24 Super Capacitors Vol.05
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
0J: 6.5 Vdc
Super Capacitor: FM series
FME type
FMR type
FMC 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.05 25
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
Nominal 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)
(Ω)
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 34.)
● 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
26 Super Capacitors Vol.05
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)
(Ω)
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 34.)
● 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)
(Ω)
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 34.)
● 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)
(Ω)
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 34.)
● 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)
0.085
Max. ESR
(at 1 kHz)
(Ω)
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 34.)
● 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.05 27
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 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 Ω 0.22F: 56 Ω
0.022 F: 560 Ω
0.047 F: 300 Ω
0.10 F: 150 Ω
Discharge resistance: 0 Ω
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 Ω
Test duration: 1000 hours
Specifications 5.5 V Type
Temperature
Variation of
Characteristics
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0 Ω
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
28 Super Capacitors Vol.05
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 Ω
0.10 F: 150 Ω
0.22 F: 56 Ω
Discharge resistance: 0 Ω
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 Ω
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.05 29
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 Ω
0.047 F: 300 Ω
Discharge resistance: 0 Ω
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 Ω
Test duration: 1000 hours
Specifications FME Type
+48
0
Temperature
Variation of
Characteristics
30 Super Capacitors Vol.05
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 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
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 Ω
Discharge resistance: 0 Ω
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.
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 Ω
Test duration: 1000 hours
Specifications FMR Type
Temperature
Variation of
Characteristics
+48
0
Voltage applied: 5.0 VDC
Series resistance:
0 Ω
Charging time: 24hours
Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
Charging
condition
Storage
Super Capacitors Vol.05 31
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 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
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 Ω
Discharge resistance: 0 Ω
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 Ω
Test duration: 1000 hours
Specifications FM 6.5V Type
+48
0
Temperature
Variation of
Characteristics
32 Super Capacitors Vol.05
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
25
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)
Nominal Capacitance
Charge System
( F )
Discharge System
( F )
Max. ESR
(at 1 kHz)
( Ω )
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)
Note: To complete part number, insert lead length H. (16 or 18 mm: Refer to Taping Specification on page 34 or 35.)
Super Capacitors Vol.05 33
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
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
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:
0.047 F: 300 Ω
0.1 F: 150 Ω
0.33 F: 51 Ω
Discharge resistance: 0 Ω
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 Ω
Test duration: 1000 hours
Specifications FMC Type
+48
0
Temperature
Variation of
Characteristics
Voltage applied: 5.0 VDC
Series resistance:
0 Ω
Charging time: 24hours
Charging
condition
Storage Time: 24hours
Temperature:
Lower than 25
°C
Humidity
:
Lower than 70%RH
34 Super Capacitors Vol.05
Item Symbol Value Tolerance Remarks
Component Height a 11.5 ±0.5
Component Width b 10.5 ±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 Thicknesst 3t30.4 ±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.05 35
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
Packing Quantity
400 pcs. / box
36 Super Capacitors Vol.05
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( ))
