EEV-FK1H102V
Aluminum Electrolytic CapacitorThe EEV-FK1H102V is a aluminum electrolytic capacitor from Panasonic Industry. View the full EEV-FK1H102V datasheet below including key specifications.
Manufacturer
Panasonic Industry
Category
Aluminum Electrolytic Capacitor
Package
Radial, Can - SMD
Lifecycle
Active
Key Specifications
| Parameter | Value |
|---|---|
| Applications | Automotive |
| Capacitance | 1000 µF |
| Capacitance | 1 mF |
| Case/Package | 6767 |
| Diameter | 16 mm |
| Dissipation Factor | 10 % |
| ESR (Crystal) | 73 mΩ |
| Features | General Purpose |
| Height | 16.8 mm |
| Height - Seated (Max) | 0.681" (17.30mm) |
| Height - Seated (Max) | 16.9926 mm |
| Impedance | 73 mOhms |
| Introduction Date | 2019-04-19 |
| Leakage Current | 500 µA |
| Length | 16.8 mm |
| Life (Hours) | 5000 hours |
| Lifecycle Status | Production (Last Updated: 6 months ago) |
| Lifetime @ Temp. | 5000 Hrs @ 105°C |
| Manufacturer Lifecycle Status | ACTIVE (Last Updated: 6 months ago) |
| Max Operating Temperature | 105 °C |
| Min Operating Temperature | -55 °C |
| Mount | Surface Mount |
| Mounting Type | Surface Mount |
| Number of Terminals | 2 |
| Operating Temperature | -55°C ~ 105°C |
| Package / Case | Radial, Can - SMD |
| Part Series | FK |
| Polarization | Polar |
| Ratings | AEC-Q200 |
| Ratings | AEC-Q200 |
| REACH SVHC | Yes |
| Ripple Current | 1.61 A |
| Ripple Current @ High Frequency | 1.61 A @ 100 kHz |
| Ripple Current @ Low Frequency | 1.208 A @ 120 Hz |
| RoHS | Compliant |
| Size / Dimension | 0.630" Dia (16.00mm) |
| Surface Mount Land Size | 0.669" L x 0.669" W (17.00mm x 17.00mm) |
| Termination | SMD/SMT |
| Tolerance | ±20% |
| Tolerance | 20 % |
| Voltage Rating | 50 V |
| Voltage Rating | 50 V |
| Voltage Rating (DC) | 50 V |
| Width | 17 mm |
Overview
Part: FK series — Aluminum Electrolytic Capacitors
Type: Surface Mount Aluminum Electrolytic Capacitor
Description: Surface mount aluminum electrolytic capacitors with a category temperature range of -55 °C to +105 °C, rated voltage range of 6.3 V to 100 V, and capacitance range of 3.3 μF to 6800 μF, offering 2000 h to 5000 h endurance at 105 °C.
Operating Conditions:
- Supply voltage: 6.3 V to 100 V
- Operating temperature: -55 °C to +105 °C
- Endurance: 2000 h to 5000 h at +105 °C
Absolute Maximum Ratings:
Key Specs:
- Capacitance range: 3.3 μF to 6800 μF
- Capacitance tolerance: ±20 % (120 Hz / +20 °C)
- Leakage current: I ≤ 0.01 CV or 3 μA (whichever is greater, 2 minutes after reaching rated voltage, 20 °C)
- Z (-25 °C) / Z (+20 °C): 2 (for 6.3 V to 100 V)
- Z (-55 °C) / Z (+20 °C): 4 (for 6.3 V to 16 V), 3 (for 25 V to 100 V)
- Endurance capacitance change: Within ±30 % of initial value (Suffix 'G' is ≤ ±35 %)
- Endurance dissipation factor (tan δ): ≤ 200 % of initial limit (Suffix 'G' is ≤ 300 %)
Features:
- Endurance: 105 °C 2000 h to 5000 h
- Low impedance (40 % to 60 % less than FC series)
- Miniaturized (30 % to 50 % less than FC series)
- Vibration-proof product (30G guaranteed) is available upon request (ø6.3 ≤)
- AEC-Q200 compliant
- RoHS compliant
Applications:
Package:
- Surface Mount Type
- Size codes: D, D8, E, F, G, H13, J16, K16, K21
Features
- Endurance : 105 °C 2000 h to 5000 h
- Low impedance ( 40 % to 60 % less than FC series )
- Miniaturized (30 % to 50 % less than FC series)
- Vibration-proof product (30G guaranteed) is available upon request ( ø6.3 ≤)
- AEC-Q200 compliant
- RoHS compliant
| Specifications | Specifications | Specifications | Specifications | Specifications | Specifications | Specifications | Specifications | Specifications | Specifications | Specifications |
|---|---|---|---|---|---|---|---|---|---|---|
| Category temp. range | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C | -55 °C to +105 °C |
| Rated voltage range | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V | 6.3 V to 100 V |
| Capacitance range | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF | 3.3 μF to 6800 μF |
| Capacitance tolerance | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) | ±20 %(120 Hz / +20 °C) |
| Leakage current | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) | I ≤ 0.01 CV or 3 (μA), whichever is greater, 2 minutes after reaching rated voltage, 20 °C *CV = (Capacitance in μF) x (Rated voltage in V) |
| Dissipation factor (tan δ) | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list | Please see the attached characteristics list |
| Characteristics at low temperature | Rated voltage (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 80 | 100 | |
| Characteristics at low temperature | Z (-25 °C) / Z (+20 °C) | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | |
| Characteristics at low temperature | Z (-40 °C) / Z (+20 °C) | 3 | 3 | 3 | 3 | 3 | 3 | 3 | 3 | |
| Characteristics at low temperature | Z (-55 °C) / Z (+20 °C) | 4 | 4 | 4 | 3 | 3 | 3 | 3 | 3 | |
| Endurance | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 | ( ≥ ø12.5 and suffix 'G' in ø8×10.2, ø10×10.2 are 5000 hours ) capacitors shall meet the following limits. After applying rated working voltage for 2000 hours at +105 °C ± 2 °C and then being stabilized at +20 °C, 3 |
| Endurance | Capacitance change | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) | Within ±30 %of the initial value (Suffix 'G' is ≤ ±35 %) |
| Endurance | Dissipation factor ( tan δ) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) | ≤ 200 %of the initial limit (Suffix 'G' is ≤ 300 %) |
| Endurance | Leakage current | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit |
| Shelf life | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) | (Capacitors are left at room temperature and humidity for 2 hours after the test. Then, apply the rated voltage for 30min with a series protection After storage for 1000 hours at +105 °C ± 2 °C with no voltage applied and then being stabilized at +20 °C, capacitors shall meet the following limits. resistance of 1000 Ω ± 10 Ω. Measure electrical characteristics after discharging the capacitor.) |
| Shelf life | Capacitance change | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value | Within ±30 %of the initial value |
| Shelf life | Dissipation factor ( tan δ) | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit | ≤ 200 %of the initial limit |
| Shelf life | Leakage current | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit | Within the initial limit |
| Resistance | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. | After reflow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits. |
| to soldering heat | ||||||||||
| to soldering heat | Capacitance change | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value | Within ±10 %of the initial value |
| to soldering heat | Dissipation factor ( tan δ) | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit | Within the initial limit the initial limit |
| to soldering heat | Leakage current | Within | Within | Within | Within | Within | Within | Within | Within | Within |
Applications
- ■ Please be advised that this product and product specifications are subject to change without notice for improvement purposes. Therefore, please request and confirm the latest delivery specifications that explain the specifications in detail before the final design, or purchase or use of the product, regardless of the application. In addition, do not use this product in any way that deviates from the contents of the company's delivery specifications.
- ■ Unless otherwise specified in this catalog or the product specifications, this product is intended for use in general electronic equipment (AV products, home appliances, commercial equipment, office equipment, information and communication equipment, etc.).
- When this product is used for the following special cases, the specification document suited to each application shall be signed/sealed (with Panasonic Industry and the user) in advance..These include applications requiring special quality and reliability, wherein their failures or malfunctions may directly threaten human life or cause harm to the human body (e.g.: space/aircraft equipment, transportation/traffic equipment, combustion equipment, medical equipment, disaster prevention/crime prevention equipment, safety equipment, etc.).
Related Variants
The following components are covered by the same datasheet.
| Part Number | Manufacturer | Package |
|---|---|---|
| FK | Panasonic Industry | — |
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