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Specifications
Mfr. Part #:
GCCD5830N-3R3N01
Package:
SMD,5.8x5.2mm
Key Attributes
Model Number:
GCCD5830N-3R3N01
Product Description
Product Overview
The GCCD5830N series, manufactured by Shenzhen Glorious Electronic Co.,Ltd., is a range of electronic components designed for various applications. These components are built with high-quality materials, including nickel-zinc ferrite magnetic powder and polyurethane-system coated copper wire, ensuring reliable performance. The product is RoHS compliant, indicating adherence to environmental standards.
Product Attributes
- Brand: GLE
- Origin: China (for magnetic powder), Germany (for copper wire), China (for tin)
- Material: Nickel zinc ferrite magnetic powder, Polyurethane-system coated copper wire, Tin
- Color: Black printing
- Certifications: RoHS Comp.
Technical Specifications
| Part NO. | Type | Inductance Lo (uH) | Test Frequency (Hz/v) | DC Resistance () max. | Saturation Current Isat (A) Max. L/L35% | Temperature Rise Current Irms (A)Max. T40 | Inductance Tolerance |
| GCCD5830N-1R0N01 | GLE | 1.0 | 100KHz/1v | 0.030 | 4.50 | 4.00 | N=30% |
| GCCD5830N-1R2N01 | GLE | 1.2 | 100KHz/1v | 0.030 | 4.20 | 3.80 | N=30% |
| GCCD5830N-1R5N01 | GLE | 1.5 | 100KHz/1v | 0.030 | 4.10 | 3.70 | N=30% |
| GCCD5830N-1R8N01 | GLE | 1.8 | 100KHz/1v | 0.030 | 3.70 | 3.50 | N=30% |
| GCCD5830N-2R2M01 | GLE | 2.2 | 100KHz/1v | 0.030 | 3.50 | 3.30 | M=20% |
| GCCD5830N-2R7M01 | GLE | 2.7 | 100KHz/1v | 0.040 | 3.20 | 3.00 | M=20% |
| GCCD5830N-3R3M01 | GLE | 3.3 | 100KHz/1v | 0.050 | 2.80 | 2.70 | M=20% |
| GCCD5830N-3R9M01 | GLE | 3.9 | 100KHz/1v | 0.060 | 2.60 | 2.50 | M=20% |
| GCCD5830N-4R7M01 | GLE | 4.7 | 100KHz/1v | 0.070 | 2.50 | 2.40 | M=20% |
| GCCD5830N-5R6M01 | GLE | 5.6 | 100KHz/1v | 0.080 | 2.40 | 2.30 | M=20% |
| GCCD5830N-6R8M01 | GLE | 6.8 | 100KHz/1v | 0.090 | 2.20 | 2.10 | M=20% |
| GCCD5830N-8R2M01 | GLE | 8.2 | 100KHz/1v | 0.100 | 2.00 | 1.90 | M=20% |
| GCCD5830N-100K/M01 | GLE | 10 | 100KHz/1v | 0.130 | 1.80 | 1.44 | M=20% |
| GCCD5830N-120K/M01 | GLE | 12 | 100KHz/1v | 0.160 | 1.75 | 1.40 | M=20% |
| GCCD5830N-150K/M01 | GLE | 15 | 100KHz/1v | 0.190 | 1.70 | 1.30 | M=20% |
| GCCD5830N-180K/M01 | GLE | 18 | 100KHz/1v | 0.210 | 1.60 | 1.23 | M=20% |
| GCCD5830N-220K/M01 | GLE | 22 | 100KHz/1v | 0.280 | 1.50 | 1.11 | M=20% |
| GCCD5830N-270K/M01 | GLE | 27 | 100KHz/1v | 0.320 | 1.40 | 0.97 | M=20% |
| GCCD5830N-330K/M01 | GLE | 33 | 100KHz/1v | 0.380 | 1.10 | 0.88 | M=20% |
| GCCD5830N-390K/M01 | GLE | 39 | 100KHz/1v | 0.420 | 1.00 | 0.80 | M=20% |
| GCCD5830N-470K/M01 | GLE | 47 | 100KHz/1v | 0.430 | 0.90 | 0.72 | M=20% |
| GCCD5830N-560K/M01 | GLE | 56 | 100KHz/1v | 0.500 | 0.85 | 0.68 | M=20% |
| GCCD5830N-680K/M01 | GLE | 68 | 100KHz/1v | 0.680 | 0.80 | 0.61 | M=20% |
| GCCD5830N-820K/M01 | GLE | 82 | 100KHz/1v | 0.820 | 0.65 | 0.58 | M=20% |
| GCCD5830N-101K/M01 | GLE | 100 | 100KHz/1v | 1.100 | 0.60 | 0.52 | M=20% |
| GCCD5830N-121K/M01 | GLE | 120 | 100KHz/1v | 1.200 | 0.58 | 0.48 | M=20% |
| GCCD5830N-151K/M01 | GLE | 150 | 100KHz/1v | 1.500 | 0.43 | 0.40 | M=20% |
| GCCD5830N-181K/M01 | GLE | 180 | 100KHz/1v | 1.800 | 0.41 | 0.38 | M=20% |
| GCCD5830N-221K/M01 | GLE | 220 | 100KHz/1v | 2.000 | 0.38 | 0.35 | M=20% |
| GCCD5830N-271K/M01 | GLE | 270 | 100KHz/1v | 2.900 | 0.35 | 0.32 | M=20% |
| GCCD5830N-331K/M01 | GLE | 330 | 100KHz/1v | 3.300 | 0.28 | 0.28 | M=20% |
| GCCD5830N-391K/M01 | GLE | 390 | 100KHz/1v | 3.700 | 0.26 | 0.26 | M=20% |
| GCCD5830N-471K/M01 | GLE | 470 | 100KHz/1v | 4.900 | 0.20 | 0.23 | M=20% |
| GCCD5830N-561K/M01 | GLE | 560 | 100KHz/1v | 5.000 | 0.19 | 0.20 | M=20% |
| GCCD5830N-681K/M01 | GLE | 680 | 100KHz/1v | 6.000 | 0.18 | 0.19 | M=20% |
| GCCD5830N-821K/M01 | GLE | 820 | 100KHz/1v | 6.600 | 0.15 | 0.16 | M=20% |
| GCCD5830N-102K/M01 | GLE | 1000 | 100KHz/1v | 8.000 | 0.13 | 0.14 | M=20% |
General Specifications:
| Item | Specification | Condition |
| Bending test | Change from an initial value L : within10% | Apply pressure gradually in the direction of the arrow at a rate of about 0.5mm/s until bent depth reaches 3mm and hold for 305s. |
| Adhesion strength | Change from an initial value L : within10% | A static load using a R0.5 pressing tool shall be applied the arrow and to the body of the specimen in the direction of the arrow and shall be hold for 605s.Measure after removing pressure. |
| Vibration | Change from an initial value L : within10% | The specimen shall be subjected to a vibration of 1.5mm amplitude, sweep frequency 10~55Hz (10Hz to 55Hz to 10Hz in a period of one minute) for 1 h in each of 3(X,Y,Z) axes. |
| Mechanical shock | Change from an initial value L : within10% | Peak acceleration: 981 m/S2 Duration of pulse: 6ms 3 times in each of 3(X,Y,Z)axes. The specimen must be fixed on test board. Three successive shock shall be applied in the perpendicular direction of each surface of the specimen. |
| Free fall test | Change from an initial value L : within10% | The specimen must be fixed on test board. It must be equipped with instruments of which weight is 500g. Then it shall be fallen freely from 1m height to rigid wood 3 times in each of three axes. |
| Solder ability | New solder shall cover 90% minimum of the surface immersed. | Terminals shall be immersed for 5 to 10 seconds in flux at room temperature. Dip sample into solder bath containing molten solder at 2455for 30.5 seconds. |
| Resistance to soldering heat | Change from an initial value L : within10% | Test board shall be 0.8mm thick. Base material shall be glass epoxy resin. The specimen shall be subjected to the reflow process under the above condition 2 times. |
| Dielectric strength | Without damage. | 100V DC shall be applied for 60s between the terminal and the core. |
| Insulation resistance | 100Mor more. | 100V DC shall be applied between the terminal and the core. |
| Low temperature | Change from an initial value L : within10% | After stored at a temperature of -40 3for 500 12h. The specimen should be measured,then it should be measured under normal temperature and humidity in 1h~ 2h hours. |
| Dry heat | Change from an initial value L : within10% | The specimen shall be stored at a temperature of 852for 500 12h. Then it shall be stabilized under standard atmospheric conditions for 1 h before measurement. Measurement shall be made within 1h~ 2h. |
| Dump heat | Change from an initial value L : within10% | The specimen shall be stored at a temperature of 602with relative humidity of 90 ~ 95% for 500 12h. Then it shall be stabilized under standard atmospheric conditions for 1 h before measurement. Measurement shall be made within 1h~ 2h. |
| Temperature cycle | Change from an initial value L : within10% | The specimen shall be measured afcer to 500 continuous cycles of temperature change of -40for 30 min and 85for 30 min with the transit period of 2min or less. Then it shall be stabilized under standard atmospheric conditions for 1 h before measurement. Measurement shall be made within 1h~ 2h. |
| Temperature drift | Inductance temperature coefficient 2000 ppm/or less | To be measured in the range of -25to 85. |
| Operating temperature range | -40 ~ + 125 | Including the products heating temperature. |
| Storage temperature range | -40 ~ + 85 | In packing state. |
2401251623_GLE-GCCD5830N-3R3N01_C439255.pdf
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