• Memory backup of remote controllers and handy cassette player during battery exchange
Part Number System
FG
0H
473
Z
F
Environmental Impact Reduced Product
Capacitance tolerance:
Z: +80%, –20%
Capacitance: 0.047 F
First two digits represent significant figures.
Third digit specifies number of zeros to follow
μ
F code.
Maximum Operating voltage
0H: 5.5 VDC
Super Capacitor: FG series
28 Super Capacitors Vol.07
●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data.
●Please request for a specification sheet for detailed product data prior to the purchase.
●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog.
●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data.
●Please request for a specification sheet for detailed product data prior to the purchase.
●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog.
2007.08.03 P0862SUCA16VOL07E
Specifications: FG Series
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
–25˚C to +70˚C
5.5 Vdc, 3.5 Vdc
Refer to standard ratings
Specifications
Test Conditions
Conforming to JIS C 5102
-1994
+80 %, –20 %
Refer to standard ratings
Refer to standard ratings
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
Surge Voltage
Appearance
No obvious abnormality
Refer to characteristics measuring method.
Refer to characteristics measuring method.
Refer to characteristics measuring method.
Refer to characteristics measuring method.
Conforms to 7.14
Surge voltage: 6.3V(5.5V products),
4.0V(3.5V products)
Temperature: 70±2˚C
Charge: 30 sec.
Discharge: 9 min 30 sec.
Number of cycles: 1000 cycles
Series resistance:
0.010F: 1500
Ω
0.47F: 30
Ω
0.022F: 560
Ω
1.0F: 15
Ω
0.047F: 300
Ω
1.5F: 15
Ω
0.10F: 150
Ω
2.2F: 10
Ω
0.22F: 56
Ω
4.7F: 10
Ω
Discharge resistance: 0
Ω
Conforms to 7.12
Phase 1: +25
±2˚C
Phase 2: –25
±2˚C
Phase 4: +25
±2˚C
Phase 5: +70
±2˚C
Phase 6: +25
±2˚C
Temperature
Variation of
Characteristics
Phase 2
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
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
Satisfy
initial standard value
Current at 30 min.
Appearance
No obvious abnormality
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: MAX. Operating Voltage
Series protection resistance: 0Ω
Test duration: 1000
+48
hours
-0
Voltage applied: 5.0VDC
Charging
(with case side terminal negative)
Condition
Series resistance: 0Ω
Charging time: 24 hours
Time: 24 hours
Storage
Temperature: Lower than 25 ˚C
Humidity: Lower than 70%RH
Solderability
3 / 4 or more of the pin surface should be covered with new solder
Soldering Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Satisfy initial standard value
No obvious abnormality
Satisfy initial standard value
No obvious abnormality
Within
±20%
of initial value
1.2 or less times initial standard value
1.2 or less times initial standard value
No obvious abnormality
Within
±30%
of initial value
Twice or less times initial standard value
Twice or less times initial standard value
No obvious abnormality
Voltage Holding Characteristics
(Self Discharge)
Voltage between terminal leads higher than 4.2V
(3.5V Type: no standard)
30 Super Capacitors Vol.07
●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data.
●Please request for a specification sheet for detailed product data prior to the purchase.
●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog.
2007.08.03 P0862SUCA16VOL07E
●
FGH Type
Dimensions
L Min.
H Max.
Sleeve
Part No.
P
±
0.5
D
11.0
11.0
16.5
21.5
H
5.5
7.0
8.0
9.5
0.3 Min.
Dimensions mm
P
5.08
5.08
5.08
7.62
d
1
0.2
0.2
0.4
0.6
d
2
1.2
1.2
1.2
1.2
L
2.7
2.7
2.7
3.0
Weight
g
1.0
1.3
4.1
7.2
φ
D
±
0.5
FGH0H104ZF
FGH0H224ZF
d
1
±
0.1
FGH0H474ZF
d
2
±
0.1
FGH0H105ZF
Lead (case)
Lead
Note:
Weight is typical.
–
Negative polarity
Standard Ratings
Part Number
Max.
Operating Voltage
(V)
5.5
5.5
5.5
5.5
Nominal Capacitance
Charge System
(F)
-
-
-
-
Discharge System
(F)
0.10
0.22
0.47
1.0
Max. ESR
(at 1 kHz)
(Ω)
100
100
65
35
Max. Current at
30 minutes
(mA)
0.15
0.33
0.71
1.5
Voltage
Holding
Characteristic
Min.(V)
4.2
4.2
4.2
4.2
FGH0H104ZF
FGH0H224ZF
FGH0H474ZF
FGH0H105ZF
Super Capacitors Vol.07 31
●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data.
●Please request for a specification sheet for detailed product data prior to the purchase.
●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog.
2007.08.03 P0862SUCA16VOL07E
Specifications: FG Series FGH Type
Items
Operating Temperature Range
Maximum Operating Voltage.
Nominal Capacitance Range
Capacitance Allowance
Equivalent Series Resistance
Current (30-minute value)
Specifications
–25˚C to +70˚C
5.5 Vdc
Refer to standard ratings
+80 %, –20 %
Refer to standard ratings
Refer to standard ratings
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
Test Conditions
Conforming to JIS C 5102
-1994
Surge Voltage
Appearance
No obvious abnormality
Refer to characteristics measuring method.
Refer to characteristics measuring method.
Refer to characteristics measuring method.
Refer to 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:
0.10F: 150
Ω
0.22F: 56
Ω
0.47F: 30
Ω
1.0F: 15
Ω
Discharge resistance: 0
Ω
Conforms to 7.12
Phase 1: +25
±2˚C
Phase 2: –25
±2˚C
Phase 4: +25
±2˚C
Phase 5: +70
±2˚C
Phase 6: +25
±2˚C
Phase 2
Temperature
Variation of
Characteristics
Phase 5
Phase 6
Lead Strength (Tensile)
Vibration Resistance
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
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
Conforms to 9.10
Temperature: 70±2˚C
Voltage applied: 5.5Vdc
Series protection resistance: 0Ω
+48
Test duration: 1000
-0
hours
Voltage applied: 5.0VDC
(with case side terminal negative)
Charging
Series resistance: 0Ω
Condition
Charging time: 24 hours
Time: 24 hours
Temperature: Lower than 25˚C
Storage
Humidity: Lower than 70%RH
Solderability
3 / 4 or more of the pin surface should be covered with new solder
Solder Heat Resistance
Temperature Cycle
Humidity Resistance
High Temperature Load
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Capacitance
Equivalent series resistance
Current at 30 min.
Appearance
Should satisfy initial standard value
No obvious abnormality
Satisfy initial standard value
No obvious abnormality
Within
±20%
of initial value
1.2 or less times initial standard value
1.2 or less times initial standard value
No obvious abnormality
Within
±30%
of initial value
Twice or less times initial standard value
Twice or less times initial standard value
No obvious abnormality
Voltage Holding Characteristics
(Self Discharge)
Voltage between terminal leads higher than 4.2V
32 Super Capacitors Vol.07
●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data.
●Please request for a specification sheet for detailed product data prior to the purchase.
●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog.
[color=rgb(62, 62, 62)]Layout is one of the most basic working skills of PCB design engineers. The quality of routing will directly affect the performance of the entire system. Most high-speed design ...
It was a good weekend. I didn't work overtime and I slept in the morning, so I'll post it in the evening. I'm very happy. I've got the OLED screen driver. I didn't succeed in porting it with the offic...
With the development of micro-power processors and communication chips, the energy-consuming wired communication methods in the past have increasingly hindered the development of communication network...
My current job is to patch up the problems and reduce costs. I saw others using INA169 as a high-side current detector on a large PCB, as a sampling input for electronic fuses.
I spent some time think...
The emergence of autonomous and connected cars has put forward higher requirements for wireless connectivity testing, especially the vehicle-to-everything (V2X) technology that the automotive industry...
As the title says, what should I do if my working time is scattered? Every time I make something, I often haven't understood the original hardware and software, and the software writers will throw me ...
On March 22, the People's Government of Pengshan District, Meishan City and Zhongxinhang Technology Co., Ltd. held a signing ceremony for the Zhongxinhang Power Battery and Energy Storage System Me...[Details]
Most lighting designers believe that all LED products are of the same quality. However, there are many manufacturers and suppliers of LEDs, and Asian manufacturers supply low-cost LEDs to the world. ...[Details]
What are the key points of lightning protection knowledge for switching power supplies? 1. In order to achieve unattended operation, modern communication switch power supplies are equipped with re...[Details]
On January 5, Lin Ying, Chairman of Hanlin Holding Group, Yu Youcheng, Chairman of China Sodium Energy Storage, and the China Sodium leadership team visited Baoji City to inspect the China Sodi...[Details]
Yang Yuanqing said that Lenovo has achieved nirvana and rebirth, and never thought of becoming BAT Lenovo, which has been caught in various public opinion whirlpools, is gradually recovering and tr...[Details]
Entering the era of electrification, the automobile industry is facing major changes unseen in a century, and technological leap is the key to breaking the situation. On April 7, "Technology·Evolutio...[Details]
1 CAN Bus Overview
CAN (Controller Area Network) bus is a controller area network, which is one of the field buses. It is a bus-type serial communication network designed by Bosch of Germany fo...[Details]
How do you view the energy storage value of lithium iron phosphate batteries and the return of the power lithium iron phosphate battery craze? With BYD announcing that it will launch CTP lithium ir...[Details]
At the 2019 Taipei Computer Show, Dell launched a number of new notebook products, including the XPS series and the Inspiron series. The newly designed XPS 13 two-in-one laptop in the XPS series has ...[Details]
Direct digital frequency synthesis (DDS) technology has been widely used in recent years due to its relatively wide bandwidth, short conversion time, high resolution, continuous output phase, abili...[Details]
1. Overview: 5000V digital insulation resistance tester Brand new 5000V digital insulation resistance tester and other models. New design with trendy style and improved circuit, more complete functio...[Details]
1 Introduction
Automatic quantitative packaging machines are widely used in industries such as fertilizers, feeds, and light industry. The development of weighing and packaging tec...[Details]
Multimedia processors are often the most power-hungry devices in portable electronic devices. Common ways to reduce CPU power requirements are to reduce clock frequency or operating voltage, but th...[Details]