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ドキュメント名 | Supercapacitors - Automotive Grade FU0H Series, 5.5 V, 85°C |
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Page1
Overview、Applications、Benefits、Part Number System
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Overview Applications
FU0H Series Supercapacitors, also known as Electric Supercapacitors have characteristics ranging from
Double-Layer Capacitors (EDLCs), are intended for power traditional capacitors and batteries. As a result,
back up in the automotive applications. supercapacitors can be used like a secondary battery
when applied in a DC circuit. These devices are best suited
Enhancements to the design and selected material for use in low voltage DC hold-up applications such as
upgrades were introduced to deliver 1,000 hours at embedded microprocessor systems with flash memory.
85°C/85% RH rated voltage and up to 4,000 hours at 85°C
operational life. FU0H series Automotive grade Supercapacitor can be
stable under harsh environmental conditions such as high
These capacitors are manufactured in an ISO TS 16949 humidity and high temperture.
certified plant and are subjected to PPAP/PSW, as well as
change control.
Benefits
• Automotive Testing Protocol
• TS 16949 certified plant
• Subject to PPAP/PSW and change control
• Wide range of temperature from −40°C to +85°C
• Maintenance free
• Maximum operating voltage of 5.5 VDC
• Highly reliable against liquid leakage
• Lead-free and RoHS compliant
Part Number System
FU0H 105 Z F
Series/Maximum Operating Voltage Capacitance Code Capacitance Tolerance Environmental
FU0H = FU / Series 0H / 5.5 VDC First two digits represent significant figures. Z = -20/+80% F = Lead-free
Third digit specifies number of zeros to follow
µF code.
Built Into Tomorrow
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 1
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page2
Dimensions – Millimeters 、Performance Characteristics
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Dimensions – Millimeters
ø D ± 0.5
Sleeve
⊖○ ⊕○
P ± 0.5
d1 ± 0.1
d2 ± 0.1
(Terminal)
Part Number ØD H P ℓ d1 d2
FU0H105ZF 21.5 15.0 7.62 3.0 0.6 1.2
Performance Characteristics
Supercapacitors should not be used for applications such as ripple absorption because of their high internal resistance
(several hundred mΩ to a hundred Ω) compared to aluminum electrolytic capacitors. Thus, its main use would be
similar to that of secondary battery such as power back-up in DC circuit. The following list shows the characteristics of
supercapacitors as compared to aluminum electrolytic capacitors for power back-up and secondary batteries.
Secondary Battery Capacitor
NiCd Lithium Ion Aluminum Electrolytic Supercapacitor
Back-up ability – – – –
Eco-hazard Cd – – –
Operating Temperature Range −20 to +60°C −20 to +50°C −55 to +105°C −40 to +85°C
(FMD, FU0H, FR, FT, FMR Type)
Charge Time Few hours Few hours Few seconds Few seconds
Charge/Discharge Life Time Approximately Approximately
500 times 500 to 1,000 times Limitless (*1) Limitless (*1)
Restrictions on
Charge/Discharge Yes Yes None None
Flow Soldering Not applicable Not applicable Applicable Applicable
Automatic Mounting Not applicable Not applicable Applicable Applicable
(FM and FC series)
Safety Risks Leakage, explosion Leakage, combustion,
explosion, ignition Heat-up, explosion Gas emission (*2)
(*1) Aluminum electrolytic capacitors and supercapacitors have limited lifetime. However, when used under proper conditions, both can operate within a
predetermined lifetime.
(*2) There is no harm as it is a mere leak of water vapor which transitioned from water contained in the electrolyte (diluted sulfuric acid). However,
application of abnormal voltage surge exceeding maximum operating voltage may result in leakage and explosion.
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 2
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
H Maximum
ℓ Minimum
0.3 Minimum
Page3
Typical Applications、Environmental Compliance、Table 1 – Ratings & Part Number Reference
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Typical Applications
Intended Use (Guideline) Power Supply (Guideline) Application Examples of Equipment Series
CMOS microcomputer,
Long time back-up 500 μA and below Memory, RTC backup FMD, FU0H
for automotive static RAM/DTS
(digital tuning system) series
Environmental Compliance
All KEMET supercapacitors are RoHS compliant.
Table 1 – Ratings & Part Number Reference
Electrical Physical
Part Number Maximum Operating Nominal Capacitance Maximum ESR Maximum Current at
Voltage (VDC) Discharge System (F) at 1 kHz (Ω) 30 Minutes (mA) Weight (g)
FU0H105ZF 5.5 1.0 10 1.5 10.0
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 3
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page4
Specifications
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Specifications
Item Specifications Test Conditions
Category temperature range −40°C to +85°C
MAX operating voltage Refer to standard ratings
Capacitance Refer to standard ratings Refer to “Measurement Conditions”
Capacitance allowance +80%, −20% Refer to “Measurement Conditions”
ESR Refer to standard ratings Measured at 1 kHz, 10 mA, See also “Measurement Conditions
Current (30 minute value) Refer to standard ratings Refer to “Measurement Conditions”
High Capacitance Within ±30% of initial
Temperature MIL-STD-202 measured value Temperature: 85 ±2°C
Exposure Method 108 ESR Less than 200% of initial limit Testing time: 1,000+48 −0 hours
(Storage) Current Less than 200% of initial limit
JESD22 Capacitance Within ±30% of initial
Temperature measured value Temperature condition: Lower −40°C » Upper +85°C
Method Dwell Time: 30 minutes
Cycling ESR Less than 200% of initial limit
JA-104 Transition time: Maximum 1 minute
Current Less than 200% of initial limit Number of cycles: 1,000 Cycles
Capacitance Within ±30% of initial Temperature: 85±2°C
measured value
Biased MIL-STD- 202 Relative humidity: 80 to 85%RH
humidity Method 103 ESR Less than 200% of initial limit Voltage applied: MAX operating voltage
Series protection resistance: 0 Ω
Current Less than 200% of initial limit Testing time: 1,000+48 −0 hours
Capacitance Within ±30% of initial
measured value Temperature: 85±2°C
Operational MIL-STD- 202 ESR Less than 200% of initial limit Voltage applied: MAX operating voltage
life Method 108 Series protection resistance: 0 Ω
Current Less than 200% of initial limit Testing time: 4,000+48 −0 hours
Lead strength MIL-STD-202 No terminal damage Test leaded device lead integrity only.
(Tensile) Method 211 A (454 g), C (227 g)
Capacitance
Mechanical MIL-STD-202
shock Method 213 ESR Satisfy initial limit Figure 1 of Method 213 Condition C
Current
Minimum 95% of the terminal Conforms to Method A1 (Through-hole Technology)
Solderability J-STD-002 Appearance should be covered by the new Solder temp: 245±5°C
solder Dipping time: 5 +0/−0.5 second
1.27 mm from the bottom of the body should be dipped.
Capacitance
Vibration MIL-STD-202 Frequency: 10 to 2,000 Hz (5 g’s)
Method 204 ESR Satisfy initial limit Testing time: 12 hours
Current
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 4
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page5
Construction
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Specifications cont.
Item Specifications Test Conditions
Capacitance Solder temp: 260±10°C
ESR Dipping time: 3 seconds
Resistance 2.0 mm from the bottom should be dipped.
to Soldering MIL-STD- 202
Heat Method 210 Satisfy initial limit Condition B no pre-heat of samples.
Current Note: Single Wave Solder.
Procedure 1 with solder within 1.5 mm of device
body for Leaded.
Capacitance More than 50% of initial measured
Phase2
ESR Less than 400% of initial measured
Capacitance More than 30% of initial measured Phase1: +25±2°C
Phase3
ESR Less than 700% of initial measured Phase2: −25±2°C
Temperature Capacitance Less than 200% of initial measured Phase3: −40±2°C
Stability IEC-62391-1
ESR Phase5 Satisfy initial specified value Phase4: +25±2°C
Current 1.5 CV (mA) or below Phase5: +85±2°C
Capacitance Within ±20% of initial measured value Phase6: +25±2°C
ESR Phase6 Satisfy initial specified value
Current Satisfy initial specified value
Construction
Sleeve
Element
Outer Case
Terminals with
Insulator
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 5
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page6
Marking、Packaging Quantities、Measurement Conditions
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Marking
Series Maximum
Name Operating
Voltage
M6 SuperCapacitor SuperCapacitor
Production
Lot Number 001 FU 5.5 V FU 5.5 V
85°C 1.0 F 85°c 1.0 F Nominal
Manufacture Capacitance
Date Code M6 SuperCapacitor SuperCapacitor
Negative Polarity
Identification Mark
Packaging Quantities
Part Number Bulk Quantity per Box
FU0H105ZF 90 pieces
Measurement Conditions
Capacitance (Discharge System)
As shown in the diagram below, charging is performed for a duration of 30 minutes*1 once the voltage of the capacitor
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 1mA per 1F*2, for example, and calculate the static capacitance according to the equation
shown below.
Note: *1: Products with 1.0F or more capacitance should be charged for 60 minutes.
*2: The current value is 1mA discharged per 1F
(V)
1 mA (I)
SW 5.5 V
A V 1 : 3.0 V
V 1
I × (T -T ) V 2 : 2.5 V
2 1
C= - (F) V 2
5.5 V V C R
V 1 V 2
30 minutes T1 T2 Time (seconds)
(60 minutes)
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 6
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page7
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Measurement Conditions cont.
Equivalent Series Resistance (ESR)
ESR shall be calculated from the equation below.
V 10mA
C
ESR = ( Ω )
0.01 f:1kHz C V C
Current (at 30 minutes after charging)
Current shall be calculated from the equation below. Prior to measurement, both lead terminals must be short-circuited for
a minimum of 30 minutes. The lead terminal connected to the metal can case is connected to the negative side of the power
supply.
V R
SW
E0: 5.0 VDC
V R
Current = (A) R C
R : 10 Ω R C E O +
C C
-
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 7
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page8
Notes on Using Supercapacitors or Electric Double-Layer Capacitors (EDLCs)
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Notes on Using Supercapacitors or Electric Double-Layer Capacitors (EDLCs)
1. Circuitry Design
1.1 Useful life
Supercapacitor (EDLC) uses an electrolyte in a sealed container. Water in the electrolyte can evaporate while in use over
long periods of time at high temperatures, thus reducing electrostatic capacity which in turn will create greater internal
resistance. The characteristics of the supercapacitor can vary greatly depending on the environment in which it is used.
Basic breakdown mode is an open mode due to increased internal resistance.
1.2 Fail rate in the field
Based on field data, the fail rate is calculated at approximately 0.006 Fit. We estimate that unreported failures are ten
times this amount. Therefore, we assume that the fail rate is below 0.06 Fit.
1.3 Exceeding maximum usable voltage
Performance may be compromised and in some cases leakage or damage may occur if applied voltage exceeds
maximum working voltage.
1.4 Use of capacitor as a smoothing capacitor (ripple absorption)
As supercapacitors contain a high level of internal resistance, they are not recommended for use as smoothing
capacitors in electrical circuits. Performance may be compromised and, in some cases, leakage or damage may occur if
a supercapacitor is used in ripple absorption.
1.5 Series connections
As applied voltage balance to each supercapacitor is lost when used in series connection, excess voltage may be
applied to some supercapacitors, which will not only negatively affect its performance but may also cause leakage
and/or damage. Allow ample margin for maximum voltage or attach a circuit for applying equal voltage to each
supercapacitor (partial pressure resistor/voltage divider) when using supercapacitors in series connection. Also,
arrange supercapacitors so that the temperature between each capacitor will not vary.
1.6 Case Polarity
The supercapacitor is manufactured so that the terminal on the outer case is negative (-). Align the (-) symbol during
use. Even though discharging has been carried out prior to shipping, any residual electrical charge may negatively affect
other parts.
1.7 Use next to heat emitters
Useful life of the supercapacitor will be significantly affected if used near heat emitting items (coils, power transistors
and posistors, etc.) where the supercapacitor itself may become heated.
1.8 Usage environment
This device cannot be used in any acidic, alkaline or similar type of environment.
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 8
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page9
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
Notes on Using Supercapacitors or Electric Double-Layer Capacitors (EDLCs) cont.
2. Mounting
2.1 Mounting onto a reflow furnace
Except for the FC series, it is not possible to mount this capacitor onto an IR / VPS reflow furnace. Do not immerse the
capacitor into a soldering dip tank.
2.2 Flow soldering conditions
Keep solder under 260°C and soldering time to within 10 seconds when using the flow automatic soldering method.
(Except for the FC and HV series)
2.3 Installation using a soldering iron
Care must be taken to prevent the soldering iron from touching other parts when soldering. Keep the tip of the soldering
iron under 400°C and soldering time to within 3 seconds. Always make sure that the temperature of the tip is controlled.
Internal capacitor resistance is likely to increase if the terminals are overheated.
2.4 Lead terminal processing
Do not attempt to bend or polish the capacitor terminals with sand paper, etc. Soldering may not be possible if the
metallic plating is removed from the top of the terminals.
2.5 Cleaning, Coating, and Potting
Except for the FM series, cleaning, coating and potting must not be carried out. Consult KEMET if this type of procedure
is necessary. Terminals should be dried at less than the maximum operating temperature after cleaning.
AEC-Q200 compliance FMD type is applicable to MIL-STD-202 option 4.
3. Storage
3.1 Temperature and humidity
Make sure that the supercapacitor is stored according to the following conditions: Temperature: 5 – 35°C (Standard
25°C), Humidity: 20 – 70% (Standard: 50%). Do not allow the build up of condensation through sudden temperature
change.
3.2 Environment conditions
Make sure there are no corrosive gasses such as sulfur dioxide, as penetration of the lead terminals is possible. Always
store this item in an area with low dust and dirt levels. Make sure that the packaging will not be deformed through heavy
loading, movement and/or knocks. Keep out of direct sunlight and away from radiation, static electricity and magnetic
fields.
3.3 Maximum storage period
This item may be stored up to one year from the date of delivery if stored at the conditions stated above.
Dismantling
There is a small amount of electrolyte stored within the capacitor. Do not attempt to dismantle as direct skin contact with
the electrolyte will cause burning. This product should be treated as industrial waste and not is not to be disposed of by fire.
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 9
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page10
KEMET Electronics Corporation Sales Offices、Disclaimer
Supercapacitors - Automotive Grade
FU0H Series, 5.5 V, 85°C
KEMET Electronics Corporation Sales Offi ces
For a complete list of our global sales offi ces, please visit www.kemet.com/sales.
Disclaimer
All product specifi cations, statements, information and data (collectively, the “Information”) in this datasheet are subject to change. The customer is responsible for
checking and verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given
herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied.
Statements of suitability for certain applications are based on KEMET Electronics Corporation’s (“KEMET”) knowledge of typical operating conditions for such
applications, but are not intended to constitute – and KEMET specifi cally disclaims – any warranty concerning suitability for a specifi c customer application or use.
The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any
technical advice inferred from this Information or otherwise provided by KEMET with reference to the use of KEMET’s products is given gratis, and KEMET assumes no
obligation or liability for the advice given or results obtained.
Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component
failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards
(such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or
property damage.
Although all product–related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indicted or that other
measures may not be required.
When providing KEMET products and technologies contained herein to other countries, the customer must abide by the procedures and provisions stipulated in all
applicable export laws and regulations, including without limitation the International Traffi c in Arms Regulations (ITAR), the US Export Administration Regulations
(EAR) and the Japan Foreign Exchange and Foreign Trade Act.
KEMET is a registered trademark of KEMET Electronics Corporation.
© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard S6023_FU0H • 8/23/2021 10
Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com
Page11
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