Wound Chip Ferrite Inductors Features: • • • • • Very strong solderability by flow soldering, soldering iron or wave soldering. Highly accurate dimensions, can be mounted automatically. Terminals are highly resistant to pull forces. Highly resistant to mechanical shocks and pressure. Highly reliable in environments of sudden temperature change and humidity. Super Q characteristics. These revolutionary, highly reliable wound chip inductors for automatic mounting, have been developed in response to the trend toward high density in electronic equipment. With metal terminals and a body of heat resistant resin, these inductors offer many superior features. Applications: Micro televisions, liquid crystal televisions, video cameras, portable VCRs, car radios, car stereos, thin tape radios, television tuners, mobile telephones, radio and other electronic devices. Figure 2 Figure 1 Dimensions Size 0805 1008 1210 1812 0805 1008 1812 Figure A B C D Maximum Maximum Maximum Reference 1 2 1 2 E E G K H I J Maximum Maximum Maximum Maximum 2.29 1.71 1.45 0.51 - 0.44 1.02 1.27 1.78 2.92 2.79 2.10 1.20 - 0.45 1.52 2.03 2.54 3.50 2.80 2.50 1.60 0.8 - - - 2.00 1.20 1.60 4.80 3.50 3.50 1.80 1.1 - - - 2.80 1.50 3.00 2.29 1.71 1.00 0.51 - 0.44 1.02 1.27 1.78 2.92 2.79 2.10 1.20 - 0.45 1.52 2.03 2.54 4.80 3.50 3.50 1.40 1.1 - 2.80 - - 1.02 1.02 1.50 0.76 1.27 0.76 1.27 3.00 Dimensions : Millimetres http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <1> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 0805 Wound Chip Inductors (Ferrite) Inductance (nH) Tolerance (±%) Q Minimum Test Frequency (MHz) 0.15 Self Resonant Frequency (MHz) Maximum DCResistance Ω) (Ω Maximum Rated Current (mA) 900 0.18 1100 0.25 700 0.35 650 0.22 550 0.33 20 25.2 0.47 350 0.45 600 0.68 300 0.60 500 280 0.80 450 250 1.05 350 110 1.10 320 3.30 60 1.50 300 4.70 45 2.10 200 6.80 36 2.70 200 30 4.50 180 1.00 J, K 1.50 2.20 15 10.00 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC 10 7.96 2.52 drops 10% (typical) from its value without current. : -25°C to 85°C. : J = ±5%, K = ±10%. : HP4291 for 0.12 to 10uH. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <2> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 1008 Wound Chip Inductors (Ferrite) Self Resonant Frequency (MHz) Maximum DC Resistance Ω) (Ω Maximum Rated Current (mA) 0.15 800 0.15 1200 0.22 600 0.25 1200 400 0.20 1100 0.47 350 0.45 900 0.68 300 0.40 800 1.00 245 0.50 600 1.50 182 0.65 550 105 0.95 500 55 1.15 350 4.70 43 1.28 300 6.80 39 1.60 300 10.00 33 2.30 250 24 2.70 200 18 3.30 180 16 4.00 120 Inductance µH) (µ Tolerance (±%) 0.33 Q Minimum 30 Test Frequency (MHz) 25.2 2.20 25 7.96 3.30 J, K 15.00 20 22.00 2.52 33.00 47.00 18 14 5.90 110 68.00 18 12 9.50 90 100.00 12 8 110.00 120 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC 1 drops 10% (typical) from its value without current. : -25°C to 85°C. : J = ±5%, K = ±10%. : HP4291 for 0.12 to 10µH. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <3> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 1210 Wound Chip Inductors (Ferrite) Self Resonant Frequency (MHz) Maximum DC Resistance Ω) (Ω Maximum Rated Current (mA) 1.0 120 0.70 400 1.5 85 0.85 370 75 1.00 320 3.3 60 1.20 260 4.7 50 1.50 220 40 1.80 180 30 2.10 150 20 2.80 130 20 3.70 110 33.0 17 5.60 70 47.0 15 7.00 60 68.0 12 9.00 50 100.0 10 10.00 40 8 15.00 65 7 21.00 50 Inductance µH) (µ Tolerance (±%) Q Minimum 2.2 Test Frequency (MHz) 7.96 6.8 7.96 30 10.0 15.0 K 22.0 2.52 150.0 20 0.796 220.0 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC drops 10% (typical) from its value without current. : -25°C to 85°C. : K = ±10%, K = ±20%. : HP4291 for 0.18µH to 82µH. HP4284 for 100µH to 220µH. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <4> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 1812 Wound Chip Inductors (Ferrite) Self Resonant Minimum Frequency (MHz) Maximum DC Resistance Ω) (Ω Rated Current (mA) 1.0 100.0 0.50 450 1.5 70.0 0.60 410 55.0 0.70 380 3.3 45.0 0.80 355 4.7 35.0 1.00 315 27.0 1.20 285 10.0 20.0 1.60 250 15.0 17.0 2.50 200 13.0 3.20 180 33.0 11.0 4.00 160 47.0 10.0 5.00 140 68.0 9.0 6.00 130 100.0 8.0 8.00 110 5.0 9.00 105 4.0 10.00 100 3.5 15.00 85 26.00 62 30.00 50 Inductance µH) (µ Tolerance (±%) Q Minimum Test Frequency (MHz) 2.2 7.960 6.8 50 22.0 K 150.0 2.520 40 220.0 0.796 330.0 470.0 30 3.0 680.0 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC drops 10% (typical) from its value without current. : -25°C to 85°C. : K = ±10%. : HP4291 for 0.18µH to 82µH. HP4284 for 100µH to 820µH. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <5> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 0805 Wound Chip Inductors (Ferrite) Large Current Q Minimum Test Frequency (MHz) Self Resonant Minimum Frequency (MHz) Maximum DC Resistance Ω) (Ω 1.0 15 L: 7.96/Q : 25.2 115 0.90 3.3 13 70 1.40 65 1.90 41 2.40 31 2.70 Self Resonant Minimum Frequency (MHz) Maximum DC Resistance (Ohm) Rated Current (mA) 800 Inductance µH) (µ Tolerance (±%) Rated Current (mA) 450 4.7 J, K 15 7.96 6.8 10 14 400 1008 Wound Chip Inductors (Ferrite) Large Current Inductance µH) (µ Tolerance (±%) Q Minimum Test Frequency (MHz) 1.0 22 245 0.35 1.5 25 182 0.45 105 0.60 55 0.75 45 0.90 6.8 40 1.00 10.0 35 1.50 300 24 1.90 250 22.0 18 2.80 200 33.0 16 3.50 180 550 2.2 7.96 3.3 450 22 4.7 J, K 400 15.0 20 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC 2.52 drops 10% (typical) from its value without current. : -25°C to 85°C. : J = ±5%, K = ±10%. : HP4291. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <6> 18/05/09 V1.1 Wound Chip Ferrite Inductors Standard Electrical Specifications 1812 Wound Chip Inductors (Ferrite) Large Current Self Resonant Minimum Frequency (MHz) Maximum DC Resistance Ω) (Ω Rated Current (mA) 1.0 200.0 0.11 1050 1.5 130.0 0.15 950 80.0 0.18 850 3.3 45.0 0.22 750 4.7 35.0 0.27 650 28.0 0.35 600 10.0 22.0 0.50 550 15.0 20.0 0.70 450 18.0 0.90 370 33.0 14.0 1.40 300 47.0 11.5 1.90 260 68.0 10.0 2.60 220 100.0 8.0 4.00 180 150.0 7.0 6.50 140 5.5 9.00 120 330.0 4.0 13.00 90 470.0 3.5 26.00 75 680.0 2.6 40.00 65 Inductance µH) (µ Tolerance (±%) Q Minimum Test Frequency (MHz) 2.2 7.960 6.8 10 22.0 K 2.520 220.0 20 DC current at which the inductance Operating temperature range Tolerance L,Q SRF RDC 0.796 drops 10% (typical) from its value without current. : -25°C to 85°C. : K = ±10%. : HP4291 for 0.18µH to 82µH. HP4284 for 100µH to 820µH. : HP4291. : AX-1152B. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <7> 18/05/09 V1.1 Wound Chip Ferrite Inductors Environmental Characteristics Mechanical Performance Item Vibration Specification Test Method Appearance : no damage Test device shall be soldered on the substrate L change : within ±10% Oscillation frequency: 10 to 55 to 10Hz for 1 minute Q change : within ±30% Amplitude: 1.5mm RDC : within specification Time: 2 hours for each axis (X, Y & Z), total 6 hours Resistance to soldering heat Appearance: no damage Pre-heating Solder temperature Immersion time : 150°C, 1 minute : 260 ±5°C : 10 ±1 second Solderability The electrodes shall be at least 90% covered with new solder coating Lead-free inductor: after fluxing (alpha 100 or equiv), inductor shall be dipped in a melted solder bath at 245 ±5°C, 5 ±0.5 seconds. Environmental Performance Item Specification Test Method One cycle: Temperature cycle Step Temperature (°°C) Time (minute) 1 -25 ±3 30 2 25 ±2 3 3 85 ±3 30 4 25 ±2 3 Total: 100 cycles Measured after exposure in the room condition for 24 hours Humidity resistance High temperature Storage Appearance: no damage Temperature : 40 ±2°C L change: within ±10% Relative Humidity : 90 to 95% Q change: within ±30% Time : 1000 hours RDC: within specification Measured after exposure in the room condition for 24 hours Temperature : 85 ±3°C Relative humidity : 20% Applied current : rated Current Time : 1000 hours Measured after exposure in the room condition for 24 hours Low temperature storage Temperature : -25 ±3°C Relative humidity : 0% Time : 1000 hours Measured after exposure in the room condition for 24 hours http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <8> 18/05/09 V1.1 Wound Chip Ferrite Inductors Part Number Table Description Part Number Inductor, Ferrite, 0805, 0.15uH MCFT000152 Inductor, Ferrite, 0805, 0.22uH MCFT000153 Inductor, Ferrite, 0805, 0.33uH MCFT000154 Inductor, Ferrite, 0805, 0.47uH MCFT000155 Inductor, Ferrite, 0805, 0.68uH MCFT000156 Inductor, Ferrite, 0805, 1uH MCFT000157 Inductor, Ferrite, 0805, 1.5uH MCFT000158 Inductor, Ferrite, 0805, 2.2uH MCFT000159 Inductor, Ferrite, 0805, 3.3uH MCFT000160 Inductor, Ferrite, 0805, 4.7uH MCFT000161 Inductor, Ferrite, 0805, 6.8uH MCFT000162 Inductor, Ferrite, 0805, 10uH MCFT000163 Inductor, Ferrite, 1008, 0.15uH MCFT000164 Inductor, Ferrite, 1008, 0.22uH MCFT000165 Inductor, Ferrite, 1008, 0.33uH MCFT000166 Inductor, Ferrite, 1008, 0.47uH MCFT000167 Inductor, Ferrite, 1008, 0.68uH MCFT000168 Inductor, Ferrite, 1008, 1uH MCFT000169 Inductor, Ferrite, 1008, 1.5uH MCFT000170 Inductor, Ferrite, 1008, 2.2uH MCFT000171 Inductor, Ferrite, 1008, 3.3uH MCFT000172 Inductor, Ferrite, 1008, 4.7uH MCFT000173 Inductor, Ferrite, 1008, 6.8uH MCFT000174 Inductor, Ferrite, 1008, 10uH MCFT000175 Inductor, Ferrite, 1008, 15uH MCFT000176 Inductor, Ferrite, 1008, 22uH MCFT000177 Inductor, Ferrite, 1008, 33uH MCFT000178 Inductor, Ferrite, 1008, 47uH MCFT000179 Inductor, Ferrite, 1008, 68uH MCFT000180 Inductor, Ferrite, 1008, 100uH MCFT000181 Inductor, Ferrite, 1210, 1uH MCFT000182 Inductor, Ferrite, 1210, 1.5uH MCFT000183 Inductor, Ferrite, 1210, 2.2uH MCFT000184 Inductor, Ferrite, 1210, 3.3uH MCFT000185 http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <9> 18/05/09 V1.1 Wound Chip Ferrite Inductors Part Number Table Description Part Number Inductor, Ferrite, 1210, 4.7uH MCFT000186 Inductor, Ferrite, 1210, 6.8uH MCFT000187 Inductor, Ferrite, 1210, 10uH MCFT000188 Inductor, Ferrite, 1210, 15uH MCFT000189 Inductor, Ferrite, 1210, 22uH MCFT000190 Inductor, Ferrite, 1210, 33uH MCFT000191 Inductor, Ferrite, 1210, 47uH MCFT000192 Inductor, Ferrite, 1210, 68uH MCFT000193 Inductor, Ferrite, 1210, 100uH MCFT000194 Inductor, Ferrite, 1210, 150uH MCFT000195 Inductor, Ferrite, 1210, 220uH MCFT000196 Inductor, Ferrite, 1812, 1uH MCFT000197 Inductor, Ferrite, 1812, 1.5uH MCFT000198 Inductor, Ferrite, 1812, 2.2uH MCFT000199 Inductor, Ferrite, 1812, 3.3uH MCFT000200 Inductor, Ferrite, 1812, 4.7uH MCFT000201 Inductor, Ferrite, 1812, 6.8uH MCFT000202 Inductor, Ferrite, 1812, 10uH MCFT000203 Inductor, Ferrite, 1812, 15uH MCFT000204 Inductor, Ferrite, 1812, 22uH MCFT000205 Inductor, Ferrite, 1812, 33uH MCFT000206 Inductor, Ferrite, 1812, 47uH MCFT000207 Inductor, Ferrite, 1812, 68uH MCFT000208 Inductor, Ferrite, 1812, 100uH MCFT000209 Inductor, Ferrite, 1812, 150uH MCFT000210 Inductor, Ferrite, 1812, 220uH MCFT000211 Inductor, Ferrite, 1812, 330uH MCFT000212 Inductor, Ferrite, 1812, 470uH MCFT000213 Inductor, Ferrite, 1812, 680uH MCFT000214 Disclaimer This data sheet and its contents (the "Information") belong to the Premier Farnell Group (the "Group") or are licensed to it. No licence is granted for the use of it other than for information purposes in connection with the products to which it relates. No licence of any intellectual property rights is granted. The Information is subject to change without notice and replaces all data sheets previously supplied. The Information supplied is believed to be accurate but the Group assumes no responsibility for its accuracy or completeness, any error in or omission from it or for any use made of it. Users of this data sheet should check for themselves the Information and the suitability of the products for their purpose and not make any assumptions based on information included or omitted. Liability for loss or damage resulting from any reliance on the Information or use of it (including liability resulting from negligence or where the Group was aware of the possibility of such loss or damage arising) is excluded. This will not operate to limit or restrict the Group's liability for death or personal injury resulting from its negligence. SPC Multicomp is the registered trademark of the Group. © Premier Farnell plc 2009. http://www.farnell.com http://www.newark.com http://www.cpc.co.uk Page <10> 18/05/09 V1.1