time: 24 hours
Temperature: Lower than 25
˚C
Humidity: Lower than 70%RH
Specifications
Temperature
Variation of
Characteristics
Charging
Condition
Storage
+48
-0
18 Super Capacitors Vol.02
Dimensions and Standard Ratings
P±0.5
0.3 min.
H max.
d
1
±0.1
d
2
±0.1
D±0.5
L min.
Sleeve
Lead (case)
Negative polarity Lead
φ
Note: Weight is typical.
FGH Type
Part No.
FGH0H104Z
FGH0H224Z
FGH0H474Z
FGH0H105Z
D
11.0
11.0
16.5
21.5
H
5.5
7.0
8.0
9.5
P
5.08
5.08
5.08
7.62
d1
0.2
0.2
0.4
0.6
d2
1.2
1.2
1.2
1.2
Dimensions mm Weight
g
1.0
1.3
4.1
7.2
L
2.7
2.7
2.7
3.0
Max. Current at
30 minutes
(mA)
0.15
0.33
0.71
1.5
Part Number
FGH0H104Z
FGH0H224Z
FGH0H474Z
FGH0H105Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
Charge System
(F)
-
-
-
-
Max. ESR
(at 1 kHz)
()
100
100
65
35
Voltage
Holding
Characteristic
Min.(V)
4.2
4.2
4.2
4.2
Discharge System
(F)
0.10
0.22
0.47
1.0
Nomial Capacitance
Super Capacitors Vol.02 19
Standard
–25˚C to +70˚C
5.5 Vdc
0.10 to 1.0 F
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of inital requirement
Current at 30 min.
Not to exceed 120% of inital requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Meet initial standard value
Current at 30 min.
Appearance
No obvious abnormality
3 / 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Should satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current at 30 min.
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within ±30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current at 30 min.
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2V
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Solder Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
Conforms to 7.14
Surge voltage: 6.3V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min 30 sec.
Number of cycles: 1000 cycles
Series resistance:
0.010F: 1500 0.47F: 30
0.022F: 560 1.0F: 15
0.047F: 300 2.2F: 10
0.10F: 150 4.7F: 10
0.22F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230±5˚C
Dipping duration: 5±0.5 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 8.5
Solder temperature: 260±10˚C
Dipping duration: 10±1 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 9.3
Temperature: –25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40±2˚C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8hours
Conforms to 9.10
Temperature: 70±2˚C
Voltage applied: 5.5Vdc
Series protection resistance: 0
Test duration: 1000 hours
Voltage applied: 5.0VDC
(with case side terminal negative)
Series resistance: 0
Charging time: 24 hours
Time: 24 hours
Temperature: Lower than 25
˚C
Humidity: Lower than 70%RH
Specifications FGH Type
Temperature
Variation of
Characteristics
Charging
Condition
Storage
+48
-0
20 Super Capacitors Vol.02
FM Series for Automatic Assembly
The FM series includes small, resin-molded electric double-layer capacitors suitable for automatic assembly.
These capacitors are ideal as long-time backup devices for minute-current loads in VCRs, audio systems, cordless
telephones, and compact electronic systems. (FME types are backup devices adaptable to current consumption mA
level.)
Features
• High adaptability to automatic assembly
• Can be cleaned
• Excellent voltage holding characteristics ideal for long-time supply of 1
µ
A to several hundred
µ
A (Except 3.5 V type,
FME type)
• Space saving
Applications
Backup of CMOS microcomputers, static RAMs, and DTSs
Part Number System
FM 0H 473 Z
Capacitance tolerance
Z: +80%, –20%
Nominal capacitance
First two digits represent significant figures.
Third digit specifies number of zeros to follow F code.
Maximum operating voltage
0H: 5.5 Vdc
0V: 3.5 Vdc
Super Capacitor: FM series
FME type
FMR type
FM0H223Z TP 16
Height of component from tape center.
16: 16 mm, 18: 18 mm
Tape packaging
Part number of bulk packaging
µ
• Bulk
• Tape (Ammo Pack)
NUMBER OF PACKED CAPACITORS
Tape: 1000 pcs./box
Super Capacitors Vol.02 21
Markings
+
5.5 V 473
N T
K1 E
Nominal capacitance
E:FME type Marking
R:FMR type Marking
Negative polarity identification
Date code
Polarity
Maximum
rated voltage
Dimensions And Standard Ratings
10.5±0.5
(0.413) T±0.5
5±0.5
(0.197)
0.5±0.1
(0.020) 0.4±0.1
(0.016)
11.5±0.5
(0.453)
5±1
(0.197) Unit: mm
(inch)
0.4
(0.016)
Part Number
Ammo pack
FM0H103Z FM0H103ZTP ( )
FM0H223Z FM0H223ZTP ( )
FM0H473Z FM0H473ZTP ( )
FM0H104Z FM0H104ZTP ( )
FM0H224Z FM0H224ZTP ( )
Max.
Rated
Voltage
(VDC)
5.5
5.5
5.5
5.5
5.5
Nomial Capacitance
T
mm
(inch)
5.0
(0.197)
5.0
(0.197)
5.0
(0.197)
6.5
(0.256)
6.5
(0.256)
Voltage
Holding
Characteristic
min. (V)
4.2
4.2
4.2
4.2
4.2
Max. Current
at 30
minutes
(mA)
0.015
0.033
0.071
0.15
0.33
Max. ESR
(at 1 kHz)
()
300
200
200
100
100
Weight
g
(oz)
1.3
(0.046)
1.3
(0.046)
1.3
(0.046)
1.6
(0.056)
1.6
(0.056)
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 31.)
5.5 V Type
Charge System
( F )
0.01
0.022
0.047
0.10
Discharge System
( F )
0.014
0.028
0.06
0.13
0.22
22 Super Capacitors Vol.02
Part Number
Ammo pack
FM0V473Z FM0V473ZTP ( )
FM0V104Z FM0V104ZTP ( )
FM0V224Z FM0V224ZTP ( )
Max.
Rated
Voltage
(VDC)
3.5
3.5
3.5
Charge System
(F)
0.047
0.10
0.22
T
mm
(inch)
5.0
(0.197)
5.0
(0.197)
6.5
(0.256)
Max. Current
at 30
minutes
(mA)
0.042
0.090
0.20
Max. ESR
(at 1 kHz)
()
200
100
100
Weight
g
(oz)
1.3
(0.046)
1.3
(0.046)
1.6
(0.056)
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 31.)
3.5 V Type
Part Number
Ammo pack
FME0H223Z FME0H223ZTP ( )
FME0H473Z FME0H473ZTP ( )
Max.
Rated
Voltage
(VDC)
5.5
5.5
T
mm
(inch)
5.0
(0.197)
5.0
(0.197)
Max. Current
at 30
minutes
(mA)
0.033
0.071
Max. ESR
(at 1 kHz)
()
40
20
Weight
g
(oz)
1.3
(0.046)
1.3
(0.046)
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 31.)
FME Type ( Backup Large Current , mA Order )
Discharge System
(F)
0.06
0.13
0.30
Part Number
Ammo pack
FMR0H473Z FMR0H473ZTP ( )
Max.
Rated
Voltage
(VDC)
5.5
T
mm
(inch)
6.5
Max. Current
at 30
minutes
(mA)
0.071
Max. ESR
(at 1 kHz)
()
200
Weight
g
(oz)
1.6
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 31.)
FMR Type ( Extended Operating Temperature range )
Voltage
Holding
Characteristic
min.(V)
4.2
Part Number
Ammo pack
FM0J473Z FM0J473ZTP ( )
Max.
Rated
Voltage
(VDC)
6.5
T
mm
(inch)
6.5
Max. Current
at 30
minutes
(mA)
0.071
Max. ESR
(at 1 kHz)
()
200
Weight
g
(oz)
1.6
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 31.)
FM 6.5V Type
Nominal Capacitance
Charge System
(F)
0.022
0.047
Discharge System
(F)
0.028
0.06
Nominal Capacitance
Discharge System
(F)
0.062
Nominal Capacitance
Charge System
(F)
0.047
Discharge System
(F)
0.062
Nominal Capacitance
Charge System
(F)
0.047
Super Capacitors Vol.02 23
Standard
–25°C to +70˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality.
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge )
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.01F: 1500 0.22F: 56
0.022 F: 560
0.047 F: 300
0.10 F: 150
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.4
Solder temperature: 230 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications 5.5 V Type
Temperature
Variation of
Characteristics
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
24 Super Capacitors Vol.02
Standard
–25°C to +70˚C
3.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge voltage: 4.0 V
Temperature: 70±2°C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
0.10 F: 150
0.22 F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Specifications 3.5 V Type
+48
0
Temperature
Variation of
Characteristics
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 3.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Conforms to 8.4
Solder temperature: 230 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from for the lower
end of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from for the lower
end of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Super Capacitors Vol.02 25
Standard
–25°C to +70˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Should satisty initial standard value
Current (30-minute value)
Appearance
There should be no considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 7.4 V
Temperature: 70±2°C
Chargs: 30 sec.
Dischargs: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.022 F: 560
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230 ± 5°C
Dipping duration: 5 ± 0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ± 2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ± 2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications FME Type
+48
0
Temperature
Variation of
Characteristics
26 Super Capacitors Vol.02
Standard
–40°C to +85˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher initial value
Equivalent series resistance
4 or less times initial value
Capacitance 30% or higher initial value
Equivalent series resistance
7 or less times initial value
Capacitance 200% or higher initial value
Equivalent series resistance
Satisfy initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial standard value
Equivalent series resistance
Satisfy initial standard value
Current (30-minute value)
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder.
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance q
Soldering Heat Resistance w
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge )
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 85 ±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +85±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.4
Solder temperature: 230 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
After reflow pre-heating
(160°C ± 5°C 120 ±10 sec.)
Conforms to 9.3
Temperature condition:
–40°C normal temperature
+85°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 85 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications FMR Type
Temperature
Variation of
Characteristics
*
*
*
*
*
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
*Performance items indicated with * are guaranteed for items after reflow pre-heating.
Super Capacitors Vol.02 27
Standard
–25°C to +70˚C
6.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 7.4 V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.4
Solder temperature: 230 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 6.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications FM 6.5V Type
+48
0
Temperature
Variation of
Characteristics
28 Super Capacitors Vol.02
Markings
+
5.5 V 473
N T
K1 C
Nominal capacitance
C:FMC type Marking
Negative polarity identification
Date code
Polarity
Maximum
rated voltage
Dimensions And Standard Ratings
b ±0.5 T ±0.5
5±0.5
d1 ±0.1 d2 ±0.1
a ±0.5
5±1
Unit: mm
0.4
FMC Type
Tab d1d2
FMC0H473Z
FMC0H104Z
FMC0H334Z
FMC0H473ZTP( )
FMC0H104ZTP( )
FMC0H334ZTP( )
5.5
5.5
5.5
0.047
0.10
0.062
0.13
0.33
100
50
30
0.071
0.15
0.50
4.2V
4.2V
4.2V
11.5
11.5
15.0
10.5
10.5
14.0
5.0
6.5
9.0
0.5
0.5
0.6
0.4
0.4
0.6
1.3
1.6
3.5
(mm) (mm) (mm) (mm) (mm)
Part Number
Ammo pack
Max.
Rated
Voltage
(VDC)
Nomial Capacitance
Charge System
( F )
Discharge System
( F )
Max. ESR
(at 1 kHz)
( )
Max. Current
at 30
minutes
( mA )
Voltage
Holding
Characteristic
min. ( V ) ( g )
Weight
more than
more than
more than
less than
less than
less than
less than
less than
less than
Chip parts applicable to treatment in bond hardening furnace (160 ± 5°C for 120 ±10 seconds)
Super Capacitors Vol.02 29
Standard
–25°C to +70˚C
5.5 VDC
0.047F , 0.10F , 0.33F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality.
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Should satisty initial standard value
Current (30-minute value)
Appearance
There should be no considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher then 4.2V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tenile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Dischage)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 70±2°C
Chargs: 30 sec.
Dischargs: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.1 F: 150
0.33 F: 51
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230 ± 5°C
Dipping duration: 5 ± 0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ± 2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ± 2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Specifications FMC Type
+48
0
Temperature
Variation of
Characteristics
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Charging
condition
Storage Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
*
*The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page).
30 Super Capacitors Vol.02
Item Symbol Value Tolerance Remarks
Component Height a 11.5 ±0.5
Component Width b 1 0.5 ±0.5
5.5 V Type: 5.0/0.010 F~0.047 F, 6.5/0.10 F~0.22 F
3.5 V Type: 5.0/0.047 F~0.10 F, 6.5/0.22 F
Component Thickness C ±0.5
FME Type: 5.0/0.022 F~0.047 F
6.5 Type: 6.5/0.022 F
FMR Type: 6.5/0.047 F
FMC Type: 5.0/0.047 F, 6.5/0.10 F
Lead-wire Width W40.5 ±0.1
Lead-wire Thicknesst3t30.4 ±0.1
Pitch of Component P 12.7 ±1.0
Sprocket Pitch P012.7 ±0.3
Sprocket Hole Center to Lead P13.85 ±0.7
Sprocket Hole to Component Center P26.35 ±1.3
Lead Spacing F 5.0 ±0.5
Component Alignment h 2.0 max.
Including tiltiing caused by bending of lead wire
Tape Width W 18.0
Hold-down tape Width W012.5 min.
Sprocket Hole Position W19.0 ±0.5
Hold-down Tape Position W23.0 max. No protrusion of tape
Height of Component from Tape Center H 16.0 ±0.5
18.0 ±0.5
Sprocket Hole Diameter D0
φ
4.0 ±0.2
t10.7 ±0.2
t21.5 max.
Length of Shipped Lead L 11.0 max.
Unit : mm
Total Tape Thickness
+1.0
0.5
Taping Specification (Ammo pack)
+–+
P
2
b
P
1
FW
4
P
0
D
0
c
t
3
t
2
t
1
h
P
W
1
W
0
W
H
L
a
W
2
Packing Quantity
1000 pcs. / box
(except FMC0H334ZTP( ))
Super Capacitors Vol.02 31
Item Symbol Value Tolerance Remarks
Component Height a 15.0 ±0.5
Component Width b 14.0 ±0.5
Component Thickness c 9.0 ±0.5
Lead-wire Width W40.6 ±0.1
Lead-wire Thickness t30.6 ±0.1
Pitch of Component P 25.4 ±1.0
Sprocket Pitch P012.7 ±0.3
Sprocket Hole Center to Lead P13.85 ±0.7
Sprocket Hole to Component Center P26.35 ±1.3
Lead Spacing F 5.0 ±0.5
Component Alignment h 2.0 max.
Including tiltiing caused by bending of lead wire
Tape Width W 18.0
Hold-down tape Width W012.5 min.
Sprocket Hole Position W19.0 ±0.5
Hold-down Tape Position W23.0 max. No protrusion of tape
Height of Component from Tape Center H 16.0 ±0.5
18.0 ±0.5
Sprocket Hole Diameter D0
φ
4.0 ±0.2
Total tape thickness t10.67 ±0.2
t21.7 max.
Length of Shipped Lead L 11.0 max.
Unit : mm
+1.0
0.5
Taping Specifications [FMC0H334ZTP( )]
+ +
P
2
b
P
1
FW
4
P
0
D
0
c
t
3
t
2
t
1
h
P
W
1
W
0
W
H
L
a
W
2
32 Super Capacitors Vol.02
Packing dimensions
SUPER
CAPACITOR
Top View
Side View
Label
UP
350 max.
350 max.
55 max.
Part number
Quantity
Date code
Outlet
Outlet
Marking of Box
Marking shows the following items.
(a) Terminal direction
(b) Part number
(c) Quantity
(d) Date code
(e) Company logo
Packing Quantity : 1000 pcs. / box (Except FMC0H334ZTP( ))
400 pcs. / box (FMC0H334ZTP( ))
Super Capacitors Vol.02 33
FA Series for Large Backup Current Capacitors
The FA series is suitable for supplying a large current in a short time.
These capacitors are ideal for momentarily backing up a high-current, short-time load in an electronic system (in the
event of momentary power failure).
Features
• Extremely low equivalent series resistance (ESR) ideal for supplying backup current of 10 mA to 1 A for a short time
• High breakdown voltage (maximum operating voltage: 11 V) that can drive microcomputers and actuators
Applications
Momentary backup of microcomputers and DRAMs and auxiliary power supply of mechanical systems (motors, relays,
electromagnetic valves)
Part Number System
FA 0H 473 Z Capacitance tolerance: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow microfarad code.
Maximum rated voltage: 0H: 5.5 V (Marking: 5 V)
1A: 11 V (Marking: 10 V)
Super Capacitor: FA series
34 Super Capacitors Vol.02
Markings
Markings are made with black ink on the green sleeve.
Part Number
FA0H473Z
FA0H104Z
FA0H224Z
FA0H474Z
FA0H105Z
FA1A223Z
FA1A104Z
FA1A224Z
FA1A474Z
Max. Rated Voltage
(VDC)
5.5
5.5
5.5
5.5
5.5
11
11
11
11
Nominal Capacitance
Max. ESR (at 1 kHz)
()
20
8
5
3.5
2.5
20
8
6
4
Max. Current
at 30 minutes (mA)
0.071
0.15
0.33
0.71
1.5
0.066
0.33
0.66
1.41
Part No.
FA0H473Z
FA0H104Z
FA0H224Z
FA0H474Z
FA0H105Z
FA1A223Z
FA1A104Z
FA1A224Z
FA1A474Z
D
16.0
(0.630)
21.5
(0.846)
28.5
(1.122)
36.5
(1.437)
44.5
(1.752)
16.0
(0.630)
28.5
(1.122)
36.5
(1.437)
44.5
(1.752)
H
15.5
(0.610)
15.5
(0.610)
16.5
(0.650)
16.5
(0.650)
18.5
(0.728)
25.0
(0.984)
25.5
(1.004)
27.5
(1.083)
28.5
(1.122)
P
5.1
(0.2)
7.6
(0.3)
10.2
(0.4)
15
(0.591)
20
(0.787)
5.1
(0.2)
10.2
(0.4)
15
(0.591)
20
(0.787)
d1
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
1.0
(0.039)
0.4
(0.016)
0.6
(0.024)
1.0
(0.039)
1.0
(0.039)
d2
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
1.7
(0.067)
1.4
(0.055)
1.2
(0.047)
1.4
(0.055)
1.4
(0.055)
1.4
(0.055)
L
5.0
(0.197)
5.5
(0.217)
9.5
(0.374)
9.5
(0.374)
9.5
(0.374)
5.0
(0.197)
9.5
(0.374)
9.5
(0.374)
9.5
(0.374)
Dimensions mm (inch) Weight
g (oz)
6.2
(0.219)
12
(0.423)
25
(0.882)
42
(1.482)
65
(2.293)
7.5
(0.265)
32
(1.129)
55
(1.940)
83
(2.928)
d1±0.1
d2±0.1
D±0.5
P±0.3
2.0 max.
L max.
Sleeve
Lead (case)
Negative polarity Lead
φ
H max.
Note: Weight values are typical.
Dimensions and Standard Ratings
Sleeve
Lead terminal
connected to
the metal can case
Negative polarity
Negative polarity
identification mark
Date code
PN
PN
001 FA 0.1 F
001
5 V
Marking on sleeve
FA 0.1 F
5 V
FA 0.1 F
5 V
FA 0.1 F
5 V
Charge System
( F )
0.047
0.1
0.22
0.47
1.0
0.022
0.1
0.22
0.47
Discharge System
( F )
0.075
0.16
0.35
0.75
1.6
0.035
0.16
0.35
0.75
Super Capacitors Vol.02 35
Item
Operating Temperature Range
Maximun Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Specification
–25˚C to 70˚C
5.5 VDC, 11.0 VDC
0.047 to 1.0 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 70 % of initial value
Equivalent Series Resistance
Not to exceed 3 times initial value
Capacitance Not to exceed 150 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Not to change more than ±20 % from initial
value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening or permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 85 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 200 % of initial requirement
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Phase 1 : +25±2.0˚C
Phase 2 : –25±2.0˚C
Phase 3 : +25±2.0˚C
Phase 4 : +70±2.0˚C
Phase 5 : +25±2.0˚C
Conforms to 8.1.2 (1)
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
230 ±5˚C, 5 ±0.5 sec.
Immersion depth:
2.5 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
2.5 mm from body
Conforms to 9.5
40 ±2˚C, 90 to 95 % RH
240 ± 8 hours
Conforms to 9.10
70 ±2˚C
5.5 V applied for 5 V type
11 V applied for 10 V type
1 000 hours
Specifications
( )
At min. temp.
–25˚C
Step 2
At max. temp.
+70˚C
Step 4
At room temp.
+25˚C
Step 5
+48
–0
5.5 VDC 0.047 F to 0.22 F: 1 kg 10 sec
0.47 F to 1.0 F: 2.5 kg 10 sec
11 VDC 0.022 F to 0.1 F: 1 kg 10 sec
0.22 F to 0.47 F: 2.5 kg 10 sec
( )
( )
Temperature
Variation of
Characteristics
Conforms to 9.3
Temperature conitiom:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles : 5 cycles
36 Super Capacitors Vol.02
FE Series for Large Backup Current Capacitors
The FE series offers small, high-capacitance electric double-layer capacitors suitable for supplying a large current in a
short time.
These capacitors are ideal for momentarily backing up a large-current, short-time load in an electronic system (in the
event of momentary power failure)
Features
• Extremely low equivalent series resistance (ESR), ideal for supplying several 10 mA to 1 A for short periods of time
(about 1/2 the CV value when compared to the ESR of FA series)
• Small (about 1/4 in volume of aluminum electrolytic capacitor and 3/5 of FA series at same CV value)
• Product variety, including low-capacitance and high-capacitance models (0.047 F to 1.5 F)
Applications
Momentary backup sources for microcomputers, SRAMs, and DRAMs, and auxiliary power source for mechanical systems
(motors, relays, electromagnetic valves).
Part Number System
FE 0H 473 Z
Capacitance tolerance: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow microfarad code.
Maximum rated voltage: 5.5 V
Super Capacitor: FE series
Super Capacitors Vol.02 37
Markings
Markings are made with black ink on the green sleeve.
Sleeve
Lead terminal
connected to
the metal can case
Negative polarity
Negative polarity
identification mark
Date code
Marking on sleeve
V0 5.5V
V0
001 FE 0.047F
001 5.5VFE 0.047F
5.5VFE 0.047F
5.5VFE 0.047F
Dimensions And Standard Ratings
d
1
±0.1
d
2
±0.1
D±0.5
P±0.5
0.3 min.
L min.
Sleeve
Lead (case)
Negative polarity Lead
φ
H max.
Part No.
FE0H473Z
FE0H104Z
FE0H224Z
FE0H474Z
FE0H105Z
FE0H155Z
D
14.5
(0.57)
16.5
(0.65)
21.5
(0.85)
28.5
(1.12)
36.5
(1.44)
44.5
(1.75)
H
14.0
(0.55)
14.0
(0.55)
15.5
(0.61)
16.5
(0.65)
18.5
(0.73)
18.5
(0.73)
P
5.1
(0.2)
5.1
(0.2)
7.6
(0.3)
10.2
(0.4)
15.0
(0.59)
20.0
(0.79)
d1
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
1.0
(0.039)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
1.7
(0.067)
1.4
(0.055)
L
2.2
(0.087)
2.7
(0.106)
3.0
(0.118)
6.1
(0.240)
6.1
(0.240)
6.1
(0.240)
Dimensions mm (inch) Weight
g (oz)
3.9
(0.138)
5
(0.177)
9.5
(0.336)
16
(0.565)
38
(1.343)
72
(2.544)
Part Number
FE0H473Z
FE0H104Z
FE0H224Z
FE0H474Z
FE0H105Z
FE0H155Z
Max. Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Nominal Capacitance
Max. ESR (at 1 kHz)
()
14.0
6.5
3.5
1.8
1.0
0.6
Max. Current
at 30 minutes (mA)
0.071
0.15
0.33
0.71
1.5
2.3
Discharge System
( F )
0.075
0.16
0.35
0.75
1.4
2.1
Charge System
( F )
0.047
0.10
0.22
0.47
1.0
1.5
38 Super Capacitors Vol.02
Specification
–40˚C to 70˚C
5.5 VDC
0.047 to 1.5 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 40 % of initial value
Equivalent Series Resistance
Not to exceed 4 times initial value
Capacitance Not to exceed 200 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Shall meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance change Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance change Within ±30 % of initial value
Equivalent Series Resistance
Not to exceed 300 % of initial requirement
Current at 30 minutes
Not to exceed 200 % of initial requirement
Item
Operating Temperature Range
Maximun Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
0.047 to 0.47 F: 1 kg, 10 sec.
1 F, 1.5 F : 2.5 kg, 10 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
230 ±5˚C Immersion depth:
5 ±0.5 sec. 1.6 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth :
1.6 mm from body
Conforms to 9.5
40 ±2˚C, 90 to 95 % RH
240 hours
240 ± 8 hours
Conforms to 9.10
70 ±2˚C
5.5 V applied
1 000 hours
Specifications
Temperature
Variation of
Characteristics
+48
–0
Conforms to 7.14
At 70˚C
Surge voltage 6.3 V
Temperature : 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1 000 cycles
Charge resistance :
0.047 F 300
0.10 F 150
0.22 F 56
0.47 F 30
1.0, 1.5 F 15
Discharge resistance:
Not applicable (0 )
Conforms to 9.3
Temperature condition:
–40˚C normal temperture
+70˚C normal temperture
Number of cycles : 5 cycles
Super Capacitors Vol.02 39
FS Series
The FS series Super Capacitors are ideal as short-time (30 minutes max.) backup devices in small and lightweight
systems. 5.5 VDC (0.022 F to 1.0 F), 11 VDC (0.47 F and 1.0 F only) and 12 VDC (1.0 F and 5.0 F only)
Features
• Ideal for supplying current of several hundred
µ
A to several mA for short time
Applications
• Backup source for microcomputers and buffer for momentary high-current loads (for example, motors)
Part Number System
FS 0H 473 Z
Capacitance tolerance: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow microfarad code.
Maximum rated voltage:
0 H: 5.5 VDC
1 A: 11 VDC
1 B: 12 VDC
Super Capacitor: FS series
40 Super Capacitors Vol.02
Markings
Markings are made with black ink on the green sleeve.
Dimensions and Standard Ratings
Part Number
FS0H223Z
FS0H473Z
FS0H104Z
FS0H224Z
FS0H474Z
FS0H105Z
FS1A474Z
FS1A105Z
FS1B105Z
FS1B505Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
11.0
11.0
12.0
12.0
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
0.47
1.0
1.0
5.0
Max. ESR
(at 1 kHz)
()
60
40
25
25
13
7
7
7
7.5
4.0
Max. Current at
30 minutes (at 1 kHz)
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
1.41
3.0
3.6
18.0
Sleeve
Lead terminal
connected to the
metal can case
Negative polarity
Negative polarity
identification mark
Date code
Marking of sleeve
V5
5.5V
V5
001 FS
0.47F
5.5VFS
0.47F
P±0.5
D±0.5
φ
0.3 min.
H max.
d1±0.1
d2±0.1
L min.
Sleeve
Lead (case)
Negative polarity
Lead
Part No.
FS0H223Z
FS0H473Z
FS0H104Z
FS0H224Z
FS0H474Z
FS0H105Z
FS1A474Z
FS1A105Z
FS1B105Z
FS1B505Z
D
11.5
(0.453)
13.0
(0.512)
16.5
(0.650)
16.5
(0.650)
21.5
(0.846)
28.5
(1.122)
28.5
(1.122)
28.5
(1.122)
28.5
(1.122)
44.8
(1.764)
H
8.5
(0.335)
8.5
(0.335)
8.5
(0.335)
13.0
(0.512)
13.0
(0.512)
14.0
(0.551)
25.5
(1.004)
31.5
(1.240)
38.0
(1.496)
60.0
(2.361)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
7.62
(0.300)
10.16
(0.400)
10.16
(0.400)
10.16
(0.400)
10.16
(0.400)
20.0
(0.787)
d1
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
1.0
(0.040)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
1.4
(0.055)
1.4
(0.055)
1.4
(0.055)
1.4
(0.055)
L
2.7
(0.106)
2.2
(0.087)
2.7
(0.106)
2.7
(0.106)
3.0
(0.118)
6.1
(0.240)
6.1
(0.240)
6.1
(0.240)
6.1
(0.240)
9.5
(0.240)
Dimensions mm (inch) Weight
g (oz)
1.6
(0.057)
2.6
(0.092)
4.1
(0.145)
5.3
(0.187)
10
(0.353)
18
(0.635)
32.0
(1.129)
35.0
(1.235)
40
(1.411)
160
(5.644)
Note: Weight is typical.
Discharge System
(F)
0.033
0.072
0.15
0.33
0.75
1.3
0.60
1.3
1.3
6.5
Nomial Capacitance
Super Capacitors Vol.02 41
Standard
–25°C to +70˚C
5.5 VDC, 11 VDC, 12 VDC
0.022 to 1.0 F (5.5 V products), 0.47 F to 1.0 F (11 V products), 1.0 F to 5.0 F (12 V products)
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ± 20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
90% or higher of initial standard value (5.5 V products)
Within 20% of initial value (11 V, 12 V products)
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance
85% or higher of initial standard value (5.5 V products)
Within ±30% of initial value (11 V, 12 V products)
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge voltage:
6.3 V (5.5 V products)
12.6 V (11 V products)
13.6 V (12 V products)
Temperature: 70±2˚C
Chargs: 30 seconds
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.022 F 560
0.047 F 300
0.1 F 150
0.22 F 56
0.47 F 30
1 F 15
5 F 10
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230 ±5°C
Dipping duration: 5 ±0.5 sec.
Should be dipped up to 1.6 mm from
the lower end of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied:
Maximum operating
voltage
Series protection resistance: 0
Test duration: 1000 hours
Specifications
+48
0
Temperature
Variation of
Characteristics
5.5 VDC 0.022 F to 0.22 F: 1 kg 10 sec
0.47 F to 1.0 F: 2.5 kg 10 sec
11 VDC 2.5 kg 10 sec
12 VDC 2.5 kg 10 sec
42 Super Capacitors Vol.02
FR Series W ide Temperature R ange C apacitor [ –40˚C to +85˚C]
The FR series Super Capacitors are small-size electric double-layer capacitors that can operate in a temperature range
as wide as –40˚C to +85˚C.
These capacitors are ideal as long-time backup devices for minute current loads in industrial equipment such as measuring
instruments, control equipment, and communications equipment.
Features
• Wide operating temperature range: –40˚C to +85˚C
• High reliability (Ioad life of 85˚C, 5.5 V, 1000 hours guaranteed)
• Excellent voltage holding characteristics ideal for long-time current supply of 1
µ
A to several hundred
µ
A
Applications
Backup of CMOS microcomputers, static RAMs, and DTSs (digital tuning systems)
Part Number System
FR 0H 223 Z Capacitance tolerance:
Z: +80%, –20%
Nominal capacitance: 0.022 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow.
Maximum rated voltage:
0H: 5.5 VDC
Super Capacitor: FR series
Super Capacitors Vol.02 43
Markings
Markings are made with black ink on the green sleeve.
Part Number
FR0H223Z
FR0H473Z
FR0H104Z
FR0H224Z
FR0H474Z
FR0H105Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
Max. ESR
(at 1 kHz)
()
220
110
150
180
100
60
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
4.2
4.2
4.2
Dimensions and Standard Ratings
P±0.5
D±0.5
0.3 min.
H max.
L min.
d
1
±0.1
d
2
±0.1
Insulation
sleeve
Lead
connected
to case
Ne
g
ative
p
olarit
y
LEAD
φ
Sleeve
Lead connected
to case
NEGATIVE POLARITY
Negative polarity
identification mark
V0
5.5V
V0
001 FR
85˚C
0.022F
Date code
Marking of sleeve
5.5V
FR
85˚C
0.022F
Part No.
FR0H223Z
FR0H473Z
FR0H104Z
FR0H224Z
FR0H474Z
FR0H105Z
D
11.5
(0.453)
14.5
(0.571)
14.5
(0.571)
14.5
(0.571)
16.5
(0.650)
21.5
(0.850)
H
14.0
(0.551)
14.0
(0.551)
15.5
(0.610)
21.0
(0.827)
21.5
(0.846)
22.0
(0.866)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
7.62
(0.300)
d1
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
L
2.7
(0.106)
2.4
(0.095)
2.4
(0.095)
2.4
(0.095)
2.7
(0.106)
3.0
(0.118)
Dimensions mm (inch) Weight
g (oz)
2.3
(0.081)
3.9
(0.138)
4.3
(0.152)
5.3
(0.187)
7.5
(0.265)
13.3
(0.470)
Note: Weight is typical.
Discharge System
(F)
0.028
0.060
0.15
0.33
0.75
1.6
Nomial Capacitance
44 Super Capacitors Vol.02
Specification
–40˚C to +85˚C
5.5 Vdc
0.022 to 1.0 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Not to exceed 4 times initial value
Capacitance More than 30 % of initial value
Equivalent Series Resistance
Not to exceed 7 times initial value
Capacitance Not to exceed 200 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface shoud be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Not to exceed120 % of initial requirement
Current at 30 minutes
Not to exceed120 % of initial requirement
Item
Operating Temperature Range
Maximun Working Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute Value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resietance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conform to 7.14
Surge voltage 6.3 V
Temperature : 85±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1 000 cycles
Charge resistance:
0.022 F 560
0.047 F 300
0.10 F 150
0.22 F 56
0.47 F 30
1.0 F 15
Discharge resistance:
Not applicable (0 )
Conform to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +85±2˚C
Phase 6: +25±2˚C
Conform to 8.1.2 (1)
0.022 to 0.47 F: 1 kg, 10 sec.
1 F: 2.5 kg, 10 sec.
Conform to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conform to 8.4
230 ±5˚C
5 ±0.5 sec. 1.6 mm from body
Conform to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
1.6 mm from body
Conform to 9.3
Temperature condition:
–40°C normal temperature
+85°C normal temperature
Number of cycles: 5 cycles
Conform to 9.5
40 ±2˚C, 90 to 95% RH
240 ± 8 hours
Temperature
Variation of
Characteristics
Specifications
Super Capacitors Vol.02 45
Specification
Capacitance change Within ±30% of initial value
Equivalent Series Resistance
Not to exceed 200% of initial requirement
Current at 30 minutes
Not to exceed 200% of initial requirement
Voltage between terminal leads higher than 4.2V
Test Conditions
Conforming to JIS C 5102-1994
(1) Applied V oltage: 5.0 V
(2) Series Resistance: 0
(3) Charging time: 24 h
(1) Load: Nothing
(2) Temp.: Less than 25°C
(3) Humidity: Less than 70% RH
(4) Storage time: 24 h
Item
High
Temperature
Load
Voltage Holding
Characteristics
Charging
Storege
Conforms to 9.10
Temperature: 85 ± 2°C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
+48
–0
46 Super Capacitors Vol.02
3.5 V, 6.5 V Rated Voltage Series FSH Type, FYD Type
These 3.5 V and, 6.5 V rated voltage are suitable for use in portable or battery-driven equipment.
These capacitors are especially ideal as backup devices for cameras, remote controllers, headphone and stereos.
Features
• The FSH-type is ideal for supplying several hundred
µ
A to several mA for a short time. The FYD type is ideal for backup
of 1
µ
A to several hundred
µ
A for a long time.
• Smaller than existing series (25% Iess than FS series in CV per volume)
Applications
• Secondary backup power supply for cameras to charge an electronic flash (FSH type)
• Secondary backup power supply for motors (FSH-type)
• Backup of CMOS microprocessors, SRAMs, DTS ICs to charge the battery
Part Number System
FSH 0V 433 Z Capacitance tolerance:
Z: +80%, –20%
Capacitance: 0.043 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow F code.
Maximum rated voltage
0V: 3.5 VDC
0J: 6.5 VDC
Super Capacitor: FSH-type
FYD-type
µ
Super Capacitors Vol.02 47
Markings
Markings are made with black ink on the green sleeve.
Dimensions and Standard Ratings
Sleeve
Lead terminal
connected to the
metal can case
Negative polarity
Negative polarity
identification mark
Date code
Marking of sleeve
V5
3.5V
V5
001 FSH
0.043F
3.5V
FSH
0.043F
P±0.5
0.3 min.
H max.
d
1
±0.1
d
2
±0.1
D±0.5
L min.
Sleeve
Lead (case)
Negative polarity Lead
φ
Part Number
FSH0V433Z
FYD0V563Z
FSH0J223Z
FYD0J273Z
Max.
Rated Voltage
(V)
3.5
3.5
6.5
6.5
ChargeSystem
(F)
0.043
0.056
0.022
0.027
Max. ESR
(at 1 kHz)
()
50
150
60
200
Max. Current at
30 minutes
(mA)
0.039
0.050
0.040
0.049
Note: The weight values are typical.
Part No.
FSH0V433Z
FYD0V563Z
FSH0J223Z
FYD0J273Z
D
11.0
(0.413)
11.0
(0.413)
11.5
(0.453)
11.5
(0.453)
H
5.2
(0.205)
5.2
(0.205)
8.5
(0.355)
8.5
(0.355)
P
5.08
(0.2)
5.08
(0.2)
5.08
(0.2)
5.08
(0.2)
d1
0.2
(0.008)
0.2
(0.008)
0.4
(0.016)
0.4
(0.016)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
L
2.7
(0.106)
2.7
(0.106)
2.7
(0.106)
2.7
(0.106)
Dimensions mm (inch) Weight
g (oz)
1.0
(0.035)
1.0
(0.035)
1.7
(0.060)
1.6
(0.056)
DischargeSystem
(F)
0.055
0.070
0.033
0.040
Nomial Capacitance
48 Super Capacitors Vol.02
Specifications
–25˚C to +70˚C
3.5 VDC, 6.5 VDC
See standard ratings
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Less than 200% of initial requirement
Current 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Less than 400% of initial value
Capacitance Less than 200% of initial value
Equivalent Series Resistance
Initial requirement
Current 30 minutes
Less than 1.5 CV (mA)
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Initial requirement
Current 30 minutes
Initial requirement
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
3/ 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Less than 200% of initial requirement
Current 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance Within ±30% of initial requirement
Equivalent Series Resistance
Less than 300% of initial requirement
Current 30 minutes
Less than 200% of initial requirement
Appearance No significant change
Items
Operating Temperature Range
Maximum Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Surge voltage:
4.0 V (3.5 VDC), 7.4 V (6.5 VDC)
rated part rated part
Temperature: 70±2˚C
Charging for 30 seconds
Discharging for 9 min 30 sec.
Number of cycles: 1 000 cycles
Charge resistance:
0.022 F 560
0.027 F 560
0.043 F 300
0.056 F 240
No discharge resistance
Conforms to 7.12
Phase 1: +25 ±2˚C
Phase 2: –25 ±2˚C
Phase 3: –40 ±2˚C
Phase 4: +25 ±2˚C
Phase 5: +70 ±2˚C
Phase 6: +25 ±2˚C
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Time of test: 6 hours
Conforms to 8.4
Temperature of solder: 230 ±5˚C
Time of immersion: 5 ±0.5 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 8.5
Temperature of solder: 260 ±10˚C
Time of immersion: 10 ±1 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 9.3
Temperature condition:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2˚C
Humidity: 90 to 95% RH
Time of test: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ±2˚C
Series resistance: 0
Applied voltage: 3.5 VDC, 6.5 VDC
Time of test: 1000 hours
Specifications
Temperature
Variation of
Characteristics
+48
–0
Super Capacitors Vol.02 49
FY Series
FYD TYPE: SMALL DIAMETER, EXCELLENT VOLTAGE HOLDING CHARACTERISTICS
FYH, and FYL TYPE: LOW PROFILE, EXCELLENT VOLTAGE HOLDING CHARACTERISTICS
The FY series includes small-size electric double-layer capacitors with excellent voltage holding character-
istics. The FYD type occupies only a small area on a printed circuit board, and the FYH and FYL types feature a low
profile in height, so that they can be used in various systems.
These capacitors are ideal as long-time backup devices for minute-current loads in small and lightweight systems.
Features
• Product variety makes the FYD, FYH, and FYL types suitable for use in many types of application systems.
• Excellent voltage holding characteristics ideal for backup of 1
µ
A to several hundred
µ
A.
• Smaller than other Super Capacitors (25% Iess than FS series in volume)
• Capacitance ranges from low to high (0.01 F to 2.2 F).
Applications
• Backup of CMOS microcomputers, static RAMs, DTSs (digital tuning systems)
• Memory backup of remote controllers and handy cassette player during battery exchange
Part Number System
FYD 0H 473 Z Capacitance tolerance:
Z: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow F code.
Maximum rated voltage:
0H: 5.5 VDC
Super Capacitor: FY series type
FYD:Small-diameter type
FYH and FYL:Low-profile type
µ
50 Super Capacitors Vol.02
Markings
Markings are made with black ink on the green sleeve.
Dimensions and Standard Ratings
Sleeve
Lead terminal
connected to the
metal can case
Negative polarity
Negative polarity
identification mark
Date code
Marking of sleeve
V5
5.5V
V5
001 FYD
0.047F
5.5VFYD
0.047F
Part No.
FYD0H223Z
FYD0H473Z
FYD0H104Z
FYD0H224Z
FYD0H474Z
FYD0H105Z
FYD0H145Z
FYD0H225Z
D
11.5
(0.453)
11.5
(0.453)
13.0
(0.512)
14.5
(0.571)
16.5
(0.65)
21.5
(0.85)
21.5
(0.85)
28.5
(1.122)
H
8.5
(0.335)
8.5
(0.335)
8.5
(0.335)
15.0
(0.591)
15.0
(0.591)
16.0
(0.629)
19.0
(0.748)
22.0
(0.866)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
7.62
(0.300)
7.62
(0.300)
10.16
(0.400)
d1
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
0.6
(0.024)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
L
2.7
(0.106)
2.7
(0.106)
2.2
(0.087)
2.4
(0.095)
2.7
(0.106)
3.0
(0.118)
3.0
(0.118)
6.1
(0.240)
Dimensions mm (inch) Weight
g (oz)
1.6
(0.056)
1.7
(0.058)
2.4
(0.085)
4.3
(0.152)
6.0
(0.212)
11.0
(0.338)
12.0
(0.424)
22.9
(0.809)
P±0.5
0.3 min.
H max.
d
1
±0.1
d
2
±0.1
D±0.5
L min.
Sleeve
Lead (case)
Ne
g
ative
p
olarit
y
Lead
φ
Part Number
FYD0H223Z
FYD0H473Z
FYD0H104Z
FYD0H224Z
FYD0H474Z
FYD0H105Z
FYD0H145Z
FYD0H225Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
1.4
2.2
Max. ESR
(at 1 kHz)
()
220
220
100
120
65
35
45
35
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
2.1
3.3
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
Note: Weight is typical.
FYD-Type
Discharge System
(F)
0.033
0.070
0.14
0.35
0.75
1.6
2.1
3.3
Nomial Capacitance
Super Capacitors Vol.02 51
Part Number
FYH0H223Z
FYH0H473Z
FYH0H104Z
FYH0H224Z
FYH0H474Z
FYH0H105Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
Max. ESR
(at 1 kHz)
()
200
100
50
60
35
20
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
4.2
4.2
4.2
FYH-Type
P±0.5
0.3 min.
H max.
d
1
±0.1
d
2
±0.1
D±0.5
L min.
Sleeve
Lead (case)
Negative polarity Lead
φ
Part No.
FYH0H223Z
FYH0H473Z
FYH0H104Z
FYH0H224Z
FYH0H474Z
FYH0H105Z
D
11.5
(0.453)
13.0
(0.512)
16.5
(0.65)
16.5
(0.65)
21.5
(0.85)
28.5
(1.122)
H
7.0
(0.276)
7.0
(0.276)
7.5
(0.295)
9.5
(0.374)
10.0
(0.394)
11.0
(0.433)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
7.62
(0.300)
10.16
(0.400)
d1
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.4
(0.016)
0.6
(0.024)
0.6
(0.024)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
1.4
(0.055)
L
2.7
(0.106)
2.2
(0.087)
2.7
(0.106)
2.7
(0.106)
3.0
(0.118)
6.1
(0.240)
Dimensions mm (inch) Weight
g (oz)
1.5
(0.053)
2.2
(0.078)
3.4
(0.120)
3.6
(0.127)
7.2
(0.255)
13.9
(0.491)
Note: Weight is typical.
Discharge System
(F)
0.033
0.075
0.16
0.30
0.70
0.50
Nomial Capacitance
52 Super Capacitors Vol.02
Part Number
FYL0H103Z
FYL0H223Z
FYL0H473Z
Max.
Rated Voltage
(V)
5.5
5.5
5.5
Charge System
(F)
0.010
0.022
0.047
Max. ESR
(at 1 kHz)
()
300
200
200
Max. Current at
30 minutes
(mA)
0.015
0.033
0.071
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
FYL-Type
Part No.
FYL0H103Z
FYL0H223Z
FYL0H473Z
D
11.0
(0.43)
11.0
(0.43)
12.0
(0.47)
H
5.0
(0.197)
5.0
(0.197)
5.0
(0.197)
P
5.08
(0.200)
5.08
(0.200)
5.08
(0.200)
d1
0.2
(0.016)
0.2
(0.016)
0.2
(0.016)
d2
1.2
(0.047)
1.2
(0.047)
1.2
(0.047)
L
2.7
(0.106)
2.7
(0.106)
2.7
(0.106)
Dimensions mm (inch) Weight
g (oz)
0.9
(0.032)
1.0
(0.035)
1.2
(0.042)
Note: Weight is typical.
P±0.5
0.3 min.
d
1
±0.1
d
2
±0.1
H±0.5
D±0.5
L min.
Sleeve
Lead (case)
Ne
g
ative
p
olarit
y
Lead
φ
Discharge System
(F)
0.013
0.028
0.061
Nomial Capacitance
Super Capacitors Vol.02 53
Specifications
–25˚C to +70˚C
5.5 Vdc
See standard list
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Less than 120% of initial requirement
Current at 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Less than 400% of initial value
Capacitance Less than 200% of initial value
Equivalent Series Resistance
Initial requirement
Current at 30 minutes
Less than 1.5 CV (mA)
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Initial requirement
Current at 30 minutes
Initial requirement
No loosening nor permanent damage of the leads
Capacitance
Equivalent Series Resistance
Meet initial requirements
Current at 30 minutes
Appearance No significant change
3/4 or more of the pin of surface should be covered with the solder
Capacitance
Equivalent Series Resistance
Meet initial requirements
Current at 30 minutes
Appearance No significant change
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current at 30 minutes
Visual appearance No significant change
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Less than 120% of initial requirement
Current at 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance Within ±30% of initial value
Equivalent Series Resistance
Less than 200% of initial requirement
Current at 30 minutes
Less than 200% of initial requirement
Appearance No significant change
Voltage between terminal leads higher than 4.2 V.
Items
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes Value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Surge voltage: 6.3 V
Temperature: 70±2˚C
Charging for 30 seconds
Discharging for 9 min. 30 sec.
Number of cycles 1 000 cycles
Charge resistance :
0.01 F 1500 0.47 F 30
0.022 F 560 1.0 F 15
0.047 F 300 1.4 F 15
0.10 F 150 2.2 F 10
0.22 F 56
No discharge resistance
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
FYD0H105Z
FYD0H145Z
FYD0H225Z : 2.5 kg-f 10 ±1 sec.
FYH0H474Z
FYH0H105Z
Others: 1.0 kg-f 10 ±1 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Time of test: 6 hours
Conforms to 8.4
Temperature of solder: 230 ±5˚C
Time of immersion: 5 ±0.5 second
To immerse capacitors up to 1.6
mm from the bottom
Conforms to 8.5
Temperature of solder: 260 ±10˚C
Time of immersion: 10 ±1 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 9.3
Temperature condition:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2˚C
Humidity: 90 to 95% RH
Time of test: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ±2˚C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
Applied voltage: 5.0 VDC
Series resistance: 0
Curging time: 24 hours
Load: Nothing
Temperature: Lower than 25˚C
Humidity: Lower than 70% RH
Time: 24 hours
Specifications
Temperature
Variation of
Characteristics
Charging
condition
Storage
+48
–0
54 Super Capacitors Vol.02
FC
Discharge
Discharge
Discharge
Discharge
Discharge
Measurement Conditions
(1) Capacitance ( Charge System )
Capacitance is calculated from expression (9) by measuring the charge time constant (τ) of the capacitor (C).
Prior to measurement, short between both pins of the capacitor for 30 minutes or more to let it discharge. In
addition, follow the indication of the product when determining the polarity of the capacitor during charging.
VC
RC
EO
Swich
C
+
EO:3.0 (V) Product with maximum operating voltage
3.5 V
5.0 (V) Product with maximum operating voltage
5.5 V
6.0 (V) Product with maximum operating voltage
6.5 V
10.0 (V) Product with maximum operating voltage
11 V
12.0 (V) Product with maximum operating voltage
12 V
τ:Time from start of charging until Vc becomes
0.632E0 (V) (sec)
RC:See table below ().
Capacitance: C = (F) (9)
τ
RC
FG
5000
2000
2000
1000
1000
1000
510
200
100
0.010F
0.022F
0.047F
0.10F
0.22F
0.33F
0.47F
1.0F
1.4F
1.5F
2.2F
3.3F
4.7F
5.0F
5.6F
FA
1000
1000
510
200
100
51
FE
1000
510
200
100
100
51
FS
1000
1000
510
100
100
100
FYD
2000
2000
1000
510
200
100
200
100
51
FYH
2000
1000
510
510
200
100
FYL
5000
2000
2000
FM
FME
FMR
5000
2000
2000
1000
1000
FR
2000
1000
1000
510
200
100
3.5 V, 6.5 V
Operation Series
0.022 F to
0.056 F
2000
FY FT
510
200
100
100
51
51
20
Capacitance
Series
Name
FMC
1000
1000
Discharge
FGH
Discharge
Discharge
Discharge
Discharge
Capacitance ( Discharge System )
In the diagram below, charging is performed for a duration of 30 minutes, once the voltage of the condensor terminal
reaches 5.5 V.
Then, use a constant current load device and measure the time for the terminal voltage to drop from 3.0 to 2.5 V
upon discharge at 0.22 mA for 0.22 F, for example, and calculate the static capacitance according to the equation
shown below.
Note: The current value is 1 mA discharged per 1F.
A
VCR
5.5V
SW 0.22mA(I)
30 min. T1 T2
V1
: 2.5V
V1
: 3.0V
5.5V
V1
V2
Voltage
Duration (sec.)
Table 3 Capacitance measurement
Capactance : C = (F )
I ( T2 – T1 )
V1 – V2
*Capacitance values according to the constant current discharge method.
Super Capacitors Vol.02 55
Difference owing to method of measuring capacitance
Measurement of the capacitance values by Super capacitors accords to the constant resistance charge method.
If measured according to competitors' constant current, discharge and charge measurement methods, the specified
current values are smaller than those specified by us and therefore they are apparently 1.3 to 1.5 times the capacitance
values measured by our measurement method. Therefore, the backup capability of the same rated product as those
of competitiors is 1.3 to 1.5 times that of competitors.
This catalog describes the constant resistance charge method and the constant current discharge method.
(2) Equivalent series resistance (ESR)
ESR is calculated from expression (10) by using a 1 kHz oscillator, applying an AC current of 10 mA and measuring
the voltage (Vc) between both ends of the capaoitor.
10 mA
f :1 kHz CV
C
Equivalent series resistance : ESR = ()(10)
Vc
10–2
(3) Current (30-minute value)
The current value is calculated from expression (11) by applying a voltage to the capacitor (C), and measuring the
voltage (VR) between both ends of the series resistor (RC) 30 minutes later. Prior to measurement, short between
both pins of the capacitor for 30 minutes or more to let it discharge. Follow the indication of the product when
determining the polarity of the capacitor during charging.
VR
RC
EOC
Swich
+
(4) Self-discharge characteristlic
(except FA, FE, FS series, and 3.5 V and 6.5 V product)
The self-discharge characteristic is measured by charging a voltage of 5.0 VDC (charge protection resistance: 0 )
according to the capacitor polarity for 24 hours, then releasing between the pins for 24 hours and measuring the pin-
to-pin voltage.
This test should be carried out in an environment with an ambient temperature of 25°C or below and relative humidity
of 70% RH or below.
EO:Conforms to EO of capacitance measuring condition.
RC:0.01 to 0.056 F:1 k
0.1 to 0.47 F: 100
1 to 2.2 F: 10
FS Series 11 VDC, 12 Vdc products
0.47 F to 1.0 F: 100
5.0 F: 10
FG Series
1.0 F to 4.7 F: 100
FT Series
1.0 F to 5.6 F: 10
Current : I = × 103 (mA) (11)
VR
RC
56 Super Capacitors Vol.02
Notes on Using the Super Capacitor
(Electric Double-Layer Capacitor)
This capacitor uses an electrolyte and a rubber-sealed structure. Using it at a high temperature for many hours
may cause water content in the electrolyte to evaporate and increase equivalent series resistance.
The basic failure mode is an open mode caused by an increase of equivalent series resistance.
Failure rate
The failure rate calculated based on the field data is approximately 0.006 Fit.
Circuitry
a. Ensure that the maximum operating voltage and other rated values are selected reliably.
Application of a voltage exceeding the maximum operating voltage may not only deteriorate performance but
also damage the case, etc.
b. Since the equivalent series resistance (ESR) of the capacitor is relatively high, do not use it in a smoothing
circuit such as a power supply circuit.
c. For reasons related to the marking display lamp, a sleeve is used for the capacitor, but its isolation is not
guaranteed. Contact with adjacent components may cause leakage.
d. In the manufacturing process, the capacitor is processed with the pin on the case side designated as the (–)
side. Note this (–) symbol when using the capacitor.
A discharge may occur during shipment, but some residual potential may have an adverse effect on other
components.
e. Use of a SuperCapacitor in the vicinity of a heating element (coil, power transistor, posistor, etc.) may heat the
capacitor itself and considerably shorten its service life.
f. Avoid exposure to acidic or alkaliue liquids.
Mounting
a. This capacitor cannot be mounted with a reflow furnace such as IR and VPS. Avoid dipping the capacitor in a
solder dip bath.
b. When using flow automatic soldering, ensure that the soldering temperature is 260˚C or below and soldering
duration at one point does not exceed 10 sec.
c. For soldering with a soldering rod, select a soldering rod with a capacity of approximately 30 W and ensure that
the temperature at the rod tip does not exceed 350˚C and that the soldering duration does not exceed 5 sec.
The rod temperature should be controlled reliably. Heating pins excessively may increase the equivalent series
resistance (ESR) of the capacitor.
d. Do not deform or file capacitor pins.
Doing so may cause solder plating on the pin to fall off and prevent solder from sticking.
e. Avoid mechanical impacts such as dropping on the floor and touching with a hard blade, to prevent renting
sleeves and pin wave.
Super Capacitors Vol.02 57
Cleaning
a. Basically do not wash capacitors except the FM series. When washing is unavoidable, use a washing resistant
product.
b. Drying after washing should be performed within the maximum operating temperature range.
Storage
a. Store the product in an environment with a normal temperature and normal humidity without condensation.
b. Avoid exposing the product in direct sunlight for many hours. (Doing so may cause deterioration or discoloration
of the sleeve.)
c. Avoid storage in an acidic or alkaline atmosphere.
Taking the capacitors apart
a. The capacitors contains a trace of dilute sulfuric acid. Contact with hands, etc., may be harmful, so do not
disassemble them.
b. Do not use incineration for disposal. Instead, dispose of them as industrial waste.
58 Super Capacitors Vol.02
Series Part Number Plating Outer Tube
FA All FA Series a PET (Blue)
FE All FE Series a PET (Blue)
FS All FS Series a PET (Blue)
FR All FR Series a PET (Blue)
FT All FT Series a PET (Blue)
All FYD type a PET (Blue)
All FYH type a PET (Blue)
FY FYL0H473Z a PET (Blue)
FYL0H223Z b PET (Blue)
FYL0H103Z b PET (Blue)
FG0H103Z b PET (Blue)
FG0H223Z b PET (Blue)
FG0H104Z b PET (Blue)
FG0H473Z b PET (Blue)
FG0H474Z a PET (Blue)
FG FG0H105Z a PET (Blue)
FG0H225Z a PET (Blue)
FG0H475Z a PET (Blue)
FGH0H104Z b PET (Blue)
FGH0H224Z b PET (Blue)
FGH0H474Z a PET (Blue)
FGH0H105Z a PET (Blue)
FM All FM Series a No tube used
FC0H473ZTBR24 b No tube used
FC0H104ZTBR24 b No tube used
FC0H224ZTBR24 b No tube used
FC FC0H474ZTBR32 a No tube used
FC0H105ZTBR44 a No tube used
FC0V104ZTBR24 b No tube used
FC0V224ZTBR24 b No tube used
FC0V474ZTBR24 b No tube used
FSH0H473Z b PET (Blue)
FSH0V433Z b PET (Blue)
Others FYD0V563Z b PET (Blue)
FSH0J223Z a PET (Blue)
FYD0J273Z a PET (Blue)
By changing the solder plating from leaded solder to lead-free solder, and the outer tube material of can-
cased conventional SuperCapacitor from polyvinyl chloride to Polyethylene Terephathatate (PET), our new
SuperCapacitor has now became even more friendlier to the environment.
Types of plating and outer tube
a. Iron + copper base + lead-free solder plating (Sn-1Cu)
b. SUS + copper base + reflow lead-free solder plating (100% Sn, reflow processed)
Recommended Pb-free solder :Sn / 3.5Ag / 0.75Cu
Sn / 3.0Ag / 0.5Cu
Sn / 0.7Cu
Sn / 2.5Ag / 1.0Bi / 0.5Cu
Environmental Impact Reduced Products
Super Capacitors Vol.02 59
FC Series
FC0H473ZFTBR24 5.5 0.047 50 0.071 4.2
FC0H104ZFTBR24 5.5 0.10 25 0.15
4.2
FC0H224ZFTBR24 5.5 0.22 25 0.33 4.2
FC0H474ZFTBR32 5.5 0.47 13 0.71 4.2
FC0H105ZFTBR44 5.5 1.00 7 1.50 4.2
FC0V104ZFTBR24 3.5 0.10 50 0.090
FC0V224ZFTBR24 3.5 0.22 25 0.20
FC0V474ZFTBR24 3.5 0.47 25 0.42
Nominal
Capacitance
Discharge
sytem
(F)
Prot Number Max. Rated
Voltage
(Vdc)
Max. ESR
(at 1kHz)
()
Max. current
at 30 minutes
(mA)
Min. Voltage
Holding
Characteristic
(V)
FC Series
Part Number Max.
Rated V oltage
( V )
5.5
5.5
5.5
5.5
5.5
5.5
5.5
0.10
0.22
0.47
1.0
2.2
3.3
5.6
0.14
0.28
0.60
1.3
2.8
4.2
7.2
Max. ESR
(at 1 kHz)
( )
Max. Current at
30 minutes
( mA )
Nomial Capacitance
Charge System
( F )
Discharge System
( F )
FT0H104ZF
FT0H224ZF
FT0H474ZF
FT0H105ZF
FT0H225ZF
FT0H335ZF
FT0H565ZF
0.15
0.33
0.71
1.5
3.3
5.0
8.4
16
10
6.5
3.5
1.8
1.0
0.6
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
less than
Max. Current at
30 minutes
(mA)
0.015
0.033
0.071
0.15
0.33
0.71
1.5
3.3
7.1
Part Number
FG0H103ZF
FG0H223ZF
FG0H473ZF
FG0H104ZF
FG0H224ZF
FG0H474ZF
FG0H105ZF
FG0H225ZF
FG0H475ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.01
0.022
0.047
0.10
0.22
0.47
1.0
2.2
4.7
Max. ESR
(at 1 kHz)
()
300
200
200
100
100
120
65
35
35
Voltage
Holding
Characteristic
Min.(V)
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
Discharge System
(F)
0.013
0.028
0.060
0.13
0.28
0.60
1.3
2.8
6.0
Nomial Capacitance
Max. Current at
30 minutes
(mA)
0.15
0.33
0.71
1.5
Part Number
FGH0H104ZF
FGH0H224ZF
FGH0H474ZF
FGH0H105ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
Charge System
(F)
-
-
-
-
Max. ESR
(at 1 kHz)
()
100
100
65
35
Voltage
Holding
Characteristic
Min.(V)
4.2
4.2
4.2
4.2
Discharge System
(F)
0.10
0.22
0.47
1.0
Nomial Capacitance
FG Series
Same shape as
FC Series (See page 8.)
Same shape as
FT Series
(See page 13.)
Same shape as
FG Series
(See page 16., 18.)
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
lesss than
more than
more than
more than
more than
more than
60 Super Capacitors Vol.02
Part Number
Ammo pack
FM0H103ZF FM0H103ZFTP ( )
FM0H223ZF FM0H223ZFTP ( )
FM0H473ZF FM0H473ZFTP ( )
FM0H104ZF FM0H104ZFTP ( )
FM0H224ZF FM0H224ZFTP ( )
Max.
Rated
Voltage
(VDC)
5.5
5.5
5.5
5.5
5.5
Nomial Capacitance
Voltage
Holding
Characteristic
min. (V)
4.2
4.2
4.2
4.2
4.2
Max. Current
at 30
minutes
(mA)
0.015
0.033
0.071
0.15
0.33
Max. ESR
(at 1 kHz)
()
300
200
200
100
100
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 30.)
5.5 V Type
Charge System
( F )
0.01
0.022
0.047
0.10
Discharge System
( F )
0.014
0.028
0.06
0.13
0.22
FM Series
Part Number
Ammo pack
FM0V473ZF FM0V473ZFTP ( )
FM0V104ZF FM0V104ZFTP ( )
FM0V224ZF FM0V224ZFTP ( )
Max.
Rated
Voltage
(VDC)
3.5
3.5
3.5
Charge System
(F)
0.047
0.10
0.22
Max. Current
at 30
minutes
(mA)
0.042
0.090
0.20
Max. ESR
(at 1 kHz)
()
200
100
100
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 30.)
3.5 V Type
Part Number
Ammo pack
FME0H223ZF FME0H223ZFTP ( )
FME0H473ZF FME0H473ZFTP ( )
Max.
Rated
Voltage
(VDC)
5.5
5.5
Max. Current
at 30
minutes
(mA)
0.033
0.071
Max. ESR
(at 1 kHz)
()
40
20
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 30.)
FME Type ( Backup Large Current , mA Order )
Discharge System
(F)
0.06
0.13
0.30
Part Number
Ammo pack
FMR0H473ZF FMR0H473ZFTP ( )
Max.
Rated
Voltage
(VDC)
5.5
Max. Current
at 30
minutes
(mA)
0.071
Max. ESR
(at 1 kHz)
()
200
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 30.)
Voltage
Holding
Characteristic
min.(V)
4.2
Nominal Capacitance
Charge System
(F)
0.022
0.047
Discharge System
(F)
0.028
0.06
Nominal Capacitance
Discharge System
(F)
0.062
Nominal Capacitance
Charge System
(F)
0.047
FMR Type ( Extended Operating Temperature range )
Same shape as
FM Series 5.5V
Type
(See page 21.)
Same shape as
FM Series 3.5V Type
(See page 22.)
Same shape as
FM Series FME Type
(See page 22.)
Same shape
as FM Series
FMR Type
(See page
22.)
Super Capacitors Vol.02 61
Part Number
Ammo pack
FM0J473ZF FM0J473ZFTP ( )
Max.
Rated
Voltage
(VDC)
6.5
Max. Current
at 30
minutes
(mA)
0.071
Max. ESR
(at 1 kHz)
()
200
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 30.)
FM 6.5V Type
Discharge System
(F)
0.062
Nominal Capacitance
Charge System
(F)
0.047
Same shape as
FM Series 6.5V Type
(See page 22.)
FMC Type
Chip parts applicable to treatment in bond hardening furnace (160 ± 5°C for 120 ±10 seconds)
FMC0H473ZF
FMC0H104ZF
FMC0H334ZF
FMC0H473ZFTP( )
FMC0H104ZFTP( )
FMC0H334ZFTP( )
5.5
5.5
5.5
0.047
0.10
0.062
0.13
0.33
100
50
30
0.071
0.15
0.50
4.2V
4.2V
4.2V
Part Number
Ammo pack
Max.
Rated
Voltage
(VDC)
Nomial Capacitance
Charge System
( F )
Discharge System
( F )
Max. ESR
(at 1 kHz)
( )
Max. Current
at 30
minutes
( mA )
Voltage
Holding
Characteristic
min. ( V )
more than
more than
more than
less than
less than
less than
less than
less than
less than
Part Number
FA0H473ZF
FA0H104ZF
FA0H224ZF
FA0H474ZF
FA0H105ZF
FA1A223ZF
FA1A104ZF
FA1A224ZF
FA1A474ZF
Max. Rated Voltage
(VDC)
5.5
5.5
5.5
5.5
5.5
11
11
11
11
Nominal Capacitance
Max. ESR (at 1 kHz)
()
20
8
5
3.5
2.5
20
8
6
4
Max. Current
at 30 minutes (mA)
0.071
0.15
0.33
0.71
1.5
0.066
0.33
0.66
1.41
Charge System
( F )
0.047
0.1
0.22
0.47
1.0
0.022
0.1
0.22
0.47
Discharge System
( F )
0.075
0.16
0.35
0.75
1.6
0.035
0.16
0.35
0.75
FA Series
Part Number
FE0H473ZF
FE0H104ZF
FE0H224ZF
FE0H474ZF
FE0H105ZF
FE0H155ZF
Max. Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Nominal Capacitance
Max. ESR (at 1 kHz)
()
14.0
6.5
3.5
1.8
1.0
0.6
Max. Current
at 30 minutes (mA)
0.071
0.15
0.33
0.71
1.5
2.3
Discharge System
( F )
0.075
0.16
0.35
0.75
1.4
2.1
Charge System
( F )
0.047
0.10
0.22
0.47
1.0
1.5
FE Series
Same shape as
FM Series FMC Type
(See page 28.)
Same shape as
FA Series
(See page 34.)
Same shape as
FE Series
(See page 37.)
62 Super Capacitors Vol.02
Part Number
FS0H223ZF
FS0H473ZF
FS0H104ZF
FS0H224ZF
FS0H474ZF
FS0H105ZF
FS1A474ZF
FS1A105ZF
FS1B105ZF
FS1B505ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
11.0
11.0
12.0
12.0
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
0.47
1.0
1.0
5.0
Max. ESR
(at 1 kHz)
()
60
40
25
25
13
7
7
7
7.5
4.0
Max. Current at
30 minutes (at 1 kHz)
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
1.41
3.0
3.6
18.0
Discharge System
(F)
0.033
0.072
0.15
0.33
0.75
1.3
0.60
1.3
1.3
6.5
Nomial Capacitance
FS Series
Part Number
FR0H223ZF
FR0H473ZF
FR0H104ZF
FR0H224ZF
FR0H474ZF
FR0H105ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
Max. ESR
(at 1 kHz)
()
220
110
150
180
100
60
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
Discharge System
(F)
0.028
0.060
0.15
0.33
0.75
1.6
Nomial Capacitance
FR Series
Part Number
FSH0V433ZF
FYD0V563ZF
FSH0J223ZF
FYD0J273ZF
Max.
Rated Voltage
(V)
3.5
3.5
6.5
6.5
Charge System
(F)
0.043
0.056
0.022
0.027
Max. ESR
(at 1 kHz)
()
50
150
60
200
Max. Current at
30 minutes
(mA)
0.039
0.050
0.040
0.049
Discharge System
(F)
0.055
0.070
0.033
0.040
Nomial Capacitance
3.5 V, 6.5 V Rated Voltage Series
Same shape
as FS Series
(See page 40.)
Same shape as
FR Series
(See page 43.)
Same shape as
3.5V, 6.5V Rated
Voltage Series
(See page 47.)
Voltage Holding
Characteristic
Min.
(V)
4.2
4.2
4.2
4.2
4.2
4.2
Super Capacitors Vol.02 63
Part Number
FYD0H223ZF
FYD0H473ZF
FYD0H104ZF
FYD0H224ZF
FYD0H474ZF
FYD0H105ZF
FYD0H145ZF
FYD0H225ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
1.4
2.2
Max. ESR
(at 1 kHz)
()
220
220
100
120
65
35
45
35
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
2.1
3.3
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
FYD-Type
Discharge System
(F)
0.033
0.070
0.14
0.35
0.75
1.6
2.1
3.3
Nomial Capacitance
FY Series
Part Number
FYH0H223ZF
FYH0H473ZF
FYH0H104ZF
FYH0H224ZF
FYH0H474ZF
FYH0H105ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
5.5
5.5
5.5
Charge System
(F)
0.022
0.047
0.10
0.22
0.47
1.0
Max. ESR
(at 1 kHz)
()
200
100
50
60
35
20
Max. Current at
30 minutes
(mA)
0.033
0.071
0.15
0.33
0.71
1.5
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
4.2
4.2
4.2
FYH-Type
Discharge System
(F)
0.033
0.075
0.16
0.30
0.70
0.50
Nomial Capacitance
Part Number
FYL0H103ZF
FYL0H223ZF
FYL0H473ZF
Max.
Rated Voltage
(V)
5.5
5.5
5.5
Charge System
(F)
0.010
0.022
0.047
Max. ESR
(at 1 kHz)
()
300
200
200
Max. Current at
30 minutes
(mA)
0.015
0.033
0.071
Voltage
Holding
Characteristic
Min. (V)
4.2
4.2
4.2
FYL-Type
Discharge System
(F)
0.013
0.028
0.061
Nomial Capacitance
Same shape as
FY Series
FYD Type
(See page 50.)
Same shape as
FY Series
FYH Type
(See page 51.)
Same shape as
FY Series
FYL Type
(See page 52.)
64 Super Capacitors Vol.02
Standard
–25°C to +70˚C
5.5 VDC
0.047 to 1.0F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage20
Phase 2
Phase 5
Phase 6
Vibration Resistance
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Dischage )
Test Conditions conforming to JIS C 5102
-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V(5.5V products)
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Charge resistance: 0.047F 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25 ±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25 ±2°C
Phase 5: +70 ±2°C
Phase 6: +25 ±2°C
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
FS Series 5.5V Type
+48
0
Temperature
Variation of
Characteristics
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than
25
°C
Charging
condition
Storage
*
* The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page ).
*
*
*
*
*
*
*
Environmental Impact Reduced Products Specifications
Super Capacitors Vol.02 65
Standard
–25°C to +70˚C
3.5 VDC
0.010 to 0.47F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Vibration Resistance
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.12
Phase 1: +25 ±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25 ±2°C
Phase 5: +70 ±2°C
Phase 6: +25 ±2°C
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
FC Series 3.5V Type
+48
0
Temperature
Variation of
Characteristics
*
*
*
*
*
*
*
* The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page ).
Conforms to 7.14
Surge Voltage: 4.0 V(3.5V products)
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Charge resistance : 0.10F 150
: 0.22F 56
: 0.47F 30
: 1.0F 15
Discharge resistance: 0
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 3.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
66 Super Capacitors Vol.02
FT Series
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High temperature Load
Specification
–40˚C to +85˚C
5.5 Vdc
0.1 to 5.6 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Not to exceed 3 times initial value
Capacitance More than 30 % of initial value
Equivalent Series Resistance
Not to exceed 7 times initial value
Capacitance Not to exceed 150 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
C/C Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should b e covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Not to exceed120 % of initial requirement
Current at 30 minutes
Not to exceed120 % of initial requirement
Capacitance change Within ±30% of initial value
Equivalent Series Resistance
Not to exceed 200% of initial requirement
Current at 30 minutes
Not to exceed 200% of initial requirement
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +85±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2(1)
0.022 to 0.47 F: 1 kg, 10 sec.
1 F: 2.5 kg, 10 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
245 ±5˚C
5 ±0.5 sec. 1.6 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
1.6 mm from body
Conforms to 9.3
Temperatuve condition:
–40˚C Normai temperature
+85˚C Normai temperature
Number of cycles : 5 cycles
Conforms to 9.5
40 ±2˚C, 90 to 95% RH
240 ± 8 hours
Conforms to 9.10
Temperature: 85 ± 2°C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
Temperature
Variation of
Characteristics
+48
–0
Conforms to 7.14
At 85˚C Surge voltage 6.3 V
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1000 cycles
Charge resistance:
0.10 F 150
0.22 F 56
0.47 F 30
1.0 F 15
2.2 F 10
3.3 F 10
5.6 F 10
Discharge resistance:
Not applicable (0 )
Super Capacitors Vol.02 67
FG Series
Standard
–25˚C to +70˚C
5.5 Vdc
0.010 to 4.7 F
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current at 30 min.
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Meet initial standard value
Current at 30 min.
Appearance
No obvious abnormality
3 / 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Should satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current at 30 min.
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within ±30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current at 30 min.
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2V
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
Conforms to 7.14
Surge voltage: 6.3V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min 30 sec.
Number of cycles: 1000 cycles
Series resistance:
0.010F: 1500 0.47F: 30
0.022F: 560 1.0F: 15
0.047F: 300 2.2F: 10
0.10F: 150 4.7F: 10
0.22F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25 ±2˚C
Phase 3: –40 ±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
Conforms to 8.2.3 (1)
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 245±5˚C
Dipping duration: 5±0.5 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 8.5
Solder temperature: 260±10˚C
Dipping duration: 10±1 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 9.3
Temperature: –25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40±2˚C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8hours
Conforms to 9.10
Temperature: 70±2˚C
Voltage applied: 5.5Vdc
Series protection resistance: 0
Test duration: 1000 hours
Voltage applied: 5.0VDC
(with case side terminal negative)
Series resistance: 0
Charging time: 24 hours
Time: 24 hours
Temperature: Lower than 25
˚C
Humidity: Lower than 70%RH
Temperature
Variation of
Characteristics
Charging
Condition
Storage
+48
-0
68 Super Capacitors Vol.02
FG Series FGH Type
Standard
–25˚C to +70˚C
5.5 Vdc
0.10 to 1.0 F
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of inital requirement
Current at 30 min.
Not to exceed 120% of inital requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Meet initial standard value
Current at 30 min.
Appearance
No obvious abnormality
3 / 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Should satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisfy initial standard value
Current at 30 min.
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current at 30 min.
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within ±30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current at 30 min.
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2V
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Solder Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
See characteristics measuring method
Conforms to 7.14
Surge voltage: 6.3V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min 30 sec.
Number of cycles: 1000 cycles
Series resistance:
0.010F: 1500 0.47F: 30
0.022F: 560 1.0F: 15
0.047F: 300 2.2F: 10
0.10F: 150 4.7F: 10
0.22F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25 ±2˚C
Phase 3: –40 ±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 245±5˚C
Dipping duration: 5±0.5 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 8.5
Solder temperature: 260±10˚C
Dipping duration: 10±1 sec.
Should be dipped up to 1.6mm from
the lower end of the capacitor
Conforms to 9.3
Temperature: –25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40±2˚C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8hours
Voltage applied: 5.0VDC
(with case side terminal negative)
Series resistance: 0
Charging time: 24 hours
Time: 24 hours
Temperature: Lower than 25
˚C
Humidity: Lower than 70%RH
Temperature
Variation of
Characteristics
Charging
Condition
Storage
+48
-0
Conforms to 9.10
Temperature: 70±2˚C
Voltage applied: 5.5Vdc
Series protection resistance: 0
Test duration: 1000 hours
Super Capacitors Vol.02 69
FM Series 5.5V Type
Standard
–25°C to +70˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality.
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge )
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.01F: 1500 0.22F: 56
0.022 F: 560
0.047 F: 300
0.10 F: 150
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Temperature
Variation of
Characteristics
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 8.4
Solder temperature: 245 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
70 Super Capacitors Vol.02
FM Series 3.5V Type
Standard
–25°C to +70˚C
3.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge voltage: 4.0 V
Temperature: 70±2°C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
0.10 F: 150
0.22 F: 56
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
+48
0
Temperature
Variation of
Characteristics
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 3.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from for the lower
end of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 8.4
Solder temperature: 245 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from for the lower
end of the capacitor.
Super Capacitors Vol.02 71
FM Series FME Type
Standard
–25°C to +70˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Should satisty initial standard value
Current (30-minute value)
Appearance
There should be no considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 245 ± 5°C
Dipping duration: 5 ± 0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ± 2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ± 2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
+48
0
Temperature
Variation of
Characteristics
Conforms to 7.14
Surge Voltage: 7.4 V
Temperature: 70±2°C
Chargs: 30 sec.
Dischargs: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.022 F: 560
0.047 F: 300
Discharge resistance: 0
72 Super Capacitors Vol.02
FM Series FMR Type
Standard
–40°C to +85˚C
5.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher initial value
Equivalent series resistance
4 or less times initial value
Capacitance 30% or higher initial value
Equivalent series resistance
7 or less times initial value
Capacitance 200% or higher initial value
Equivalent series resistance
Satisfy initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial standard value
Equivalent series resistance
Satisfy initial standard value
Current (30-minute value)
Satisfy initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder.
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher than 4.2 V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge )
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 85 ±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +85±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.4
Solder temperature: 245 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
After reflow pre-heating
(160°C ± 5°C 120 ±10 sec.)
Conforms to 9.3
Temperature condition:
–40°C normal temperature
+85°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 85 ±2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
Temperature
Variation of
Characteristics
*
*
*
*
*
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
*Performance items indicated with * are guaranteed for items after reflow pre-heating.
Super Capacitors Vol.02 73
FM Series FM 6.5V Type
Standard
–25°C to +70˚C
6.5 VDC
See standard list
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
4 or less times initial value
Capacitance 200% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious able abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within 20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obuious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soidering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 7.4 V
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25 ±2°C
Phase 3: –40 ±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10sec.
Conforms to 8.2.3
Frequency : 10 to 55 Hz
Test duration : 6 hours
Conforms to 8.4
Solder temperature: 245 ±5°C
Dipping duration: 5 ±0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied: 6.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
+48
0
Temperature
Variation of
Characteristics
74 Super Capacitors Vol.02
FM Series FMC Type
Standard
–25°C to +70˚C
5.5 VDC
0.047F , 0.10F , 0.33F
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality.
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ±20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Should satisty initial standard value
Current (30-minute value)
Appearance
There should be no considerable abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance Within ±20% of initial value
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance Within 30% of initial value
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Voltage between terminal leads higher then 4.2V
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tenile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Dischage)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge Voltage: 6.3 V
Temperature: 70±2°C
Chargs: 30 sec.
Dischargs: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.1 F: 150
0.33 F: 51
0.047 F: 300
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
1 kg 10 sec
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 245 ± 5°C
Dipping duration: 5 ± 0.5 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ± 2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ± 2°C
Voltage applied: 5.5 Vdc
Series protection resistance: 0
Test duration: 1000 hours
+48
0
Temperature
Variation of
Characteristics
Voltage applied: 5.0 VDC
Series resistance:
0
Charging time: 24hours
Charging
condition
Storage Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
*
*The characteristics above must be satisfied for asterisked items after the end of reflow soldering
(according to the reflow condition shown on page).
Super Capacitors Vol.02 75
FA Series
Item
Operating Temperature Range
Maximun Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Specification
–25˚C to 70˚C
5.5 VDC, 11.0 VDC
0.047 to 1.0 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 70 % of initial value
Equivalent Series Resistance
Not to exceed 3 times initial value
Capacitance Not to exceed 150 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Not to change more than ±20 % from initial
value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 85 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 200 % of initial requirement
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Phase 1 : +25±2.0˚C
Phase 2 : –25±2.0˚C
Phase 3 : +25±2.0˚C
Phase 4 : +70±2.0˚C
Phase 5 : +25±2.0˚C
Conforms to 8.1.2 (1)
( )
At min. temp.
–25˚C
Step 2
At max. temp.
+70˚C
Step 4
At room temp.
+25˚C
Step 5
+48
–0
5.5 VDC 0.047 F to 0.22 F: 1 kg 10 sec
0.47 F to 1.0 F: 2.5 kg 10 sec
11 VDC 0.022 F to 0.1 F: 1 kg 10 sec
0.22 F to 0.47 F: 2.5 kg 10 sec
( )
( )
Temperature
Variation of
Characteristics
Conforms to 9.10
70 ±2˚C
5.5 V applied for 5 V type
11 V applied for 10 V type
1 000 hours
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
245 ±5˚C, 5 ±0.5 sec.
Immersion depth:
2.5 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
2.5 mm from body
Conforms to 9.3
Temperature conitiom:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles : 5 cycles
Conforms to 9.5
40 ±2˚C, 90 to 95 % RH
240 ± 8 hours
76 Super Capacitors Vol.02
Specification
–40˚C to 70˚C
5.5 VDC
0.047 to 1.5 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 40 % of initial value
Equivalent Series Resistance
Not to exceed 4 times initial value
Capacitance Not to exceed 200 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface should be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Shall meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance change Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance change Within ±30 % of initial value
Equivalent Series Resistance
Not to exceed 300 % of initial requirement
Current at 30 minutes
Not to exceed 200 % of initial requirement
Item
Operating Temperature Range
Maximun Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Surge Voltage
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
0.047 to 0.47 F: 1 kg, 10 sec.
1 F, 1.5 F : 2.5 kg, 10 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
245 ±5˚C Immersion depth:
5 ±0.5 sec. 1.6 mm from body
Conforms to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth :
1.6 mm from body
Conforms to 9.5
40 ±2˚C, 90 to 95 % RH
240 hours
240 ± 8 hours
Conforms to 9.10
70 ±2˚C
5.5 V applied
1 000 hours
Temperature
Variation of
Characteristics
+48
–0
FE Series
Conforms to 7.14
At 70˚C
Surge voltage 6.3 V
Temperature : 70±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1 000 cycles
Charge resistance :
0.047 F 300
0.10 F 150
0.22 F 56
0.47 F 30
1.0, 1.5 F 15
Discharge resistance:
Not applicable (0 )
Conforms to 9.3
Temperature condition:
–40˚C
normal temperture
+70˚C normal temperture
Number of cycles : 5 cycles
Super Capacitors Vol.02 77
FS Series
Standard
–25°C to +70˚C
5.5 VDC, 11 VDC, 12 VDC
0.022 to 1.0 F (5.5 V products), 0.47 F to 1.0 F (11 V products), 1.0 F to 5.0 F (12 V products)
+80%, –20%
See standard list
See standard list
Capacitance More than 90% of initial requirement
Equivalent series resistance
Not to exceed 120% of initial requirement
Current (30-minute value)
Not to exceed 120% of initial requirement
Appearance
No obvious abnormality
Capacitance 50% or higher of initial value
Equivalent series resistance
3 or less times initial value
Capacitance 150% or below of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
1.5 CV (mA) or below
Capacitance Within ± 20% of initial value
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Satisty initial standard value
No loosening nor permanent damage of the leads
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
3/4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
Equivalent series resistance
Satisty initial standard value
Current (30-minute value)
Appearance
No obvious abnormality
Capacitance
90% or higher of initial standard value (5.5 V products)
Within 20% of initial value (11 V, 12 V products)
Equivalent series resistance
1.2 or less times initial standard value
Current (30-minute value)
1.2 or less times initial standard value
Appearance
No obvious abnormality
Capacitance
85% or higher of initial standard value (5.5 V products)
Within ±30% of initial value (11 V, 12 V products)
Equivalent series resistance
Twice or less times initial standard value
Current (30-minute value)
Twice or less times initial standard value
Appearance
No obvious abnormality
Item
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strengh (Tensile)
Vibration Resistance
Solderability
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring method.
See characteristics measuring method.
See characteristics measuring method.
Conforms to 7.14
Surge voltage:
6.3 V (5.5 V products)
12.6 V (11 V products)
13.6 V (12 V products)
Temperature: 70±2˚C
Chargs: 30 seconds
Discharge: 9 min. 30 sec.
Number of cycles 1000 cycles.
Series resistance:
0.022 F 560
0.047 F 300
0.1 F 150
0.22 F 56
0.47 F 30
1 F 15
5 F 10
Discharge resistance: 0
Conforms to 7.12
Phase 1: +25±2°C
Phase 2: –25±2°C
Phase 3: –40±2°C
Phase 4: +25±2°C
Phase 5: +70±2°C
Phase 6: +25±2°C
Conforms to 8.1.2 (1)
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 245 ±5°C
Dipping duration: 5 ±0.5 sec.
Should be dipped up to 1.6 mm from
the lower end of the capacitor.
Conforms to 8.5
Solder temperature: 260 ±10°C
Dipping duration: 10 ±1 sec.
Dipped up to 1.6 mm from the lower end
of the capacitor.
Conforms to 9.3
Temperature condition:
–25°C normal temperature
+70°C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2°C
Relative humidity: 90 to 95% RH
Test duration: 240 ±8 hours
Conforms to 9.10
Temperature: 70 ±2°C
Voltage applied:
Maximum operating
voltage
Series protection resistance: 0
Test duration: 1000 hours
+48
0
Temperature
Variation of
Characteristics
5.5 VDC 0.022 F to 0.22 F: 1 kg 10 sec
0.47 F to 1.0 F: 2.5 kg 10 sec
11 VDC 2.5 kg 10 sec
12 VDC 2.5 kg 10 sec
78 Super Capacitors Vol.02
FR Series
Specification
–40˚C to +85˚C
5.5 Vdc
0.022 to 1.0 F (Refer to standard ratings)
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Not to exceed 120 % of initial requirement
Current at 30 minutes
Not to exceed 120 % of initial requirement
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Not to exceed 4 times initial value
Capacitance More than 30 % of initial value
Equivalent Series Resistance
Not to exceed 7 times initial value
Capacitance Not to exceed 200 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed 1.5 CV (mA)
Capacitance Within ±20 % of initial value
Equivalent Series Resistance
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
No loosening nor permanent damage of the leads
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
3/4 or more of the pin surface shoud be covered with new solder
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Meet initial requirement
Equivalent Series Resistance
Meet initial requirement
Current at 30 minutes
Meet initial requirement
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Not to exceed120 % of initial requirement
Current at 30 minutes
Not to exceed120 % of initial requirement
Item
Operating Temperature Range
Maximun Working Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute Value)
Surge Voltage
Phase 2
Phase 3
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resietance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conform to 7.14
Surge voltage 6.3 V
Temperature : 85±2˚C
Charge: 30 sec.
Discharge: 9 min. 30 sec.
1 000 cycles
Charge resistance:
0.022 F 560
0.047 F 300
0.10 F 150
0.22 F 56
0.47 F 30
1.0 F 15
Discharge resistance:
Not applicable (0 )
Conform to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +85±2˚C
Phase 6: +25±2˚C
Conform to 8.1.2 (1)
0.022 to 0.47 F: 1 kg, 10 sec.
1 F: 2.5 kg, 10 sec.
Conform to 8.2.3
Frequency: 10 to 55 Hz
Test duration: 6 hours
Conform to 8.4
245 ±5˚C
5 ±0.5 sec. 1.6 mm from body
Conform to 8.5
260 ±10˚C, 10 ±1 sec.
Immersion depth:
1.6 mm from body
Conform to 9.5
40 ±2˚C, 90 to 95% RH
240 ± 8 hours
Temperature
Variation of
Characteristics
Conform to 9.3
Temperature condition:
–40°C normal temperature
+85°C normal temperature
Number of cycles: 5 cycles
Super Capacitors Vol.02 79
Specification
Capacitance change Within ±30% of initial value
Equivalent Series Resistance
Not to exceed 200% of initial requirement
Current at 30 minutes
Not to exceed 200% of initial requirement
Voltage between terminal leads higher than 4.2V
Test Conditions
Conforming to JIS C 5102-1994
(1) Applied V oltage: 5.0 V
(2) Series Resistance: 0
(3) Charging time: 24 h
(1) Load: Nothing
(2) Temp.: Less than 25°C
(3) Humidity: Less than 70% RH
(4) Storage time: 24 h
Item
High
Temperature
Load
Voltage Holding
Characteristics
Charging
Storege
Conforms to 9.10
Temperature: 85 ± 2°C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
+48
–0
80 Super Capacitors Vol.02
3.5V, 6.5V Rated Voltage Series
Specifications
–25˚C to +70˚C
3.5 VDC, 6.5 VDC
See standard ratings
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Less than 200% of initial requirement
Current 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Less than 400% of initial value
Capacitance Less than 200% of initial value
Equivalent Series Resistance
Initial requirement
Current 30 minutes
Less than 1.5 CV (mA)
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Initial requirement
Current 30 minutes
Initial requirement
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
3/ 4 or more of the pin surface should be covered with new solder
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current 30 minutes
Appearance No significant change
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Less than 200% of initial requirement
Current 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance Within ±30% of initial requirement
Equivalent Series Resistance
Less than 300% of initial requirement
Current 30 minutes
Less than 200% of initial requirement
Appearance No significant change
Items
Operating Temperature Range
Maximum Rated Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Surge voltage:
4.0 V (3.5 VDC), 7.4 V (6.5 VDC)
rated part rated part
Temperature: 70±2˚C
Charging for 30 seconds
Discharging for 9 min 30 sec.
Number of cycles: 1 000 cycles
Charge resistance:
0.022 F 560
0.027 F 560
0.043 F 300
0.056 F 240
No discharge resistance
Conforms to 7.12
Phase 1: +25 ±2˚C
Phase 2: –25 ±2˚C
Phase 3: –40 ±2˚C
Phase 4: +25 ±2˚C
Phase 5: +70 ±2˚C
Phase 6: +25 ±2˚C
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Time of test: 6 hours
Conforms to 8.4
Temperature of solder: 245 ±5˚C
Time of immersion: 5 ±0.5 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 8.5
Temperature of solder: 260 ±10˚C
Time of immersion: 10 ±1 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 9.3
Temperature condition:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2˚C
Humidity: 90 to 95% RH
Time of test: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ±2˚C
Series resistance: 0
Applied voltage: 3.5 VDC, 6.5 VDC
Time of test: 1000 hours
Temperature
Variation of
Characteristics
+48
–0
Super Capacitors Vol.02 81
FY Series
Specifications
–25˚C to +70˚C
5.5 Vdc
See standard list
+80 %, –20 %
See standard list
See standard list
Capacitance More than 90 % of initial requirement
Equivalent Series Resistance
Less than 120% of initial requirement
Current at 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance More than 50 % of initial value
Equivalent Series Resistance
Less than 400% of initial value
Capacitance Less than 200% of initial value
Equivalent Series Resistance
Initial requirement
Current at 30 minutes
Less than 1.5 CV (mA)
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Initial requirement
Current at 30 minutes
Initial requirement
No loosening nor permanent damage of the leads
Capacitance
Equivalent Series Resistance
Meet initial requirements
Current at 30 minutes
Appearance No significant change
3/4 or more of the pin of surface should be covered with the solder
Capacitance
Equivalent Series Resistance
Meet initial requirements
Current at 30 minutes
Appearance No significant change
Capacitance
Equivalent Series Resistance
Shall meet initial requirements
Current at 30 minutes
Visual appearance No significant change
Capacitance Within ±20% of initial value
Equivalent Series Resistance
Less than 120% of initial requirement
Current at 30 minutes
Less than 120% of initial requirement
Appearance No significant change
Capacitance Within ±30% of initial value
Equivalent Series Resistance
Less than 200% of initial requirement
Current at 30 minutes
Less than 200% of initial requirement
Appearance No significant change
Voltage between terminal leads higher than 4.2 V.
Items
Operating Temperature Range
Maximum Operating Voltage
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minutes Value)
Surge Voltage
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
Solderability
Soldering Heat
Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Voltage Holding
Characteristics
(Self Discharge)
Test Conditions
Conforming to JIS C 5102-1994
See characteristics measuring conditions
See characteristics measuring conditions
See characteristics measuring conditions
Conforms to 7.14
Surge voltage: 6.3 V
Temperature: 70±2˚C
Charging for 30 seconds
Discharging for 9 min. 30 sec.
Number of cycles 1 000 cycles
Charge resistance :
0.01 F 1500 0.47 F 30
0.022 F 560 1.0 F 15
0.047 F 300 1.4 F 15
0.10 F 150 2.2 F 10
0.22 F 56
No discharge resistance
Conforms to 7.12
Phase 1: +25±2˚C
Phase 2: –25±2˚C
Phase 3: –40±2˚C
Phase 4: +25±2˚C
Phase 5: +70±2˚C
Phase 6: +25±2˚C
Conforms to 8.1.2 (1)
FYD0H105Z
FYD0H145Z
FYD0H225Z : 2.5 kg-f 10 ±1 sec.
FYH0H474Z
FYH0H105Z
Others: 1.0 kg-f 10 ±1 sec.
Conforms to 8.2.3
Frequency: 10 to 55 Hz
Time of test: 6 hours
Conforms to 8.4
Temperature of solder: 230 ±5˚C
Time of immersion: 5 ±0.5 second
To immerse capacitors up to 1.6
mm from the bottom
Conforms to 8.5
Temperature of solder: 260 ±10˚C
Time of immersion: 10 ±1 seconds
To immerse capacitors up to 1.6 mm
from the bottom
Conforms to 9.3
Temperature condition:
–25˚C normal temperature
+70˚C normal temperature
Number of cycles: 5 cycles
Conforms to 9.5
Temperature: 40 ±2˚C
Humidity: 90 to 95% RH
Time of test: 240 ± 8 hours
Conforms to 9.10
Temperature: 70 ±2˚C
Series resistance: 0
Applied voltage: 5.5 VDC
Time of test: 1000 hours
Applied voltage: 5.0 VDC
Series resistance: 0
Curging time: 24 hours
Load: Nothing
Temperature: Lower than 25˚C
Humidity: Lower than 70% RH
Time: 24 hours
Temperature
Variation of
Characteristics
Charging
condition
Storage
+48
–0
82 Super Capacitors Vol.02
Capacitance
ESR Meet initial standard value
Current at 30 minutes
Appearance No obvious abnormality
Capacitance More than 50% of initial value
ESR
Not to exceed 4 times initial value
Capacitance
Not to exceed 150% of initial value
ESR
Not to exceed initial requirement
Current at 30minutes
Not to exceed 1.5CV(mA)
C/C Within ±20% of initial value
ESR
Not to exceed initial requirement
Current at 30 minutes
Not to exceed initial requirement
Caoacitance
ESR Meet initial standard value
Current at 30 minutes
Appearance Noobvious abnormality
P
–0.1
¿D
–0.5
¿d
L min. Negative polarity
Anode polarity
L min.
Dimensions
Markings
H
2.7V 10F
SuperCapacitor
HV
Standard Rating
HV0E106N 2.7 10 500 8 10.0 35±25.0 0.6 15.0 5.0 3.0
HV0E226N 2.7 22 500 18 12.5 35±25.0 0.6 15.0 5.0 3.7
HV0E506N 2.7 50 100 40 18.0 40±57.5 0.8 15.0 5.0 9.1
HV0E107N 2.7 100 100 80 22.0 50±510.2 1.0 18.0 7.0 2.5
Part No. Max. Rated
Voltage
(Vdc)
Nominal
Capacitance
(F)
Max. ESR
(at 1 kHz)
(m)
Max. Current
at 30 minutes
(mA)
Dimensions (Unit: mm) Weight
(g)
DH PdlL
Item Specification
Test Conditions Conforming to JIS C 5102
–1994
Operating Temperature Range –25˚C to +60˚C
Maximum Operating Voltage 5.5 Vdc
Nominal Capacitance Range 10F to 50F
Capacitance Allowance ±30%
Equivalent Series Resistance (ESR) See Standard list
Current at 30 minutes See Standard list
Tempere Variation of
Characteristics
Phase 2
Phase 4
Phase 5
Conforms to 7.12
Phase2: –25±2˚C
Phase4: +60±2˚C
Phase5: +25±2˚C
Lead Strength (Tensile) No loosening nor permanent damage of the leads
Vibration Resistance
Solderability 3/4 or more of the pin surface should be covered
with new solder
Conforms to 8.1.2 (1)
Conforms to 8.2.3 (1)
Frequency: 10 to 55Hz
Test duration: 6 hours
Conforms to 8.4
Solder temperature: 230±5˚C
Dipping duration: 5±0.5sec.
Shold be dipped up to 1.6mm from the lower
end of the capacitor
Soldering Heat Resistance
Capacitance
ESR
Should satisfy initial standard value
Current at 30 minutes
Appearance No obvious abnormality
Conforms to 8.5
Solder temperature: 260±10˚C
Dipping duration: 10±1sec.
Shold be dipped up to 1.6mm from the lower
end of the capacitor
Temperature Cycle
Conforms to 9.3
Temperature: –25˚CR.T.+60˚CR.T.
Number of cycles: 5 cycles
Capacitance Within ±20% of initial value
ESR
1.2 or less time initial standard value
Current at 30 minutes
1.2 or less time initial standard value
Appearance No obvious abnormality
Humidity Resistance
Conforms 9.5
Temperature: 40±2˚C
Relative humidity: 90 to 95% RH
Test duration: 240±8hours
High Temperature Load Life
Conforms 9.10
Temperature: 60±2˚C
Voltage applied: 5.5Vdc
Test duration: 1000 hours
Series protection resistance: 0
Capacitance Within ±30% of initial value
ESR
Twice or less times initial standard value
Current at 30 minutes
Twice or less times initial standard value
Appearance No obvious abnormality +48
–0
Specifications
Super Capacitor HV Series
When using our products, the following precautions should
be taken.
(1) Safety designing of an apparatus or a system allowing for failures of electronic components used
in the system
In general, failures will occur in electronic components at a certain probability. NEC TOKIN
makes every effort to improve the quality and reliability of electronic component products.
However, it is impossible to completely eliminate the probability of failures. Therefore, when
using NEC TOKIN’s electronic component products, systems should be carefully designed to
ensure redundancy in the event of an accident which would result in injury or death, fire, or social
damage, to ensure the prevention of the spread of fire, and the prevention of faulty operation.
(Please refer to pre-cautions to be taken when using SuperCapacitor capacitors for the details of
failures.)
(2) Quality level of various kinds of parts, and equipment in which the parts can be utilized
Electronic components have a standard quality level unless otherwise specified.
NEC TOKIN classifies the level of quality of electronic component products into three levels, in
order from a lower level, a standard quality level, a special quality level, and a custom quality level
in which a customer individually specifies a quality assurance program. Each of the quality levels
has recommended applications.
If a user wants to use the electronic parts having a standard quality level in applications other than
the applications specified for the standard quality level, they should always consult a member of
our company’s sales staff before using the electronic parts.
Standard quality level: Computers, office automation equipment, communications equipment,
measuring instruments, AV equipment, household electrical appli-
ances, machine tools, personal equipment, industrial robots
Special quality level: Transportation equipment (automobiles, railways, shipping, or the
like), traffic signals, disaster prevention/crime prevention systems,
safety devices, and medical equipment which is not directly intended
for life-support purposes
Custom quality level: Equipment for airplanes, aerospace equipment, nuclear power control
systems, and medical equipment, apparatus or systems for life-sup-
port purposes
Unless otherwise shown, the quality level of NEC TOKIN’s electronic component products included
in documents such as catalogues, data sheets or data books is the standard quality level.
(3) This manual is subject to change without notice.
The contents of this manual are based on data which is correct as of September 2002, and they
may be changed without notice. If our products are used for mass-production design, please
cousult with a member of our company’s sales staff by way of precaution.
(4) Reprinting and copying of this manual without prior written permission from NEC TOKIN Corpo-
ration are not permitted.
(5) Industrial property problems
In the event any problems associated with industrial property of a third party arising as a result of
the use of our products, NEC TOKIN assumes no responsibility for problems other than problems
directly associated with the constitution and manufacturing method of the products.
(6) Should any of these products come under the category of strategic goods or services (according
to Japan's foreign trade and foreign exchange regulations), the sender must obtain an export
license from the Japanese Government befor said products can be exported outside Japan.
For inquiry, Please call Sales Promotion Department (Japan)
Phone: 81-3-3402-6179 Fax: 81-3-3402-6172
0000000000000000 Mar. 25, 2002 00000
Printed in Japan
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©2002 NEC TOKIN Corporation
International Business Headquarters
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Phone:81-3-3402-6179 Fax:81-3-3402-6172
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Phone:886-2-2521-3998 Fax:886-2-2521-3993
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Phone:49-2131-1866-0 Fax:49-2131-1866-18
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0274SUCA16VOL02E September 00, 2002 H00P3
Printed in Japan
http://www.nec-tokin.com
http://www.nec-tokin.com