GmbH Mathildenstr. 10A 82319 Starnberg Germany SMD 5/27/2016 1/17 GmbH www.freltec.com
SPECIFICATION Part Number 197 05 * 151 * S * J * E02 Type Size Value Material Toleranc e Packing 197 : SMD Multilayer Ferrite Chip Inductor 02: 0402 The value is given in µh N indicates the decimal point for nh and U indicates the decimal point for µh. When higher than 100 µh the last digit is the multiplier 03: 0603 which denotes the number of zero following 05: 0805 06: 1206 L, B, P, Q, S, T J : ±5% K : ±10% Example: M : ±20% 10N : 10 nh 3U3 : 3300 nh U68 : 680 nh 151 : 150 µh All products according to RoHS (2011/65/EU) T10: tape and reel, for 10kpcs, paper tape 0402 size T04: tape and reel, for 4kpcs, paper tape, 0603 and 0805 ( 22µH) size T03: tape and reel, for 3kpcs, paper tape, 1206 ( 27µH) size E03: tape and reel, for 3kpcs, embossed plastic tape, 0805 (>22µH) and 1206 (>27µH) size * not all combination is possible 5/27/2016 2/17
Dimensions: Unit: mm Type A B C D 0402 1,0±0,15 0,5±0,15 0,50±0,15 0,25±0,10 0603 1,60±0,15 0,8±0,15 0,80±0,15 0,3±0,2 0805 22µH 2,0 (+0,3, -0,1) 1,25±0,20 0,85±0,20 0,5±0,3 0805>22µH 2,0 (+0,3, -0,1) 1,25±0,20 1,25±0,20 0,5±0,3 1206 27µH 3,2±0,2 1,6±0,2 0,85±0,20 0,5±0,3 1206>27µH 3,2±0,2 1,6±0,2 1,1±0,2 0,5±0,3 Recommended PCB pattern for reflow soldering: Chip capacitor Land pattern Solder-resist unit: mm C B A B Type A B C 0402 0,45~0,55 0,40~0,50 0,45~0,55 0603 0,60~0,80 0,60~0,80 0,60~0,80 0805 0,80~1,20 0,80~1,20 0,90~1,60 1206 1,80~2,50 1,00~1,50 1,20~2,00 unit: mm 5/27/2016 3/17
Standard Electrical Specifications 0402 s Type L (μh) Tolera nce Q Min. L, Q Test. Freq. (MHz) S.R.F Min. (MHz) DCR Max. (Ω) Ir Max. (ma) Material code 0,047 10 50 220 0,45 25 L 0,068 10 50 210 0,45 25 L 0,082 10 50 200 0,45 25 L 0,1 10 25 200 0,8 25 L 0,12 10 25 165 0,8 25 L 0,15 10 25 140 0,9 25 L 0,18 10 25 120 0,9 25 L 0,22 10 25 110 1,2 25 L 0,27 15 25 95 1,2 25 L 0,33 15 25 85 1,25 18 L 0,39 20 10 85 0,6 15 Q 0,47 20 10 80 0,7 15 Q 0,56 20 10 75 0,8 15 Q ±10%, 0,68 20 10 70 0,9 15 Q ±20%* 0,82 20 10 65 0,9 15 Q 1,0 20 10 60 1,0 15 P 1,2 20 10 55 1,25 15 P 1,5 20 10 50 1,4 15 P 1,8 20 10 45 1,55 15 P 2,2 20 10 40 1,7 10 P 1,0 20 10 40 0,9 15 Q 1,2 20 10 35 1,2 15 Q 1,5 20 10 30 1,2 15 Q 1,8 20 10 30 1,45 15 Q 2,2 20 10 28 1,7 10 Q 2,7 20 10 28 2,4 10 Q 3,3 20 10 28 2,7 10 Q * Better tolerance available upon request 5/27/2016 4/17
0603 s Type L (μh) Tolera nce Q Min. L, Q Test. Freq. (MHz) S.R.F Min. (MHz) DCR Max. (Ω) Ir Max. (ma) Material code 0,047 10 50 260 0,3 50 L 0,068 10 50 250 0,3 50 L 0,082 10 50 245 0,3 50 L 0,1 15 25 240 0,5 50 L 0,12 15 25 205 0,5 50 L 0,15 15 25 180 0,6 50 L 0,18 15 25 165 0,6 50 L 0,22 15 25 150 0,8 50 L 0,27 15 25 136 0,8 50 L 0,33 15 25 125 0,85 35 L 0,39 15 25 110 1 35 L 0,47 15 25 105 1,35 35 L 0,56 15 25 95 1,55 35 L 0,68 15 25 90 1,7 35 L 0,82 15 25 85 2,1 35 L 1,0 35 10 90 0,6 25 P 1,1 35 10 90 0,6 25 P 1,2 35 10 85 0,8 25 P 1,5 35 10 80 0,8 25 P 1,8 ±10%, 35 10 75 0,95 25 P 2,2 ±20%* 35 10 70 1,15 15 P 1,0 35 10 75 0,6 25 Q 1,1 35 10 75 0,6 25 Q 1,2 35 10 65 0,8 25 Q 1,5 35 10 60 0,8 25 Q 1,8 35 10 55 0,95 25 Q 2,2 35 10 50 1,15 15 Q 2,7 35 10 45 1,35 15 Q 3,3 35 10 40 1,55 15 Q 3,9 35 10 35 1,7 15 Q 4,7 35 10 33 2,1 15 Q 5,6 35 4 22 1,55 5 S 6,8 35 4 20 1,7 5 S 8,2 35 4 18 2,1 5 S 10 30 2 17 1,85 3 S 12 30 2 15 2,1 3 S 15 20 1 14 1,7 1 T 18 20 1 13 1,85 1 T 22 20 1 11 2,1 1 T 27 20 1 10 2,75 1 T 33 20 1 9 2,95 1 T * Better tolerance available upon request 5/27/2016 5/17
0805 s Type L(μH) Tolera nce Q Min. L, Q Test. Freq. (MHz) S.R.F Min. (MHz) DCR Max. (Ω) Ir Max (ma) Material code 0,047 15 50 320 0,2 300 L 0,068 15 50 280 0,2 300 L 0,082 15 50 255 0,2 300 L 0,1 20 25 235 0,3 250 L 0,12 20 25 220 0,3 250 L 0,15 20 25 200 0,4 250 L 0,18 20 25 185 0,4 250 L 0,22 20 25 170 0,5 250 L 0,27 20 25 150 0,5 250 L 0,33 20 25 145 0,55 250 L 0,39 25 25 135 0,65 200 L 0,47 25 25 125 0,65 200 L 0,56 25 25 115 0,75 150 L 0,68 25 25 105 0,8 150 L 0,82 25 25 100 1 150 L 1,0 45 10 95 0,4 50 P 1,2 45 10 85 0,5 50 P 1,5 45 10 80 0,5 50 P 1,8 45 10 75 0,6 50 P 2,2 45 10 70 0,65 30 P 1,0 45 10 75 0,4 50 Q ±10%, 1,1 45 10 65 0,5 50 Q ±20%* 1,2 45 10 65 0,5 50 Q 1,5 45 10 60 0,5 50 Q 1,8 45 10 55 0,6 50 Q 2,2 45 10 50 0,65 30 Q 2,4 45 10 47 0,70 30 Q 2,7 45 10 45 0,75 30 Q 3,3 45 10 41 0,8 30 Q 3,9 45 10 38 0,9 30 Q 4,7 45 10 35 1 30 Q 5,6 50 4 32 0,9 15 S 6,8 50 4 29 1 15 S 8,2 50 4 26 1,1 15 S 10 50 2 24 1,15 15 S 12 50 2 22 1,25 15 S 15 30 1 19 0,8 5 T 18 30 1 18 0,9 5 T 22 30 1 16 1,1 5 T 27 30 1 14 1,15 5 T 33 30 0,4 13 1,25 5 T 39 35 2 8 2,9 4 T 47 35 2 7,5 3 4 T * Better tolerance available upon request 5/27/2016 6/17
1206 s Type L (μh) Tolera nce Q Min. L, Q Test Freq. (MHz) S.R.F Min. (MHz) DCR Max. (Ω) Ir Max (ma) Material code 0,047 20 50 320 0,15 300 L 0,068 20 50 280 0,25 300 L 0,1 20 25 235 0,25 250 L 0,12 20 25 220 0,3 250 L 0,15 20 25 200 0,3 250 L 0,18 20 25 185 0,4 250 L 0,22 20 25 170 0,4 250 L 0,27 20 25 150 0,5 250 L 0,33 20 25 145 0,6 250 L 0,39 25 25 135 0,5 200 L 0,47 25 25 125 0,6 200 L 0,56 25 25 115 0,7 150 L 0,68 25 25 105 0,8 150 L 0,82 25 25 100 0,9 150 L 1,0 45 10 75 0,4 100 Q 1,2 45 10 65 0,5 100 Q 1,5 45 10 60 0,5 50 Q ±10%, 1,8 45 10 55 0,5 50 Q ±20%* 2,2 45 10 50 0,6 50 Q 2,7 45 10 45 0,6 50 Q 3,3 45 10 41 0,7 50 Q 3,9 45 10 38 0,8 50 Q 4,7 45 10 35 0,9 50 Q 5,6 50 4 32 0,7 25 S 6,8 50 4 29 0,8 25 S 8,2 50 4 26 0,9 25 S 10 50 2 24 1 25 S 12 50 2 22 1,05 15 S 15 35 1 19 0,7 5 T 18 35 1 18 0,7 5 T 22 35 1 16 0,9 5 T 27 35 1 14 0,9 5 T 33 35 0,4 13 1,05 5 T 39 40 2 11 3 5 T 47 40 2 10 3,4 5 T * Better tolerance available upon request 5/27/2016 7/17
Construction Material Information Test and Measurement Procedures 1 Test Conditions Unless otherwise specified, the standard atmospheric conditions for measurement/test as: a. Ambient Temperature: 20±15 b. Relative Humidity: 65±20% c. Air Pressure: 86kPa to 106kPa If any doubt on the results, measurements/tests should be made within the following limits: a. Ambient Temperature: 20±2 C b. Relative Humidity: 65±5% c. Air Pressure: 86kPa to 106kPa 2 Visual Examination a. Inspection Equipment: 20 magnifier 3 Electrical Test 3.1 DC Resistance (DCR) a. Refer to tabel above. b. Test equipment (Analyzer): High Accuracy Milliohmmeter-HP4338B or equivalent. 3.2 Inductance (L) a. Refer to tabel above. b. Test equipment: High Accuracy RF Impedance /Material Analyzer- HP4291B+HP16192A or equivalent. c. Test signal: -20dBm or 50mV. d. Test frequency refers to tabel above. 3.3 Q Factor (Q) a. Refer to tabel above. b. Test equipment: High Accuracy RF Impedance /Material Analyzer- HP4291B+HP16192A or equivalent. c. Test signal: -20dBm or 50mV. d. Test frequency refers to tabel above. 3.4 Self-Resonant Frequency (SRF) a. Refer to tabel above. b. Test equipment: High Accuracy RF Impedance /Material Analyzer-HP4291B+ HP16192A or equivalent. c. Test signal: -20dBm or 50 mv. 3.5 Rated Current 5/27/2016 8/17
a. Refer to tabel above. b. Test equipment (see Fig. below): Electric Power, Electric current meter, HP4291B+ HP16192A or equivalent. c. Measurement method (see Fig. below): 1. Measurement conditions of initial inductance L: Measuring Frequency: 1MHz, Test Current: 0,047μH~4,7μH, 1mA; 5,6μH~100μH, 0,1mA. 2. Raising the voltage of the DC power supply, measure the inductance at the various current. The rated current is the current value at which the inductance will be 5% down compared with the initial inductance value. Note: In the period of raising voltage, voltage cannot be reduced. a. Definition of Rated Current (Ir): Ir is direct electric current as inductance L (μh) decreased just 5% against initial value (see Fig. below). Electronic Power Electronic Current Meter HP4291B +L 0 R L Chip C 95% L 0 0 Rated current Ir (ma) 5/27/2016 9/17
Inductance Frequency Characteristics P, Q P, Q Material Comparison Q vs. Frequency Characteristics Inductance vs. Frequency Characteristics Inductance( H) 50 45 40 35 30 25 20 15 10 5 197031U0QKT04 197031U0PKT04 0 0 5 10 15 20 25 30 35 40 45 50 Frequency(MHz) 0402 0603 Inductance vs. DC Current Characteristics Inductance vs. DC Current Characteristics Inductance(uH) 1.5 1.3 1.1 0.9 197031U0PKT04 0.7 197031U0QKT04 0.5 5 10 15 20 25 30 35 40 45 50 Frequency(MHz) Inductance vs. Temperature Characteristics Inductance vs. Temperature Characteristics Q vs. Frequency Characteristics Q vs. Frequency Characteristics 5/27/2016 10/17
0805 1206 Inductance vs. DC Current Characteristics Inductance vs. DC Current Characteristics Inductance vs. Temperature Characteristics Inductance vs. Temperature Characteristics Q vs. Frequency Characteristics Q vs. Frequency Characteristics 5/27/2016 11/17
Tape Dimensions P0 E P2 D W F D0 B P1 A Packing Size A B W F E P1 P2 P0 D T1 (Max) T2 0402 0,65±0,1 1,15±0,1 8,0±0,3 3,50±0,05 1,75±0,10 2,0±0,05 2,00±0,05 4,0±0,1 1,50+0,1/-0 0,8 Paper Tape (T) 0603 1,0±0,2 1,8±0,2 8,0±0,3 3,50±0,05 1,75±0,10 4,0±0,1 2,00±0,05 4,0±0,1 1,50+0,1/-0 1,1 0805 1,5±0,2 2,3±0,2 8,0±0,3 3,50±0,05 1,75±0,10 4,0±0,1 2,00±0,05 4,0±0,1 1,50+0,1/-0 1,1 1206 1,9±0,2 2,3±0,2 8,0±0,3 3,50±0,05 1,75±0,10 4,0±0,1 2,00±0,05 4,0±0,1 1,50+0,1/-0 1,1 Embossed Tape (E) 0805 1,55±0,2 2,25±0,2 8,0±0,3 3,50±0,05 1,75±0,10 4,0±0,1 2,00±0,05 4,0±0,1 1,50+0,1/-0 1,45 0,3 1206 1,88±0,2 3,5±0,2 8,0±0,3 3,50±0,05 1,75±0,10 4,0±0,1 2,00±0,05 4,0±0,1 1,50+0,1/-0 1,27 0,3 Lead Dimensions: 5/27/2016 12/17
Cover Tape Peel off Strength Specifications: 10gf to 70fg Top tape or cover tape 165 0 ~ 180 0 Base tape Symbol Reel Type / Tape A N C B T (max) G Dimension 7 reel 178±2,0 58,0±2,0 13,5±0,2 2,45±0,20 14,4 8,4+1,5/-0,0 in mm Stock period The performance of these products, including the solderability, is guaranteed for 12 month, provided that they remain packed as they were when delivered and stored at a temperature of maximum 40 C (minimum -10 C) and a relative humidity less than 70%RH The solderability of the external electrode may be deteriorated if packages are stored where they are exposed to dust of harmful gas (e.g. HCl, sulfurous gas of H2S). Packaging material may be deformed if package are stored where they are exposed to heat of direct sunlight. Operating and storage temperature range (individual chip without packing): -40 C ~ +85 C 5/27/2016 13/17
Lead Free Reflow Soldering Profile 260 C Peak 260 C max 217 C Max Ramp Up Rate=3 C/sec. Max Ramp Down Rate=6 C/sec. 200 C 60~90sec. 150 C 60~120sec. 25 C Time 25 C to Peak =8 min max 1~2 C/sec. Ramp Pre-heating: 150~190 C/90±30 sec. Time above 240 C: 20~40sec Peak temperature: 260 C Max. /10sec. Solder paste: Sn/3,0Ag/0,5Cu Max.2 times for re-flowing Iron Soldering Profile 3sec. Max. 350 C Soldering Iron Power: max. 30W Diameter of Soldering Iron 1,0mm max. Tc C Iron soldering power: Max.30W. Pre-heating: 150 C / 60sec. Soldering Tip temperature: 350 C Max. Soldering time: 3sec Max. Solder paste: Sn/3,0Ag/0,5Cu. Max.1 times for iron soldering. Take care not to apply the tip of the soldering iron to the terminal electrodes. 5/27/2016 14/17
Reliability Test Items Requirements Test Methods and Remarks Terminal Strength No removal or split of the termination or other defects shall occur. Chip F Mounting Pad Glass Epoxy Board 1 Solder the inductor to the testing jig (glass epoxy board shown using leadfree solder. Then apply a force in the direction of the arrow. 2 5N force for 0402 and 0603 series. 10N force for 0805 and 1206 series. 3 Keep time: 10±1s. 4 Speed: 1.0mm/s. Resistance to Flexure No visible mechanical damage. Type a b c 0402 0,42 1,5 0,5 0603 1,0 3,0 1,2 0805 1,2 4,0 1,65 1206 2,2 5,0 2,0 b Φ4,5 1 Solder the inductor to the test jig (glass epoxy board shown) Using a leadfree solder. Then apply a force in the direction shown. 2 Flexure: 2mm. 3 Pressurizing Speed: 0,5mm/sec. 4 Keep time: 30 sec. 20 10 R230 Unit: mm c a 100 40 45 45 Flexure Vibration 1 No visible mechanical damage. 2 Inductance change: Within ±10% 3 Q factor change: Within ±30% Cu pad Solder mask 1 Solder the inductor to the testing jig (glass epoxy board shown) using leadfree solder. 2 The inductor shall be subjected to a simple harmonic motion having total amplitude of 1,5mm, the frequency being varied uniformly between the approximate limits of 10 and 55 Hz. 3 The frequency range from 10 to 55 Hz and return to 10 Hz shall be traversed in approximately 1 minute. This motion shall be applied for a period of 2 hours in each 3 mutually perpendicular directions (total of 6 hours). Glass Epoxy Board Dropping Temperature Solderability 1 No visible mechanical damage. 2 Inductance change: Within ±10%. 3 Q factor change: Within ±30%. Inductance change should be within ±10% of initial value measuring at 20 C. 1 No visible mechanical damage. 2 Wetting shall exceed 95% coverage. Drop chip inductor 10 times on a concrete floor from a height of 100 cm. Temperature range: -40 C~ +85 C Reference temperature: +203 21 1 Solder temperature: 240±2 C 2 Duration: 3sec. 3 Solder: Sn/3,0Ag/0,5Cu. 4 Flux: 25% Resin and 75% ethanol in weight. 5/27/2016 15/17
Resistance to Soldering Heat Thermal Shock 1 No visible mechanical damage. 2 Wetting shall exceed 95% coverage. 3 Inductance change: Within ±10%. 4 Q factor change: Within ±30%. 1 No mechanical damage. 2 Inductance change: Within ±10%. 3 Q factor change: Within ±30%. 85 C 30 min. Ambient Temperature -40 C 30 min. 30 min. 20sec. (max.) 1 Solder temperature: 260±3 C. 2 Duration: 5sec. 3 Solder: Sn/3,0Ag/0,5Cu. 4 Flux: 25% Resin and 75% ethanol in weight. 5 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 1 Temperature, Time: -40 C for 30±3 min 85 C for 30±3min. 2 Transforming interval: 20 sec.(max.). 3 Tested cycle: 100 cycles. 4 The chip shall be stabilized at normal condition for 1~2 hours before measuring. Resistance to Low Temperature Resistance to High Temperature Damp Heat (Steady States) Loading Under Damp Heat Loading at High Temperature (Life Test) 3 21 No mechanical damage. 3 21 Inductance change: Within ±10%. 3 21 Q factor change: Within ±30%. 3 21 No mechanical damage. 3 21 Inductance change: Within ±10%. 3 21 Q factor change: Within ±30%. 1 No visible mechanical damage. 2 Inductance change: Within ±10%. 3 Q factor change: Within ±30%. 1 No visible mechanical damage. 2 Inductance change: within ±10% for inductance 12μH within ±15% for inductance 15μH. 3 Q factor change: Within ±30%. 1 No visible mechanical damage. 2 Inductance change: within ±10% for inductance 12μH within ±15% for inductance 15μH. 3 Q factor change: Within ±30%. 1 Temperature: -40±2 C 2 Duration: 1000 +24 hours. 3 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 1 Temperature: 85±2 C 2 Duration: 1000 +24 hours. 3 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 1 Temperature: 60±2 C 2 Humidity: 90% to 95% RH. 3 Duration: 1000 +24 hours. 4 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 1 Temperature: 60±2 C 2 Humidity: 90% to 95% RH. 3 Duration: 1000 +24 hours. 4 Applied current: Rated current. 5 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 1 Temperature: 85±2 C 2 Duration: 1000 +24 hours. 3 Applied current: Rated current. 4 The chip shall be stabilized at normal condition for 1~2 hours before measuring. 5/27/2016 16/17
Published by GmbH Mathildenstr. 10A; 82319 Starnberg; Germany 2016 GmbH. All Rights Reserved. The following applies to all products named in this publication: 1. The information describes the type of component and shall not be considered as assured characteristics. 2. Terms of delivery and rights to change design reserved. 3. Some parts of this publication contain statements about the suitability of our products for certain areas of application. These statements are based on our knowledge of typical requirements that are often placed on our products in the areas of application concerned. Nevertheless, we explicitly point out that such statements cannot be regarded as binding statements about the suitability of our products for a particular customer application. As a rule, is either unfamiliar with individual customer applications or less familiar with them than the customers themselves. For these reasons, it is always ultimately incumbent on the customer to check and decide whether a product with the properties described in the product specification is suitable for use in a particular customer application. 4. We also point out that in individual cases, a malfunction of electronic components or failure before the end of their usual service life cannot be completely ruled out in the current state of the art, even if they are operated as specified. In customer applications requiring a very high level of operational safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health (e.g. in accident prevention or life-saving systems), it must therefore be ensured by means of suitable design of the customer application or other action taken by the customer (e.g. installation of protective circuitry or redundancy) that no injury or damage is sustained by third parties in the event of malfunction or failure of an electronic component. 5. The warnings, cautions and product-specific notes must be observed. 6. In order to satisfy certain technical requirements, some of the products described in this publication may contain substances subject to restrictions in certain jurisdictions (e.g. because they are classed as hazardous ). Useful information on this will be found in our Material Data Sheets. Should you have any more detailed questions, please contact our sales offices. 7. We constantly strive to improve our products. Consequently, the products described in this publication may change from time to time. The same is true for the corresponding product specifications. Please check therefore to what extent product descriptions and specifications contained in this publication are still applicable before or when you place an order. We also reserve the right to discontinue production and delivery of products. Consequently, we cannot guarantee that all products named in this publication will always be available. 8. Unless otherwise agreed in individual contracts, all orders are subject to the current version of the General conditions for the supply of products and services of the electrical and electronics industry published by the German Electrical and Electronics Industry Association (ZVEI), available at www.freltec.com. 9. As far as patents or other rights of third parties are concerned, liability is only assumed for components per se, not for applications, processes and circuits implemented within components or assemblies. 10. The trade name is a trademark registered or pending in Europe and in other countries. 5/27/2016 17/17