VFC2HR71D105K2M1A

Reference Only Spec No. JEWE243B-9101C-01 P1/10 Lead Type Capacitors with Varistor Function VFC2 H□□□□□□□K□□□□ Murata Reference Specification [AEC-Q200] 1.Scope This reference specification applies to Lead Type Capacitors With Varistor Function for Automotive Electronics based on AEC-Q200. 2.Part Numbering ＶＦ Ｃ ① ２ ② Ｈ ③ Ｒ７ ④ １Ｄ ⑤ １０５ ⑥ Ｋ ⑦ ２ ⑧ Ｋ１ ⑨ A ⑩ ①Structure C : Capacitors with Varistor Function ②Style 2:2012Size ③Features ④Temperature Characteristics ⑤Rated Voltage ⑥Capacitance □□□ Marked three digits system.(Ex. 1.0pF→105) ⑦Capacitance Tolerance ⑧Varistor Voltage (１：２２Ｖ、２：27V、３：３３Ｖ、４：４７Ｖ、５：６８Ｖ、６：８２Ｖ) ⑨Lead Type ⑩Packaging Code A : Ammo Pack / B : Bulk 3.Rating Customer Part Number Part Number VFC2HL81C474K1M1A VFC2HL81C474K1K1B VFC2HL81C105K1M1A VFC2HL81C105K1K1B VFC2HL81D474K2M1A Capacitance value ,Tolerance Temperature Characteistics VFC2HR71C474K1K1B VFC2HR71C105K1M1A VFC2HR71C105K1K1B VFC2HR71D474K2M1A 1.0uF±10％ ±15% (~125℃) 470nF±10％ +15%/-40% （125℃~150℃） VFC2HR71D105K2K1B VFC2HR71E474K3M1A VFC2HR71E474K3K1B VFC2HR71E105K3M1A 1.12max. 1.17max. 22V 27V +5/-3V 1.12max. 1.0uF±10％ 1.17max. 470nF±10％ 16V 22V +5/-0V 1.12max. 1.0uF±10％ 1.17max. 470nF±10％ VFC2HR71D474K2K1B VFC2HR71D105K2M1A 16V 22V +5/-0V Voltage Ratio (V1mA / V0.1mA) 1.17max. VFC2HL81D105K2M1A VFC2HR71C474K1M1A Varistor Voltage (V1mA) 470nF±10％ VFC2HL81D474K2K1B VFC2HL81D105K2K1B Rated Voltage (DC) ±15％ 22V 27V +5/-3V 1.12max. 1.0uF±10％ 1.12max. 470nF±10％ 26V 1.0uF±10％ VFC2HR71E105K3K1B MURATA MFG.CO.,LTD 33V +6/-0V 1.10max. Spec No. JEWE243B-9101C-01 Customer Part Number Reference Only Capacitance value ,Tolerance Part Number VFC2HR71F474K4M1A Temperature Characteistics VFC2HR71F105K4K1B VFC2HR71H104K5M1A VFC2HR71H104K5K1B VFC2HR71J104K6M1A VFC2HR71J104K6K1B ■ Rated Voltage (DC) Varistor Voltage (V1mA) 34V 47V +7/-7V 1.10max. 1.0uF±10％ ±15％ 100nF±10％ 56V 68V +4/-6V 1.07max. 100nF±10％ 65V 82V +8/-8V 1.06max. Operating Temperature・Storage Temperature -55～+150℃(VFC2HL8 Series) -55～+125℃ (VFC2HR7 Series) ■ Insulation Resistance 1MΩ min ■ Maximum Peak Current 200A （except VFC2HR71J104K6） 160A （for VFC2HR71J104K6） ■ Equivalent Circuit (1) ■ Unit Mass (Typical value) (2) 0.16g 4.Style and Dimensions See item 10. 5.Marking Capacitance Capacitance Tolerance Varistor Voltage Trade Mark Voltage Ratio (V1mA / V0.1mA) 1.12max. 470nF±10％ VFC2HR71F474K4K1B VFC2HR71F105K4M1A P2/10 ： Marked three digits system. (105) ： Marked with code (Ｋ) ： Marked with code (2) ： Marked as 6.Testing Condition Temperature : Ordinary Temperature 15 to 35 °C Humidity : Ordinary Humidity 25 to 85%(RH) Temperature : 20±2°C Humidity : 60 to 70% Atmospheric Pressure : 86 to 106 kPa MURATA MFG.CO.,LTD Spec No. JEWE243B-9101C-01 Reference Only P3/10 7.Electrical Performance No. Item 7.1 Style and Dimension 7.2. Marking 7.3 Capacitance and Tolerance 7.4 Insulation Resistance(I.R.) 7.5 Varistor Voltage Specification Meet item 9. Test Method Visual Inspection and measured with Slide Calipers. Marking is able to be read easily. Meet item 3. Visual Inspection. Frequency : 1±0.1kHz Test Voltage : 1±0.2 V(rms) Test Voltage : Rated Voltage Time : 30±5 minutes through a suitable resistor 1MΩ. Measuring Current : 1 mA A + E 7.6 Resistance to Surge Current 7.7 Capacitance/ Varistor Temperature Characteristics Meet Table 1. Table 1 Appearance Varistor Voltage Change Meet Table 2. Table 2 Appearance Capacitance Change Varistor Voltage Change V The surge current shall be applied twice to them. Lightning 雷サージ Surge No damaged. 試験器 Simulator within ±10% No damaged. within ±15% (～125℃) within+15%/-40% (125℃～) within ±10% Wave form : 8/20 μ s Peak current : 200A (for VFC2HR71J104K6 :160A) The number of Times : 2 times (5 minutes interval) Capacitance shall be measured at each step specified in Table 3 after reaching the thermal equilibrium. The capacitance change against the capacitance at step 4 shall be calculated. Table 3 ・VFC2HR7 Step １ Temp. +20 ±2 (°C) ２ ３ ４ ５ ６ ７ -55 ±2 -40 ±2 +20 ±2 +85 ±2 +125 ±2 +20 ±2 ・VFC2HL8 Step １ ２ Temp. +20 -55 ±2 ±2 (°C) MURATA MFG.CO.,LTD ３ ４ -40 ±2 +20 ±2 ５ ６ ７ 8 +85 +125 +150 +20 ±2 ±2 ±2 ±2 Spec No. JEWE243B-9101C-01 Reference Only P4/10 8. Q200 Requirement 8-1. Performance (based on Table 13 for Ferrite EMI SUPPRESSORS/FILTERS) AEC-Q200 Rev.D issued June. 1 2010 No. Stress 3 High Temperature Exposure (Storage) AEC-Q200 Test Method 1000hours at 125C Set for 24hours at room temperature, then measured. Murata Specification / Deviation Measurement at 24+/-2 hours after test conclusion. 4 5 7 8 Temperature Cycling Destructive Physical Analysis Biased Humidity 1000cycles(-55C to 125C) Measurement at 24±2 hours after test conclusion. Per EIA469 No electrical tests Meet Table 4 after testing. Table 4 Appearance No damaged. Capacitance within ± 10% Change Varistor Voltage within ± 10% Change Meet Table 4 after testing. Not Applicable 1000hours 85C/85%RH. Meet Table 4 after testing. Apply Maximum rated Voltage. Measurement at 24+/-2 hours after test conclusion. Operational Life 1000hours at 125C Meet Table 4 after testing. Apply Maximum rated Voltage. 9 External Visual 10 Physical Dimension 11 Terminal Strength (Leaded) 12 Resistance to Solvents 13 Mechanical Shock Measurement at 24+/-2 hours after test conclusion. Visual inspection Meet ITEM 10.1 (Style and Dimensions) Per MIL-STD-202 Method 211 Conditions:A,C No abnormalities No defects Condition E: Not Applicable Lead wire should not cut off. Capacitor should not be broken. Per MIL-STD-202 Method 215 Not Applicable Meet Table 4 after testing. 15 Resistance to Soldering Heat 17 ESD Per MIL-STD-202 Method 213 Figure 1 of Method 213. Condition C(100g's/6ms/Half sine) Three times each 6 direction. 5g's for 20 minutes, 12cycles each of 3 oritentations Osscillation Frequency : 102000Hz. No heating. 260C +/-5 degree C Immersion time 10s Per AEC-Q200-002 18 Solderbility Per J-STD-002 Method A Along the circumference of terminal shall be covered with new solder at least 90%. 19 Electrical Characterization 20 Flammability 21 Board Flex 30 Electrical Transient Conduction Measured :Capacitance No defects Per UL-94 Per AEC Q200-005 Per ISO-7637-2 Not Applicable Not Applicable Not Applicable 14 Vibration Meet Table 4 after testing. Meet Table 4 after testing. Meet Table 4 after testing. ESD Rank: Refer to Item 3. Rating. MURATA MFG.CO.,LTD Reference Only Spec No. JEWE243B-9101C-01 P5/10 9.Mounting Hole Bulk Taping φ0.8-2 5.2±0.4 5.2±0.4 φ1.0-2 (in mm) 10.Style and Dimension 10.1 Bulk Type 5.0 max 4.0 max 3.0 max 6.0max Marking Side 26.0±1.0 5.2±0.5 1 (2) 2 (1) (in mm) 10.2 Taping Type (All symbols in the illustrations below are described in Table 5.) 3.0max MURATA MFG.CO.,LTD Reference Only Spec No. JEWE243B-9101C-01 Table 5 Code Description Dimensions P Pitch of Component P0 P1 Pitch of Sprocket Hole Length from Hole Center to Lead Length from Hole Center to Component Center Width of Body Deviation along tape, Left or Right Carrier Tape Width P2 D ΔS W W1 l D0 d t1 t2 Δh1 Δh2 L W0 W2 H F Remark Product Inclination ΔS Determines Crossing 12.7 12.7±0.2 3.85±0.7 Shift In Tape In Direction of Feed 6.35±1.3 5.0 max. 0±1.0 18.0±0.5 9.0± Position of Sprocket Hole Protrusion Length Diameter of Sprocket Hole Lead Diameter Total Tape Thickness Total Thickness, Tape and Lead Wire Deviation across Tape,front Deviation across Tape,rear P6/10 ０ ０．５ Tape Widthwise Shift +0.5 ∼ -1.0 φ 4.0±0.1 φ 0.48 0.6±0.3 Includes Thickness of Bonding Tape 1.5 max. 1.0 max. 1.0 max. ０ Portion to Cut in Case of Defect Hold Down Tape Width Hold Down Tape Position Lead length between sprocket hole and forming position 11.0±１．０ 12.0±0.5 1.5±1.5 Lead Spacing 5.0±０．２ 18.5±1.0 ０．８ (in mm) 11.Taping 11.1 (1) A maximum of 0.3% of the components quantity per reel or Ammo pack may be missing without consecutive missing components. (2) The adhesive power of the tape shall have over 2.94N at the following condition. F 2.94 N Hold down tape Carrier tape (3) Splicing method of tape 1. Carrier tape Carrier tape shall be spliced by cellophane tape. Overall thickness shall be less than 1.05 mm. Direction of feed Overall thickness Hold down tape Carrier tape 30 to 50 Cellophane tape (in mm) 2. Hold down tape Hold down tape shall be spliced with overlapping. Overall thickness shall be less than 1.05 mm. Direction of feed 20 to 30 Hold down tape Hold down tape Carrier tape Overall thickness 3. Both carrier tape and hold down tape Both tapes shall be cut zigzag and spliced with splicing tape. MURATA MFG.CO.,LTD (in mm) Spec No. JEWE243B-9101C-01 Reference Only P7/10 12. Packing 12.1 Packing quantity Minimun Packing Form and Quantity Terminal Configuration A Unit Quantity Packing Form Bulk 250 pcs. In a plastic bag Taping 2000 pcs. In an Ammo pack ∗ A quantity in a container is depending on a quantity of an order. 12.2 Packing Form (1)Bulk 1.Products are packed into a plastic bag. 2.The plastic bags are put into a container (corrugated cardboard box) depending on a quantity of an order. the plastic bag with products a plastic bag a container  container label (2) Taping · An ammo pack 1. Folding the tape per 25 pitches, products are packed into an ammo package so that each product of each layer wound zigzag is put on top of one another. 2. The dimensions of the ammo package are as follows. 3. The ammo packages are put into a container (corrugated cardboard box) depending on a quantity of an order. 4. Not less than 3 consecutive of component shall be missing on both edge of tape. zig zag 240 max. 340 max. label 25 pitches The unloading direction : Right The hold down tape : Upper The product body : Left along the unloading direction MURATA MFG.CO.,LTD 51 max. (in mm) Spec No. JEWE243B-9101C-01 Reference Only P8/10 13.Marking on package 13.1 Unit Package Bulk : Marked on a plastic bag. Taping : Marked on a label stuck on a reel. Marking on a unit package consists of : Customer part number, MURATA part number, Inspection number(∗1), RoHS marking(∗2), Quantity, etc ∗1) « Expression of Inspection No. » □□ OOOO ××× (1) (1) Factory Code (2) Date (2) (3) First digit : Year / Last digit of year Second digit : Month / Jan. to Sep. → 1 to 9, Oct. to Dec. → O,N,D Third, Fourth digit : Day (3) Serial No. ∗2) « Expression of RoHS marking » ROHS – Y (△) (1) (2) (1) RoHS regulation conformity parts. (2) MURATA classification number 13.2 Container Marking on the label sticked on a container consists of : Customer name Purchasing Order Number, Customer Part Number, MURATA part number, RoHS marking (∗2), Quantity, etc 14. ! Caution 14.1 Mounting holes Mounting holes should be designed as specified in this specifications. Or different design from this specifications may cause cracks in ceramics which may lead to smoking / firing. 14.2 Lead Type Capacitors with Varistor Function Products should not be applied for the absorption of surges which have large energy (ex. lighting surges,switching surges) because it is designed for the absorption of motor surges. 14.3 Caution for the product angle adjust work Take care not to apply any mechanical stress to product body at the lead terminal bending process for product angle adjustment after insertion. 14.4 Limitation of Applications Please contact us before using our products for the applications listed below which require especially high reliability for the prevention of defects which might directly cause damage to the third party's life, body or property. (1) Aircraft equipment (7) Traffic signal equipment (2) Aerospace equipment (8) Disaster prevention / crime prevention equipment (3) Undersea equipment (9) Data-processing equipment (4) Power plant control equipment (10) Applications of similar complexity and /or reliability requirements to the applications listed in the above (5) Medical equipment (6) Transportation equipment (vehicles, trains, ships, etc.) 14.5 Operating Voltage When DC-rated capacitors are to be used in AC or ripple current circuits, be sure to maintain the Vp-p value of the applied voltage or the V0-p which contains DC bias within the rated voltage range. When the voltage is applied to the circuit, starting or stopping may generate irregular voltage for a transit period because of resonance or switching. Be sure to use a capacitor with a rated voltage range that includes these irregular voltages. When DC-rated capacitors are to be used in input circuits from commercial power source (AC filter), be sure to use Safety Recognized Capacitors because various regulations on withstand voltage or impulse withstand established for all equipment should be taken into consideration. MURATA MFG.CO.,LTD Spec No. JEWE243B-9101C-01 Reference Only P9/10 15. Notice 15.1 Soldering (1) Use rosin-based flux. Do not use strong acidic flux with halide content exceeding 0.2(wt)% (chlorine conversion value). Use Sn-3.0Ag-0.5Cu solder T e m p e ra tu re (° C ) (2) Standard flow soldering profile. Pre- heating(in air) Soldering 300 Gradual Cooling (in air) Solder temp. 250 Solder temperature 250～260 °C 200 150 100 Soldering time 4～6s 50 1 minutes min. Soldering time (3) Resistance to soldering iron goes in the following condition that tip temperature is 350 °C max. and soldering time is 5 s max. (4) Products and the leads should not be subject to any mechanical stress during soldering process. (and also while subject to the equivalent high temperature.) (5)When the outer coating is hot (over 100 degreescentigrade) after soldering, it becomes soft and fragile,so please be careful not to give it mechanical stress. 15.2 Cleaning Conditions Do not clean after soldering. 15.3 Operating Temperature and Self-generated Heat Keep the surface temperature of a capacitor with varistor function below the upper limit of its rated operating temperature range. Be sure to take into account the heat generated by the capacitor itself. When the capacitor is used in a highfrequency current, pulse current or similar current, it may have self-generated heat due to dielectric loss. In the case of " X7R char. Capacitors," applied voltage load should be such that self-generated heat is within 20 °C under the condition where the capacitor is subjected at an atmosphere temperature of 25 °C. When measuring, use a thermocouple of small thermal capacity -K of ø0.1mm under conditions where the capacitor is not affected by radiant heat from other components or wind from surroundings. Excessive heat may lead to deterioration of the capacitor's characteristics and reliability. Never attempt to perform measurement with the cooling fan running. Otherwise, accurate measurement cannot be ensured. 15.4 Operating Environment (1) Do not use products in corrosive gases such as chlorine gas, acid or sulfide gas. (2) Do not use products in the environment where water, oil or organic solvents may adhere to products. (3) Do not adhere any resin to products, coat nor mold products with any resin (including adhesive)to prevent mechanical and chemical stress on products. 15.5 Vibration and impact Do not expose a capacitor with varistor function or its leads to excessive shock or vibration during use. 15.6 Capacitance change of capacitor Tenperature Charastristics：X7R In case Capacitors have an aging characteristic, whereby the capacitor continually decreases its capacitance slightly if the capacitor is left on for a long time. Moreover, capacitance might change greatly depending on the surrounding temperature or an applied voltage. Please contact us if you use a capacitor with varistor function in a circuit that needs a tight (narrow) capacitance tolerance (e.g., a time-constant circuit). MURATA MFG.CO.,LTD Spec No. JEWE243B-9101C-01 Reference Only P10/10 15.7 Storage and handling requirements (1) Storage period Use the products within 12 months after delivered. Solderability should be checked if this period is exceeded. (2) Storage environment condition To prevent products quality deterioration, storage conditions should be controlled as follows ; 1. Temperature : -10 to 40 degrees centigrade 2. Humidity : 15 to 85% relative humidity 3. Products should be stored without sudden changes in temperature and humidity. Don't keep products in corrosive gases such as sulfur,chlorine gas or acid, or it may cause oxidization of lead terminals resulting in poor solderability. 4. Products should be stored on the palette for the prevention of the influencefrom humidity, dust and so on. 5. Products should be stored in the warehouse without heat shock, vibration,direct sunlight and so on. (3) Handling Conditions Care should be taken when transporting or handling product to avoid excessive vibration or mechanical shock. 16. ! Note (1)Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product. (2)You are requested not to use our product deviating from the reference specifications. (3)The contents of this reference specification are subject to change without advance notice. Please approve our product specifications or transact the approval sheet for product specifications before ordering. MURATA MFG.CO.,LTD