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Specifications
Operating Temperature:
-40℃~+105℃
Lifetime:
12000hrs@105℃
Capacitance:
470uF
Height - Seated (Max):
40mm
Pin Spacing:
7.5mm
Voltage Rating:
160V
Diameter:
18mm
Ripple Current:
3.046A@100kHz
Tolerance:
±20%
Mfr. Part #:
NFR 160V470 18*40
Package:
Through Hole,D18xL40mm
Key Attributes
Model Number:
NFR 160V470 18*40
Product Description
Product Overview
Miniature aluminum electrolytic capacitors designed for high ripple current and long life applications. Ideal for ballasts, stabilizers, and other scenarios requiring extended operational lifespan. RoHS compliant and halogen-free options are available. These capacitors are rated for 105 operation with assured life of 8,000 to 12,000 hours.
Product Attributes
- Brand: NFR Series
- Type: Miniature Aluminum Electrolytic Capacitors
- Sleeve Color: Dark Brown
- Ink Color: Silver
- Certifications: RoHS compliant, Halogen-free options available
- Standards: Satisfied characteristics KS C IEC 60384-4
Technical Specifications
| Rated Voltage (VDC) | Capacitance (F) | Dimensions (DL mm) | Rated Ripple Current (mArms/105, 100kHz) | Leakage Current (A) (at 20, 120Hz) | Dissipation Factor (Tan) (Max. at 20, 120Hz) | Impedance Ratio (at 20) | Load Life (at 105) | Shelf Life (at 105) |
| 160 | 10 | 811.5 | 160 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 160 | 22 | 1016 | 320 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 160 | 47 | 1016 | 450 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 160 | 100 | 1020 | 600 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 160 | 220 | 12.520 | 850 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 250 | 10 | 811.5 | 160 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 250 | 22 | 815 | 240 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 250 | 47 | 1016 | 350 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 250 | 100 | 12.520 | 650 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 250 | 220 | 12.525 | 1013 | I=0.04CV+100 | 0.20 | Z(25)/Z(20) 3 | ||
| 350 | 4.7 | 811.5 | 180 | I=0.03CV+15 | 0.24 | Z(40)/Z(20) 6 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 350 | 10 | 811.5 | 250 | I=0.03CV+15 | 0.24 | Z(40)/Z(20) 6 | ||
| 350 | 33 | 1016 | 470 | I=0.03CV+15 | 0.24 | Z(40)/Z(20) 6 | ||
| 350 | 68 | 12.520 | 750 | I=0.03CV+15 | 0.24 | Z(40)/Z(20) 6 | ||
| 350 | 150 | 12.525 | 1070 | I=0.03CV+15 | 0.24 | Z(40)/Z(20) 6 | ||
| 400 | 1 | 811.5 | 120 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 400 | 4.7 | 811.5 | 145 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 400 | 10 | 815 | 180 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 400 | 33 | 1020 | 360 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 400 | 82 | 12.525 | 780 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 420 | 4.7 | 820 | 220 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 420 | 10 | 1016 | 220 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 420 | 22 | 1020 | 280 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 420 | 47 | 12.520 | 450 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 420 | 100 | 12.530 | 750 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 450 | 4.7 | 820 | 220 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 450 | 10 | 1016 | 250 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 450 | 22 | 1020 | 360 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 450 | 47 | 12.520 | 500 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 450 | 100 | 12.525 | 780 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 500 | 4.7 | 820 | 220 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | Capacitance change 20%, Tan 200% of initial, Leakage current initial | Capacitance change 20%, Tan 200% of initial, Leakage current 500% of initial |
| 500 | 10 | 1016 | 220 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 500 | 22 | 1020 | 280 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 500 | 47 | 12.520 | 440 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 | ||
| 500 | 100 | 12.525 | 500 | I=0.02CV+25 | 0.24 | Z(40)/Z(20) 6 |
Frequency Multipliers for Rated Ripple Current
| Frequency (Hz) | Capacitance (F) | Multiplier |
| 1k | 1~15 | 0.35 |
| 1k | 22~82 | 0.40 |
| 1k | 100~470 | 0.45 |
| 10k | 1~15 | 0.65 |
| 10k | 22~82 | 0.70 |
| 10k | 100~470 | 0.75 |
| 50k | 1~15 | 0.90 |
| 50k | 22~82 | 0.90 |
| 50k | 100~470 | 0.90 |
| 100k | 1~15 | 0.95 |
| 100k | 22~82 | 0.95 |
| 100k | 100~470 | 0.95 |
| 100k+ | All | 1.00 |
2410121931_SAMYOUNG-NFR-160V470-18-40_C350096.pdf
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