HIGH TEMPERATURE SOLUTIONS www.avx.com Tantalum Capacitors | Ceramic Capacitors Glass Capacitors | EMI Filters Circuit Protection | NTC Thermistors Version 16.6 Table of Contents Introduction Product Line 2 3-6 TANTALUM CAPACITORS THJ Series THJ+ Series TWC-Y Wet Tantalum Series TWA-Y Wet Tantalum Series THH Hermetic Series -55°C to +175°C -55°C to +200°C -55°C to +200°C -55°C to +200°C -55°C to +230°C 8-11 12-14 15-16 17-20 21-24 -55°C to +250°C -55°C to +150°C -55°C to +150°C -55°C to +150°C -55°C to +150°C 26-30 31-33 34-37 38-41 42-47 CERAMIC CAPACITORS AT Series X8R/X8L MLCC MLCC with Flexiterm® MLCC Tin/Lead Termination “B” Radial Leads/SkyCap® AR Series SWITCHED MODE POWER SUPPLY (SMPS) SMX SXP -55°C to +200°C -55°C to +200°C 49-52 53-54 75°C to +200°C 56-61 -55°C to +175°C 63-66 GLASS DIELECTRIC ET Series Glass Capacitors RF/MICROWAVE MLCCs SQCB CIRCUIT PROTECTION & SIGNAL INTEGRITY CANAT VR15 -55°C to +150°C -55°C to +150°C 68-71 72-73 -55°C to +150°C -55°C to +150°C -55°C to +150°C -55°C to +150°C -55°C to +150°C 75-76 77-78 79-80 84-88 89 -55°C to +200°C 91 NTC THERMISTORS NB 12-20 NB 21-23 NC 12-20 ND/NE/NV NJ/NI/NK ADVANCED TECHNOLOGY FILTERS WQ / XQ / YQ / ZQ APPLICATION NOTES Down-hole Applications Notes 93-95 www.avx.com | 1 INTRODUCTION AVX is the world’s leading manufacturer of passive electronic components. The demands for components used in extreme environmental conditions continue to grow considerably. The evolution of temperature critical applications are generating the need for components capable of enduring temperatures approaching or exceeding 250°C. AVX provides an array of components that fulfill these stringent requirements. Specific dielectric materials, construction methods and testing procedures are used to achieve exceptional high temperature performance. Advanced designs and testing capabilities at AVX provide the necessary tools to incorporate these components into high temperature applications such as down-hole oil exploration, aerospace and military equipment. For new designs or applications please contact AVX at: [email protected] A KYOCERA GROUP COMPANY Product Line TANTALUM CAPACITORS THJ and THJ+ Series Capacitors • Tantalum capacitor design and manufactured for high temperature 175°C application • Selected 200°C part numbers available as THJ+ Series • SMD EIA case sizes for fast pick & place assembly process • Stable operation parameters below -50°C (unlike wet electrolytics) • 3x reflow +260°C and RoHS compliant • Gold plated termination for hybrid assembly +175°C and +200°C Operating Temp -55ºC to +175ºC (THJ) -55ºC to +200ºC (THJ+) Case Size 1206 - 2917 Voltage 6.3V - 50V Capacitance 0.1μF - 220μF TWC-Y High Temperature Wet Tantalum Capacitors • Hermetically Sealed Axial Leaded Tantalum Case • Standard Case Sizes: T1-T4 per M39006 • Surge Resistant • Meets Shock & Vibration per MIL-STD-202, Method 213 & 204 • Most of the values are capable to continuously operate over 500 hours with 60% rated voltage at 200°C • Higher robustness at negative voltage operation condition +200°C Operating Temp Case Voltage Capacitance TWA-Y High Temperature Wet Tantalum Capacitors • Most of the values are capable to continuously operate over 2000 hours with 60% rated voltage at 200°C • Hermetically sealed to withstand hard shock and vibration (MIL-STD- 202) • High capacitance cathode design allows very high CV in standard case sizes T1-T4 +200°C Operating Temp Case Voltage Capacitance THH Hermetic Series Capacitors • World's first 230°C rated SMD Tantalum capacitor • Hermetically sealed package • Long term stability under continuous 230°C with 50% rated voltage • Large case sizes including CTC-21D provide high capacitance values 050516 -55ºC to +200ºC Axial T1 - T4 6V - 125V 6.8μF - 560μF -55ºC to +200ºC Axial T1 - T4 15V - 125V 10μF - 3000μF +230°C Operating Temp Case Size Voltage Capacitance -55ºC to +230ºC 9 (CTC-21D), I 16V - 63V 3.3μF - 330μF www.avx.com | 3 Product Line MLCC CERAMIC CAPACITORS AT Series 200ºC and 250ºC • High temperature C0G and VHT dielectrics • Tested to MIL-STD-202 • Ideally suited for high temperature applications up to +250°C. • Life tested to 1000hrs @ 200% rated voltage and +250°C. • High current handling, volumetric efficiency, and insulation resistance. • Very low ESR/ESL. • Pd / Ag and 100% Tin Plated (RoHS Compliant) terminations available. Operating Temp Case Size Voltage Capacitance X8R/X8L MLCC +150°C • Designed for use in applications up to 150ºC • Excellent reliability compared to other capacitor technologies • Low ESR / ESL compared to other technologies • Tin solder finish • FLEXITERM® available • Epoxy termination for hybrid available • Qualified to the highest automotive AEC-Q200 standards Operating Temp Case Size Voltage Capacitance MLCC with FLEXITERM® • Flexible termination system able to withstand 5mm bend test guaranteed. • Available with X8R dielectric for high temperature applications. • Increased temperature cycling performance, 3000 cycles and beyond. • Reduction in circuit board flex failures. • Base metal electrode system. • Automotive or commercial grade products available. • MLCC with Tin/Lead Terminations • Available with NP0 (C0G) and X8R dielectrics for high temperature applications. Operating Temp Case Size Voltage Capacitance -55ºC to +150ºC 0603 - 1206 25 - 50V 270pF - 0.47μF +150°C Operating Temp Case Size Voltage Capacitance Radial Leads/SkyCap® AR Series • Conformally Coated Radial Leaded MLCC • Available with C0G (NP0), X7R and X8R Dielectric • Rated to 3000, 2000, 1000, 200, 100, 50 Volts • Epoxy case material • 100% Tin leads • Qualified to AEC-Q200, PPAP Available -55ºC to +150ºC 0603 - 1206 16 - 100V 330pF - 1μF +150°C MLCC with Tin/Lead Termination “B” 4 | www.avx.com -55°C to +250°C 0805 - 2220 16 - 50V 100pF - 1μF -55ºC to +150ºC 0402 - 2220 16 - 500V 0.5pF - 0.47μF +150°C Operating Temp Lead Spacing Voltage Capacitance -55ºC to +150ºC 0.20 - 0.40 inches 50 - 200V 1pF - 0.33μF 050516 Product Line SWITCHED MODE POWER SUPPLY (SMPS) SMX Style Stacked MLC Capacitors • Ideally suited for high temperature applications up to 200ºC • Very low ESR and ESL • Excellent capacitance retention with frequency •Excellent high frequency performance • Low DC leakage current • High current handling capabilities • Custom configurations are available such as unique geometries, lead configurations, packaging, and stress relief mounting options. +200°C Operating Temp Case Size Voltage Capacitance SXP Style SMPS MLC Capacitors • Low ESR, low ESL • Low DC leakage • Excellent high frequency performance • Ideally suited for high temperature applications up to 200ºC • Excellent mechanical protection suitable for extreme harsh environment -55ºC to +200ºC SMX 1 - 6 25 - 500V 0.0039 - 340μF +200°C Operating Temp Case Size Voltage Capacitance -55ºC to +200ºC SXP 1 - 4 50 - 1000V 100pF - 10μF GLASS DIELECTRIC ET Series Glass Capacitors • Glass dielectric • Working temperature range -75°C to 200°C • Simple, rugged design and construction • Available in both axial and radial leaded configurations • Values from 0.5 pF to 2400 pF +200°C Operating Temp Case Size Voltage Capacitance -75ºC to +200ºC ET06 - ET15 50V 0.5pF - 2400pF RF/MICROWAVE MLCCs SQCB Series +175°C • Low ESR • High Q • High Self Resonance • Capacitance Range 0.1 pF to 5100 pF • 175ºC Capability (+90 ± 30 PPM/ºC Dielectric) 050516 Operating Temp Case Size Voltage Capacitance -55ºC to +175ºC 1210 50 - 500V 0.1pF - 5100pF www.avx.com | 5 Product Line CIRCUIT PROTECTION & SIGNAL INTEGRITY High Temperature Automotive • Rated at 150°C • ESD rating up to 25kV contact • Low capacitance for capacitance sensitive applications - RF, antennas, data lines • EMI/RFI attenuation in off state • AEC Q200 qualified +175°C Operating Temp -55ºC to +150ºC Case Size 0603 to 0612 4x array Voltage 18V - 32V Capacitance 10 - 22pF Radial Leaded High Temperature Automotive • Rated at 150°C • Epoxy encapsulated for harsh environment • EMI/RFI attenuation in off state • Excellent current and energy handling • AEC Q200 qualified +175°C Operating Temp Size Voltage Energy Peak Current -55ºC to +150ºC VR15, VR20 14V - 48V 0.1 - 2.0J 30 - 120A NTC THERMISTORS SMT NTC Thermistors • Rated to 150°C • Wide resistance range • Fast thermal response • Ni Barrier/100% Sn and PdPtAg termination options • AEC Q200 qualified, custom hi-rel testing +150°C Operating Temp Case Size Voltage Capacitance Leaded and Leadless NTC Thermistors • Rated at 150°C • Leaded disc or high accuracy bead NTC • Various coating options and configurations • Leadless options – metallized disc or high accuracy chip • Fast response, excellent reliability • AEC-Q200 qualified, custom hi-rel testing -55ºC to +150ºC 0603 - 1206 18Ω - 1MΩ 3250 - 4500K +150°C Operating Temp Disc Size Resistance B value (25/85) Tolerance -55ºC to +150ºC 2.4mm - 9mm 68Ω - 1MΩ 3250 - 4840K From ±1% ADVANCED TEHCNOLOGY FILTERS Hermertic High Temperature Solder-Ins • Fully Hermetic design • 400°C installation temperature • -55°C to +200°C operating temperature • Epoxy free construction • MIL-PRF-31033 Discoidal Capacitor • Custom designs available. Contact AVX at [email protected] 6 | www.avx.com +200°C Operating Temp Case Size Voltage Capacitance -55ºC to +200ºC WQ/XQ/YQ/ZQ 20 - 300V 10pF - 1.4mF 050516 TANTALUM CAPACITORS AVX is a worldwide leading supplier of tantalum capacitors. Tantalum capacitors provide high capacitance, high reliability, stable electrical performance under high temperature and and no piezo noise effect. Some of the innovative solutions include: • THJ Series High temperature tantalum chip capacitors rated up to 175ºC. Capacitance ranges from 0.1μF to 220μF with voltage ratings up to 50V. • THJ Series with Extension to 200ºC An extension of the THJ series, these SMD tantalum capacitors are rated up to 200ºC with capacitance ranging from 10μF to 220μF. • TWC-Y Wet Tantalum The TWC-Y high temperature series represents a COTS-Plus version of conventional wet electrolytic tantalum capacitors that are designed for use at 200°C. The components listed are now capable of 500 hours of operation at extreme temperature with the applicable derated voltage. • TWA-Y Wet Tantalum Wet electrolytic tantalum capacitors with a hermetic welded tantalum can and header assembly and 200°C operating temperature rating. Contact factory for customized options. • THH 230ºC Hermetic Series High temperature SMD tantalum capacitors with ceramic hermetic seal. These components are rated for up to 230ºC operating temperature up to 1000 hours at 50% rated voltage, and 200°C up to 10,000 hours at 50% rated voltage on selected codes. A KYOCERA GROUP COMPANY High Temperature Tantalum Chip Capacitor THJ Series FEATURES • Improved reliability – 2x standard • 175°C @ 0.5VR continuous operation • CV range: 0.10-220μF / 6.3-50V • 5 case sizes available • Low ESR options on approval • High temperature automotive and industry applications LEAD-FREE COMPATIBLE COMPONENT SnPb termination option is not RoHS compliant. APPLICATIONS • Automotive ECU and ABS control electronics • Geothermal instrumentation CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/THJ.pdf CASE DIMENSIONS: millimeters (inches) Code MARKING A, B, C, D, E CASE EIA Code EIA Metric L±0.20 (0.008) W+0.20 (0.008) -0.10 (0.004) H+0.20 (0.008) –0.10 (0.004) W1 ±0.20 (0.008) A+0.30 (0.012) -0.20 (0.008) S Min. A 1206 3216-18 3.20 (0.126) 1.60 (0.063) 1.60 (0.063) 1.20 (0.047) 0.80 (0.031) 1.10 (0.043) B 1210 3528-21 3.50 (0.138) 2.80 (0.110) 1.90 (0.075) 2.20 (0.087) 0.80 (0.031) 1.40 (0.055) C 2312 6032-28 6.00 (0.236) 3.20 (0.126) 2.60 (0.102) 2.20 (0.087) 1.30 (0.051) 2.90 (0.114) D 2917 7343-31 7.30 (0.287) 4.30 (0.169) 2.90 (0.114) 2.40 (0.094) 1.30 (0.051) 4.40 (0.173) E 2917 7343-43 7.30 (0.287) 4.30 (0.169) 4.10 (0.162) 2.40 (0.094) 1.30 (0.051) 4.40 (0.173) W1 dimension applies to the termination width for A dimensional area only. HOW TO ORDER THJ B 105 Type Case Size See table above Capacitance Code pF code: 1st two digits represent significant figures 3rd digit represents multiplier (number of zeros to follow) * 035 R JN — Tolerance K=±10% M=±20% Rated DC Voltage 006=6.3Vdc 010=10Vdc 016=16Vdc 020=20Vdc 025=25Vdc 035=35Vdc 050=50Vdc Packaging R = Pure Tin 7" Reel S = Pure Tin 13" Reel A = Gold Plating 7" Reel B = Gold Plating 13" Reel H = Tin Lead 7" Reel Standard Suffix OR Additional characters may be added for special requirements V = Dry pack Option (Contact Manufacturer) Low ESR in mΩ K = Tin Lead 13" Reel (Contact Manufacturer) 0100 H, K = Non RoHS TECHNICAL SPECIFICATIONS Technical Data: Capacitance Range: Capacitance Tolerance: Rated Voltage (VR) Category Voltage (VC) Category Voltage (VC) Surge Voltage (Vs) Surge Voltage (Vs) Surge Voltage (Vs) Temperature Range: Reliability: Termination Finish: 8 | www.avx.com ⱕ +85°C: ⱕ +125°C: ⱕ +175°C: ⱕ +85°C: ⱕ +125°C: ⱕ +175°C: All technical data relate to an ambient temperature of +25°C 0.10 μF to 220 μF ±10%; ±20% 6.3 10 16 20 25 35 50 4 7 10 13 17 23 33 3 5 8 10 12 17 25 8 13 20 26 32 46 65 5 8 13 16 20 28 40 4 6 10 12 15 21 30 -55ºC to 175°C voltage derating. 0.5% per 1000 hours at 85°C, VR with 0.1Ω/V series impedance, 60% confidence level, 3.5 Fits at 40°C, 0.5VR Sn Plating (standard), Gold Plating available on request Meets requirements of AEC-Q200 050516 High Temperature Tantalum Chip Capacitor THJ Series CAPACITANCE AND RATED VOLTAGE RANGE (LETTER DENOTES CASE SIZE) Capacitance μF Code 0.10 104 0.15 154 0.22 224 0.33 334 0.47 474 0.68 684 1.0 105 1.5 155 2.2 225 3.3 335 4.7 475 6.8 685 10 106 15 156 22 226 33 336 47 476 68 686 100 107 150 157 220 227 6.3V (J) Rated voltage (VR ) to 85°C (Voltage Code) 16V (C) 20V (D) 25V (E) 10V (A) A A A A A, A(1500) A A/B A/B B B C, C(500) C C/D D E A A A A/B B B C C D D A A A B B B C C D D B, B(1500) B C C C D D D 35V (V) A A A A B B A/B C C C C D D D D, D(300) E, E(150) 50V (T) D D D D/E E Available Ratings, (ESR ratings in mOhms in brackets) Note: Voltage ratings are minimum values. AVX reserves the right to supply higher ratings in the same case size, to the same reliability standards. THJ 175°C Voltage vs Temperature Rating 120% 100% 100% 100% 100% 80% 80% 60% Rated range 66% 50% 40% 20% 0% -55°C 050516 0°C 40°C 60°C 85°C 105°C 125°C 175°C www.avx.com | 9 High Temperature Tantalum Chip Capacitor THJ Series RATINGS & PART NUMBER REFERENCE AVX Part No. Case Capacitance Size (μF) Rated Voltage (V) Rated Category Category Temperature Voltage Temperature (ºC) (V) (ºC) THJA475*006#JN THJA685*006#JN THJA106*006#JN THJB156*006#JN THJB226*006#JN THJB336*006#JN THJC476*006#JN THJC686*006#JN THJD107*006#JN THJD157*006#JN A A A B B B C C D D 4.7 6.8 10 15 22 33 47 68 100 150 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 85 85 85 85 85 85 85 85 85 85 THJA335*010#JN THJA475*010#JN THJA685*010#JN THJA106*010#JN THJB106*010#JN THJB156*010#JN THJB226*010#JN THJC336*010#JN THJC476*010#JN THJD686*010#JN THJD107*010#JN THJE227*010#JN A A A A B B B C C D D E 3.3 4.7 6.8 10 10 15 22 33 47 68 100 220 10 10 10 10 10 10 10 10 10 10 10 10 85 85 85 85 85 85 85 85 85 85 85 85 THJA225*016#JN THJA225*016#1500 THJA335*016#JN THJA475*016#JN THJB475*016#JN THJA685*016#JN THJB685*016#JN THJB106*016#JN THJB156*016#JN THJC226*016#JN THJC226*016#0500 THJC336*016#JN THJC476*016#JN THJD476*016#JN THJD686*016#JN THJE107*016#JN A A A A B A B B B C C C C D D E 2.2 2.2 3.3 4.7 4.7 6.8 6.8 10 15 22 22 33 47 47 68 100 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 85 THJA155*020#JN THJB335*020#JN THJC156*020#JN THJD336*020#JN A B C D 1.5 3.3 15 33 20 20 20 20 85 85 85 85 THJA474*025#JN THJA684*025#JN THJA105*025#JN THJB225*025#JN THJB225*025#1500 THJC685*025#JN THJC106*025#JN THJD226*025#JN THJD336*025#JN A A A B B C C D D 0.47 0.68 1.0 2.2 2.2 6.8 10 22 33 25 25 25 25 25 25 25 25 25 85 85 85 85 85 85 85 85 85 THJA104*035#JN THJA154*035#JN THJA224*035#JN THJA334*035#JN THJB474*035#JN THJB684*035#JN THJA105*035#JN THJB105*035#JN THJC155*035#JN THJC225*035#JN THJC335*035#JN THJC475*035#JN THJD685*035#JN A A A A B B A B C C C C D 0.1 0.15 0.22 0.33 0.47 0.68 1.0 1.0 1.5 2.2 3.3 4.7 6.8 35 35 35 35 35 35 35 35 35 35 35 35 35 85 85 85 85 85 85 85 85 85 85 85 85 85 10 | www.avx.com 6.3 Volt @ 85°C 3 175 3 175 3 175 3 175 3 175 3 175 3 175 3 175 3 175 3 175 10 Volt @ 85°C 5 175 5 175 5 175 5 175 5 175 5 175 5 175 5 175 5 175 5 175 5 175 5 175 16 Volt @ 85°C 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 8 175 20 Volt @ 85°C 10 175 10 175 10 175 10 175 25 Volt @ 85°C 12 175 12 175 12 175 12 175 12 175 12 175 12 175 12 175 12 175 35 Volt @ 85°C 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 17 175 DCL Max. (μA) DF Max. (%) ESR Max. @ 100kHz (Ω) MSL 0.5 0.5 0.6 0.9 1.4 1.9 3.0 4.3 6 9.5 6 4.5 4.5 6 6 6 6 6 4.5 6 6 2.6 2.2 2.5 2.5 2.2 1.6 1.5 0.4 0.9 0.5 0.5 0.7 1 1 1.5 2.2 3.3 4.7 6.8 10 22 6 4.5 4.5 6 4.5 4.5 6 6 4.5 4.5 6 10 0.5 0.5 0.5 0.8 0.8 1.1 1.1 1.6 2.4 3.5 3.5 5.3 7.5 7.5 10.9 16 100kHz RMS Current (mA) 25ºC 85ºC 125ºC 175ºC 1 1 1 1 1 1 1 1 11) 11) 112 170 185 184 184 197 262 271 612 408 101 153 166 166 166 177 236 244 551 367 45 68 74 74 74 79 105 108 245 163 22 34 37 37 37 39 52 54 122 82 5.5 2.9 2.6 2.7 1.8 1.5 2.4 1.6 0.5 0.4 0.9 0.5 1 1 1 1 1 1 1 1 1 11) 11) 11) 117 161 170 167 217 238 188 262 469 612 408 574 105 145 153 150 196 214 169 236 422 551 367 517 47 64 68 67 87 95 75 105 188 245 163 230 23 32 34 33 43 48 38 52 94 122 82 115 4.5 4.5 6 4.5 6 6 6 4.5 6 6 4.5 6 6 6 4.5 8 3 1.5 5 2.9 3.5 3.5 2.5 2.8 2 1.6 0.5 1.5 0.9 0.9 0.9 0.4 1 1 1 1 1 1 1 1 1 1 1 1 1 11) 11) 11) 158 224 122 161 156 146 184 174 206 262 469 271 371 408 408 642 142 201 110 145 140 132 166 157 186 236 422 244 334 367 367 578 63 89 49 64 62 59 74 70 82 105 188 108 148 163 163 257 32 45 24 32 31 29 37 35 41 52 94 54 74 82 82 128 0.5 0.7 3.0 6.6 6 6 6 6 6.5 3 1.7 0.9 1 1 1 11) 107 168 254 408 97 151 229 367 43 67 102 163 21 34 51 82 0.5 0.5 0.5 0.6 0.6 1.7 2.5 5.5 8.3 4 4 3 6 6 6 6 6 6 14 10 5.2 4.5 1.5 2 1.8 0.9 0.9 1 1 1 1 1 1 1 11) 11) 73 87 120 137 238 235 247 408 408 66 78 108 124 214 211 222 367 367 29 35 48 55 95 94 99 163 163 15 17 24 27 48 47 49 82 82 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.8 1.2 1.6 2.4 4 4 4 4 4 4 4 4 6 6 6 6 6 24 21 18 15 10 8 7.5 6.5 4.5 3.5 2.5 2.2 1.3 1 1 1 1 1 1 1 1 1 1 1 1 11) 56 60 65 71 92 103 100 114 156 177 210 224 340 50 54 58 64 83 93 90 103 141 160 189 201 306 22 24 26 28 37 41 40 46 63 71 84 89 136 11 12 13 14 18 21 20 23 31 35 42 45 68 050516 High Temperature Tantalum Chip Capacitor THJ Series RATINGS & PART NUMBER REFERENCE AVX Part No. Case Capacitance Size (μF) Rated Voltage (V) Rated Category Category Temperature Voltage Temperature (ºC) (V) (ºC) THJD106*035#JN THJD156*035#JN THJD226*035#JN THJD226*035#0300 THJE336*035#JN THJE336*035#0150 D D D D E E 10 15 22 22 33 33 35 35 35 35 35 35 85 85 85 85 85 85 THJD335*050#JN THJD475*050#JN THJD685*050#JN THJD106*050#JN THJE106*050#JN D D D D E 3.3 4.7 6.8 10 10 50 50 50 50 50 85 85 85 85 85 17 175 17 175 17 175 17 175 17 175 17 175 50 Volt @ 85°C 25 175 25 175 25 175 25 175 25 175 DCL Max. (μA) DF Max. (%) ESR Max. @ 100kHz (Ω) MSL 3.5 5.3 7.7 7.7 11.6 11.6 6 6 6 6 6 6 1 0.9 0.6 0.3 0.5 0.15 1.7 2.4 3.4 5 5 6 6 6 6 6 1.1 0.9 0.7 0.7 0.7 100kHz RMS Current (mA) 25ºC 85ºC 125ºC 175ºC 11) 11) 11) 11) 11) 11) 387 408 500 707 574 1049 349 367 450 636 517 944 155 163 200 283 230 420 77 82 100 141 115 210 11) 11) 11) 11) 11) 369 463 408 463 486 332 417 367 417 437 148 185 163 185 194 74 93 82 93 97 Moisture Sensitivity Level (MSL) is defined according to J-STD-020. All PNs also available with Dry pack option - MSL 3 (see How to order). 1) –Dry pack option (see How to order) recommended for reduction of stress during soldering. All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes. The EIA & CECC standards for low ESR Solid Tantalum Capacitors allow an ESR movement to 1.25 times catalogue limit post mounting. NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards. QUALIFICATION TABLE TEST Endurance Storage Life Biased Humidity Temperature Stability Surge Voltage THJ series (Temperature range -55ºC to +175ºC) Characteristics Visual examination no visible damage Determine after application of rated voltage for 2000 +48/-0 hours at 85±2ºC and then leaving 1-2 hours at DCL 1.25 x initial limit room temperature. Also determine of 175ºC temperaΔC/C within ±10% of initial value ture, category voltage for 2000 +48/-0 hours and DF initial limit then leaving 1-2 hours at room temperature. Power supply impedance to be ≤0.1Ω/V. ESR 1.25 x initial limit Visual examination no visible damage DCL 1.25 x initial limit 175ºC, 0V, 2000h ΔC/C within ±10% of initial value DF initial limit ESR 1.25 x initial limit Visual examination no visible damage DCL 2 x initial limit Determine after leaving for 1000 hours at 85±2ºC, 85% relative humidity and rated voltage and then ΔC/C within ±10% of initial value recovery 1-2 hours at room temperature. DF 1.2 x initial limit ESR 1.25 x initial limit Condition Step 1 2 3 4 5 6 Temperature°C +20±2 -55+0/-3 +20±2 +85+3/-0 +175+3/-0 +20±2 Duration(min) 15 15 15 15 15 15 Test temperature: 175ºC+3/0ºC Test voltage: 1.3 x category voltage at 175ºC Series protection resistance 1000±100Ω Discharge resistance: 1000Ω Number of cycles: 1000x Cycle duration: 6 min; 30 sec charge, 5 min 30 sec discharge DCL ΔC/C DF +20ºC -55ºC IL* n/a n/a +0/-10% IL* 1.5 x IL* +20ºC +125ºC +175ºC +20ºC IL* 10 x IL* 12.5 x IL* IL* ±5% +10/-0% +18/-0% ±5% IL* 1.5 x IL* 2 x IL* IL* ESR 1.25 x IL* 2.5 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* Visual examination no visible damage DCL initial limit ΔC/C within ±5% of initial value DF initial limit ESR 1.25 x initial limit *Initial Limit 050516 www.avx.com | 11 High Temperature Tantalum Chip Capacitor THJ Series with Extension to 200ºC FEATURES • SMD 200ºC tantalum capacitor • 200°C @ 0.33VR 1000hrs continuous operation • Leakage current after 200ºC 1000hrs less than 1mA • 3x reflow 260°C • Gold plated termination for hybrid assembly • Oil drilling, aerospace, automotive applications • CV range: 10-220μF / 10-16V • 2 case sizes available LEAD-FREE COMPATIBLE COMPONENT APPLICATIONS • Downhole drilling CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/THJ_200C.pdf MARKING CASE DIMENSIONS: millimeters (inches) B, E CASE Code EIA Code B 1210 E 2917 W+0.20 (0.008) –0.10 (0.004) H+0.20 (0.008) –0.10 (0.004) W1±0.20 (0.008) A+0.30 (0.012) –0.20 (0.008) S Min. 3528-21 3.50 (0.138) 2.80 (0.110) 1.90 (0.075) 2.20 (0.087) 0.80 (0.031) 1.40 (0.055) 7343-43 7.30 (0.287) 4.30 (0.169) 4.10 (0.162) 2.40 (0.094) 1.30 (0.051) 4.40 (0.173) EIA Metric L±0.20 (0.008) W1 dimension applies to the termination width for A dimensional area only. HOW TO ORDER THJ E 107 Type Case Size See table above Capacitance Code pF code: 1st two digits represent significant figures 3rd digit represents multiplier (number of zeros to follow) * 016 # JH — Tolerance K = ±10% M = ±20% Rated DC Voltage 010 = 10Vdc 016 = 16Vdc 050 = 50Vdc Packaging A = Gold Plating 7" Reel B = Gold Plating 13" Reel Standard Suffix Additional characters may be added for special requirements V = Dry pack Option TECHNICAL SPECIFICATIONS Technical Data: Capacitance Range: Capacitance Tolerance: Leakage Current DCL @ VR 25ºC Leakage Current DCL @ VC 200ºC, 1000 hrs Rated Voltage (VR) ⱕ +85°C: Category Voltage (VC) ⱕ +200°C: Surge Voltage (Vs) ⱕ +85°C: Surge Voltage (Vs) ⱕ +200°C: Temperature Range: Reliability: Termination Finished: 12 | www.avx.com All technical data relate to an ambient temperature of +25°C 6.8 μF to 220 μF ±10%; ±20% 0.01CV 1mA 10 16 50 3.3 5.3 17 13 20 63 4.3 6.5 21 -55ºC up 200ºC with voltage derating 0.5% per 1000 hours at 85ºC, VR with 0.1Ω/V series impedance, 1000 hrs at 200ºC, 0.33VR Gold Plating Meets requirements of AEC-Q200 050516 High Temperature Tantalum Chip Capacitor THJ Series with Extension to 200ºC CAPACITANCE AND RATED VOLTAGE RANGE (LETTER DENOTES CASE SIZE) Capacitance μF Code 6.8 685 10 106 15 156 22 226 33 336 47 476 68 686 100 107 150 157 220 227 Rated voltage (VR ) to 85°C (Voltage Code) 16V (C) 25V (E) 35V (V) 10V (A) B E* E* 50V (T) E* E* E* E* E E Available Ratings Engineering samples - please contact manufacturer *Codes under development - subject to change Note: Voltage ratings are minimum values. AVX reserves the right to supply higher ratings in the same case size, to the same reliability standards. RATINGS & PART NUMBER REFERENCE AVX Part No. Case Capacitance Size (μF) Rated Voltage (V) DCL DCL ESR Rated Category Category Max. DF Max. Temperature Voltage Temperature MSL @ VC 200ºC Max. Max. @ V @ 100kHz 25ºC R (ºC) (V) (ºC) 1000 hrs (%) (μA) (Ω) (mA) THJE227*010#JH E 220 10 85 THJB106*016#JH THJE107*016#JH B E 10 100 16 16 85 85 10 Volt @ 85°C 200 22 16 Volt @ 85°C 5.3 200 1.6 5.3 200 16 3.3 100kHz RMS Current (mA) 25ºC 85ºC 175ºC 200ºC 1.0 10 0.25 11) 812 731 162 81 1.0 1.0 6 8 2.8 0.25 1 11) 174 812 157 731 35 162 17 81 Moisture Sensitivity Level (MSL) is defined according to J-STD-020. All PNs also available with Dry pack option - MSL 3 (see How to order). 1) –Dry pack option (see How to order) recommended for reduction of stress during soldering. Base terminations material is copper for E case size and Nilo42 for B case size. All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes. NOTE: AVX reserves the right to supply a higher voltage rating or tighter tolerance part in the same case size, to the same reliability standards. 050516 www.avx.com | 13 High Temperature Tantalum Chip Capacitor THJ Series with Extension to 200ºC QUALIFICATION TABLE TEST THJ 200ºC series (Temperature range -55ºC to +200ºC) Characteristics Visual examination no visible damage Determine after application of rated voltage for 2000 +48/-0 hours at 85±2ºC and then leaving 1-2 hours at DCL 1.25 x initial limit room temperature. Also determine of 200ºC temperaΔC/C within ±10% of initial value ture, category voltage for 2000 +48/-0 hours and DF initial limit then leaving 1-2 hours at room temperature. Power supply impedance to be ≤0.1Ω/V. ESR 1.25 x initial limit Visual examination no visible damage DCL 1.25 x initial limit 200ºC, 0V, 2000h ΔC/C within ±10% of initial value DF initial limit ESR 1.25 x initial limit Visual examination no visible damage DCL 2 x initial limit Determine after leaving for 1000 hours at 85±2ºC, 85% relative humidity and rated voltage and then ΔC/C within ±10% of initial value recovery 1-2 hours at room temperature. DF 1.2 x initial limit ESR 1.25 x initial limit Condition Endurance Storage Life Biased Humidity Temperature Stability Step 1 2 3 4 5 6 Temperature°C +20±2 -55+0/-3 +20±2 +85+3/-0 +200+3/-0 +20±2 Duration(min) 15 15 15 15 15 15 Test temperature: 200ºC+3/0ºC Test voltage: 1.3 x category voltage at 200ºC Series protection resistance 1000±100Ω Discharge resistance: 1000Ω Number of cycles: 1000x Cycle duration: 6 min; 30 sec charge, 5 min 30 sec discharge Surge Voltage DCL ΔC/C DF +20ºC -55ºC IL* n/a n/a +0/-10% IL* 1.5 x IL* +20ºC +125ºC +200ºC +20ºC IL* 10 x IL* 12.5 x IL* IL* ±5% +10/-0% +18/-0% ±5% IL* 1.5 x IL* 2 x IL* IL* ESR 1.25 x IL* 2.5 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* Visual examination no visible damage DCL initial limit ΔC/C within ±5% of initial value DF initial limit ESR 1.25 x initial limit *Initial Limit THJ 200°C Voltage vs Temperature Rating 120% 100% 100% 100% 100% 80% 80% 60% Rated range 66% 50% 40% 33% 20% 0% -55°C 0°C 40°C 60°C 14 | www.avx.com 85°C 105°C 125°C 175°C 200°C 050516 TWC-Y High Temperature Series COTS-Plus 200ºC Wet Tantalum The TWC-Y high temperature series represents a COTS-Plus version of conventional wet electrolytic tantalum capacitors that are designed for use at 200°C. The components listed are now capable of 500 hours of operation at extreme temperature with the applicable derated voltage. This design includes a welded tantalum can and header assembly that provides a hermetic seal to withstand harsh environments. This is a new product line so please contact the factory for availability and additional details. CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/TWC_Y.pdf CASE DIMENSIONS: millimeters (inches) Standard Case Size T1 T2 T3 T4 AVX Case Size A B D E L +0.79 (0.031) -0.41 (0.016) 11.51 (0.453) 16.28 (0.641) 19.46 (0.766) 26.97 (1.062) D Basic Case ±0.41 (0.016) 4.78 (0.188) 7.14 (0.281) 9.52 (0.375) 9.52 (0.375) D Insulated Case Max 5.56 (0.219) 7.92 (0.312) 10.31 (0.406) 10.31 (0.406) E ±6.35 (0.250) 38.10 (1.500) 57.15 (2.250) 57.15 (2.250) 57.15 (2.250) OUTLINE DIMENSIONS E L W E F D Terminal welded to case (T) F 6.35 (0.250) W 0.64 +0.05 (.025 +.002) T 2.380 (.094) 200°C LIFE TEST: These components are capable of 500 hours of operation at 200°C with the applicable 60% derated voltage. Following the life test components which are stabilized at 25°C ± 5°C shall exhibit: - Leakage less than 200% the original requirement or ± 10μA (whichever is greater) ESR not greater than 200% the original requirement Capacitance increase less than 10% or decrease less than 20% the initial measurement + Case HOW TO ORDER AVX PART NUMBER: TWC B 476 * 050 䊐 C Y Z ^ 00 Type Case Size Capacitance Code pF code: 1st two digits represent significant figures 3rd digit represents multiplier (number of zeros to follow) Capacitance Tolerance M = ±20% K = ±10% Voltage Code Insulation Sleeve C = Without Sleeve S = With Sleeve ESR C = Standard ESR Qualification Y = High Temp. Reliability Z = Non-ER Termination Finish 00 = Sn/Pb 60/40 07 = 100% Tin Custom Test Options 00 = Standard LEAD-FREE COMPATIBLE COMPONENT For RoHS compliant products, please select correct termination style. TECHNICAL SPECIFICATIONS Technical Data: Capacitance Tolerance: Rated Voltage (VR) Category Voltage (VC) High Temp, Voltage (VT) Surge Voltage (VS) Temperature Range: 011516 Unless otherwise specified, all technical data relate ±10%; ±20% ⱕ 85°C: 6 8 10 15 25 30 ⱕ 125°C: 4 5 7 10 15 20 ⱕ 200°C: 3.6 4.8 6 9 12 18 ⱕ 85°C: 6.9 9.2 11.5 17.3 28.8 34.5 -55°C to +200°C to an ambient temperature of +25°C 50 30 30 57.5 60 40 36 69 75 50 45 86.3 100 65 60 115 125 85 75 144 www.avx.com | 15 TWC-Y High Temperature Series COTS-Plus 200ºC Wet Tantalum STANDARD RATINGS & PART NUMBER REFERENCE AVX Part Number Cap (μF) +25ºC at 120Hz DC Rated Voltage (V) at +85ºC TWCB147*006䊐CYZ0^00 TWCD337*006䊐CYZ0^00 TWCD567*006䊐CYZ0^00 140 330 560 6 6 6 TWCB127*008䊐CYZ0^00 TWCD297*008䊐CYZ0^00 TWCD437*008䊐CYZ0^00 120 290 430 8 8 8 TWCB107*010䊐CYZ0^00 TWCD257*010䊐CYZ0^00 TWCD397*010䊐CYZ0^00 100 250 390 10 10 10 TWCB706*015䊐CYZ0^00 TWCD177*015䊐CYZ0^00 TWCD277*015䊐CYZ0^00 70 170 270 15 15 15 TWCA226*025䊐CYZ0^00 TWCA686*025䊐CYZ0^00 TWCB107*025䊐CYZ0^00 TWCD127*025䊐CYZ0^00 TWCD187*025䊐CYZ0^00 TWCB277*025䊐CYZ0^00 TWCD567*025䊐CYZ0^00 22 68 100 120 180 270 560 25 25 25 25 25 25 25 TWCA156*030䊐CYZ0^00 TWCA566*030䊐CYZ0^00 TWCB686*030䊐CYZ0^00 TWCD107*030䊐CYZ0^00 TWCD157*030䊐CYZ0^00 TWCB227*030䊐CYZ0^00 TWCE307*030䊐CYZ0^00 TWCD397*030䊐CYZ0^00 TWCD477*030䊐CYZ0^00 TWCE567*030䊐CYZ0^00 15 56 68 100 150 220 300 390 470 560 30 30 30 30 30 30 30 30 30 30 TWCA106*050䊐CYZ0^00 TWCA336*050䊐CYZ0^00 TWCB476*050䊐CYZ0^00 TWCD606*050䊐CYZ0^00 TWCD826*050䊐CYZ0^00 TWCB127*050䊐CYZ0^00 TWCE167*050䊐CYZ0^00 TWCD277*050䊐CYZ0^00 TWCE337*050䊐CYZ0^00 10 33 47 60 82 120 160 270 330 50 50 50 50 50 50 50 50 50 TWCA825*060䊐CYZ0^00 TWCA276*060䊐CYZ0^00 TWCD506*060䊐CYZ0^00 TWCD686*060䊐CYZ0^00 TWCB107*060䊐CYZ0^00 TWCE147*060䊐CYZ0^00 TWCD227*060䊐CYZ0^00 TWCE277*060䊐CYZ0^00 8.2 27 50 68 100 140 220 270 60 60 60 60 60 60 60 60 TWCA685*075䊐CYZ0^00 TWCA226*075䊐CYZ0^00 TWCD566*075䊐CYZ0^00 TWCB826*075䊐CYZ0^00 TWCE117*075䊐CYZ0^00 TWCD187*075䊐CYZ0^00 TWCE227*075䊐CYZ0^00 6.8 22 56 82 110 180 220 75 75 75 75 75 75 75 TWCB226*100䊐CYZ0^00 TWCE127*100䊐CYZ0^00 22 120 100 100 TWCB276*125䊐CYZ0^00 TWCE826*125䊐CYZ0^00 27 82 125 125 DC Leakage (μA) +85ºC & +125ºC +25ºC 6 VDC at 85°C 1 2 2 8 VDC at 85°C 1 2 2 10 VDC at 85°C 1 2 2 15 VDC at 85°C 1 2 2 25 VDC at 85°C 1 2 1 2 2 3 7 30 VDC at 85°C 1 2 1 2 2 3 8 6 8 9 50 VDC at 85°C 1 2 1 2 2 4 8 8 9 60V VDC at 85°C 1 3 2 2 4 8 8 9 75V VDC at 85°C 1 3 2 4 9 9 10 100 VDC at 85°C 1 12 125 VDC at 85°C 5 12 DF (max) ESR Max (Ohms) at 120Hz Maximum Capacitance Change (%) -55ºC +85ºC +125ºC 4 VDC at 125°C 3.6 VDC at 200°C 3 21 1.99 -40 7.9 36 1.45 -44 13 55 1.30 -64 5 VDC at 125°C 4.8 VDC at 200°C 2 20 2.21 -44 6 34 1.56 -64 14 46 1.42 -64 7 VDC at 125°C 6 VDC at 200°C 4 15 1.99 -36 10 30 1.59 -40 16 44 1.50 -64 10 VDC at 125°C 9 VDC at 200°C 4 13 2.46 -28 10 25 1.95 -32 16 32 1.57 -56 15 VDC at 125°C 15 VDC at 200°C 2 6.6 3.98 -20 9 22 4.29 -50 10 15 1.99 -28 6 21 2.32 -32 18 26 1.92 -48 16 55 2.70 -62 28 76 1.80 -77 20 VDC at 125°C 18 VDC at 200°C 2 5 4.42 -20 9 22 5.21 -48 8 13 2.54 -24 12 17 2.26 -28 18 23 2.03 -48 16 42 2.53 -60 32 31 1.37 -60 18 53 1.80 -65 32 64 1.81 -70 36 55 1.30 -65 30 VDC at 125°C 30 VDC at 200°C 2 4 5.31 -24 9 12.3 4.95 -39 9 11 3.11 -28 12 12 2.65 -16 16 15 2.43 -32 24 22.5 2.49 -42 32 17 1.41 -50 32 37 1.82 -51 36 38 1.53 -46 40 VDC at 125°C 36 VDC at 200°C 2 4 6.47 -24 12 10.2 5.01 -34 12 10 2.65 -16 16 13 2.54 -32 20 19 2.52 .36 32 16 1.52 -40 32 30 1.81 -45 36 27 1.33 -45 50 VDC at 125°C 45 VDC at 200°C 2 3.5 6.83 -20 12 8.5 5.13 -29 17 11 2.61 -28 24 15.2 2.46 -30 36 12 1.45 -35 36 24.4 2.23 -40 40 37 1.80 -40 65 VDC at 125°C 60 VDC at 200°C 9 7.5 4.52 -16 48 25 2.76 -35 85 VDC at 125°C 75 VDC at 200°C 24 7.2 3.54 -18 48 17.4 2.82 -30 Case Size Standard AVX 14 14 17.5 16 16 20 T2 T3 T3 B D D 17.5 17.5 17.5 20 20 20 T2 T3 T3 B D D 14 14 17.5 16 16 20 T2 T3 T3 B D D 14 14 17.6 16 16 20 T2 T3 T3 B D D 10.5 12 13 13 13 13 20 12 15 15 15 15 16 25 T1 T1 T2 T3 T3 T2 T3 A A B D D B D 10.5 12 13 10.5 13 13 25 18 20 25 12 15 15 12 15 16 25 25 25 30 T1 T1 T2 T3 T3 T2 T4 T3 T3 T4 A A B D D B E D D E 8 10 13 10.5 13 12 25 20 25 9 12 15 12 15 15 25 25 30 T1 T1 T2 T3 T3 T2 T4 T3 T4 A A B D D B E D E 8 10 10.5 10.5 12 20 16 20 9 12 12 12 15 20 20 25 T1 T1 T3 T3 T2 T4 T3 T4 A A D D B E D E 8 10 10.5 12 20 16 20 9 12 15 15 20 20 25 T1 T1 T3 T2 T4 T3 T4 A A D B E D E 8 15 8 17 T2 T4 B E 12 15 15 17 T2 T4 B E All technical data relates to an ambient temperature of +25ºC. Capacitance and DF are measured at 120Hz, 0.5RMS with DC bias of 2.2V. DCL is measured at rated voltage after 5 minutes. Note: AVX reserves the right to supply higher voltage rating in the same case size to the same reliability standards. 16 | www.avx.com 011516 TWA-Y Series 200ºC Wet Electrolytic Tantalum Capacitor The TWA-Y series represents a high temperature version of conventional wet electrolytic tantalum capacitors that are designed for use at 200°C. High capacitance cathode system allows high level of CV (Capacitance/Voltage) in standard case sizes. Selected values of the TWA-Y are capable of up to 2000 hours of operation at extreme temperatures with the applicable derated voltage. Mechanical testing being conducted in accordance to MIL-STD- 202, High Frequency vibration - method 204, test condition “D” Mechanical Shock Test - method 213, test condition “I”. This design includes a welded tantalum can and header assembly that provides a hermetic seal to withstand also harsh shock and vibration requirements. Contact the factory for additional options for customized component design. OUTLINE DIMENSIONS E L W E F D Terminal welded to case (T) F 6.35 (0.250) W 0.64 ±0.05 (.025) (.002) T 2.380 (.094) - + Case CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/TWA-Y.pdf CASE DIMENSIONS: millimeters (inches) DSCC Case Size AVX Case Size T1 T2 T3 T4 A B D E L +0.79 (0.031) -0.41 (0.016) 11.51 16.28 19.46 26.97 (0.453) (0.641) (0.766) (1.062) D Without Insulating Sleeve ±0.41 (0.016) 4.78 (0.188) 7.14 (0.281) 9.52 (0.375) 9.52 (0.375) D With Insulatiing Sleeve Max 5.56 (0.219) 7.92 (0.312) 10.31 (0.406) 10.31 (0.406) E ±6.35 (0.250) 38.10 57.15 57.15 57.15 (1.500) (2.250) (2.250) (2.250) VOLTAGE RATINGS (Operating Temperature -55ºC to 200ºC) Voltage (DC) Rated Voltage: (VR) 85ºC Derated Voltage: (VC) 125ºC High Temperature Voltage: (VT) 200ºC 060616 15 10 9 25 15 12 30 20 18 50 30 30 60 40 36 75 50 45 100 65 60 125 85 75 www.avx.com | 17 TWA-Y Series 200ºC Wet Electrolytic Tantalum Capacitor HOW TO ORDER AVX PART NUMBER: TWA E 757 * 075 䊐 B Y Z 0 ^ 00 Type Case Size Capacitance Code pF code: 1st two digits represent significant figures 3rd digit represents multiplier (number of zeros to follow) Capacitance Tolerance K = ±10% M = ±20% Voltage Code Insulation Sleeve C = Without Sleeve S = With Sleeve Packaging B = Tray Pack Inspecition Level Y = High Temp Reliability Z = Non-ER Qualification Level 0 = N/A Termination Finish 0 = Sn/Pb 60/40 7 = Matte tin Custom Test Options 00 = Standard LEAD-FREE COMPATIBLE COMPONENT For RoHS compliant products, please select correct termination style. RIPPLE CURRENT MULTIPLIERS Frequency of Applied Ripple Current Ambient Still Air Temperature (ºC) % of 100% 85ºC 90% Rated 80% Peak 70% Voltage 66-2/3% Frequency of Applied Ripple Current Ambient Still Air Temperature (ºC) % of 100% 85ºC 90% Rated 80% Peak 70% Voltage 66-2/3% vs. Frequency, temperature and applied voltage1/ 2/ 120Hz 800Hz 1kHz ≤55 85 105 125 ≤55 85 105 125 ≤55 85 105 125 0.60 0.60 0.60 0.60 0.60 0.39 0.46 0.52 0.58 0.60 – – 0.35 0.44 0.46 – – – – 0.27 0.71 0.71 0.71 0.71 0.71 0.43 0.55 0.62 0.69 0.71 – – 0.42 0.52 0.55 – _ – – 0.32 0.72 0.72 0.72 0.72 0.72 0.45 0.55 0.62 0.70 0.72 – – 0.42 0.52 0.55 – – – – 0.32 10kHz 40kHz 100kHz ≤55 85 105 125 ≤55 85 105 125 ≤55 85 105 125 0.88 0.88 0.88 0.88 0.88 0.55 0.67 0.76 0.85 0.88 – – 0.52 0.64 0.68 – – – – 0.40 1.00 1.00 1.00 1.00 1.00 0.63 0.77 0.87 0.97 1.00 – – 0.59 0.73 0.77 – _ – – 0.45 1.10 1.10 1.10 1.10 1.10 0.69 0.85 0.96 1.07 1.10 – – 0.65 0.80 0.85 – – – – 0.50 1/ At 125ºC the rated voltage of the capacitors decreases to 66 2/3 of the 85ºC rated voltage. 2/ The peak of the applied ac ripple voltage plus the applied dc voltage must not exceed the dc voltage rating of the capacitors. 18 | www.avx.com 060616 TWA-Y Series 200ºC Wet Electrolytic Tantalum Capacitor CAPACITANCE AND RATED VOLTAGE, VR (VOLTAGE CODE) RANGE (LETTER DENOTES CASE SIZE) Capacitance μF Code 10 106 15 156 22 226 27 276 33 336 47 476 50 506 56 566 60 606 68 686 82 826 100 107 120 127 150 157 180 187 220 227 270 277 300 307 330 337 390 397 400 407 470 477 560 567 680 687 750 757 1000 108 1200 128 3000 308 15V 25V 30V Rated Voltage DC (VR ) to 85°C 50V 60V A 75V 100V 125V A A A A A A B A B A,B A A B A B B B A B A A A,B B B B D D B B B B B B D D E D E D E E E D E D E D B,E B E D E E E E E(M) E* E E E E D E(M) Available Ratings (M tolerance only) Engineering samples - please contact manufacturer *Codes under development RATINGS & PART NUMBER REFERENCE Cap (μF) 25ºC at 120Hz DC Rated Votage (V) at 85ºC ESR Max (ohms) at 120Hz TWAA336*015䊐BYZ0^00 TWAD397*015䊐BYZ0^00 33 390 15 15 4 1.7 TWAA226*025䊐BYZ0^00 TWAA566*025䊐BYZ0^00 TWAA686*025䊐BYZ0^00 TWAB107*025䊐BYZ0^00 TWAA127*025䊐BYZ0^00 TWAB127*025䊐BYZ0^00 TWAB277*025䊐BYZ0^00 TWAB567*025䊐BYZ0^00 TWAE567*025䊐BYZ0^00 TWAD128*025䊐BYZ0^00 TWAE308M025䊐BYZ0^00 22 56 68 100 120 120 270 560 560 1200 3000 25 25 25 25 25 25 25 25 25 25 25 4 4 4 2.5 2.3 2.3 0.9 1.0 1.3 1.4 0.5 TWAA156*030䊐BYZ0^00 TWAA566*030䊐BYZ0^00 TWAA107*030䊐BYZ0^00 TWAB107*030䊐BYZ0^00 TWAB157*030䊐BYZ0^00 TWAB227*030䊐BYZ0^00 TWAB477*030䊐BYZ0^00 TWAD307*030䊐BYZ0^00 15 56 100 100 150 220 470 300 30 30 30 30 30 30 30 30 4.4 5.2 2.3 2.3 2.5 0.9 1.0 1.8 AVX Part Number 060616 DC Leakage max (μA) Impedance Maximum Capacitance Change AC Ripple +85 & max (Ohms) (%) (mA rms) +25ºC +125ºC -55ºC at 120Hz -55ºC +85ºC +125ºC 85ºC at 40kHZ 15 VDC at 85°C 10 VDC at 125°C 9 VDC at 200°C 1 2 90 -28 14 16 820 7 28 48 -70 25 25 1396 25 VDC at 85°C 15 VDC at 125°C 12 VDC at 200°C 1 2 140 -20 10.5 12 825 1 2 140 -20 10.5 12 825 1 2 140 -20 10.5 12 825 1 10 60 -35 13 15 2 10 35 -42 20 25 1250 2 10 60 -32 13 15 4 20 17.5 -50 8 15 1800 2 10 12 -65 10 15 2100 9 36 25 -65 25 30 7 35 12 -85 40 50 2600 15 30 3.5 -80 60 85 3100 30 VDC at 85°C 20 VDC at 125°C 18 VDC at 200°C 1 2 200 -20 10.5 0 2 9 200 -48 12 15 2 10 35 -38 20 25 1200 2 12 60 -30 10.5 12 2 18 40 -48 13 15 1100 4 20 17.5 -50 8 15 1800 2 10 15 -65 10 18 1800 8 32 25 -51 20 25 - Case Size Lifetime at 200°C (hrs.) AVX DSCC A D T1 T3 2000 1000 A A A B A B B B E D E T1 T1 T1 T2 T1 T2 T2 T2 T4 T3 T4 2000 500 500 2000 500 500 1000 1000 2000 500 500 A A A B B B B D T1 T1 T1 T2 T2 T2 T2 T3 2000 2000 500 500 2000 1000 1000 2000 www.avx.com | 19 TWA-Y Series 200ºC Wet Electrolytic Tantalum Capacitor RATINGS & PART NUMBER REFERENCE TWAD397*030䊐BYZ0^00 TWAE567*030䊐BYZ0^00 TWAD108*030䊐BYZ0^00 Cap (μF) 25ºC at 120Hz 390 560 1000 DC Rated Votage (V) at 85ºC 30 30 30 ESR Max (ohms) at 120Hz 1.8 1.3 1.4 TWAA106*050䊐BYZ0^00 TWAA336*050䊐BYZ0^00 TWAB476*050䊐BYZ0^00 TWAB606*050䊐BYZ0^00 TWAA686*050䊐BYZ0^00 TWAB826*050䊐BYZ0^00 TWAB127*050䊐BYZ0^00 TWAB227*050䊐BYZ0^00 TWAD277*050䊐BYZ0^00 TWAE337*050䊐BYZ0^00 TWAE108*050䊐BYZ0^00 10 33 47 60 68 82 120 220 270 330 1000 50 50 50 50 50 50 50 50 50 50 50 5.3 5 3 2.6 2.5 2.4 2.5 0.9 1.8 1.5 0.7 TWAA226*060䊐BYZ0^00 TWAA276*060䊐BYZ0^00 TWAA476*060䊐BYZ0^00 TWAB506*060䊐BYZ0^00 TWAB686*060䊐BYZ0^00 TWAB107*060䊐BYZ0^00 TWAD227*060䊐BYZ0^00 TWAE277*060䊐BYZ0^00 TWAE108*060䊐BYZ0^00 22 27 47 50 68 100 220 270 1000 60 60 60 60 60 60 60 60 60 5 5 2 2.6 2.5 2.5 1.8 1.3 0.5 TWAA226*075䊐BYZ0^00 TWAA336*075䊐BYZ0^00 TWAB566*075䊐BYZ0^00 TWAB826*075䊐BYZ0^00 TWAD187*075䊐BYZ0^00 TWAE227*075䊐BYZ0^00 TWAE477*075䊐BYZ0^00 TWAE687*075䊐BYZ0^00 TWAE757*075䊐BYZ0^00 TWAE108*075䊐BYZ0^00 22 33 56 82 180 220 470 680 750 1000 75 75 75 75 75 75 75 75 75 75 5.1 2.5 2.6 2.5 2.2 1.2 0.9 0.9 0.7 0.5 TWAB686*100䊐BYZ0^00 TWAD157*100䊐BYZ0^00 TWAE227*100䊐BYZ0^00 TWAE337*100䊐BYZ0^00 TWAE407*100䊐BYZ0^00 TWAE477M100䊐BYZ0^00 TWAE757*100䊐BYZ0^00 68 150 220 330 400 470 750 100 100 100 100 100 100 100 2.5 1.6 1.2 0.8 0.8 0.7 0.6 TWAB476*125䊐BYZ0^00 TWAD826*125䊐BYZ0^00 TWAD107*125䊐BYZ0^00 TWAE157*125䊐BYZ0^00 TWAE227*125䊐BYZ0^00 47 82 100 150 220 125 125 125 125 125 2.3 2.8 1.8 1.6 1.4 AVX Part Number DC Leakage max (μA) Impedance Maximum Capacitance Change AC Ripple +85 & max (Ohms) (%) (mA rms) +25ºC +125ºC -55ºC at 120Hz -55ºC +85ºC +125ºC 85ºC at 40kHZ 6 18 25 -65 18 25 9 36 25 -65 25 30 10 50 12 -85 40 50 2500 50 VDC at 85°C 30 VDC at 125°C 30 VDC at 200°C 1 2 250 -24 8 9 715 2 9 200 -39 10 12 0.8 8 70 -28 13 15 1155 2 12 60 -30 10.5 12 2 10 45 -25 20 25 1050 2 16 60 -32 13 15 4 24 40 -42 12 15 4 20 17.5 -50 8 15 1800 8 32 25 -51 20 25 9 36 25 -46 25 30 1900 11 110 20 -70 30 40 3200 60 VDC at 85°C 40 VDC at 125°C 36 VDC at 200°C 3 12 200 -34 10 12 500 3 12 200 -34 10 12 2 10 55 -25 15 25 1050 2 12 60 -30 10.5 12 2 16 60 -32 10.5 12 1.7 10 40 -40 8 15 1100 8 32 25 -45 16 20 9 36 25 -45 20 25 20 60 4.5 -70 30 60 3200 75 VDC at 85°C 50 VDC at 125°C 45 VDC at 200°C 3 12 157 -19 10 12 600 2 10 70 -25 15 25 1050 2 17 60 -30 10.5 15 4 24 37 -30 12 15 9 36 25 -40 16 20 5 50 20 -40 8 15 1800 10 125 10 -50 10 35 2750 11 110 10 -70 30 40 2750 12 120 10 -70 30 40 3800 30 90 4.5 -70 30 60 3500 100 VDC at 85°C 65 VDC at 125°C 60 VDC at 200°C 2 10 37 -30 4 12 1650 3 25 22 -35 6 12 2100 5 50 15 -40 6 12 2750 6 60 10 -45 7 20 3600 10 150 10 -50 10 35 4100 25 250 10 -50 10 35 4100 30 150 5 -60 30 80 6700 125 VDC at 85°C 85 VDC at 125°C 75 VDC at 200°C 2 10 47 -25 5 12 1650 12 48 50 -30 15 17 3 25 35 -35 5 12 2100 5 50 20 -35 6 16 2750 10 50 12 -40 8 15 3600 Case Size Lifetime at 200°C (hrs.) AVX D E D DSCC T3 T4 T3 A A B B A B B B D E E T1 T1 T2 T2 T1 T2 T2 T2 T3 T4 T4 2000 2000 500 500 1000 500 2000 1000 2000 2000 500 A A A B B B D E E T1 T1 T1 T2 T2 T2 T3 T4 T4 2000 2000 500 500 500 2000 2000 2000 1000 A A B B D E E E E E T1 T1 T2 T2 T3 T4 T4 T4 T4 T4 2000 1000 500 500 2000 2000 1000 500 500 1000 B D E E E E E T2 T3 T4 T4 T4 T4 T4 500 2000 2000 2000 2000 2000 500 B D D E E T2 T3 T3 T4 T4 1000 2000 2000 2000 2000 2000 2000 500 All technical data relates to an ambient temperature of +25ºC. Capacitance and DF are measured at 120Hz, 0.5RMS with DC bias of 2.2V. DCL is measured at rated voltage after 5 minutes. NOTE: AVX reserves the rights to supply higher voltage rating in the same case size, to the same reliability standards. DF = 2πfC x (ESR) 2π = 6.28 f = 120Hz C = Actual measured capacitance ESR = Actual measured ESR 20 | www.avx.com 060616 THH 230ºC Hermetic Series SMD 230ºC High Temperature Tantalum Capacitor in Hermetic Package FEATURES • • • • • High temperature applications Operational condition 230ºC / 0.5UR / 1000hrs or 200°C / 0.5UR / 10.000hrs Ceramic case hermetic packaging Large case sizes including CTC-21D provide high capacitance values Manufacturing and screening utilizing AVX patented Q-Process to effectively remove components that may experience excessive parametric shifts or instability in operation life APPLICATIONS • Oil drilling • Extreme temperature applications For additional information on Q-process please consult the AVX technical publication “Reaching the Highest Reliability for Tantalum Capacitors” (see the link: http://www.avx.com/docs/techinfo/Qprocess.pdf) MARKING CHECK FOR UP-TO-DATE DATASHEET AT 9, I CASE 107V XXXXX Polarity Band (Anode+) http://datasheets.avx.com/THH.pdf Capacitance Value in pF 107 = 100μF AVX LOGO CASE DIMENSIONS: millimeters (inches) Rated Voltage Code V = 35V ID Code Code Type L±0.50 (0.020) W±0.50 (0.020) H Max. W1±0.50 (0.020) A±0.50 (0.020) S Min. 9 (CTC-21D) J-lead (L-shape) 11.50 (0.453) 12.50 (0.492) 6.15 (0.242) 12.50 (0.492) 1.90 (0.075) 7.00 (0.276) 9 (CTC-21D) J-lead (flex) 12.10 (0.476) 12.50 (0.492) 6.50 (0.256) 12.00 (0.472) 2.00 (0.079) 7.20 (0.283) 9 (CTC-21D) Undertab 11.00 ± 0.20 (0.433 ± 0.008) 12.50 ± 0.20 (0.492 ± 0.008) 5.95 (0.234) 10.50 ± 0.20 (0.413 ± 0.008) 1.50 ± 0.20 (0.059 ± 0.008) 7.80 (0.307) I J-lead (L-shape) 11.50 (0.453) 6.00 (0.236) 2.70 (0.106) 6.00 (0.236) 3.50 (0.138) 4.00 (0.157) I J-lead (flex) 11.90 (0.469) 6.00 (0.236) 3.00 (0.118) 5.50 (0.217) 3.60 (0.142 4.20 (0.165) I Undertab 11.00 ± 0.20 (0.433 ± 0.008) 6.00 ± 0.20 (0.236 ± 0.008) 2.50 (0.098) 4.00 ± 0.20 (0.157 ± 0.008) 3.20 ± 0.20 (0.126 ± 0.008) 4.40 (0.173) ‘J’ Lead Termination (flex) L ‘J’ Lead Termination (L-shape) W L H A S H W1 A A S W L W1 A W L H A 033016 S A Undertab Termination W H W1 A S A W1 www.avx.com | 21 THH 230ºC Hermetic Series SMD 230ºC High Temperature Tantalum Capacitor in Hermetic Package CAPACITANCE AND VOLTAGE RANGE (CODE DENOTES THE CASE SIZE) Capacitance μF Code 3.3 335 4.7 475 6.8 685 10 106 15 156 22 226 33 336 47 476 68 686 100 107 150 157 220 227 330 337 Rated Voltage DC (VR) at 175ºC 16V (C) 20V (D) 25V (E) I* I* I* I* I I* I I I I* I* I* I* I* 50V (T) I* I* I 9* 9* 9* 9* 9* 9* 9* 9* 35V (V) 63V (J) I* I* 9* 9 9 9* Available Ratings Engineering samples - please contact manufacturer *Codes under development – upon request, please contact manufacturer HOW TO ORDER AVX PART NUMBER THH Type 9 Case Size See table above 107 Capacitance Code pF code: 1st two digits represent significant figures 3rd digit represents multiplier (number of zeros to follow) M Tolerance M = ±20% 035 Rated DC Voltage 016 = 16Vdc 020 = 20Vdc 025 = 25Vdc 035 = 35Vdc 050 = 50Vdc 063 = 63Vdc W Packaging W = Waffle B = Bulk 0250 ESR in mΩ J Termination J = ‘J’ lead (L-shape) W = ‘J’ lead (flex) U = Undertab LEAD-FREE COMPATIBLE COMPONENT For RoHS compliant products, please select correct termination style. TECHNICAL SPECIFICATIONS Technical Data: Capacitance Range: Capacitance Tolerance: Leakage Current DCL: Rated Voltage (VR) Category Voltage (VC) Temperature Range: Reliability: Termination Finish: 22 | www.avx.com All technical data relate to an ambient temperature of +25°C 6.8 μF to 100 μF (for extended range under development, contact manufacturer) ±20% 0.01CV ⱕ +85°C: 16 20 25 35 50 63 ⱕ +230°C: 8 10 12 17 25 31 -55°C to +230°C 1% per 1000 hours at 85ºC, Vr with 0.1Ω/V series impedance, 60% confidence level Gold Plating (Undertab), Gold Plating (J-lead L shape), Nickel Plating (J-lead flex) 033016 THH 230ºC Hermetic Series SMD 230ºC High Temperature Tantalum Capacitor in Hermetic Package RATINGS & PART NUMBER REFERENCE AVX Part No. Case Size Capacitance (μF) Rated Voltage (V) Rated Temperature (ºC) THHI226M016W0500# THHI476M016W0500# I I 22 47 16 16 175 175 THHI685M035W0500# THHI106M035W0500# THH9107M035W0250# I I 9 6.8 10 100 35 35 35 175 175 175 THHI685M050W0500# I 6.8 50 175 THH9476M063W0250# 9 47 63 175 Category Voltage (V) DCL Max. (μA) 16 Volt @ 85°C 8 3.6 8 7.5 35 Volt @ 85°C 17 2.4 17 3.5 17 35 50 Volt @ 85°C 25 3.4 63 Volt @ 85°C 31 29.6 DF Max. (%) ESR Max. @ 100kHz (mΩ) MSL 8 8 500 500 8 8 8 100kHz RMS Current (A) 25ºC 85ºC 230ºC 1 1 0.81 0.81 0.73 0.73 0.73 0.73 500 500 250 1 1 1 0.81 0.81 1.26 0.73 0.73 1.13 0.73 0.73 1.13 8 500 1 0.81 0.73 0.73 8 250 1 1.26 1.13 1.13 All technical data relates to an ambient temperature of +25°C. Capacitance and DF are measured at 120Hz, 0.5V RMS with a maximum DC bias of 2.2 volts. DCL is measured at rated voltage after 5 minutes. ESR change post 1000hrs allowed up to 3 times catalog limit. Moisture Sensitivity Level (MSL) is defined according to J-STD-020. TEMPERATURE VOLTAGE DERATING THH 230°C Voltage vs Temperature Rating for 1000 hrs service life 100% 90% 80% 70% Rated Voltage 60% Category Voltage 50% 50% 40% 30% -55ºC 033016 0ºC 85ºC 200ºC 230ºC www.avx.com | 23 THH 230ºC Hermetic Series SMD 230ºC High Temperature Tantalum Capacitor in Hermetic Package QUALIFICATION TABLE THH 230°C hermetic series (Temperature range -55ºC to +230ºC) Condition Characteristics TEST Endurance Endurance Determine after application of 230°C temperature, category voltage for 1000+48/-0 hours and then leaving min. 2 hours at room temperature. Power supply impedance to be <3Ω. Determine after application of 0.5UR for 10000+48/-0 hours at 200°C temperature and then leaving min. 2 hours at room temperature. Power supply impedance to be <3Ω. Storage Life Biased Humidity Temperature Stability Surge Voltage 230ºC, 0V, 1000h + 48/-0 hours Determine after leaving for 1000 hours at 85±2ºC, 85% relative humidity and rated voltage and then recovery min. 2 hours at room temperature. Step 1 2 3 4 5 6 7 8 9 Temperature°C +22 -55 +22 +85 +125 +175 +200 +230 +22 Test temperature: 85ºC+3/0ºC Surge voltage: 1.3 x rated voltage Series protection resistance: 33Ω Discharge resistance: 33Ω Number of cycles: 1000x Cycle duration: 5 min; 30 sec charge, 5 min 30 sec discharge Duration (min) 15 15 15 15 15 15 15 15 15 Visual examination no visible damage DCL 1.25 x initial limit ΔC/C within ±20% of initial value DF 1.5 x initial limit ESR Visual examination DCL ΔC/C DF ESR Visual examination DCL ΔC/C DF ESR Visual examination DCL ΔC/C DF ESR 3 x initial limit no visible damage 1.25 x initial limit within ±20% of initial value 1.5 x initial limit 3 x initial limit no visible damage initial limit within ±5% of initial value initial limit 1.25 x initial limit no visible damage initial limit within ±10% of initial value initial limit 1.25 x initial limit +20ºC -55ºC +22ºC DCL IL* n/a IL* ΔC/C n/a +0/-20% ±5% DF IL* 1.5 x IL* IL* ESR +85ºC +125ºC +175ºC +200ºC +230ºC +22ºC 10 x IL* 12.5 x IL* n/a n/a n/a IL* +20/-0% +30/-0% +30/-0% +30/-0% +30/-0% 1.5 x IL* 2 x IL* 2 x IL* 2 x IL* 2 x IL* ±5% IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* 1.25 x IL* Visual examination no visible damage DCL initial limit ΔC/C within ±20% of initial value DF initial limit ESR 1.25 x initial limit *Initial Limit 24 | www.avx.com 030116 CERAMIC CAPACITORS Ceramic capacitors are the basic building block for every electronic design. AVX has a long history in manufacturing ceramic capacitors which enables us to offer a wide range of high temperature capacitors for down hole and mission critical applications. • AT Series Surface mount MLCCs with extended temperature range up to +200ºC and +250ºC, in C0G and VHT dielectrics. • X8R/X8L Dielectric MLCC performance elevated to accommodate high temperature applications up to +150ºC. • FLEXITERM® and FLEXISAFE® Offer improved resistance against failures caused by board flexing and temperature shock. • MLCC with Tin/Lead (Sn/Pb) Terminations Ceramic capacitors with Sn/Pb terminations and X8R dielectric for mission critical applications. • Radial Leaded SkyCap® AR Series Ceramic technology in leaded, epoxy encapsulated packaging for harsh environment applications. A KYOCERA GROUP COMPANY AT Series High Temperature MLCC – 200ºC & 250ºC Rated Present military specifications, as well as a majority of commercial applications, require a maximum operating temperature of 125°C. However, the emerging market for high temperature electronics demands capacitors operating reliably at temperatures beyond 125°C. AVX’s new high temperature chip capacitor product line, with verified capability of longterm operation up to 250°C is a response to both military and commercial business needs. The new capacitors demonstrate high current handling capabilities, high volumetric efficiency, high insulation resistance and low ESR/ESL. This product has been designed for the most demanding applications, such as “down-hole” oil exploration and aerospace programs. CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/AT_Series.pdf HOW TO ORDER AT10 3 AVX Style AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Voltage Code 16V = Y 25V = 3 50V = 5 T 104 K A T 2 A Temperature Capacitance Code Capacitance Test Level Termination Packaging Special Coefficient (2 significant digits Tolerance A = Standard 1 = Pd/Ag Code 2 = 7" Reel C0G 250ºC = A + no. of zeros) J = ±5% T = 100% Sn Plated 4 = 13" Reel A = Standard (RoHS Compliant) 9 = Bulk C0G 200ºC = 2 101 = 100pF K = ±10% VHT 250ºC = T 102 = 1nF M = ±20% VHT 200ºC = 4 103 = 10nF 104 = 100nF 105 = 1μF ELECTRICAL SPECIFICATIONS Temperature Coefficient C0G: A 0±30 ppm/°C, -55°C to +250°C VHT: T ±15%, -55°C to +150°C See TCC Plot for +250°C Insulation Resistance 125°C (MIL-STD-202, Method 302) 10GΩ or 100MΩ.μF (whichever is less) Insulation Resistance 200°C (MIL-STD-202, Method 302) 1GΩ or 10MΩ.μF (whichever is less) Capacitance Test (MIL-STD-202, Method 305) 25°C, 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz Dissipation factor 25°C C0G: 0.15% Max at 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz VHT: 2.5% Max at 1.0 ± 0.2 Vrms (open circuit voltage) @ 1kHz Insulation Resistance 250°C (MIL-STD-202, Method 302) 100MΩ or 1MΩ.μF (whichever is less) Direct Withstanding Voltage 25°C (Flash Test) 250% rated voltage for 5 seconds with 50mA max charging current (500 Volt units @ 750VDC) Insulation Resistance 25°C (MIL-STD-202, Method 302) 100GΩ or 1000MΩ.μF (whichever is less) DIMENSIONS millimeters (inches) W L T Size (L) Length AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 1.60 ± 0.15 2.01 ± 0.20 3.20 ± 0.20 3.20 ± 0.20 4.50 ± 0.30 5.72 ± 0.25 (0.063 ± 0.006) (0.079 ± 0.008) (0.126 ± 0.008) (0.126 ± 0.008) (0.177 ± 0.012) (0.225 ± 0.010) (W) Width 0.81 ± 0.15 1.25 ± 0.20 1.60 ± 0.20 2.50 ± 0.20 3.20 ± 0.20 6.35 ± 0.25 (0.032 ± 0.006) (0.049 ± 0.008) (0.063 ± 0.008) (0.098 ± 0.008) (0.126 ± 0.008) (0.250 ± 0.010) (T) Thickness 1.02 1.30 1.52 1.70 2.54 2.54 Max. (0.040) (0.051) (0.060) (0.067) (0.100) (0.100) (t) terminal min. 0.25 (0.010) 0.25 (0.010) 0.25 (0.010) 0.25 (0.010) 0.25 (0.010) 0.25 (0.010) max. 0.75 (0.030) 0.75 (0.030) 0.75 (0.030) 0.75 (0.030) 1.02 (0.040) 1.02 (0.040) t 26 | www.avx.com 011516 AT Series High Temperature MLCC – 200ºC & 250ºC Rated PERFORMANCE CHARACTERISTICS Typical Temperature Coefficient of Capacitance (C0G Dielectric) Typical Temperature Coefficient of Capacitance (VHT Dielectric) 15 1 0.8 0.6 -13.75 +30ppm/ºC TTC Limit C (%) C (%) 0.4 -42.5 0.2 0 -0.2 -0.4 -71.25 -30ppm/ºC TTC Limit -0.6 -0.8 -100 -50 -25 0 25 50 75 100 125 150 175 200 225 250 -1 -50 -25 0 25 50 75 Temperature (°C) 100 125 150 175 200 225 250 Temperature (°C) Typical Voltage Coefficient of Capacitance (C0G Dielectric) Typical Voltage Coefficient of Capacitance (VHT Dielectric) 1 5 0.8 Legend: Capacitor’s Rated Voltage -5 16VDC 25VDC 50VDC 100VDC 200VDC -10 0.6 0.4 C (%) C (%) 0 0.2 0 -0.2 -0.4 -15 -0.6 -0.8 -20 0 10 20 30 40 50 60 70 80 90 -1 100 0 10 20 Percentage of Rated Voltage 30 40 50 60 70 80 90 100 225 250 Percentage of Rated Voltage Typical RC vs Temperature (C0G Dielectric) Typical RC vs Temperature (VHT Dielectric) 1000000 10000 100000 1000 RC (Ω*F) RC (Ω*F) 10000 100 1000 100 10 10 1 1 25 50 75 100 125 150 Temperature (°C) 011516 175 200 225 250 25 50 75 100 125 150 175 200 Temperature (°C) www.avx.com | 27 AT Series High Temperature MLCC – 200ºC & 250ºC Rated RELIABILITY 250°C Life Test @ 2x Rated Voltage (VHT Dielectric) 250°C Life Test @ 2x Rated Voltage (C0G Dielectric) 48000 AT05YT104 AT103T104 AT123T334 AT143T105 0.825 0.55 0.275 Capacitance (pF) Capacitance ( F) 1.1 36000 AT143A473 AT123A123 24000 12000 0 0 0 250 500 750 0 1000 250 500 750 1000 Time (hrs) Time (hrs) VHT - Failure Rate @ 90% Confidence Level (%/1000 hours) Temperature (°C) 50% Rated Voltage 100% Rated Voltage 200 0.002 0.017 250 0.026 0.210 *Typical 1210, 1812, 2225 Failure Rate Analysis based on 250°C testing and voltage ratings specified on the following page. C0G - Failure Rate @ 90% Confidence Level (%/1000 hours) Temperature (°C) 50% Rated Voltage 100% Rated Voltage 200 0.006 0.047 250 0.074 0.590 *Typical 1812 and 2225 Failure Rate Analysis based on 250°C testing and voltage ratings specified on the following page. FREQUENCY RESPONSE Impedance Frequency Response (C0G Dielectric) Impedance Frequency Response (VHT Dielectric) 1E+06 1E+05 AT05YT104 AT123T334 AT143T105 1E+02 1E+01 1E+00 1E-01 1E-02 1E+01 ) 1E+03 AT43A473 AT123A123 1E+05 1E+04 Impedance ( Impedance ( ) 1E+04 1E+03 1E+02 1E+01 1E+00 1E-01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08 1E-02 1E+01 1E+02 1E+03 1E+07 1E+08 1E+03 AT43A473 AT123A123 AT05YT104 AT123T334 AT143T105 1E+02 ) 1E+02 1E+01 ESR ( ) 1E+06 ESR Frequency Response (C0G Dielectric) ESR Frequency Response (VHT Dielectric) 1E+03 ESR ( 1E+05 Frequency (Hz) Frequency (Hz) 1E+00 1E+01 1E+00 1E-01 1E-01 1E-02 1E+01 1E+04 1E-02 1E+02 1E+03 1E+04 1E+05 Frequency (Hz) 28 | www.avx.com 1E+06 1E+07 1E+08 1E-03 1E+01 1E+02 1E+03 1E+04 1E+05 1E+06 1E+07 1E+08 Frequency (Hz) 011516 AT Series High Temperature MLCC – 200ºC & 250ºC Rated CAPACITANCE RANGE PREFERRED SIZES ARE SHADED VHT Temp. Coefficient: 4 Case Size Soldering (L) Length mm (in.) (W) Width mm (in.) (T) Thickness mm (in.) (t) Terminal min max Rated Temp. (ºC) Temp. Coefficeint Voltage (V) Cap 1000 102 (pF) 1200 122 1500 152 1800 182 2200 222 2700 272 3300 332 3900 392 4700 472 5600 562 6800 682 8200 822 Cap 0.010 103 (μF) 0.012 123 0.015 153 0.018 183 0.022 223 0.027 273 0.033 333 0.039 393 0.047 473 0.056 563 0.068 683 0.082 823 0.100 104 0.120 124 0.150 154 0.180 184 0.220 224 0.270 274 0.330 334 0.390 394 0.470 474 0.560 564 0.680 684 0.820 824 1.000 105 Voltage (V) Rated Temp. (ºC) Case Size VHT 200ºC Rated AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Reflow/Wave Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only 1.60 ± 0.15 (0.063 ± 0.006) 0.81 ± 0.15 (0.032 ± 0.006) 1.02 (0.040) 0.25 (0.010) 0.75 (0.030) 200 4 25 2.01 ± 0.20 (0.079 ± 0.008) 1.25 ± 0.20 (0.049 ± 0.008) 1.30 (0.051) 0.25 (0.010) 0.75 (0.030) 200 4 25 50 3.20 ± 0.20 (0.126 ± 0.008) 1.60 ± 0.20 (0.063 ± 0.008) 1.52 (0.060) 0.25 (0.010) 0.75 (0.030) 200 4 25 50 3.20 ± 0.20 (0.126 ± 0.008) 2.50 ± 0.20 (0.098 ± 0.008) 1.70 (0.067) 0.25 (0.010) 0.75 (0.030) 200 4 25 50 4.50 ± 0.30 (0.177 ± 0.012) 3.20 ± 0.20 (0.126 ± 0.008) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 200 4 50 5.72 ± 0.25 (0.225 ± 0.010) 6.35 ± 0.25 (0.250 ± 0.010) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 200 4 50 50 200 50 200 25 200 25 50 200 25 50 200 25 50 200 AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Temp. Coefficient: T Case Size Soldering (L) Length mm (in.) (W) Width mm (in.) (T) Thickness mm (in.) (t) Terminal min max Rated Temp. (ºC) Temp. Coefficeint Voltage (V) Cap 1000 102 (pF) 1200 122 1500 152 1800 182 2200 222 2700 272 3300 332 3900 392 4700 472 5600 562 6800 682 8200 822 Cap 0.010 103 (μF) 0.012 123 0.015 153 0.018 183 0.022 223 0.027 273 0.033 333 0.039 393 0.047 473 0.056 563 0.068 683 0.082 823 0.100 104 0.120 124 0.150 154 0.180 184 0.220 224 0.270 274 0.330 334 0.390 394 0.470 474 0.560 564 0.680 684 0.820 824 1.000 105 Voltage (V) Rated Temp. (ºC) Case Size 250ºC Rated AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Reflow/Wave Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only 1.60 ± 0.15 (0.063 ± 0.006) 0.81 ± 0.15 (0.032 ± 0.006) 1.02 (0.040) 0.25 (0.010) 0.75 (0.030) 250 T 16 2.01 ± 0.20 (0.079 ± 0.008) 1.25 ± 0.20 (0.049 ± 0.008) 1.30 (0.051) 0.25 (0.010) 0.75 (0.030) 250 T 16 25 3.20 ± 0.20 (0.126 ± 0.008) 1.60 ± 0.20 (0.063 ± 0.008) 1.52 (0.060) 0.25 (0.010) 0.75 (0.030) 250 T 16 25 3.20 ± 0.20 (0.126 ± 0.008) 2.50 ± 0.20 (0.098 ± 0.008) 1.70 (0.067) 0.25 (0.010) 0.75 (0.030) 250 T 16 25 4.50 ± 0.30 (0.177 ± 0.012) 3.20 ± 0.20 (0.126 ± 0.008) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 250 T 25 5.72 ± 0.25 (0.225 ± 0.010) 6.35 ± 0.25 (0.250 ± 0.010) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 250 T 25 25 250 25 250 16 250 16 25 250 16 25 250 16 25 250 AT03 = 0603 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Voltage rating per table. Capacitance values specified at 25ºC, derate capacitance value based on TCC and VCC Plots on page 27. NOTE: Contact factory for non-specified capacitance values. 011516 www.avx.com | 29 AT Series High Temperature MLCC – 200ºC & 250ºC Rated CAPACITANCE RANGE PREFERRED SIZES ARE SHADED C0G Temp. Coefficient: 2 Case Size Soldering (L) Length mm (in.) (W) Width mm (in.) (T) Thickness mm (in.) (t) Terminal min max Rated Temp. (ºC) Temp. Coefficeint Voltage (V) Cap 100 101 (pF) 120 121 150 151 180 181 220 221 270 271 330 331 390 391 470 471 560 561 680 681 820 821 1000 102 1200 122 1500 152 1800 182 2200 222 2700 272 3300 332 3900 392 4700 472 5600 562 6800 682 8200 822 Cap 0.010 103 (μF) 0.012 123 0.015 153 0.018 183 0.022 223 0.027 273 0.033 333 0.039 393 0.047 473 0.056 563 0.068 683 0.082 823 0.100 104 Voltage (V) Rated Temp. (ºC) Case Size C0G 200ºC Rated AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Case Size Soldering Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only 2.01 ± 0.20 (0.079 ± 0.008) 1.25 ± 0.20 (0.049 ± 0.008) 1.30 (0.051) 0.25 (0.010) 0.75 (0.030) 200 2 50 3.20 ± 0.20 (0.126 ± 0.008) 1.60 ± 0.20 (0.063 ± 0.008) 1.52 (0.060) 0.25 (0.010) 0.75 (0.030) 200 2 50 3.20 ± 0.20 (0.126 ± 0.008) 2.50 ± 0.20 (0.098 ± 0.008) 1.70 (0.067) 0.25 (0.010) 0.75 (0.030) 200 2 50 4.50 ± 0.30 (0.177 ± 0.012) 3.20 ± 0.20 (0.126 ± 0.008) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 200 2 50 2.75 ± 0.25 (0.225 ± 0.010) 6.35 ± 0.25 (0.250 ± 0.010) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 200 2 50 50 200 50 200 50 200 50 200 50 200 AT05 = 0805 AT06 = 1206 Temp. Coefficient: A AT10 = 1210 AT12 = 1812 AT14 = 2225 (L) Length mm (in.) (W) Width mm (in.) (T) Thickness mm (in.) (t) Terminal min max Rated Temp. (ºC) Temp. Coefficeint Voltage (V) Cap 100 101 (pF) 120 121 150 151 180 181 220 221 270 271 330 331 390 391 470 471 560 561 680 681 820 821 1000 102 1200 122 1500 152 1800 182 2200 222 2700 272 3300 332 3900 392 4700 472 5600 562 6800 682 8200 822 Cap 0.010 103 (μF) 0.012 123 0.015 153 0.018 183 0.022 223 0.027 273 0.033 333 0.039 393 0.047 473 0.056 563 0.068 683 0.082 823 0.100 104 Voltage (V) Rated Temp. (ºC) Case Size 250ºC Rated AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Reflow/Wave Reflow/Wave Reflow Only Reflow Only Reflow Only 2.01 ± 0.20 (0.079 ± 0.008) 1.25 ± 0.20 (0.049 ± 0.008) 1.30 (0.051) 0.25 (0.010) 0.75 (0.030) 250 A 25 3.20 ± 0.20 (0.126 ± 0.008) 1.60 ± 0.20 (0.063 ± 0.008) 1.52 (0.060) 0.25 (0.010) 0.75 (0.030) 250 A 25 3.20 ± 0.20 (0.126 ± 0.008) 2.50 ± 0.20 (0.098 ± 0.008) 1.70 (0.067) 0.25 (0.010) 0.75 (0.030) 250 A 25 4.50 ± 0.30 (0.177 ± 0.012) 3.20 ± 0.20 (0.126 ± 0.008) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 250 A 25 2.75 ± 0.25 (0.225 ± 0.010) 6.35 ± 0.25 (0.250 ± 0.010) 2.54 (0.100) 0.25 (0.010) 1.02 (0.040) 250 A 25 25 250 25 250 25 250 25 250 25 250 AT05 = 0805 AT06 = 1206 AT10 = 1210 AT12 = 1812 AT14 = 2225 Voltage rating per table. Capacitance values specified at 25ºC, derate capacitance value based on TCC and VCC Plots on page 27. NOTE: Contact factory for non-specified capacitance values. 30 | www.avx.com 011516 X8R/X8L Dielectric General Specifications AVX has developed a range of multilayer ceramic capacitors designed for use in applications up to 150ºC. These capacitors are manufactured with an X8R and an X8L dielectric material. X8R material has capacitance variation of ±15% between -55ºC and +150ºC. The X8L material has capacitance variation of ±15% between -55ºC to 125ºC and +15/-40% from +125ºC to +150ºC. The need for X8R and X8L performance has been driven by customer requirements for parts that operate at elevated temperatures. They provide a highly reliable capacitor with low loss and stable capacitance over temperature. They are ideal for automotive under the hood sensors, and various industrial applications. Typical industrial application would be drilling monitoring system. They can also be used as bulk capacitors for high temperature camera modules. Both X8R and X8L dielectric capacitors are automotive AEC-Q200 qualified. Optional termination systems, tin, FLEXITERM® and conductive epoxy for hybrid applications are available. Providing this series with our FLEXITERM® termination system provides further advantage to customers by way of enhanced resistance to both, temperature cycling and mechanical damage. CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/HighTempX8RX8L.pdf HOW TO ORDER 0805 5 F 104 K 4 T Capacitance Capacitance Failure Terminations Tolerance Code (In pF) Rate T = Plated Ni J = ± 5% 4 = Automotive 2 Sig. Digits + and Sn K = ±10% A = Not Number of Z = FLEXITERM® M = ± 20% Applicable U = Conductive Zeros e.g. 10μF = Epoxy for 106 Hybrid apps NOTE: Contact factory for availability of Termination and Tolerance Options for Specific Part Numbers. Size 0603 0805 1206 Voltage 16V = Y 25V = 3 50V = 5 100V = 1 Dielectric X8R = F X8L = L X8R SIZE 331 471 681 102 152 222 332 472 682 103 153 223 333 473 683 104 154 224 334 474 684 105 SIZE Letter Max. Thickness 011516 25V G G G G G G G G G G G G G G G 0805 50V G G G G G G G G G G G G G G 25V 50V 0603 A 0.33 (0.013) C 0.56 (0.022) 25V J J J J J J J J J J J J J J N N N N 25V 1206 50V J J J J J J J J J J J J J J N N N 25V 50V 25V G 0.90 (0.035) SIZE 50V J J J J J J J J J J J M M M M M M 0805 E 0.71 (0.028) PAPER A Packaging 2 = 7" Reel 4 = 13" Reel Special Code A = Std. Product X8L 0603 WVDC Cap 330 (pF) 470 680 1000 1500 2200 3300 4700 6800 Cap 0.01 (μF) 0.015 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.68 1 WVDC 2 J J J J J J J J J J J M M M M M 331 471 681 102 152 222 332 472 682 103 153 223 333 473 683 104 154 224 334 474 684 105 50V 1206 J 0.94 (0.037) K 1.02 (0.040) M 1.27 (0.050) 0603 WVDC Cap 330 (pF) 470 680 1000 1500 2200 3300 4700 6800 Cap 0.01 (μF) 0.015 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.68 1 WVDC 25V G G G G G G 25V 50V G G G G G G G G G G G G G G G G 50V SIZE 0603 N 1.40 (0.055) P Q 1.52 1.78 (0.060) (0.070) EMBOSSED 0805 100V G G G G G G G G G G 25V J J J J J J J N N N 100V 25V 1206 50V J J J J J J J J J J J J J J J J N N 100V J J J J J J J J J J J J N N 50V 100V 16V J J J M M M 16V 0805 X 2.29 (0.090) 25V 50V 100V J J M M J J J J J J J J J J J J J J P P J J J J J J J J J J J M Q Q Q 25V 50V 100V 1206 Y 2.54 (0.100) Z 2.79 (0.110) = AEC-Q200 Qualified www.avx.com | 31 X8R/X8L Dielectric General Specifications APPLICATIONS FOR X8R AND X8L CAPACITORS • • • • All market sectors with a 150°C requirement Automotive on engine applications Oil exploration applications Hybrid automotive applications – Battery control – Inverter / converter circuits – Motor control applications – Water pump • Hybrid commercial applications – Emergency circuits – Sensors – Temperature regulation ADVANTAGES OF X8R AND X8L MLC CAPACITORS • Both ranges are qualified to the highest automotive AEC-Q200 standards • Excellent reliability compared to other capacitor technologies • RoHS compliant • Low ESR / ESL compared to other technologies • Tin solder finish • FLEXITERM® available • Epoxy termination for hybrid available • 100V range available ENGINEERING TOOLS FOR HIGH VOLTAGE MLC CAPACITORS • • • • Samples Technical Articles Application Engineering Application Support X8R/X8L Dielectric 0805, 50V, X8R/X8L Typical Temperature Coefficient 10.00 X8R Cap change % 0.00 -10.00 X8L -20.00 -30.00 -40.00 -50.00 -55 -35 -15 0 20 25 35 45 65 85 105 125 130 135 140 150 Temperature (°C) 32 | www.avx.com 011516 X8R/X8L Dielectric General Specifications Parameter/Test Operating Temperature Range Capacitance Insulation Resistance X8R/X8L Specification Limits -55ºC to +150ºC Within specified tolerance ≤ 2.5% for ≥ 50V DC rating ≤ 3.5% for 25V DC and 16V DC rating 100,000MΩ or 1000MΩ - μF, whichever is less Dielectric Strength No breakdown or visual defects Dissipation Factor Resistance to Flexure Stresses Appearance Capacitance Variation Dissipation Factor Insulation Resistance Solderability Resistance to Solder Heat Thermal Shock Load Life Load Humidity 011516 Appearance Capacitance Variation Dissipation Factor Insulation Resistance Dielectric Strength Appearance Capacitance Variation Dissipation Factor Insulation Resistance Dielectric Strength Appearance Capacitance Variation Dissipation Factor Insulation Resistance Dielectric Strength Appearance Capacitance Variation Dissipation Factor Insulation Resistance Dielectric Strength No defects ≤ ±12% Measuring Conditions Temperature Cycle Chamber Freq.: 1.0 kHz ± 10% Voltage: 1.0Vrms ± .2V Charge device with rated voltage for 120 ± 5 secs @ room temp/humidity Charge device with 300% of rated voltage for 1-5 seconds, w/charge and discharge current limited to 50 mA (max) Note: Charge device with 150% of rated voltage for 500V devices. Deflection: 2mm Test Time: 30 seconds 1mm/sec Meets Initial Values (As Above) ≥ Initial Value x 0.3 ≥ 95% of each terminal should be covered with fresh solder No defects, <25% leaching of either end terminal 90 mm Dip device in eutectic solder at 230 ± 5ºC for 5.0 ± 0.5 seconds ≤ ±7.5% Meets Initial Values (As Above) Dip device in eutectic solder at 260ºC for 60 seconds. Store at room temperature for 24 ± 2 hours before measuring electrical properties. Meets Initial Values (As Above) Meets Initial Values (As Above) No visual defects Step 1: -55ºC ± 2º 30 ± 3 minutes ≤ ±7.5% Step 2: Room Temp ≤ 3 minutes Meets Initial Values (As Above) Step 3: +125ºC ± 2º 30 ± 3 minutes Meets Initial Values (As Above) Step 4: Room Temp ≤ 3 minutes Meets Initial Values (As Above) Repeat for 5 cycles and measure after 24 ± 2 hours at room temperature No visual defects ≤ ±12.5% ≤ Initial Value x 2.0 (See Above) ≥ Initial Value x 0.3 (See Above) Meets Initial Values (As Above) No visual defects ≤ ±12.5% Charge device with 1.5 rated voltage (≤ 10V) in test chamber set at 150ºC ± 2ºC for 1000 hours (+48, -0) Remove from test chamber and stabilize at room temperature for 24 ± 2 hours before measuring. Store in a test chamber set at 85ºC ± 2ºC/ 85% ± 5% relative humidity for 1000 hours (+48, -0) with rated voltage applied. ≤ Initial Value x 2.0 (See Above) ≥ Initial Value x 0.3 (See Above) Remove from chamber and stabilize at room temperature and humidity for 24 ± 2 hours before measuring. Meets Initial Values (As Above) www.avx.com | 33 MLCC with FLEXITERM® GENERAL SPECIFICATIONS With increased requirements from the automotive industry for additional component robustness, AVX recognized the need to produce a MLCC with enhanced mechanical strength. It was noted that many components may be subject to severe flexing and vibration when used in various under the hood automotive and other harsh environment applications. To satisfy the requirement for enhanced mechanical strength, AVX had to find a way of ensuring electrical integrity is maintained whilst external forces are being applied to the component. It was found that the structure of the termination needed to be flexible and after much research and development, AVX launched FLEXITERM ®. FLEXITERM ® is designed to enhance the mechanical flexure and temperature cycling performance of a standard ceramic capacitor with an X7R dielectric. The industry standard for flexure is 2mm minimum. Using FLEXITERM®, AVX provides up to 5mm of flexure without internal cracks. Beyond 5mm, the capacitor will generally fail “open”. As well as for automotive applications FLEXITERM® will provide Design Engineers with a satisfactory solution when designing PCB’s which may be subject to high levels of board flexure. APPLICATIONS High Flexure Stress Circuit Boards • e.g. Depanelization: Components near edges of board. Variable Temperature Applications • Soft termination offers improved reliability performance in applications where there is temperature variation. • e.g. All kind of engine sensors: Direct connection to battery rail. Automotive Applications • Improved reliability. • Excellent mechanical performance and thermo mechanical performance. PRODUCT ADVANTAGES • High mechanical performance able to withstand, 5mm bend test guaranteed. • Increased temperature cycling performance, 3000 cycles and beyond. • Flexible termination system. • Reduction in circuit board flex failures. • Base metal electrode system. • Automotive or commercial grade products available. CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/FlexitermMLCC.pdf HOW TO ORDER 0805 5 C 104 K Style 0603 0805 1206 1210 1812 2220 Voltage 6 = 6.3V Z = 10V Y = 16V 3 = 25V 5 = 50V 1 = 100V 2 = 200V Dielectric C = X7R F = X8R Capacitance Code (In pF) 2 Sig Digits + Number of Zeros e.g., 104 = 100nF Capacitance Tolerance J = ±5%* K = ±10% M = ±20% *≤1μF only A Z Failure Terminations Rate Z = FLEXITERM® A=Commercial For FLEXITERM® 4 = Automotive with Tin/Lead termination see AVX LD Series 2 A Packaging 2 = 7" reel 4 = 13" reel Special Code A = Std. Product NOTE: Contact factory for availability of Tolerance Options for Specific Part Numbers. 34 | www.avx.com 011516 MLCC with FLEXITERM® Specifications and Test Methods BOARD BEND TEST PROCEDURE PERFORMANCE TESTING According to AEC-Q200 AEC-Q200 Qualification: • Created by the Automotive Electronics Council • Specification defining stress test qualification for passive components Testing: Key tests used to compare soft termination to AEC-Q200 qualification: • Bend Test • Temperature Cycle Test Test Procedure as per AEC-Q200: Sample size: 20 components Span: 90mm Minimum deflection spec: 2 mm LOADING KNIFE • Components soldered onto FR4 PCB (Figure 1) MOUNTING ASSEMBLY • Board connected electrically to the test equipment (Figure 2) DIGITAL CALIPER BEND TESTPLATE CONNECTOR CONTROL PANEL CONTROL PANEL Fig 1 - PCB layout with electrical connections BOARD BEND TEST RESULTS Fig 2 - Board Bend test equipment 0603 Substrate Bend (mm) NPO X7R X7R soft term 1206 12 10 8 6 4 2 0 NPO X7R 0805 Substrate Bend (mm) 12 10 8 6 4 2 0 12 10 8 6 4 2 0 Substrate Bend (mm) Substrate Bend (mm) AEC-Q200 Vrs AVX FLEXITERM® Bend Test 12 10 8 6 4 2 0 NPO X7R AVX ENHANCED SOFT TERMINATION BEND TEST PROCEDURE X7R soft term 1210 X7R soft term NPO X7R Bend Test The capacitor is soldered to the printed circuit board as shown and is bent up to 10mm at 1mm per second: Max. = 10mm X7R soft term TABLE SUMMARY 90mm Typical bend test results are shown below: Style Conventional Termination FLEXITERM® 0603 >2mm >5mm 0805 >2mm >5mm 1206 >2mm >5mm TEMPERATURE CYCLE TEST PROCEDURE Test Procedure as per AEC-Q200: The test is conducted to determine the resistance of the component when it is exposed to extremes of alternating high and low temperatures. • Sample lot size quantity 77 pieces • TC chamber cycle from -55ºC to +125ºC for 1000 cycles • Interim electrical measurements at 250, 500, 1000 cycles • Measure parameter capacitance dissipation factor, insulation resistance Test Temperature Profile (1 cycle) +1250 C +250 C • The board is placed on 2 supports 90mm apart (capacitor side down) • The row of capacitors is aligned with the load stressing knife Max. = 10mm • The load is applied and the deflection where the part starts to crack is recorded (Note: Equipment detects the start of the crack using a highly sensitive current detection circuit) • The maximum deflection capability is 10mm -550 C 1 hour 12mins 011516 www.avx.com | 35 MLCC with FLEXITERM® Specifications and Test Methods BEYOND 1000 CYCLES: TEMPERATURE CYCLE TEST RESULTS 0603 10 8 % Failure % Failure 8 6 4 2 0 6 4 2 0 0 500 1000 1500 2000 2500 3000 0 1206 10 500 1000 1500 2000 2500 3000 1210 10 8 % Failure 8 % Failure 0805 10 6 4 2 0 6 4 2 0 0 500 1000 1500 2000 2500 3000 0 Soft Term - No Defects up to 3000 cycles 500 1000 1500 2000 2500 3000 AEC-Q200 specification states 1000 cycles compared to AVX 3000 temperature cycles. FLEXITERM® TEST SUMMARY • Qualified to AEC-Q200 test/specification with the exception of using AVX 3000 temperature cycles (up to +150°C bend test guaranteed greater than 5mm). • FLEXITERM® provides improved performance compared to standard termination systems. WITHOUT SOFT TERMINATION Major fear is of latent board flex failures. 36 | www.avx.com • Board bend test improvement by a factor of 2 to 4 times. • Temperature Cycling: – 0% Failure up to 3000 cycles – No ESR change up to 3000 cycles WITH SOFT TERMINATION Far superior mechanical performance. Generally open failure mode beyond 5mm flexure. 011516 MLCC with FLEXITERM® X8R Dielectric Capacitance Range SIZE 271 331 471 681 102 152 182 222 272 332 392 472 562 682 822 103 123 153 183 223 273 333 393 473 563 683 823 104 124 154 184 224 274 334 394 474 684 824 105 Cap (pF) Cap (μF) 0603 25V G G G G G G G G G G G G G G G G G G G G G G G G G G WVDC 270 330 470 680 1000 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 0.01 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.1 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.68 0.82 1 WVDC 25V SIZE Letter Max. Thickness A 0.33 (0.013) 0805 25V 50V J J J J J J J J J J J J J J J J J J J J J J J N N N N N N N N J J J J J J J J J J J J J J J J J J J J J J J N N N N N N 50V 25V 0603 C 0.56 (0.022) E 0.71 (0.028) PAPER G 0.90 (0.035) J 0.94 (0.037) 1206 50V G G G G G G G G G G G G G G G G G G G G G G G G 50V 25V 50V J J J J J J J J J J J J J J J J J J J J M M M M M M M M M M M M J J J J J J J J J J J J J J J J J J J J M M M M M M M M M M 25V 0805 K 1.02 (0.040) M 1.27 (0.050) N 1.40 (0.055) P Q 1.52 1.78 (0.060) (0.070) EMBOSSED 50V 1206 X 2.29 (0.090) Y 2.54 (0.100) Z 2.79 (0.110) AEC-Q200 Qualified 011516 www.avx.com | 37 MLCC Tin/Lead Termination “B” General Specification AVX Corporation will support those customers for commercial and military Multilayer Ceramic Capacitors with a termination consisting of 5% minimum lead. This termination is indicated by the use of a “B” in the 12th position of the AVX Catalog Part Number. This fulfills AVX’s commitment to providing a full range of products to our customers. AVX has provided in the following pages a full range of values that we are currently offering in this special “B” termination. Please contact the factory if you require additional information on our MLCC Tin/Lead Termination “B” products. CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/LD-Series.pdf Not RoHS Compliant PART NUMBER LD05 5 A 101 Size LD02 - 0402 LD03 - 0603 LD04 - 0504* LD05 - 0805 LD06 - 1206 LD10 - 1210 LD12 - 1812 LD13 - 1825 LD14 - 2225 LD20 - 2220 Voltage 6.3V = 6 10V = Z 16V = Y 25V = 3 35V = D 50V = 5 100V = 1 200V = 2 500V = 7 Dielectric C0G (NP0) = A X8R = F Capacitance Code (In pF) 2 Sig. Digits + Number of Zeros J B C D F G J K M A B 2 Capacitance Failure Terminations Packaging Tolerance Rate 2 = 7" Reel B = 5% min lead = ±.10 pF (<10pF) A = Not 4 = 13" Reel = ±.25 pF (<10pF) Applicable = ±.50 pF (<10pF) Contact Factory = ±1% (≥ 10 pF) For = ±2% (≥ 10 pF) Multiples = ±5% = ±10% = ±20% A Special Code A = Std. Product *LD04 has the same CV ranges as LD03. NOTE: Contact factory for availability of Tolerance Options for Specific Part Numbers. Contact factory for non-specified capacitance values. 38 | www.avx.com See FLEXITERM® section for CV options 011516 MLCC Tin/Lead Termination “B” NP0 Dielectric Capacitance Range PREFERRED SIZES ARE SHADED SIZE LD02 LD03 LD05 LD06 Soldering Packaging Reflow/Wave All Paper Reflow/Wave All Paper Reflow/Wave Paper/Embossed Reflow/Wave Paper/Embossed 1.00 ± 0.10 (0.040 ± 0.004) 0.50 ± 0.10 (0.020 ± 0.004) 0.25 ± 0.15 (0.010 ± 0.006) 16 25 50 C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C 1.60 ± 0.15 (0.063 ± 0.006) 0.81 ± 0.15 (0.032 ± 0.006) 0.35 ± 0.15 (0.014 ± 0.006) 25 50 G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G Cap (μF) 䉲 011516 A 0.33 (0.013) L W 䉲 䉲 Letter Max. Thickness 䉲 SIZE 16 G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G 100 G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G G 16 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J 25 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J 100 16 25 200 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M M M M M 16 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M M M 25 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M M M 200 16 25 3.20 ± 0.20 (0.126 ± 0.008) 1.60 ± 0.20 (0.063 ± 0.008) 0.50 ± 0.25 (0.020 ± 0.010) 50 100 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M M M M P M P M P M P M P M 200 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M Q Q Q 500 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J M M M M M M P 200 500 䉲 Cap (pF) 䉲 (t) Terminal 2.01 ± 0.20 (0.079 ± 0.008) 1.25 ± 0.20 (0.049 ± 0.008) 0.50 ± 0.25 (0.020 ± 0.010) 50 100 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J N N T 䉲 (W) Width mm (in.) mm (in.) mm (in.) WVDC 0.5 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10 12 15 18 22 27 33 39 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 820 1000 1200 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.068 0.082 0.1 WVDC 䉲 (L) Length 16 25 50 t 16 LD02 C 0.56 (0.022) 25 50 LD03 E 0.71 (0.028) PAPER G 0.90 (0.035) J 0.94 (0.037) 50 100 LD05 K 1.02 (0.040) M 1.27 (0.050) N 1.40 (0.055) 50 100 LD06 P Q 1.52 1.78 (0.060) (0.070) EMBOSSED X 2.29 (0.090) Y 2.54 (0.100) Z 2.79 (0.110) www.avx.com | 39 MLCC Tin/Lead Termination “B” NP0 Dielectric Capacitance Range PREFERRED SIZES ARE SHADED LD10 LD12 LD13 LD14 Reflow Only Paper/Embossed Reflow Only All Embossed Reflow Only All Embossed Reflow Only All Embossed 3.20 ± 0.20 (0.126 ± 0.008) 2.50 ± 0.20 (0.098 ± 0.008) 0.50 ± 0.25 (0.020 ± 0.010) 50 100 200 4.50 ± 0.30 (0.177 ± 0.012) 3.20 ± 0.20 (0.126 ± 0.008) 0.61 ± 0.36 (0.024 ± 0.014) 50 100 200 4.50 ± 0.30 (0.177 ± 0.012) 6.40 ± 0.40 (0.252 ± 0.016) 0.61 ± 0.36 (0.024 ± 0.014) 100 5.72 ± 0.25 (0.225 ± 0.010) 6.35 ± 0.25 (0.250 ± 0.010) 0.64 ± 0.39 (0.025 ± 0.015) 100 Cap (pF) 25 50 200 50 䉲 L 䉲 J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J 25 50 J J J J J J J J J J M M J J J J M M M Q Q 100 200 J J J J J J J J J J J J J J J J J J J M M M M M M M M 500 K K K K K K K K K K K K K K M M M M M M M M M K K K K K K K K K K K M M M M M M M M M M M M 25 50 LD10 A 0.33 (0.013) 500 200 W 䉲 SIZE Letter Max. Thickness 500 䉲 Cap (μF) 25 䉲 (t) Terminal T 䉲 (W) Width mm (in.) mm (in.) mm (in.) WVDC 0.5 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10 12 15 18 22 27 33 39 47 56 68 82 100 120 150 180 220 270 330 390 470 560 680 820 1000 1200 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.068 0.082 0.1 WVDC 䉲 (L) Length 䉲 SIZE Soldering Packaging C 0.56 (0.022) 40 | www.avx.com E 0.71 (0.028) PAPER K K K K K K K K K M M M M K K K K K P P P P P X M M M M P Q Q Q Q X M M M M M M M M M M M M M M M P P P P P P 100 200 500 50 LD12 G 0.90 (0.035) J 0.94 (0.037) K 1.02 (0.040) M 1.27 (0.050) M M M M M M M M M M M M M M M M M M M M M M M M M M M 100 200 M M M M M M M M M M M M M M M M M P P P P P Q Q 50 LD13 N 1.40 (0.055) P Q 1.52 1.78 (0.060) (0.070) EMBOSSED t M M M M M M M M M M M M M M M M Y Y P P P P P P P P P P P P P P Y Y Y Y 100 200 LD14 X 2.29 (0.090) Y 2.54 (0.100) Z 2.79 (0.110) 011516 MLCC Tin/Lead Termination “B” X8R Dielectric Capacitance Range SIZE 271 331 471 681 102 152 182 222 272 332 392 472 562 682 822 103 123 153 183 223 273 333 393 473 563 683 823 104 124 154 184 224 274 334 394 474 684 824 105 Cap (pF) Cap (μF) LD03 25V G G G G G G G G G G G G G G G G G G G G G G G G G G WVDC 270 330 470 680 1000 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 0.01 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.1 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.68 0.82 1 WVDC 25V SIZE Letter Max. Thickness 011516 A 0.33 (0.013) LD05 25V 50V J J J J J J J J J J J J J J J J J J J J J J J N N N N N N N N J J J J J J J J J J J J J J J J J J J J J J J N N N N N N 50V 25V LD03 C 0.56 (0.022) E 0.71 (0.028) PAPER G 0.90 (0.035) J 0.94 (0.037) LD06 50V G G G G G G G G G G G G G G G G G G G G G G G G 50V 25V 50V J J J J J J J J J J J J J J J J J J J J M M M M M M M M M M M M J J J J J J J J J J J J J J J J J J J J M M M M M M M M M M 25V LD05 K 1.02 (0.040) M 1.27 (0.050) N 1.40 (0.055) P Q 1.52 1.78 (0.060) (0.070) EMBOSSED 50V LD06 X 2.29 (0.090) Y 2.54 (0.100) Z 2.79 (0.110) www.avx.com | 41 Radial Leads/SkyCap®/AR Series Automotive AVX AR Series is a conformally coated radial leaded capacitor. We offer X8R dielectric, standard, with a 50V rating. Conformally Coated Radial Leaded MLC Temperature Coefficients: C0G (NP0), X7R, X8R 3000, 2000, 1000, 200, 100, 50 Volts Case Material: Epoxy Lead Material: RoHS Compliant, 100% Tin Qualified: to AEC-Q200, PPAP Available Temperature Range: up to 150ºC Dimensions: Millimeters (Inches) W Max. W Max. H Max. H Max. LD Nom. T Max. 1.0" Min. 1.52 (0.060) Max. L.S. .762 (0.030) LD Nom. Styles AR15, AR20, AR30, AR40 T Max. 1.0" Min. L.S. .762 (0.030) See Note Style AR21 Note: Coating clean .784 (0.031) min. above seating plane Drawings are for illustrative purposes only. Actual lead form shape could vary within stated tolerances based on body size. CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/AR-Series.pdf HOW TO ORDER AR21 AVX Style 5 F Voltage Temperature Coefficient 5 = 50V 1 = 100V 2 = 200V A = 1000V G = 2000V H = 3000V A = C0G (NP0) C = X7R F = X8R 104 M 4 Capacitance Capacitance Failure Rate Leads Packaging 4 = AEC-Q200 R = RoHS Long Lead 1.0" minimum Blank = Bulk Packaging T = Trimmed Leads .230"± .030" Bulk packaging TR1 = Tape and Reel Packaging AP1 = Ammopack Packaging First two digits are the Tolerance significant figures of C0G (NP0): X7R: capacitance. Third digit C = ±.25pF J = ±5% indicates the additional D = ±.5pF K = ±10% number of zeros. For F = ±1% M = ±20% example, order 100,000 (>50pF only) pF as 104. (For values G = ±2% X8R: below 10pF use “R” in (>25pF only) J = ±5% place of decimal point, J = ±5% K = ±10% e.g., 1R4 = 1.4pF.) K = ±10% M = ±20% MARKING FRONT XXX X X X 42 | www.avx.com TR1 See packaging specification page 46-47. PACKAGING REQUIREMENTS BACK Capacitance Code Tolerance Code Voltage Code Temp. Char. Code R XXX A XX 3 Digit Date Code Lot Code AVX Logo AR15, 20, 21, 30 AR40 Quantity per Bag 1000 Pieces 500 Pieces Note: AR15, AR20, AR21, AR30, and AR40 available on tape and reel per EIA specifications RS-468. See pages 42 and 43. 011516 Radial Leads/SkyCap®/AR Series C0G and X8R Dielectric – Size and Capacitance Specifications C0G (NP0) DIELECTRIC EIA Characteristic Cap in pF 1 10 15 22 33 39 47 68 100 150 220 330 390 470 680 1,000 1,500 2,200 3,900 4,700 6800 8200 X8R DIELECTRIC Dimensions: Millimeters (Inches) AVX Style AR15 AR20 AR21 AVX “Insertable” AR07 AR29 AR59 Width 3.81 5.08 5.08 (W) (.150) (.200) (.200) Height 3.81 5.08 5.08 (H) (.150) (.200) (.200) Thickness 2.54 3.175 3.175 (T) (.100) (.125) (.125) Lead Spacing 2.54 2.54 5.08 (L.S.) (.100) (.100) (.200) Lead Diameter .508 .508 .508 (L.D.) (.020) (.020) (.020) Industry Preferred WVDC WVDC WVDC Values in Blue 200 100 50 200 100 50 200 100 50 AR-----A1R0D4R AR-----A100K4R AR-----A150K4R AR-----A220K4R AR-----A330K4R AR-----A390K4R AR-----A470K4R AR-----A680K4R AR-----A101K4R AR-----A151K4R AR-----A221K4R AR-----A331K4R AR-----A391K4R AR-----A471K4R AR-----A681K4R AR-----A102K4R AR-----A152K4R AR-----A222K4R AR-----A392K4R AR-----A472K4R AR-----A682K4R AR-----A822K4R EIA Characteristic Dimensions: Millimeters (Inches) AVX Style Cap in pF 1,000 10,000 100,000 330,000 AR20 AR21 AVX “Insertable” AR29 Width 5.08 (W) (.200) Height 5.08 (H) (.200) Thickness 3.175 (T) (.125) Lead Spacing 2.54 (L.S.) (.100) Lead Diameter .508 (L.D.) (.020) Industry Preferred WVDC Values in Blue 200 100 50 AR-----F102K4R AR-----F103K4R AR-----F104K4R AR-----F334K4R AR59 5.08 (.200) 5.08 (.200) 3.175 (.125) 5.08 (.200) .508 (.020) WVDC 200 100 50 Notes: “Insertable” make reference to alternative AVX style using the same range of capacitance available on the matrix. For others Styles, voltages, tolerance and lead lengths see Skycap catalog or contact factory. Others capacitance values available upon special request. Others styles available: AR12, AR14, AR62, AR89. 011516 www.avx.com | 43 Radial Leads/SkyCap® Configurations by Lead Spacing LEAD SPACING .100 ±.030 Dimensions: Inches (Millimeters) AR07/SR07* AR14/SR14 AR15/SR15* AR20/SR20* (T=.100) (T=.100) (T=.100) (T=.125) .200 (5.08) Max. .150 (3.81) Max. .250 (6.35) Max. .200 (5.08) Max. .150 (3.81) Max. .050 (1.27) Clean Above Seating Plane Meniscus Free .031 (.787) Above Seating Plane 1.0 (25.4) Min. .150 (3.81) Max. .300 (7.62) Max. .200 (5.08) Max. 1.0 (25.4) Min. 1.0 (25.4) Min. .060 (1.52) Max. .230 (5.84) ±.030 .100 (2.54) ±.030 .060 (1.52) Max. .100 (2.54) ±.030 .100 (2.54) ±.030 AR29/SR29* AR62/SR62* SR62-LP* (T=.125) (T=.125) (T=.100) .210 (5.33) Max. .170 (4.32) Max. .200 (5.08) Max. 0.04 (1.02) .358 (9.09) Max. .271 (6.88) Max. 0.040 (1.016)Min. .250 (6.35) Max. a 1.0 (25.4) Min. 0.008 ±0.002 (.203 ±.051) Meniscus Free .031 (.787) Above Seating Plane 1.0 (25.4) Min. .100 (2.54) ±.030 .100 (2.54) ±.030 0.100 ±.031 (2.54 ±.787) .100 (2.54) ±.030 Leads = #22 AWG LEAD SPACING Leads = #22 AWG .200 ±.030 Dimensions: Inches (Millimeters) AR12/SR12* SR13* AR21/SR21* SR21-85* SR28* (T=.100) (T=.125) (T=.125) (T=.125) (T=.125) .200 (5.08) Max. .200 (5.08) Max. .150 (3.81) Max. .150 (3.81) Max. .200 (5.08) Max. .230 (5.84) Max. 1.0 (25.4) Min. Meniscus Free .031 (.787) Above Seating Plane .350 (8.89) Max. .200 (5.08) ±.030 .031 (.787) Clean Above Seat .200 (5.08) Max. .300 (7.62) Max. .300 (7.62) Max. Meniscus Free .031 (.787) Above Seating Plane 1.0 (25.4) Min. .200 (5.08) Max. .250 (6.35) Max. Meniscus Free .031 (.787) Above Seating Plane 1.0 (25.4) Min. 1.0 (25.4) Min. 1.0 (25.4) Min. .200 (5.08) ±.030 .200 (5.08) ±.030 .200 (5.08) ±.030 .200 (5.08) ±.030 AR30/SR30* SR30-LP* AR32/SR32* AR40/SR40* AR59/SR59* (T=.150) (T=.150) (T=.150) (T=.150) (T=.125) .300 (7.62) Max. .300 (7.62) MAX. .300 (7.62) Max. .225 (5.71) MAX. .300 (7.62) Max. 1.0 (25.4) Min. 1.0 (25.4) Min. .059 (1.5) Max. .060 (1.52) Max. .400 (10.16) Max. .390 (9.91) Max. Meniscus Free .031 (.787) Above Seating Plane .200 (5.08) Max. .400 (10.16) Max. .031 (.787) Clean Above Seat .300 (7.62) Max. 1.0 (25.4) Min. .200 (5.08) ±.030 .200 (5.08) ±.030 1.0 (25.4) Min. 1.0 (25.4) Min. .060 (1.52) Max. .200 (5.08) ±.030 .200 (5.08) ±.030 .200 (5.08) ±.030 SR61 SR63* SR64* SR64-LP* AR65/SR65* (T=.150) (T=.150) (T=.150) (T=.150) (T=.150) .300 (7.62) Max. .300 (7.62) Max. .500 (12.7) Max. .500 (12.7) Max. Meniscus Free .031 (.787) Above Seating Plane .300 (7.62) Max. .500 (12.7) Max. 0.040 (1.02) Min. a .137/.196 (3.48/4.98) .230 (5.84) ±.030 .200 (5.08) ±.030 .200 (5.08) ±.030 .330 (8.38) Max. 0.04 (1.02) .300 (7.62) Max. .400 (10.16) Max. a 1.00 (25.4) Min. 1.0 (25.4) Min. .300 (7.62) Max. .268 (6.81) Max. .200 (5.08) ±.031 a = .009 ±.002 (.229 ±.051) Leads = #22 AWG 1.0 (25.4) Min. 1.0 (25.4) Min. .200 (5.08) ±.030 .200 (5.08) ±.030 Leads = #22 AWG *SL style available in all SR configurations. 44 | www.avx.com 011516 Radial Leads/SkyCap® Configurations by Lead Spacing .200 ±.030 continued LEAD SPACING SR65-LP* SR67 (T=.150) AR75/SR75* (T=.125) .300 (7.62) MAX. Dimensions: Inches (Millimeters) AR89/SR89* (T=.150) Leads = #22 AWG .200 (5.08) Max. (T=.125) .400 (10.16) Max. .300 (7.62) Max. Seated Height .031 (.787) Seated Plane .350 (8.89) MAX. COATING LIMIT .031 (.787) Min. Clean Lead Above Seat 1.0 (25.4) Min. .215 (5.46) Max. 0.040 (1.02) Min. .400 (10.16) Max. .230 (5.84) ±.030 .260 (6.60) Max. a .480 (12.2) Max. 1.00 (25.4) Min. 0.025 ±0.001 (.635 ±.025) .200 (5.08) ±.031 .200 (5.08) ±.030 .200 (5.08) ±.030 Meniscus Free .031 (7.87) Above Seating Plane a = .009 ±.002 (.229 ±.051) 1.0 (25.4) Min. .200 (5.08) ±.030 LEAD SPACING .250 ±.030 Dimensions: Inches (Millimeters) SR16 AR22/SR22 (T=.125) (T=.125) .200 (5.08) Max. Meniscus Free .031 (.787) Above Seating Plane SR33 (T=.150) .390 (9.91) Max. .200 (5.08) Max. .300 (7.62) Max. .400 (10.16) Max. .300 (7.62) Max. .230 (5.84) ±.030 Leads = #22 AWG 1.0 (25.4) Min. .250 (6.35) ±.030 .230 (5.84) ±.030 .250 (6.35) ±.030 .250 (6.35) ±.030 LEAD SPACING .300 ±.030 SR27 SR34 (T=.150) (T=.150) .260 (6.60) Max. .300 (7.62) Max. Meniscus Free .031 (.787) Above Seating Plane .250 (6.35) Max. 1.0 (25.4) Min. Meniscus Free .031 (.787) Above Seating Plane .350 (8.89) Max. 1.0 (25.4) Min. .300 (7.62) ±.030 .300 (7.62) ±.030 .375 ±.030 LEAD SPACING LEAD SPACING .400 ±.030 AR38/SR38* SR50* SR76* (T=.150) (T=.200) (T=.175) .500 (12.7) Max. .500 (12.7) Max. .300 (7.62) Max. Meniscus Free .031 (.787) Above Seating Plane .500 (12.7) Max. .425 (10.8) Max. 1.0 (25.4) Min. 1.0 (25.4) Min. .060 (1.52) Max. .440 (11.2) Max. .031 (.787) Min. Clean Lead Above Seat .375 (9.53) ±.030 .480 (12.2) Max. Seating Plane 1.0 (25.4) Min. .025 (0.64) ±.004 .400 (10.16) ±.030 .400 (10.16) ±.030 Leads = #22 AWG NOTES: 1. All leads are #24 AWG unless otherwise noted. 2. Available in tape and reel packaging(*). 3. Other styles are also available, contact factory. 4. (T = XXX) under type designation is maximum thickness in inches. *SL style available in all SR configurations. 011516 Drawings are for illustrative purposes only. Actual lead form shape could vary within stated tolerances based on body size. www.avx.com | 45 Radial Leads/SkyCap® Packaging – Tape and Reel GENERAL INFORMATION THE INSERTABLES 1. Standard reel diameter is 355 millimeters (14 inches) maximum. STANDARD 1 2. Reeling standard (#1 or #2) should be specified when ordering. 32 mm max. HOW TO ORDER 16 ± 0.5 mm To specify tape and reel packaging, add TR1, TR2 or TRX to the end of the AVX 12 digit part number. SR07 Examples: SR29 SR59 SR65 SR75 STANDARD 2 SR215C104KARTR1 SR305E105MARTR2 SR215C103JARTRX 32 mm max. 19 mm min. to base of unit SR07 SR29 STANDARD 1 SR59 SR65 SR75 Dimensions in Millimeters 32 max. 32 max. 20 +1.5 -1.0 16±.5 SR28 SR29 SR12 SR21 SR13 SR32 16 min. SR21 (TRX) MR05 SR32 (TRX) SR63 (TRX) SR15 SR20 STANDARD 2 32 max. MR06 SR30 SR40 Dimensions in Millimeters 32 max. 19 min. 19 min. SR29 SR28 SR12 SR21 SR13 SR32 SR15 SR20 MR05 S T S K E D R C W A B F O 46 | www.avx.com N M SR30 SR40 DESCRIPTION DIMENSIONS (MM) A. Feed Hole Pitch B. Feed Hole Diameter C. Feed Hole Location 12.70 ± .20 3.99 ± .20 9.02 ± .51 D. Component Lead Spacing +.79 5.00+.79 -.20 or 2.54 -.20 E. Component Lead Location 3.81 ±.51 or 5.00 ±.51 for 2.54 lead spacing 2.00 maximum F. Component Lead Protrusion (edge of carrier to cut end of lead) K. Component Body Location Q L MR06 X L. Carrier Tape Width M. Carrier Tape Assembly Thickness N. Carrier Tape Spliced Thickness O. Carrier Tape Spliced Length Q. Adhesive Tape Border R. Component Bent Leads (either direction) S. Component Misalignment T. Component Pitch W. Adhesive Tape Width X. Carrier Tape Thickness Y. Cumulative Pitch over 20 Pitches 6.35 ±.41 18.01 +1.02 -.51 .71 ± .20 1.42 maximum 50.80 - 88.90 3.00 maximum .79 maximum .99 maximum 12.70 ±.99 5.00 minimum .51 ±.10 254 ±2.00 011516 Radial Leads/SkyCap® Packaging – Tape and Reel REEL DIRECTION QUANTITY PER REEL SR/AR Leads on top of carrier strip, body away Unreel from LEFT to RIGHT OVER TOP of reel PART PCS SR15, 07, 12 3500 SR20, 21, 23, 28 13, 29, 59, 62, 89 3000 SR30, 32, 40, 63, 64 65, 75 2000 MR05, 06 2500 *SL style available in all SR configurations. G DESCRIPTION A – Reel Diameter B – Reel Outside Width C – Reel Inside Width D – Core Diameter (O.D.) E – Hub Recess Diameter F – Hub Recess Depth G – Arbor Hole Diameter A F DIMENSIONS (MM) 304.80 - 355 50.80 maximum 38.10 - 46.02 102.01 maximum 86.36 maximum 9.50 minimum 25.40 - 30.48 D C B E CONVERSION TABLE MM .10 .20 .38 .41 .51 .71 .79 .99 1.02 1.42 011516 IN .004 .007 .015 .016 .020 .028 .031 .039 .040 .056 MM 1.52 2.00 2.54 3.00 3.18 3.48 3.81 3.99 4.45 4.98 IN MM IN MM .060 .079 .100 .118 .125 .137 .150 .157 .175 .196 5.00 5.08 6.22 6.35 6.60 6.99 7.62 8.89 9.02 9.50 .197 .200 .245 .250 .260 .275 .300 .350 .355 .374 9.91 10.03 10.16 11.68 12.50 12.70 16.00 18.01 25.40 30.48 IN .390 .395 .400 .460 .492 .500 .630 .709 1.000 1.200 MM 32.00 38.10 46.02 50.80 86.36 88.90 102.01 254.00 304.80 355.00 IN 1.260 1.500 1.812 2.000 3.400 3.500 4.016 10.000 12.000 14.000 www.avx.com | 47 SWITCHED MODE POWER SUPPLY (SMPS) CAPACITORS AVX SMPS capacitors utilize multilayer ceramic capacitor technology to achieve higher capacitance, voltage and high resistance to harsh high temperature environments. Innovative solutions include: • SMX SMPS Stacked MLCCs AVX SMX capacitors are stacked SMPS capacitors ideally suited for high temperature applications up to +200ºC. The wide product offering provides designers with solutions exhibiting high capacitance and high voltage ratings that are rated up to +200ºC. • SXP SMPS Molded Radial MLCCs AVX encapsulated radial leaded MLCCs ideally suited for high temperature applications up to +200ºC. This product offers mechanical protection to the ceramic element ensuring reliable operation in harsh environment applications. A KYOCERA GROUP COMPANY SMPS Stacked MLC Capacitors SMX Style for High Temperature Applications up to 200ºC SMX-style, stacked Switch Mode Power Supply Capacitors (SMPS) utilizing Multilayer Ceramic (MLCC) construction are ideally suited for high temperature applications up to 200ºC. This product is intended for downhole oil exploration, including logging while drilling, geophysical probes, as well as space and aerospace electronics. The high temperature solder utilized in the construction of SMX-style parts assures reliable operation in harsh environments. The wide product offering provides designers a solution for high capacitance value and high voltage capacitors rated at 200ºC. The SMX-style capacitors are ideally suited for applications as DC filters in high power, high frequency motor drives, high pulsed-current circuitry, as well as low power electronics. SMX-style, SMPS capacitors are characterized with excellent performance in comparison to wet tantalum products. The main benefits of SMX-product over wet tantalum capacitors include: • • • • • Much lower ESR and lower losses Excellent capacitance retention with frequency Excellent high frequency performance Low DC leakage current Much higher current handling capabilities CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/smx.pdf ELECTRICAL SPECIFICATIONS Temperature Coefficient C0G: A Temperature Coefficient X7R/X9U: C Temperature Coefficient 0 ±30 ppm/°C, -55° to +200°C ±15%, -55°C to +125°C +15% - 56%, -55ºC to +200°C Capacitance Test (MIL-STD-202 Method 305) 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz Dissipation Factor 25°C C0G: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz X7R/X9U: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz Dielectric Withstanding Voltage 25°C (Flash Test) 250% rated voltage for 5 seconds with 50 mA max charging current. (500 Volt units @ 750 VDC) Moisture Resistance (MIL-STD-202 Method 106) Ten cycles with no voltage applied. Thermal Shock (MIL-STD-202 Method 107, Condition A) Immersion Cycling (MIL-STD-202 Method 104, Condition B) Insulation Resistance 25°C (MIL-STD-202 Method 302) 100K MΩ or 1000 MΩ-μF, whichever is less. Resistance To Solder Heat (MIL-STD-202, Method 210, Condition B, for 20 seconds) Insulation Resistance 125°C (MIL-STD-202 Method 302) 10K MΩ or 100 MΩ-μF, whichever is less. HOW TO ORDER Insulation Resistance 200°C (MIL-STD-202 Method 302) 100 MΩ or 1 MΩ -μF, whichever is less. AVX Styles: SMX1, SMX2, SMX3, SMX4, SMX5, SMX6 SMX 1 7 C 106 M A N 650 AVX Style SMX = Uncoated Size Voltage 3 = 25V 5 = 50V 1 = 100V 2 = 200V 7 = 500V Temperature Coefficient C0G = A X7R/X9U = C Capacitance Code (2 significant digits + number of zeros) 10 pF = 100 100 pF = 101 1,000 pF = 102 22,000 pF = 223 220,000 pF = 224 1μF = 105 10 μF = 106 100 μF = 107 Capacitance Tolerance C0G: J = ±5% K = ±10% M = ±20% X7R: K = ±10% M = ±20% Z = +80%, -20% Test Level A = Standard Termination N = Straight Lead J = Leads formed in L = Leads formed out P = P Style Leads Z = Z Style Leads Height Max Dimension “A” 120 = 0.120" 240 = 0.240" 360 = 0.360" 480 = 0.480" 650 = 0.650" Note: Capacitors with X7R/X9U dielectric is not intended for applications across AC supply mains or AC line filtering with polarity reversal. Contact plant for recommendations. Not RoHS Compliant 011516 www.avx.com | 49 SMPS Stacked MLC Capacitors SMX Style for High Temperature Applications up to 200ºC Typical Extended Temperature TCC Characterization of C0G, SMPS Capacitors Test conditions: 1 Vrms, 1 kHz, 0 VDC bias Typical Extended Temperature TCC Characterization of VHT, SMPS Capacitors Test conditions: 1 Vrms, 1 kHz, 0 VDC bias 1.0 Percentage Capacitance Change 20 0.8 Percentage Capacitance Change 0.6 0.4 0.2 0.0 -0.2 0 -20 -40 -60 -80 -0.4 -100 -80 -0.6 -40 -20 0 20 40 60 80 100 120 140 160 180 200 Temperature (ºC) -0.8 -1.0 -75 -50 -25 0 25 50 75 100 125 150 175 200 Temperature (ºC) Typical Extended Temperature IR Characterization of VHT, SMPS Capacitors Typical Extended Temperature IR Characterization of C0G, SMPS Capacitors 1000 RC Product (⍀*F) RC Product (⍀*F) 10000 1000 100 100 10 10 120 130 140 150 160 170 Temperature (ºC) 50 | www.avx.com 180 190 200 150 160 170 180 190 200 Temperature (ºC) 011516 SMPS Stacked MLC Capacitors SMX Style for High Temperature Applications up to 200ºC CHIP SEPARATION 0.254 (0.010) TYP. D CHIP SEPARATION 0.254 (0.010) TYP. CAPACITOR E E 1.651 ± 0.254 (0.065 ± 0.010) B 1.397 (0.055) ±0.254 (0.010) A R 0.508 (0.020) 3 PLACES B 2.540 ± 0.254 (0.100 ± 0.010) 4.191 ± 0.254 (0.165 ± 0.010) DETAIL A 6.350 (0.250) MIN 0.254 (0.010) TYP. 0.508 (0.020) TYP. 2.54 (0.100) TYP. C 2.54 (0.100) MAX. 0.635 (0.025) MIN. C 0.254 (0.010) TYP. 1.016 ± 0.254 (0.040 ± 0.010) DETAIL A “N” STYLE LEADS “P” STYLE LEADS CHIP SEPARATION 0.254 (0.010) TYP. CHIP SEPARATION 0.254 (0.010) TYP. D E E 0.254 (0.010) RAD. (TYP.) B 0.254 (0.010) RAD. (TYP.) 1.397 (0.055) ±0.254 (0.010) A 0.254 (0.010) TYP. 1.905 (0.075) ±0.635 (0.025) TYP. 1.778 (0.070) 0.508 (0.020) TYP. 2.54 (0.100) TYP. ±0.254 (0.010) 2.54 (0.100) MAX. 0.635 (0.025) MIN. C 1.778 (0.070) ±0.254 (0.010) “J” STYLE LEADS C “L” STYLE LEADS 1.397 (0.055) ±0.254 (0.010) A E 0.254 (0.010) TYP. B RAD. 0.254 (0.010) (TYP) 1.270 ± 0.254 (0.050 ± 0.010) CHIP SEPARATION 0.254 (0.010) TYP. D 0.254 (0.010) TYP. 1.905 (0.075) ±0.635 (0.025) TYP. 2.794 ± 0.254 (0.110 ± 0.010) 6.35 (0.250) MIN. 1.778 ±0.254 (0.070 ± 0.010) C 0.508 (0.020) TYP. 2.54 (0.100) TYP. 3.048 ± 0.381 (0.120 ± 0.015) DETAIL B 2.54 (0.100) MAX. 0.635 (0.025) MIN. DETAIL B “Z” STYLE LEADS DIMENSIONS Style SMX1 SMX2 SMX3 SMX4 SMX5 SMX6 011516 A (max.) millimeters (inches) B (max.) For “N” Style Leads: “A” Dimension Plus 1.651 (0.065) See page 52 for For “J” & “L” Style Leads: “A” Dimension Plus 2.032 (0.080) maximum “A” For “P” Style Leads: “A” Dimension Plus 4.445 (0.175) Dimension For “Z” Style Leads: “A” Dimension Plus 3.048 (0.120) C ±.635 (±0.025) 11.4 20.3 11.4 10.2 6.35 31.8 (0.450) (0.800) (0.450) (0.400) (0.250) (1.250) D ±.635 (±0.025) 52.1 38.4 26.7 10.2 6.35 52.1 (2.050) (1.510) (1.050) (0.400) (0.250) (2.050) E (max.) 12.7 22.1 12.7 11.2 7.62 34.3 (0.500) (0.870) (0.500) (0.440) (0.300) (1.350) No. of Leads per side 20 15 10 4 3 20 www.avx.com | 51 SMPS Stacked MLC Capacitors SMX Style for High Temperature Applications up to 200ºC Max Capacitance (μF) Available Versus Style with Height (A) of 0.120" - 3.05mm AVX STYLE C0G VHT SMX1 _ _ _ _ _ _ AN120 SMX2 _ _ _ _ _ _ AN120 25V 50V 100V 200V 500V 25V 1.0 .70 .40 .18 .068 1.2 – 18 10 3.9 1.8 – SMX3 _ _ _ _ _ _ AN120 50V 100V 200V 500V 25V 1.0 .60 .26 .10 .50 27 15 5.6 2.7 12 SMX4 _ _ _ _ _ _ AN120 50V 100V 200V 500V 25V .40 .20 .09 .033 .16 8.2 4.7 1.8 .82 3.9 SMX5 _ _ _ _ _ _ AN120 50V 100V 200V 500V 25V .13 .07 .02 .01 .05 2.7 1.5 .56 .27 1.5 SMX6 _ _ _ _ _ _ AN120 50V 100V 200V 500V 25V 50V 100V 200V 500V .04 .02 .01 .0039 3.2 2.4 1.3 .50 .20 1.0 .56 .22 .10 – 56 33 12 5.6 Max Capacitance (μF) Available Versus Style with Height (A) of 0.240" - 6.10mm AVX STYLE C0G VHT SMX1 _ _ _ _ _ _ AN240 SMX2 _ _ _ _ _ _ AN240 SMX3 _ _ _ _ _ _ AN240 SMX4 _ _ _ _ _ _ AN240 SMX5 _ _ _ _ _ _ AN240 SMX6 _ _ _ _ _ _ AN240 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 2.0 1.4 .80 .36 .13 2.4 2.0 1.2 .52 .20 1.0 .80 .40 .18 .068 .33 .26 .14 .05 .02 .10 .08 .05 .02 .0078 6.4 4.8 2.6 1.0 .40 – 33 18 6.8 3.3 – 47 27 10 4.7 22 15 8.2 3.3 1.5 6.8 4.7 2.7 1.0 .47 2.7 1.8 1.0 .39 .18 – 100 56 22 10 Max Capacitance (μF) Available Versus Style with Height (A) of 0.360" - 9.14mm AVX STYLE C0G VHT SMX1 _ _ _ _ _ _ AN360 SMX2 _ _ _ _ _ _ AN360 SMX3 _ _ _ _ _ _ AN360 SMX4 _ _ _ _ _ _ AN360 SMX5 _ _ _ _ _ _ AN360 SMX6 _ _ _ _ _ _ AN360 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 3.0 2.1 1.2 .54 .22 3.6 3.0 1.8 .78 .30 1.5 1.2 .60 .27 .10 .48 .39 .21 .07 .03 .15 .12 .07 .03 .011 10 7.2 3.9 1.5 .60 – 47 27 10 4.7 – 68 39 15 6.8 33 22 12 5.6 2.2 12 6.8 3.9 1.5 .68 3.9 2.7 1.5 .56 .27 – 150 82 33 15 Max Capacitance (μF) Available Versus Style with Height (A) of 0.480" - 12.2mm AVX STYLE C0G VHT SMX1 _ _ _ _ _ _ AN480 SMX2 _ _ _ _ _ _ AN480 SMX3 _ _ _ _ _ _ AN480 SMX4 _ _ _ _ _ _ AN480 SMX5 _ _ _ _ _ _ AN480 SMX6 _ _ _ _ _ _ AN480 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 4.0 2.8 1.6 .72 .27 4.8 4.0 2.2 1.0 .40 2.0 1.6 .80 .36 .130 .64 .52 .28 .10 .04 .20 .16 .10 .04 .015 13 9.6 5.2 2.0 .80 – 68 39 15 6.8 – 100 56 22 10 47 33 18 6.8 3.3 15 10 5.6 2.2 1.0 5.6 3.9 2.2 .82 .39 – 220 120 47 22 Max Capacitance (μF) Available Versus Style with Height (A) of 0.650" - 16.5mm AVX STYLE C0G VHT SMX1 _ _ _ _ _ _ AN650 SMX2 _ _ _ _ _ _ AN650 SMX3 _ _ _ _ _ _ AN650 SMX4 _ _ _ _ _ _ AN650 SMX5 _ _ _ _ _ _ AN650 SMX6 _ _ _ _ _ _ AN650 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 25V 50V 100V 200V 500V 5.0 3.5 2.0 .90 .34 6.0 5.0 3.0 1.3 .50 2.5 2.0 1.0 .45 .160 .82 .65 .35 .12 .05 .25 .20 .12 .05 .019 16 12 6.5 2.5 1.0 – 82 47 18 8.2 – 120 68 27 12 56 39 22 8.2 3.9 18 12 6.8 2.7 1.2 6.8 4.7 2.7 1.0 .47 – 270 150 56 27 52 | www.avx.com 011516 SMPS Molded Radial MLC Capacitors SXP Style for High Temperature Applications up to 200ºC SXP-style, encapsulated radial leaded MLC capacitors are ideally suited for high temperature applications up to 200ºC. This product is intended for downhole oil exploration, including logging while drilling, geophysical probes, as well as space, aerospace and hybrid automotive applications. This product supplements the SMX family of capacitors and offers mechanical protection to the ceramic element in extreme harsh environment. The high temperature solder utilized in the construction of SXP-style parts assures reliable operation in high temperature and rugged environments. The SXP-style capacitors are ideally suited for applications as DC filters in high power, high frequency motor drives, high pulsed-current circuitry, as well as standard electronic equipment designed for high temperature applications. SXP-style, switch mode power supply capacitors are characterized with excellent performance. The main benefits of SXP product include: • Low ESR, low ESL • Low DC leakage • Excellent high frequency performance CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/SXP-Style.pdf ELECTRICAL SPECIFICATIONS Temperature Coefficient C0G: A Temperature Coefficient VHT: C Temperature Coefficient 0 ±30 ppm/°C, -55° to +200°C ±15%, -55°C to +125°C +15% - 56%, -55ºC to +200°C Capacitance Test (MIL-STD-202 Method 305) 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz Insulation Resistance 25°C (MIL-STD-202 Method 302) 100K MΩ or 1000 MΩ-μF, whichever is less. Insulation Resistance 125°C (MIL-STD-202 Method 302) 10K MΩ or 100 MΩ-μF, whichever is less. Insulation Resistance 200°C (MIL-STD-202 Method 302) 1k MΩ or 10 MΩ -μF, whichever is less. Dissipation Factor 25°C C0G: 0.15% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz X7R/X9U: 2.5% Max @ 25°C, 1.0±0.2 Vrms (open circuit voltage) at 1KHz Dielectric Withstanding Voltage 25°C (Flash Test) 250% rated voltage for 5 seconds with 50 mA max charging current. (150% for 500 VDC and 120% for 1000 VDC and higher voltage ratings) HOW TO ORDER SXP 3 1 C 104 AVX Style Size See Dimensions Chart Voltage 5 = 50V 1 = 100V 2 = 200V 7 = 500V A = 1000V S = 1500V G = 2000V H = 3000V Temperature Coefficient C0G = A VHT = C Capacitance Code (2 significant digits + number of zeros) 100 pF = 101 22,000 pF = 223 1μF = 105 M A A Capacitance Test Level Leads Tolerance A = Standard A = Standard C0G: Sn/Pb J = ±5% (min. 5% Pb) K = ±10% M = ±20% Not RoHS Compliant X7R: K = ±10% M = ±20% Z = +80%, -20% Tighter tolerances available upon request 011516 www.avx.com | 53 SMPS Molded Radial MLC Capacitors SXP Style for High Temperature Applications up to 200ºC STYLE L T H LL LD LS DIMENSIONS AVX Style SXP1 SXP2 SXP3 SXP4 millimeters (inches) Length (L) ±0.25 (±0.010) 8.9 (0.350) 11.4 (0.450) 12.7 (0.500) 22.4 (0.880) Height (H) ±0.25 (±0.010) 8.9 (0.350) 11.4 (0.450 12.7 (0.500) 16.3 (0.640) Thickness (T) ±0.25 (±0.010) 5.08 (0.200) 5.08 (0.200) 5.08 (0.200) 5.84 (0.230) Lead Spacing ±0.76 (±0.030) 5.08 (0.200) 5.08 (0.200) 10.2 (0.400) 19.8 (0.780) LD ±0.05 (±0.002) 0.51 (0.020) 0.51 (0.020) 0.64 (0.025) 0.81 (0.032) CAPACITANCE RANGE C0G Style SXP1 (MIN) (MAX) SXP2 (MIN) (MAX) SXP3 (MIN) (MAX) SXP4 (MIN) (MAX) 50V 1000pF .047μF .01μF .10μF .01μF .15μF .01μF .39μF 100V 1000pF .027μF 1000pF .056μF 1000pF .068μF .01μF .22μF 200V 1000pF 8200pF 1000pF .018μF 1000pF .022μF 1000pF .068μF 500V 100pF 4700pF 100pF 8200pF 1000pF .012μF 1000pF .033μF 1000V 100pF 2200pF 100pF 4700pF 1000pF 6800pF 1000pF .018μF 1500V 100pF 1000pF 100pF 1800pF 100pF 2700pF 1000pF 8200pF 2000V 100pF 560pF 100pF 1200pF 100pF 1500pF 100pF 4700pF 3000V 100pF 270pF 100pF 560pF 100pF 1000pF 100pF 2700pF 50V .1μF 1.5μF .1μF 2.7μF .01μF 3.9μF 1μF 12μF 100V .01μF 1.0μF .1μF 1.8μF .1μF 2.7μF .1μF 8.2μF 200V .01μF .33μF .01μF .68μF .01μF 1.0μF .1μF 2.7μF 500V .01μF .12μF .01μF .27μF .01μF .33μF .01μF 1.0μF 1000V .01μF .056μF .01μF .10μF .01μF .15μF .01μF .47μF 1500V .01μF .022μF .01μF .056μF .01μF .082μF .01μF .22μF 2000V 1000pF .012μF .01μF .022μF .01μF .033μF .01μF .10μF 3000V 1000pF 4700pF 1000pF 8200pF .01μF .015μF .01μF .039μF VHT Style SXP1 (MIN) (MAX) SXP2 (MIN) (MAX) (MIN) SXP3 (MAX) SXP4 (MIN) (MAX) 54 | www.avx.com 011516 GLASS DIELECTRIC AVX glass capacitors offer optimum, highly stable performance in harsh environments, capacitance retraceability, and a rugged, simple construction to eliminate mechanical problems. A KYOCERA GROUP COMPANY ET Series Glass Capacitors Elevated Temperatures HEAT FEATURES It’s the enemy of reliable, long-term circuit performance. In many applications, very high temperatures are not a consideration in circuit design. But in a few specialized areas, elevated temperatures create very real design problems. That’s why AVX ET-Series capacitors keep working at temperatures where more ordinary capacitors usually fail...up to 200°C. And, of course, AVX ET-Series capacitors provide all the high performance, high reliability characteristics you’ve come to expect from all AVX glass capacitors...excellent stability, outstanding capacitance retraceability, rugged, simple construction to eliminate mechanical problems, and electrical performance specifications among the best available at any price. So when the heat’s on your next design and you can’t alter the environment, choose AVX ET-Series glass capacitors. That’ll be one less problem you’ll have to solve. • Available in both axial and radial leaded configurations • Values from 0.5 pF to 2400 pF • Working temperature range -75°C to 200°C • “Burned In” versions available – 50 hours @ 1500 VDC, 25°C • Simple, rugged design and construction • Short lead times for most values STANDARD OPERATING CHARACTERISTICS OF AVX ET-SERIES AXIAL AND RADIAL LEADED GLASS CAPACITORS Working Temperature Range Voltage Rating Capacitance Range Insulation Resistance Dissipation Factor Life Short Time (1 Hour) Exposure to Overtemperature (250°C) Voltage Coefficient -75°C to 200°C 50 VDC 0.5 pF to 2400 pF @ 25°C > 100,000 Megohms @ 200°C > 100 Megohms @ 25°C < .1% at 1kHz @ 200°C < 1% at 1kHz (1000 hours at rated voltage at 200°C) Post Test Delta C @ 25°C < 2% DF @ 25°C < 2.5% IR > 100 Megohms (axials) IR > 10 Megohms (radials) No degradation 0 TYPICAL APPLICATIONS In general, AVX ET-Series glass capacitors are ideally suited for any environment where high temperature could alter or destroy circuit performance. And since they are rated down to -75°C, ET-Series capacitors are also useful where cycling to colder temperatures may be a problem. Some applications where AVX ET-Series capacitors have already proven themselves include: 56 | www.avx.com • Oil, well logging and downhole instrumentation, where frictional or geothermal heat is a problem. • Geophysical pressure probes. • Missile or aerospace applications where engine or environmental heat needs to be monitored or may cause circuit failure. • Radar or other microwave applications. • RF output circuitry where conduction or fan cooling cannot be entirely relied upon to remove all of the heat. • Space and satellite applications where temperature changes are extreme and “zero failures” are a must. • Industrial chemical process instrumentation where heat is a part of the process. • Instrumentation for monitoring atthe-tool performance in metal cutting machinery. • Fire-safe alarm or control circuitry. 011516 ET Series Glass Capacitors Elevated Temperatures 10' +4 +2 0 -2 -4 1kHz 10kHz 100kHz Quality Factor 10-2 10' 10-3 10' Dissipation Factor 10K 1MHz 10 -3 10' Dissipation 10K 100K Frequency – mHz 10' Se Quality Factor Dissipation Factor 10 1,000 10' -2 Factor 1M 10M 100M Quality Factor and Dissipation Factor vs. Frequency Radial % Capacitance Change vs. Frequency Radial and Axial Quality Factor 10M Frequency in Hz Frequency 10-1 1M 100K Quality Factor Dissipation Factor % Capacitance Change 10-1 lf R eso na 100 nc e 0.0 0.5 Total 1.0 lead 1.5 length 2.0 (inches) 10 100M 10 100 1,000 10,000 Capacitance – pF Frequency in Hz Resonant Frequency vs. Capacitance Radial Quality Factor and Dissipation Factor vs. Frequency Axial Frequency – mHz 1,000 100 0.5 10 1.0 Total 1.5 lead 2.0 length 2.5 (inches) 10 100 1,000 10,000 Capacitance – pF Resonant Frequency vs. Capacitance Axial 011516 www.avx.com | 57 ET Series Glass Capacitors Axial Lead Elevated Temperatures ET10E 100 AVX ET-Series axial leaded glass capacitors* are available in two standard case sizes and in a wide range of values and tolerances. All feature extremely stable glass dielectric, fused monolithic construction and true glass-to-metal hermetic seals at the leads for moisture resistance. All case sizes conform to industry dimensional standards. AVX INTRODUCTION ET15E 511J AVX ET10 ET15 CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/GlassET10-15.pdf PERFORMANCE CHARACTERISTICS W 28.58 (1.125) Min. L T DIMENSIONS: Case Size ET10 ET15 millimeters (inches) W L Lead Dia. +0.1 (+0.004) -0.03 (-0.001) T 8.74 ± 1.19 4.37 ± 0.79 1.98 ± 0.79 (0.344 ± 0.047) (0.172 ± 0.031) (0.078 ± 0.031) 11.91 ± 1.19 6.76 ± 0.79 2.77 ± 1.19 (0.469 ± 0.047) (0.266 ± 0.031) (0.109 ± 0.047) 5.08 (0.200) 5.08 (0.200) Weight (grams) .25 - .50 .75 - 1.25 Note: Standard leads are solder-coated Dumet. MARKING Front ET 10E 101J ET ETR 10 E AVX Tolerance: Available tolerances for each capacitance value are shown in the ordering information table on following page. Part marking codes are also provided. Temperature Coefficient: Capacitance exhibits retraceability to within 10 ppm/°C over the temperature range -75°C to +200°C. See graph on following page. Voltage Coefficient: Zero Losses: Extremely low over the entire specified operating temperature range. Dissipation factor is 1% or less at 200°C at 1kHz. Life: Delta C is less than 2% after 1000 hours at rated voltage, 200°C. Insulation Resistance: Greater than 100,000 megohms at 25°C; greater than 100 megohms at 200°C. More than 100 megohms after life-testing. Voltage/Temperature Rating: All ET-Series capacitors are rated at 50 VDC over their operating temperature range of -75°C to 200°C. No derating is required. High Voltage Stabilization Screening: A special version of ET-Series axial leaded capacitors – designated ETR – is available. These capacitors have been “burned in” at room temperature for 50 hours at 1500 VDC. Short Time Overtemperature Exposure: After exposure to 250°C for one hour, ET-Series capacitors have continued to perform to specification. Moisture Resistance: Axial glass capacitors are hermetically sealed in glass, with a true metal-to-glass seal at the leads. This construction provides practical immunity to environmental effects such as shock, moisture, salt spray and solder heat. Leads on CL within 0.79 (0.031) = Glass Capacitor = Glass Capacitor with “burn in” = Case Size = Operating Temperature Range Back 1502 101 J AVX 0705 Additional performance details are given in the AVX “Performance Characteristics of Multilayer Glass Dielectric Capacitors” technical paper. = Capacitance, Coded in pF = Tolerance = AVX Corporation = Date Code *Radiation Resistance to the same level as the CY, CYR axial series. HOW TO ORDER ET 10 E Style Glass Capacitor Case Size 10 15 Operating Temperature Range -75°C to +200°C 58 | www.avx.com 101 J Capacitance Code Capacitance Tolerance C = ±.25 pF J = ±5% D = ±.50 pF K = ±10% F = ±1% M = ±20% G = ±2% Capacitance Code is expressed in picofarads (pF). The first two digits represent significant figures and the third digit specifies the number of zeros to follow; i.e. 101 indicates 100 pF. For values below 10 pF, R = decimal point; i.e. 1R5 indicates 1.5 pF. 011516 ET Series Glass Capacitors Axial Lead Elevated Temperatures RATINGS & PART NUMBER REFERENCE (Standard Values) ET Part No. ETR Part No. Cap (pF) Tolerances Available Voltage DC Working C C, D C, D C, D C, D C, D C, D C, D C, D C, D C, K C, J, K C, J, K C, J, K C, J, K C, J, K C, J, K C, J, K C, J, K, M C, J, K, M C, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 ET Part No. ETR Part No. ET10, ETR10 ET10E0R5 * ET10E1R0 ET10E1R5 ET10E2R2 ET10E2R7 ET10E3R0 ET10E3R3 ET10E3R6 ET10E3R9 ET10E4R3 ET10E4R7 ET10E5R1 ET10E5R6 ET10E6R2 ET10E6R8 ET10E7R5 ET10E8R2 ET10E9R1 ET10E100 ET10E110 ET10E120 ET10E130 ET10E150 ET10E160 ET10E180 ET10E200 ET10E220 ET10E240 ET10E270 ET10E300 ET10E330 ET10E360 ET10E390 ET10E430 ET10E470 ET10E510 ET10E560 ET10E620 ET10E680 ET10E750 ETR10E0R5 ** ETR10E1R0 ETR10E1R5 ETR10E2R2 ETR10E2R7 ETR10E3R0 ETR10E3R3 ETR10E3R6 ETR10E3R9 ETR10E4R3 ETR10E4R7 ETR10E5R1 ETR10E5R6 ETR10E6R2 ETR10E6R8 ETR10E7R5 ETR10E8R2 ETR10E9R1 ETR10E100 ETR10E110 ETR10E120 ETR10E130 ETR10E150 ETR10E160 ETR10E180 ETR10E200 ETR10E220 ETR10E240 ETR10E270 ETR10E300 ETR10E330 ETR10E360 ETR10E390 ETR10E430 ETR10E470 ETR10E510 ETR10E560 ETR10E620 ETR10E680 ETR10E750 Add letter for tolerance code above lines. 0.5 1.0 1.5 2.2 2.7 3.0 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 47 51 56 62 68 75 DC Working ETR10E820 ETR10E910 ETR10E101 ETR10E111 ETR10E121 ETR10E131 ETR10E151 ETR10E161 ETR10E181 ETR10E201 ETR10E221 ETR10E241 ETR10E271 ETR10E301 82 91 100 110 120 130 150 160 180 200 220 240 270 300 F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M 50 50 50 50 50 50 50 50 50 50 50 50 50 50 F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 ET15, ETR15 ET15E221 ET15E241 ET15E271 ET15E301 ET15E331 ET15E361 ET15E391 ET15E431 ET15E471 ET15E511 ET15E561 ET15E621 ET15E681 ET15E751 ET15E821 ET15E911 ET15E102 ET15E112 ET15E122 ETR15E221 ETR15E241 ETR15E271 ETR15E301 ETR15E331 ETR15E361 ETR15E391 ETR15E431 ETR15E471 ETR15E511 ETR15E561 ETR15E621 ETR15E681 ETR15E751 ETR15E821 ETR15E911 ETR15E102 ETR15E112 ETR15E122 220 240 270 300 330 360 390 430 470 510 560 620 680 750 820 910 1000 1100 1200 Add letter for tolerance code above lines. These capacitors include a “burn in”, see page 58 High Voltage Stablization Screening. These capacitors include a “burn in”, see page 58 High Voltage Stablization Screening. % Capacitance +4 Change vs. Temperature Axial Axial .01 +2 ⌬ C in % 1 kHz Dissipation Factor Tolerances Available Voltage ET10, ETR10 (cont’d) ET10E820 ET10E910 ET10E101 ET10E111 ET10E121 ET10E131 ET10E151 ET10E161 ET10E181 ET10E201 ET10E221 ET10E241 ET10E271 ET10E301 Dissipation Factor vs. Temperature 0 -2 .001 -4 .0001 50 100 150 200 Temperature – ºC 011516 Cap (pF) 250 0 25 50 75 100 125 150 175 200 Temperature – ºC www.avx.com | 59 ET Series Glass Capacitors Radial Lead Elevated Temperatures INTRODUCTION ET06 AVX ET-Series radial leaded glass capacitors are available in a broad range of tolerances and values in three case sizes. The fused monolithic capacitive element is housed in a miniature rectangular molded case for high packaging efficiency in circuit board applications. The gold-plated Dumet leads can be soldered or welded. ET07 ET06E 101J AVX ET08 ET07E 621J ET08E 202J AVX AVX L T CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/GlassET06-08.pdf W PERFORMANCE CHARACTERISTICS 31.75 (1.250) Min. 1.27 ±0.51 (.050 ±.020) S Leads on centerline within ±0.51 (±.020) DIMENSIONS: millimeters (inches) Case Size L ±0.13 (±0.005) W ±0.25 (±0.010) ET06 ET07 ET08 7.62 (0.300) 7.62 (0.300) 12.7 (0.500) 5.08 (0.200) 7.62 (0.300) 7.62 (0.300) T ±0.13 (±0.005) S +0.51 (±0.020) Weight (grams) 2.92 (0.115) 2.92 (0.115) 2.92 (0.115) 5.08 (0.200) 5.08 (0.200) 10.16 (0.400) .3 - .4 .4 - .5 .7 - .8 Note: All leads are 24 AWG, 0.51± 0.05 (0.020±0.002) diameter. Leads are solderable and welded gold-plated Dumet. MARKING ET 06E 561J 1502 AVX Tolerance: The ordering information table on the opposite page gives the available tolerances and values. An explanation of the part marking code is also provided. Temperature Coefficient: Capacitance exhibits retraceability to within 10 ppm/°C over the temperature range -75°C to 200°C. See graph on following page. Voltage Coefficient: Zero Losses: Over the specified temperature range, losses are very low. At 200°C, 1kHz, the dissipation factor is 1% or less. Life: Delta C is less than 2% after 1000 hours at rated voltage, 200°C. Insulation Resistance: 100,000 megohms or greater at 25°C; 100 megohms or greater at 200°C. More than 10 megohms after 1000 hour life-test. Voltage/Temperature Rating: All ET-Series capacitors are rated at 50 VDC over the operating temperature range of -75°C to 200°C. Derating is not required. High Voltage Stabilization Screening: A special version of ET-Series radial leaded capacitors – designated ETR – is available. These capacitors have been “burned in” at room temperature for 50 hours at 1500 VDC. Short Time Overtemperature Exposure: After exposure to 250°C for one hour, ET-Series capacitors have continued to perform to specification. AVX ET ETR 06 E 561 J 1502 = AVX Corporation = Glass Capacitor = Glass Capacitor with “burn in” = Case Size = Operating Temperature Range = Capacitance, Coded in pF = Tolerance = Date Code Additional performance details are given in the AVX “Performance Characteristics of Multilayer Glass Dielectric Capacitors” technical paper. HOW TO ORDER ET 06 E Style Glass Capacitor Case Size 06 07 08 Operating Temperature Range -75°C to +200°C 60 | www.avx.com 561 J Capacitance Code Capacitance Tolerance Capacitance Code is expressed in picofarads (pF). The first two digits represent significant figures and the third digit specifies the number of zeros to follow; i.e. 561 indicates 560 pF. For values below 10 pF, R = decimal point; i.e. 1R5 indicates 1.5 pF. C D F G = = = = ±.25 pF ±.50 pF ±1% ±2% J = ±5% K = ±10% M = ±20% 011516 ET Series Glass Capacitors Radial Lead Elevated Temperatures RATINGS & PART NUMBER REFERENCE (Standard Values*) ET Part No. ETR Part No. Cap (pF) ET06E8R2 ET06E9R1 ET06E100 ET06E110 ET06E120 ET06E130 ET06E150 ET06E160 ET06E180 ET06E200 ET06E220 ET06E240 ET06E270 ET06E300 ET06E330 ET06E360 ET06E390 ET06E430 ET06E470 ET06E510 ET06E560 ET06E620 ET06E680 ET06E750 ET06E820 ET06E910 ETR06E8R2 ETR06E9R1 ETR06E100 ETR06E110 ETR06E120 ETR06E130 ETR06E150 ETR06E160 ETR06E180 ETR06E200 ETR06E220 ETR06E240 ETR06E270 ETR06E300 ETR06E330 ETR06E360 ETR06E390 ETR06E430 ETR06E470 ETR06E510 ETR06E560 ETR06E620 ETR06E680 ETR06E750 ETR06E820 ETR06E910 Tolerances Available Voltage DC Working ET Part No. ETR Part No. C, J, K C, J, K C, J, K, M C, J, K, M C, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M C, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 ET08E112 * ET08E122 ET08E132 ET08E152 ET08E162 ET08E182 ET08E202 ET08E222 ET08E242 Cap (pF) ET06, ETR06 Add letter for tolerance code above lines. 8.2 9.1 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 47 51 56 62 68 75 82 91 ETR08E112 ** ETR08E122 ETR08E132 ETR08E152 ETR08E162 ETR08E182 ETR08E202 ETR08E222 ETR08E242 Add letter for tolerance code above lines. 1100 1200 1300 1500 1600 1800 2000 2200 2400 F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M F, G, J, K, M 50 50 50 50 50 50 50 50 50 These capacitors include a “burn in”, see page 60 High Voltage Stablization Screening. *Other values may be available - contact AVX These capacitors include a “burn in”, see page 60 High Voltage Stablization Screening. % Capacitance +4 Change vs. Temperature Radial Radial .01 +2 ⌬ C in % 1 kHz Dissipation Factor DC Working ET08, ETR08 Dissipation Factor vs. Temperature 0 -2 .001 -4 .0001 50 100 150 200 Temperature – ºC 011516 Tolerances Available Voltage 250 0 25 50 75 100 125 150 175 200 Temperature – ºC www.avx.com | 61 RF/MICROWAVE MLCCs AVX offers RF/Microwave capacitors suitable for high temperature applications with operating frequency range well beyond 1GHz. Solutions include: • SQ Series RF/microwave capacitors with ultra low ESR suitable for RF power amplifier applications. Components are specified up to 175ºC operating temperature. A KYOCERA GROUP COMPANY RF/Microwave MLCCs SQCB Ultra Low ESR MLCC SQCB (1111) are AVX’s Ultra Low ESR microwave capacitors. Suitable for RF Power Amplifiers, they come in non-mag termination for MRI applications. They offer very High Q & resonant frequency and power handling capability. FEATURES: APPLICATIONS: • Low ESR • RF Power Amplifiers • High Q • Low Noise Amplifiers • High Self Resonance • Filter Networks • Capacitance Range 0.1 pF to 5100 pF • MRI Systems • 175ºC Capability SQCB CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/sqca-sqcb.pdf HOW TO ORDER SQ CB 7 AVX Style SQ Case Size CB = * Voltage Code 5 = 50V E = 150V 2 = 200V V = 250V 9 = 300V 7 = 500V *See Mechanical dimensions below M 100 J Capacitance Temperature Capacitance Tolerance Coefficient EIA Capacitance Code Code Code in pF. B = ±.1 pF M = +90±20ppm/°C First two digits = C = ±.25 pF significant figures or “R” A = 0±30ppm/°C D = ±.5 pF for decimal place. C = 15% F = ±1% (“J” Termination only) Third digit = G = ±2% number of zeros or after J = ±5% “R” significant figures. K = ±10% M = ±20% N = ±30% A T 1A Failure Rate Code A = Not Applicable Termination Style Code **1 = Pd/Ag **7 = Ag/Ni/Au J = Nickel Barrier Tin/Lead (60/40) **T = 100% Tin Packaging Code 1A = 7" Reel Unmarked 6A = Waffle Pack Unmarked ME = 7" Reel Marked WE = Waffle Pack Unmarked *Vertical T&R available *500 piece reels available **RoHS compliant Not RoHS Compliant LEAD-FREE COMPATIBLE COMPONENT For RoHS compliant products, please select correct termination style. W L MECHANICAL DIMENSIONS: T inches (millimeters) Case Length (L) Width (W) Thickness (T) Band Width (bw) SQCB* .110 + .020 - .010 (2.79 +.508 -.254) .110±.010 (2.79±.254) .030/.102 (.762/2.59) .015±.010 (.381±.254) bw TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3). —8mm carrier —7" reel: SQCB = 1000 pcs WAFFLE PACK SQCB 100 pcs 011516 www.avx.com | 63 RF/Microwave MLCCs SQCB Ultra Low ESR MLCC ELECTRICAL SPECIFICATIONS M&A Temperature Coefficient (TCC) Capacitance Range Operating Temperature Quality Factor (Q) M Dielectric B Case A Dielectric B Case Insulation Resistance (IR) Working Voltage (WVDC) Dielectric Withstanding Voltage (DWV) Aging Effects Piezoelectric Effects Capacitance Drift (M) +90 ± 20 PPM/ºC ( -55ºC to +125ºC) (M) +90 ± 30 PPM/ºC ( +125ºC to +175ºC)* (A) 0 ± 30 PPM/ºC (M) 0.1 pF to 1000 pF (A) 0.1 pF to 5100 pF 0.1 pF to 330 pF: from -55ºC to +175ºC* 360 pF to 5100 pF: from -55ºC to +125ºC Greater than 10,000 at 1 MHz Greater than 10,000 at 1 MHz Greater than 2,000 at 1 MHz Greater than 2,000 at 1 KHz 0.2 pF to 470 pF 106 Megohms min. @ 25ºC at rated WVDC 105 Megohms min. @ 125ºC at rated WVDC 510 pF to 5100 pF 105 Megohms min. @ 25ºC at rated WVDC 104 Megohms min. @ 125ºC at rated WVDC See Capacitance Values table 250% of rated WVDC for 5 secs (for 500V rated 150% of rated voltage) None None ± (0.02% or 0.02 pF), whichever is greater C ±15% (-55ºC to 125ºC) 0.001μF to 0.1μF -55°C to +125°C 2.5% @ 1kHz 0.1 - 200 pF 220 - 1000 pF 1100 - 5100 pF 104 Megohms min. @ 25ºC at rated WVDC 103 Megohms min. @ 125ºC at rated WVDC See Capacitance Values table 250% of rated WVDC for 5 secs <3% per decade hour None Not Applicable * 175 SQCB & SQLB only ENVIRONMENTAL CHARACTERISTICS AVX SQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123 Themal Shock Moisture Resistance Low Voltage Humidity Life Test Shock Vibration Immersion Salt Spray Solderability Terminal Strength Temperature Cycling Barometric Pressure Resistance to Solder Heat 64 | www.avx.com Mil-STD-202, Method 107, Condition A Mil-STD-202, Method 106 Mil-STD-202, Method 103, condition A, with 1.5 VDC applied while subjected to an environment of 85ºC with 85% relative humidity for 240 hours Mil-STD-202, Method 108, for 2000 hours at 125ºC Mil-STD-202, Method 213, Condition J Mil-STD-202, Method 204, Condition B Mil-STD-202, Method 104, Condition B Mil-STD-202, Method 101, Condition B Mil-STD-202, Method 208 Mil-STD-202, Method 211 Mil-STD-202, Method 102, Condition C Mil-STD-202, Method 105, Condition B Mil-STD-202, Method 210, Condition C 011516 RF/Microwave MLCCs SQCB Ultra Low ESR MLCC AVAILABLE CAPACITANCE/SIZE/WVDC/T.C. Case Size B TABLE IV: TC: M (+90±20PPM/°C) Cap. pF 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.2 2.4 Cap. Tol. B B B,C B,C B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D WVDC 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Cap. pF 2.7 3.0 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 13 15 16 18 Cap. Tol. B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, J, K B, C, J, K B, C, J, K B, C, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K WVDC 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Cap. pF 20 22 24 27 30 33 36 39 43 47 51 56 62 68 75 82 91 100 110 120 130 Cap. Tol. F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K WVDC 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 300 300 300 Cap. pF 150 160 180 200 220 240 270 300 330 360 390 430 470 510 560 620 680 750 820 910 1000 Cap. Tol. F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K WVDC 300 300 300 300 200 200 200 200 200 200 200 200 200 150 150 150 150 150 150 150 150 WVDC 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Cap. pF 47 51 56 62 68 75 82 91 100 110 120 130 150 160 180 200 220 240 270 300 330 360 390 430 470 510 Cap. Tol. F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K WVDC 500 500 500 500 500 500 500 500 500 300 300 300 300 300 300 300 200 200 200 200 200 200 200 200 200 150 Cap. pF 560 620 680 750 820 910 1000 1100 1200 1300 1500 1600 1800 2000 2200 2400 2700 3000 3300 3600 3900 4300 4700 5000 5100 Cap. Tol. F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K WVDC 150 150 150 150 150 150 150 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 TABLE V: TC: A (0±30PPM/°C) Cap. pF 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.2 2.4 2.7 3.0 3.3 3.6 Cap. Tol. B B B,C B,C B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D WVDC 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Cap. pF 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 Cap. Tol. B, C, D B, C, D B, C, D B, C, D B, C, D B, C, D B, C, J, K B, C, J, K B, C, J, K B, C, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K F, G, J, K TABLE VI: TC: C (±15%) Cap. pF 5000 6800 8200 10000 12000 011516 Cap. Tol. K, M, N K, M, N K, M, N K, M, N K, M, N WVDC 50 50 50 50 50 Cap. pF 15000 18000 27000 33000 39000 Cap. Tol. K, M, N K, M, N K, M, N K, M, N K, M, N WVDC 50 50 50 50 50 Cap. pF 47000 68000 82000 100000 Cap. Tol. K, M, N K, M, N K, M, N K, M, N WVDC 50 50 50 50 www.avx.com | 65 RF/Microwave MLCCs SQCB Ultra Low ESR MLCC Typical ESR SQCB 1 4.7pF 10pF 22pF 100pF 1000pF ESR (ohms) 0.1 0.01 0.001 10 100 1000 Frequency (Mhz) SQCB Max Current Max Current (amps) 100 4.7pF 10pF 22pF 100pF 1000pF 10 1 0.1 10 100 1000 10000 Frequency (Mhz) Series Resonant Frequency 10000 SRF (Mhz) SQCB 1000 100 1 10 100 Capacitance (pF) 1000 B DESIGN KITS C A D MOUNTING PAD DIMENSIONS: inches (millimeters) A min 0.131 (3.327) B min 0.051 (1.295) 66 | www.avx.com C min 0.074 (1.880) D min 0.177 (4.496) PN Diel Term KITSQ800LF KITSQ1100LF KITSQ900LF KITSQ1200LF KITSQ1000LF KITSQ1300LF P90 C0G P90 C0G P90 C0G KITSQ1400LF C0G 100% Tin RoHS 100% Tin RoHS 100% Tin RoHS 100% Tin RoHS Range Different Values # per value 1 to 10pF 16 15 10 to 100pF 16 15 100 to 1000pF 16 15 1000 to 5100 pF 11 15 011516 CIRCUIT PROTECTION & SIGNAL INTEGRITY AVX multi-layer varistors (MLVs) help to protect sensitive electronic systems against electrostatic discharge (ESD) and other transients while reducing EMI/RFI. High temperature circuit protection solutions include: • High Temperature CANBUS MLV Multi-Layer varistors designed and manufactured for protecting high frequency CANBUS communications lines in high temperature applications. Products have been tested, qualified, and specified to 150ºC. • High Temperature Low Leakage MLV Multi-Layer varistors designed and manufactured for high temperature applications requiring low leakage circuit protection components. Products have been tested, qualified, and specified to 150ºC. • Radial Leaded High Temperature MLV High Temperature Multi-Layer Varistors designed for protection and EMI/RFI filtering of sensitive circuits in high temperature applications. These varistors have been built for durability in harsh environments. Products have been tested, qualified, and specified to 150ºC. A KYOCERA GROUP COMPANY High Temperature Automotive 150ºC Rated Varistors AVX High Temperature Multi-Layer Varistors are designed for underhood applications. Products have been tested, qualified, and specified to 150ºC. The MLV advantage is EMI/RFI attenuation in the off state. This allows designers the ability to combine the circuit protection and EMI/RFI attenuation function into a single highly reliable device. FEATURES APPLICATIONS • Operating Temperature: -55ºC to +150ºC • AEC Q200 qualified • ESD rating to 25kV contact • EMI/RFI attenuation in off state • Excellent current and energy handling • • • • • • • Under hood Down Hole Drilling High temperature applications Communication Bus Sensors RF Circuits Capacitance sensitive applications and more CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/canat.pdf CAN SERIES HOW TO ORDER CAN AT 01 R P Type Series Case Size Packaging Termination Controlled Area Network Varistor Automotive High Temperature 01 = 0603 02 = 0405 2-Element 04 = 0612 4-Element D = 7” (1000 pcs) R = 7” (4,000 pcs) T = 13” (10,000pcs) P = Ni Barrier/ 100% Sn (matte) AVX Part Number VW (DC) VW (AC) VB IL ET IP Cap Case Size Elements CANAT01-CANAT02-CANAT04-- ≤ 18 ≤ 18 ≤ 18 ≤ 14 ≤ 14 ≤ 14 120 70 100 10 10 10 0.015 0.015 0.015 4 4 4 22 22 22 0603 0405 0612 1 2 4 VW(DC) VW(AC) VB VC DC Working Voltage [V] AC Working Voltage [V] Breakdown Votage [V @ 1mADC] Clamping Votage [V @ IVC] IL ET IP Cap Maximum leakage current at the working voltage [µA] Transient Energy Rating [J, 10x1000µS] Peak Current Rating [A, 8x20µS] Capacitance [pF] @ 1KHz specified and 0.5VRMS ANTENNAGUARD SERIES HOW TO ORDER VCAT 06 AG 18 120 Y A T 1 A Type Case Size Varistor Series AntennaGuard Non-Std. Cap Tolerance N/A 04 = 0402 06 = 0603 Working Voltage Cap High Temperature Varistor Termination Finish Reel Size Reel Quantity P = Ni Barrier/ 100% Sn 1 = 7" 3 = 13" A = 4000 or 10,000 18 = 18Vdc AVX Part Number VW (DC) VW (AC) IL Cap VCAT06AG18120YAT-- ≤ 18 ≤ 14 10 12 VW(DC) VW(AC) DC Working Voltage [V] AC Working Voltage [V] 68 | www.avx.com IL Cap Cap Tolerance Case Size +4, -2pF 0603 Maximum leakage current at the working voltage [µA] Capacitance [pF] @ 1KHz specified and 0.5VRMS 011516 High Temperature Automotive 150ºC Rated Varistors PHYSICAL DIMENSIONS W W T P P W T T BW BL BW L BL 0603 Discrete Dimensions L W T 1.60±0.15 0.80±0.15 0.90 MAX (0.063±0.006) (0.032±0.006) (0.035 MAX) BW N/A BL 0.35±0.15 (0.014±0.006) P mm (inches) W T BW BL P 1.00±0.15 1.37±0.15 0.66 MAX 0.36±0.10 0.20±0.10 0.64 REF (0.014±0.004) (0.008±0.004) 0612 4 Elements Array Dimensions (0.025 REF) mm (inches) L W T BW BL P 1.60±0.20 3.20±0.20 1.22 MAX 0.41±0.10 0.18 +0.25 -0.08 0.76 REF (0.048 MAX) (0.016±0.004) (0.008 -.003 ) (0.030 REF) (0.063±0.008) (0.126±0.008) 011516 L N/A L (0.026 MAX) BL mm (inches) 0405 2 Elements Array Dimensions (0.039±0.006) (0.054±0.006) L +.010 www.avx.com | 69 High Temperature Low Leakage Automotive Varistors 150ºC Rated Low Leakage Automotive Varistors GENERAL DESCRIPTION AVX High Temperature Low Leakage Multi-Layer Varistors are designed for underhood and high temperature applications where low leakage component is required Parts are tested, qualified and specified to 150ºC. The MLV advantage is EMI/RFI attenuation in the off state. This allows designers the ability to to combine the circuit protection and EMI/RFI attenuation function into a single highly reliable device. GENERAL CHARACTERISTICS • Operating Temperature: -55ºC to 150ºC FEATURES APPLICATIONS • Rated at 150°C • AEC Q200 qualified • ESD rating to 25kV (HBM ESD Level 6) • EMI/RFI attenuation in off state • Very Low Leakage • Under hood • High temperature applications • Bus Interface Protection • CAN Bus • BCM, TCU • Capacitance sensitive applications and more CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/lowleakagemlv.pdf COMMUNICATION BUS - HIGH TEMPERATURE LOW LEAKAGE VARISTOR HOW TO ORDER CAN ATL 07 Type Series Case Size Packaging Termination Controlled Area Network Varistor Automotive High Temperature Low Leakage 07 = 0603 D = 7” (1000 pcs) R = 7” (4,000 pcs) T = 13” (10,000pcs) P = Ni Barrier/100% Sn PN VW(DC) VW(AC) CANATL07 VW(DC) VW(AC) VB VC IVC IL1 32 25 R P VB VC IVC IL1 IL2 ET IP 61±15% 120 1 1 <1 0.05 5 DC Working Voltage [V] AC Working Voltage [V] Breakdown Votage [V @ 1mADC, 25ºC] Clamping Votage [V @ IIVC] Test Current for VC [A, 8x20μs] Maximum leakage current at the working voltage, 25ºC [μA] 70 | www.avx.com IL2 ET IP Cap VJump PDISS Typ Cap Cap Tol 10 ±50% Freq VJump PDiss max M 27 0.003 Typical leakage current at 28Vdc, 25°C [μA] Transient Energy Rating [J, 10x1000μS] Peak Current Rating [A, 8x20μS] Capacitance [pF] @ 1KHz specified and 0.5VRMS Jump Start [V, 5 min] Max Power Dissipation [W] 011516 High Temperature Low Leakage Automotive Varistors 150ºC Rated Low Leakage Automotive Varistors S21 CHARACTERISTICS 5 Insertion Loss (dB) 0 -5 -10 -15 -20 -25 -30 0.1 1 10 100 1000 10000 Frequency (MHz) CANATL07 PHYSICAL DIMENSIONS AND RECOMMENDED PAD LAYOUT 0603 Discrete Dimensions T D mm (inches) L W T BL 1.60±0.15 0.80±0.15 0.90 MAX 0.35±0.15 (0.063±0.006) (0.032±0.006) (0.035 MAX) (0.014±0.006) W A C BL L 011516 B 0603 Soldering Pad mm (inches) A B C D 0.89 (0.035) 0.76 2.54 0.76 (0.030) (0.100) (0.030) www.avx.com | 71 Radial Leaded High Temperature Automotive 150ºC Rated Radial Leaded TransGuard® GENERAL DESCRIPTION AVX High Temperature Multi-Layer Varistors are designed for underhood applications. Products have been tested, qualified, and specified to 150ºC. The Radial Leaded TransGuard is built for durability in harsh environments. The MLV advantage is EMI/RFI attenuation in the off state. This allows designers to combine the circuit protection and EMI/RFI attenuation function into a single highly reliable device. GENERAL CHARACTERISTICS • Operating Temperatures: -55ºC to +150ºC • Working Voltage: 14-48Vdc FEATURES APPLICATIONS • • • • • • • • • • • Rated at 150ºC AEC Q200 qualified ESD rated to 25kV (HBM ESD Level 6) EMI/RFI attenuation in off state Excellent current and energy handling Under hood Down Hole Drilling DC Motors Relays Inductive Loads High Temperature/Harsh environment and more CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/vr15at.pdf HOW TO ORDER VR15 AT 18 A 650 Clamping Voltage AVX Style Series Voltage Energy VR15 VR20 AT = 150ºC Automotive 14 = 14V 18 = 18V 26 = 26V 48 = 48V A = 0.1J D = 0.4J S = 2.0J 580 = 60V 650 = 67V 101 = 100V 151 = 150V R TR2 Leads Packaging R = RoHS Compliant Blank = Bulk TR1 = T&R Standard 1 TR2 = T&R Standard 2 ELECTRICAL CHARACTERISTICS AVX Part Number VR15AT14A580 VR15AT18A650 VR20AT26D101 VR20AT48S151 VW(DC) VW(AC) VB VC IVC IL VW DC 14.0 18.0 26.0 48.0 VW AC 10.0 13.0 18.0 34.0 VB 34.5±10% 41.0±10% 62.0±10% 100.0±10% VC 60 67 100 150 IVC 1 1 1 1 DC Working Voltage [V] AC Working Voltage [V] Typical Breakdown Votage [V @ 1mADC] Clamping Voltage [V @ IIV] Test Current for VC Maximum leakage current at the working voltage [μA] IL 10 10 10 10 Et ELD IP Cap VJump PDISS ET 0.1 0.1 0.4 2.0 ELD 0.15 0.15 1.5 3.5 IP 30 30 100 250 Cap 120 90 225 275 Freq K M K K VJUMP 27.5 29 48 48 PDISS 0.002 0.002 0.008 0.040 Transient Energy Rating [J, 10x1000μS] Load Dump Energy (x10) [J] Peak Current Rating [A, 8x20μS] Typical capacitance [pF] @ frequency specified and 0.5VRMS Jump Start (V) Power Dissipation (W) PHYSICAL DIMENSIONS W mm (inches) H .060 (1.52) Max. AVX Style VR15 1.0 (25.4) Min. VR20 Width (W 4.32 Max. (0.170) 5.59 Max (0.220) Height (H) 3.81 Max. (0.150) 5.08 Max (0.200) Thickness (T) 2.54 Max. (0.100) 3.175 Max (0.125) Lead Spacing 2.54 (0.100) 2.54 (0.100) Lead Diameter 0.508 (0.020) 0.508) (0.020 .100 (2.54)±.030 72 | www.avx.com 011516 Radial Leaded High Temperature Automotive 150ºC Rated Radial Leaded TransGuard® TYPICAL PERFORMANCE CURVES Typical Voltage Current Characteristics Typical Voltage Current Characteristics 180 160 Voltage (V) VR20AT48S151 140 VR20AT26D101 120 VR15AT18A650 VR15AT14A580 100 80 60 40 20 0 1.E-09 1.E-06 1.E-03 1.E+00 1.E+03 Current (A) AEC-Q200-002 ESD Characteristics ESD Wave Absorption Characteristics 10% 2500 5% 2000 VOLTAGE (V) % V b Change No Suppression 8kV 150 pF 330 Ohm 0% -5% -10% 6 12 16 25 VR20AT48S151 VR20AT26D101 VR15AT18A650 1500 VR15AT14A580 1000 500 0 kV Pulse 0 20 40 60 80 TIME (nsec) 100 120 140 8 kV ESD Vc (150pF/330ohm IEC Network) TAPE & REEL PACKAGING OPTIONS TR1 Tape & Reel Standard 1 0.630 (16.0) Min. 011516 TR2 Tape & Reel Standard 2 0.748 (19.0) Min. www.avx.com | 73 NTC THERMISTORS AVX NTC thermistors are high quality devices that can be used for temperature compensation, temperature control and high in-rush current protection of sensitive circuitry. NTC Thermistor Solutions Include: • NTC SMD Thermistors NTC thermistors especially developed for surface mounting applications, available in 0603, 0805 and 1206 case sizes. Products are specified to +150ºC. • NTC Leaded Disc Thermistors Leaded thermistors designed and built for harsh environment applications. Products are specified to +150ºC A KYOCERA GROUP COMPANY NTC SMD Thermistors With Ni Barrier Termination NB 12 - NB 20 Chip thermistors are a high quality and low cost device especially developed for surface mounting applications. They are widely used for temperature compensation but can also achieve temperature control of printed circuits. A nickel barrier metallization provides outstanding qualities of solderability and enables this chip to meet the requirements of the most severe soldering processes. APPLICATIONS • • • • • • • LCD compensation CD players Heating systems Air-conditioning systems Compensation of pressure sensors Temperature control of Switch Mode Power Supplies Protection of power transistors in various electronic circuits CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/nb21-nb12-nb20.pdf NB 12 IEC SIZE : 0805 Types NB 20 IEC SIZE : 1206 2 (.079) ± 0.3 (.012) 3.2 (.126) ± 0.4 (.016) 1.25 (.049) ± 0.2 (.008) DIMENSIONS: millimeters (inches) 1.6 (.063) ± 0.25 (.010) 0.5 (.020) ... 1.5 (.059) 0.5 (.020) ... 1.3 (.051) 0.2 (.008) min 0.2 (.008) min Terminations 0.2 (.008) min 0.2 (.008) min Nickel Barrier Marking On packaging only Climatic category 40/125/56 Operating temperature -55°C to +150°C Tolerance on Rn (25°C) ±5%, ±10%, ±20% Maximum dissipation at 25°C Thermal dissipation factor Thermal time constant 0.12 W 0.24 W 2 mW/°C 4 mW/°C 5s 7s HOW TO ORDER NB 12 K0 0103 M Type NB = Ni Barrier NB12 = 0805 NB20 = 1206 NB21 = 0603 Material Code K Resistance 10,000 Ω Tolerance M (±20%) J (±5%) K (±10%) 011516 BA Suffix: Packaging – –: Bulk 0603, 0805 1206 BB: Cardboard tape (180mm diam. reel) BA: Plastic tape (180mm diam. reel) BF: Cardboard tape (1/2 reel) BE: Plastic tape (1/2 reel) BD: Cardboard tape (330mm diam. reel) BC: Plastic tape (330mm diam. reel) www.avx.com | 75 NTC SMD Thermistors With Ni Barrier Termination NB 12 - NB 20 TABLE OF VALUES NB 12 IEC SIZE : 0805 Types Rn at 25°C (Ω) Material Code NB 20 IEC SIZE : 1206 B (K) (⌬B/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) NB 12 KC 0 180 NB 12 KC 0 220 NB 12 KC 0 270 NB 12 KC 0 330 NB 12 KC 0 390 NB 12 KC 0 470 NB 12 KC 0 560 NB 12 KC 0 680 NB 12 KC 0 820 NB 12 KC 0 101 18 22 27 33 39 47 56 68 82 100 NB 12 MC 0 121 NB 12 MC 0 151 NB 12 MC 0 181 NB 12 MC 0 221 NB 12 MC 0 271 NB 12 MC 0 331 NB 12 MC 0 391 NB 12 MC 0 471 NB 12 MC 0 561 NB 12 MC 0 681 NB 12 MC 0 821 NB 12 MC 0 102 NB 12 MC 0 122 NB 12 MC 0 152 NB 12 MC 0 182 NB 12 MC 0 222 NB 12 MC 0 272 NB 12 MC 0 332 120 150 180 220 270 330 390 470 560 680 820 1,000 1,200 1,500 1,800 2,200 2,700 3,300 NB 12 J 0 0332 NB 12 J 0 0392 NB 12 J 0 0472 NB 12 J 0 0562 3,300 3,900 4,700 5,600 NB 12 K 0 0682 NB 12 K 0 0822 NB 12 K 0 0103 6,800 8,200 10,000 K 3630 ± 3% – 4.0 NB 12 L 0 0123 NB 12 L 0 0153 12,000 15,000 L 3790 ± 3% – 4.2 NB 12 M 0 0183 NB 12 M 0 0223 NB 12 M 0 0273 NB 12 M 0 0333 18,000 22,000 27,000 33,000 M 3950 ± 3% – 4.4 NB 12 N 0 0393 NB 12 N 0 0473 NB 12 N 0 0563 39,000 47,000 56,000 N 4080 ± 3% – 4.6 NB 12 L 2 0683 68,000 L2 3805 ± 3% – 4.1 NB 12 N 5 0683 NB 12 N 5 0823 68,000 82,000 N5 4160 ± 3% – 4.7 KC MC J 3470 ± 5% 3910 ± 3% 3480 ± 3% – 3.9 – 4.4 – 3.9 NB 12 P 0 0104 100,000 P 4220 ± 3% – 4.7 NB 12 SC 0104 100,000 SC 4500 ± 3% – 4.8 NB 12 P 0 0124 NB 12 P 0 0154 NB 12 P 0 0184 120,000 150,000 180,000 P 4220 ± 3% – 4.7 NB 12 Q 0 0224 NB 12 Q 0 0274 220,000 270,000 Q 4300 ± 3% – 4.7 NB 12 R 0 0105 1,000,000 R 4400 ± 3% – 4.8 76 | www.avx.com Types Rn at 25°C (Ω) Material Code B (K) (⌬B/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) NB 20 MC 0 221 NB 20 MC 0 102 220 1,000 MC MC 3910 ± 3% 3910 ± 3% – 4.4 – 4.4 NB 20 J 0 0472 NB 20 J 0 0562 NB 20 J 0 0682 4,700 5,600 6,800 J 3480 ± 3% – 3.9 NB 20 J 5 0822 8,200 J5 3480 ± 3% – 3.9 NB 20 K 0 0103 NB 20 K 0 0123 10,000 12,000 K 3630 ± 3% – 4.0 NB 20 L 0 0153 NB 20 L 0 0183 NB 20 L 0 0223 15,000 18,000 22,000 L 3790 ± 3% – 4.2 NB 20 M 0 0273 NB 20 M 0 0333 NB 20 M 0 0393 NB 20 M 0 0473 27,000 33,000 39,000 47,000 M 3950 ± 3% – 4.4 NB 20 N 0 0563 NB 20 N 0 0683 NB 20 N 0 0823 56,000 68,000 82,000 N 4080 ± 3% – 4.6 NB 20 N 5 0104 100,000 N5 4160 ± 3% – 4.7 NB 20 P 0 0124 NB 20 P 0 0154 NB 20 P 0 0184 NB 20 P 0 0224 120,000 150,000 180,000 220,000 P 4220 ± 3% – 4.7 NB 20 Q 0 0274 NB 20 Q 0 0334 NB 20 Q 0 0394 NB 20 Q 0 0474 NB 20 Q 0 0564 270,000 330,000 390,000 470,000 560,000 Q 4300 ± 3% – 4.7 NB 20 R 0 0684 NB 20 R 0 0824 NB 20 R 0 0105 680,000 820,000 1,000,000 R 4400 ± 3% – 4.8 011516 NTC SMD Thermistors With Ni Barrier Termination NB 21 Chip thermistors are high quality and low cost devices especially developed for surface mounting applications. They are widely used for temperature compensation but can also achieve temperature control of printed circuits. A nickel barrier metallization provides outstanding qualities of solderability and enables this chip to meet the requirementsof the most severe soldering processes. APPLICATIONS • • • • • • • • • LCD compensation Battery packs Mobile phones CD players Heating systems Air-conditioning systems Temperature control of Switch Mode Power Supplies Compensation of pressure sensors Protection of power transistors in various electronic circuits CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/NB21.pdf NB 21 IEC SIZE : 0603 Types 1.6 (.063) 0.2 (.008) 0.8 (.031) ±0.2 (.008) DIMENSIONS: millimeters (inches) 0.8 (.031) ±0.2 (.008) 0.2 (.008) min 0.2 (.008) min Terminations Nickel Barrier Marking On packaging only Climatic category 40/125/56 Operating temperature -55°C to +150°C Tolerance on Rn (25°C) ±5%, ±10%, ±20% Maximum dissipation at 25°C 0.07 W Thermal dissipation factor 1 mW/°C Thermal time constant 4s HOW TO ORDER NB 21 K0 0103 M BA Type Material Code K Resistance 10,000 Ω Tolerance M (±20%) J (±5%) K (±10%) Suffix: Packaging – –: Bulk BB: Cardboard tape (180mm diam. reel) BF: Cardboard tape (1/2 reel) BD: Cardboard tape (330mm diam. reel) 011516 www.avx.com | 77 NTC SMD Thermistors With Ni Barrier Termination NB 21 TABLE OF VALUES NB 21 IEC SIZE : 0603 Types Rn at 25°C Material (Ω) Code B (K) (⌬B/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) NB 21 KC 0 470 NB 21 KC 0 101 NB 21 KC 0 471 47 100 470 KC 3470 ± 5% – 3.9 NB 21 MC 0 102 1,000 MC 3910 ± 3% – 4.4 NB 21 J 0 0472 4,700 J 3480 ± 3% – 3.9 NB 21 J 5 0682 NB 21 J 5 0103 6,800 10,000 J5 3480 ± 3% 3480 ± 3% – 3.9 – 3.9 NB 21 K 0 0103 NB 21 K 0 0153 10,000 15,000 K 3630 ± 3% – 4.0 NB 21 L 0 0223 22,000 L 3790 ± 3% – 4.2 NB 21 M 0 0333 NB 21 M 0 0473 33,000 47,000 M 3950 ± 3% – 4.4 NB 21 L 2 0683 68,000 L2 3805 ± 3% – 4.1 NB 21 N 0 0683 68,000 N 4080 ± 3% – 4.6 NB 21 N 5 0104 100,000 N5 4160 ± 3% – 4.7 NB 21 P 0 0154 150,000 P 4220 ± 3% – 4.7 NB 21 Q 0 0334 NB 21 Q 0 0474 330,000 470,000 Q 4300 ± 3% – 4.7 78 | www.avx.com 011516 NTC SMD Thermistors With Ni Barrier Termination NC 12 - NC 20 Chip thermistors are a high quality and low cost device especially developed for surface mounting applications. They are widely used for temperature compensation but can also achieve temperature control of printed circuits. Its silver - palladium platinum metallization provides a high degree of resistance to dewetting of the terminations during soldering (typically 260°C / 30 s). APPLICATIONS • • • • • • • • • LCD compensation Battery packs Mobile phones CD players Heating systems Air-conditioning systems Temperature control of Switch Mode Power Supplies Compensation of pressure sensors Protection of power transistors in various electronic circuits CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/nc12-20.pdf NB 12 IEC SIZE : 0805 Types NB 20 IEC SIZE : 1206 2 (.079) ± 0.3 (.012) 3.2 (.126) ± 0.4 (.016) 1.25 (.049) ± 0.2 (.008) DIMENSIONS: millimeters (inches) 1.6 (.063) ± 0.25 (.010) 0.5 (.020) ... 1.5 (.059) 0.5 (.020) ... 1.3 (.051) 0.2 (.008) min 0.2 (.008) min Terminations 0.2 (.008) min 0.2 (.008) min Nickel Barrier Marking On packaging only Climatic category 40/125/56 Operating temperature -55°C to +150°C Tolerance on Rn (25°C) ±5%, ±10%, ±20% Maximum dissipation at 25°C Thermal dissipation factor Thermal time constant 0.12 W 0.24 W 2 mW/°C 4 mW/°C 5s 7s HOW TO ORDER NC 20 K0 0103 M BA Type NC12 = 0805 NC20 = 1206 Material Code K Resistance 10,000 Ω Tolerance M (±20%) J (±5%) K (±10%) Suffix: Packaging – –: Bulk 011516 0603, 0805 BB: Cardboard tape (180mm diam. reel) BF: Cardboard tape (1/2 reel) BD: Cardboard tape (330mm diam. reel) 1206 BA: Plastic tape (180mm diam. reel) BE: Plastic tape (1/2 reel) BC: Plastic tape (330mm diam. reel) www.avx.com | 79 NTC SMD Thermistors With Ni Barrier Termination NC 12 - NC 20 TABLE OF VALUES NC 20 IEC SIZE : 1206 NC 12 IEC SIZE : 0805 Types Rn at 25°C (Ω) NC 12 KC 0 180 NC 12 KC 0 220 NC 12 KC 0 270 NC 12 KC 0 330 NC 12 KC 0 390 NC 12 KC 0 470 NC 12 KC 0 560 NC 12 KC 0 680 NC 12 KC 0 820 NC 12 KC 0 101 18 22 27 33 39 47 56 68 82 100 NC 12 MC 0 121 NC 12 MC 0 151 NC 12 MC 0 181 NC 12 MC 0 221 NC 12 MC 0 271 NC 12 MC 0 331 NC 12 MC 0 391 NC 12 MC 0 471 NC 12 MC 0 561 NC 12 MC 0 681 NC 12 MC 0 821 NC 12 MC 0 102 NC 12 MC 0 122 NC 12 MC 0 152 NC 12 MC 0 182 NC 12 MC 0 222 NC 12 MC 0 272 NC 12 MC 0 332 120 150 180 220 270 330 390 470 560 680 820 1,000 1,200 1,500 1,800 2,200 2,700 3,300 NC 12 J 0 0332 NC 12 J 0 0392 NC 12 J 0 0472 NC 12 J 0 0562 NC 12 K 0 0682 NC 12 K 0 0822 NC 12 K 0 0103 NC 12 K 0 0123 NC 12 L 0 0153 NC 12 L 0 0183 NC 12 M 0 0223 NC 12 M 0 0273 NC 12 M 0 0333 NC 12 M 0 0393 NC 12 N 0 0473 NC 12 N 0 0563 3,300 3,900 4,700 5,600 6,800 8,200 10,000 12,000 15,000 18,000 22,000 27,000 33,000 39,000 47,000 56,000 NC 12 L 2 0683 NC 12 N 0 0823 NC 12 P 0 0104 NC 12 P 0 0124 NC 12 P 0 0154 NC 12 P 0 0184 NC 12 Q 0 0224 68,000 82,000 100,000 120,000 150,000 180,000 220,000 80 | www.avx.com Material Code B (K) ( (1) ± 5% ⌬B/B (2) ± 3% ) ␣ at 25°C (%/°C) KC 3470 ± 5% – 3.9 MC 3910 ± 3% – 4.4 J 3480 ± 3% – 3.9 K 3630 ± 3% – 4.0 L 3790 ± 3% – 4.2 M 3950 ± 3% – 4.4 N 4080 ± 3% – 4.6 L2 N 3805 ± 3% 4080 ± 3% – 4.1 – 4.6 P 4220 ± 3% – 4.7 Q 4300 ± 3% -4.7 Types Rn at 25°C (Ω) NC 20 KC 0 100 10 NC 20 KC 0 120 12 NC 20 KC 0 150 15 NC 20 KC 0 180 18 NC 20 KC 0 220 22 NC 20 KC 0 270 27 NC 20 KC 0 330 33 NC 20 KC 0 390 39 NC 20 KC 0 470 47 NC 20 KC 0 560 56 NC 20 KC 0 680 68 NC 20 KC 0 820 82 NC 20 KC 0 101 100 NC 20 MC 0 121 120 NC 20 MC 0 151 150 NC 20 MC 0 181 180 NC 20 MC 0 221 220 NC 20 MC 0 271 270 NC 20 MC 0 331 330 NC 20 MC 0 391 390 NC 20 MC 0 471 470 NC 20 MC 0 561 560 NC 20 MC 0 681 680 NC 20 MC 0 821 820 NC 20 MC 0 102 1,000 NC 20 MC 0 122 1,200 NC 20 MC 0 152 1,500 NC 20 I 0 0182 1,800 NC 20 I 0 0222 2,200 NC 20 I 0 0272 2,700 NC 20 I 0 0332 3,300 NC 20 J 0 0392 3,900 NC 20 J 0 0472 4,700 NC 20 J 0 0562 5,600 NC 20 J 0 0682 6,800 NC 20 K 0 0822 8,200 NC 20 K 0 0103 10,000 NC 20 K 0 0123 12,000 NC 20 K 0 0153 15,000 NC 20 L 0 0183 18,000 NC 20 L 0 0223 22,000 NC 20 M 0 0273 27,000 NC 20 M 0 0333 33,000 NC 20 M 0 0393 39,000 NC 20 M 0 0473 47,000 NC 20 N 0 0563 56,000 NC 20 N 0 0683 68,000 NC 20 N 0 0823 82,000 NC 20 N 0 0104 100,000 NC 20 P 0 0124 120,000 NC 20 P 0 0154 150,000 NC 20 P 0 0184 180,000 NC 20 P 0 0224 220,000 NC 20 Q 0 0274 270,000 NC 20 Q 0 0334 330,000 NC 20 Q 0 0394 390,000 NC 20 Q 0 0474 470,000 NC 20 R 0 0564 560,000 NC 20 R 0 0684 680,000 NC 20 R 0 0824 820,000 NC 20 R 0 0105 1,000,000 Material Code B (K) (⌬B/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) KC 3470 ± 5% – 3.9 MC 3910 ± 3% – 4.4 I 3250 ± 5% – 3.7 J 3480 ± 3% – 3.9 K 3630 ± 3% – 4.0 L 3790 ± 3% – 4.2 M 3950 ± 3% – 4.4 N 4080 ± 3% – 4.6 P 4220 ± 3% – 4.7 Q 4300 ± 3% – 4.7 R 4400 ± 3% – 4.8 011516 NTC SMD Thermistors Packaging for Automatic Insertion – NC/NB Series PACKAGING FOR AUTOMATIC INSERTION NTC CHIP THERMISTOR – NC/NB SERIES 5.5 (.217) ±0.2 (.008) Max 3° Super 8 Plastic Tape Packaging: The mechanical and dimensional reel characteristics are in accordance with the IEC publication 286-3. 30+ ± 5+ T K Designation Tape width Tape thickness Pitch of the sprocket holes Diameter of the sprocket holes Symbol W T P0 D0 Distance Distance (center to center) Distance (center to center) Sizes of the NC 12 (0805) cavities E F P2 A0 B0 K Value 8 0.4 max. 4 1.5 -0 1.75 3.5 2 1.5 2.4 1.4 max. NC 20 (1206) A0 B0 K 1.95 3.55 1.5 max. A1 B1 B0 F R = 0.3 (.012) Max. AUTOMATIC INSERTION (.008) Hole ⭋1 (.039) +0.2 -0 Cover Tape Max 3° D0 P2 W E P0 Max 3° Max 3° A0 Direction of unreeling Tolerance ±0.2 ±0.1 ±0.1 ±0.1 ±0.05 ±0.1 ±0.1 ±0.1 K ±0.1 (size is adjustable) (K = t1 +0.2) ±0.1 ±0.1 K ±0.1 (size is adjustable) (K = t1 +0.2) +0 ø180 (7.09) - 2 (.079) + 0.15 (.006) Reel ø 62 (2.44) ± 1.5 (.059) Direction of unreeling ø 12.75 (.502) - 0 Reel according to ISO/DIS 3639-2 8.4 (.331) 14.4 (.567) max. +0.15 (.006) Upper side Bottom side + 0.5 (.020) ø 20.5 (.087) - 0 QUANTITY PER REEL Type NC - NB 12 NC 20 - NB 20 Suffix BA BE BA BE Qty Per Reel 4000 2000 3000 1500 www.avx.com | 81 NTC SMD Thermistors Packaging for Automatic Insertion – NC/NB Series PACKAGING FOR AUTOMATIC INSERTION NTC CHIP THERMISTOR – NC/NB SERIES D0 T AUTOMATIC INSERTION 10 PITCHES CUMULATIVE TOLERANCE ON TAPE 0.20mm (0.008) P0 P2 E1 8mm Paper Tape Packaging: BOTTOM COVER TAPE The mechanical and dimensional reel |characteristics are in accordance with the IEC publication 286-3. TOP COVER TAPE F G T1 T1 Designation Tape width Tape thickness Pitch of the sprocket holes Diameter of the sprocket holes Symbol W T P0 Distance Distance (center to center) Distance (center to center) Cover tape thickness Distance Distance Component pitch 0805/0603 0402 CAVITY SIZE SEE NOTE 1 A0 CENTER LINES OF CAVITY Value 8 1.1 max. 4 1.5 -0/+0.1 1.75 3.5 2 0.10 max. 6.25 min. 0.75 min. 4 2 D0 E1 F P2 T1 E2 G P1 P1 User Direction of Feed Tolerance -.0.1/+0.3 ±0.1 ±0.1 ±0.1 ±0.05 ±0.05 ±0.1 ±0.1 +0 ø180 (7.09) - 2 (.079) + 0.15 (.006) Reel ø 62 (2.44) ± 1.5 (.059) Direction of unreeling ø 12.75 (.502) - 0 Reel according to ISO/DIS 3639-2 8.4 (.331) 14.4 (.567) max. +0.15 (.006) + 0.5 (.020) ø 20.5 (.087) - 0 QUANTITY PER REEL Type NB - NC 12 NB 21 82 | www.avx.com W E2 B0 Suffix BB BF Qty Per Reel 4000 2000 Upper side Bottom side NTC SMD Thermistors Packaging for Automatic Insertion – NC/NB Series SURFACE MOUNTING GUIDE CHIP THERMISTOR – APPLICATION NOTES Wave STORAGE 300 Good solderability is maintained for at least twelve months, provided the components are stored in their “as received” packaging at less than 40°C and 70% RH. Preheat Solder Temp. SOLDERABILITY / LEACHING Terminations to be well soldered after immersion in a 60/40 tin/lead solder bath at 235 ± 5°C for 2 ± 1 seconds. Terminations will resist leaching for at least the immersion times and conditions recommendations shown below. P/N Termination Type AgPdPt Nickel Barrier NC NB Solder Tin/Lead 60/40 60/40 Solder Temp ºC 260 ± 5 260 ± 5 T 200 230ºC to 250ºC 150 100 50 0 Immersion Time Seconds 15 max 30 ± 1 NB products are compatible with a wide range of soldering conditions consistent with good manufacturing practice for surface mount components. This includes Pb free reflow processes with peak temperatures up to 270ºC. Recommended profiles for reflow and wave soldering are shown below for reference. NC products are recommended for lead soldering application or gluing techniques. Natural Cooling 250 1 to 2 min 3 sec. max (Preheat chips before soldering) T/maximum 150°C a) The visual standards used for evaluation of solder joints will need to be modified as lead free joints are not as bright as with tin-lead pastes and the fillet may not be as large. b) Resin color may darken slightly due to the increase in temperature required for the new pastes. c) Lead-free solder pastes do not allow the same self alignment as lead containing systems. Standard mounting pads are acceptable, but machine set up may need to be modified. Reflow 300 D2 Natural Cooling Preheat RECOMMENDED SOLDERING PAD LAYOUT Solder Temp. 250 Dimensions in mm (inches) 220ºC to 250ºC 150 100 D5 REFLOW SOLDERING 0 1min 1min Case Size P/N 0402 NB23 0603 NB21 0805 NB12 1206 NB20 10 sec. max (Minimize soldering time) Temperature °C D3 D4 200 50 300 250 200 150 100 50 0 0 D1 D1 D2 D3 D4 D5 1.70 (.067) 2.30 (.091) 3.00 (.118) 4.00 (.157) 0.60 (.024) 0.80 (.031) 1.00 (.039) 1.00 (.039) 0.50 (.020) 0.70 (.028) 1.00 (.039) 2.00 (.079) 0.60 (.024) 0.80 (0.31) 1.00 (.039) 1.00 (.039) 0.50 (.020) 0.75 (.030) 1.25 (.049) 2.50 (.098) WAVE SOLDERING Case Size 50 100 150 • Pre-heating: 150°C ±15°C / 60-90s • Max. Peak Gradient: 2.5°C/s • Peak Temperature: 245°C ±5°C • Time at >230°C: 40s Max. 200 250 Time (s) 300 P/N 0603 NB21 0805 NB12 1206 NB20 D1 D2 D3 D4 D5 3.10 (.122) 4.00 (.157) 5.00 (.197) 1.20 (.047) 1.50 (.059) 1.50 (.059) 0.70 (.028) 1.00 (.039) 2.00 (.079) 1.20 (.047) 1.50 (.059) 1.50 (.059) 0.75 (.030) 1.25 (.049) 1.60 (.063) www.avx.com | 83 NTC DISC Thermistors ND 03/06/09 • NE 03/06/09 • NV 06/09 • ND: epoxy-phenolic resin coating NE: epoxy resin coating (recommended for severe mounting conditions) NV: epoxy varnish coating • Leads: Radial copper wire tinned • Marking: on package only for ND03 & NE03 ND/NE 06/09: Nominal resistance and tolerance for ±5%, ±10% NV06/09: Nominal resistance and tolerance • Delivery Mode: Bulk, reeled or ammopacked Leaded Discs N.03 N.06 N.09 APPLICATIONS • Commodity Product: 2 families • • • • ND or NE: general purpose NV: professional Alarm and temperature measurement application Temperature regulation application Level detection application Compensation application CHECK FOR UP-TO-DATE DATASHEET AT http://datasheets.avx.com/NTC_DiscThermistors.pdf HOW TO ORDER NC06 P0 0103 K –– Type Material Code P Resistance 10KΩ Tolerance K (±10%) Packaging Bulk LEAD-FREE COMPATIBLE COMPONENT PERFORMANCE CHARACTERISTICS General purpose Types ND03 or NE03 Climatic category Operating Temperature Tolerance on Rn (25°C) Maximum dissipation at 25°C Thermal dissipation factor Thermal time constant Response time Professional ND09 or NE09 NV06 NV09 –55 to +150°C –55 to +150°C 55/125/56-434 –55 to +150°C 55/125/56-434 –55 to +150°C ±5%, ±10%, ±20% ±5%, ±10%, ±20% ±2%, ±5%, ±10% ±2%, ±5%, ±10% 0.25 W 0.71 W 0.9 W 0.69 W 0.85 W 5 mW/°C 7.1 mW/°C 9 mW/°C 6.9 mW/°C 8.5 mW/°C 10 s < 3s 22 s 30 s 18 s 30 s –55 to +150°C 330Ω to 1MΩ: ±5, 10, 20% 1500Ω to 150 kΩ: ±3% ND06 or NE06 STANDARDIZATION OPTIONS NV range : approved by NFC 93271 Type: TN115 A for NV06 TN116 for NV09 List: GAM-T1 List: LNZ Consult factory for availability of options: • other nominal resistance values • other tolerances • alternative lead materials or lengths • controlled dimensions 84 | www.avx.com 011516 NTC DISC Thermistors ND 03/06/09 • NE 03/06/09 • NV 06/09 TABLE OF VALUES ND03/NE03 TYPE ND03/NE03 3.5 (.138) max 35 (1.38) min 3 (.118) max 3 (.118) max +10% ø 0.5 (.020)-0.05 2.54 (0.1) Part Number Rn at 25°C (Ω) Material Code B (K) (ΔB/B ) (1) ± 5% (2) ± 3% ␣ at 25°C (%/°C) N_03I00331 N_03I00471 330 470 I 3250 (1) – 3.7 N_03J00681 N_03J00102 680 1,000 J 3480 (2) – 3.9 N_03K00152 N_03K00222 1,500 2,200 K 3630 (2) – 4.0 N_03L00272 N_03L00332 2,700 3,300 L 3790 (2) – 4.2 N_03M00472 N_03M00682 4,700 6,800 M 3950 (2) – 4.4 N_03N00103 N_03N00153 10,000 15,000 N 4080 (2) – 4.6 N_03P00223 N_03P00333 22,000 33,000 P 4220 (2) – 4.7 N_03Q00473 N_03Q00683 47,000 68,000 Q 4300 (2) – 4.7 N_03R00104 N_03R00154 100,000 150,000 R 4400 (2) – 4.8 N_03S00224 220,000 S 4520 (2) – 5.0 N_03T00334 N_03T00474 330,000 470,000 T 4630 (2) – 5.1 N_03U00105 1,000,000 U 4840 (2) – 5.3 011516 www.avx.com | 85 NTC DISC Thermistors ND 03/06/09 • NE 03/06/09 • NV 06/09 ND06/NE06 6.3 (.248) max 35 (1.38) min 3 (.118) max 6.3 (.248) max 35 (1.38) min NV06 4 (.157) max +10% ø 0.6 (.024)-0.05 5.08 (0.2) 䉱 Part Number Rn at 25°C (Ω) Material Code 3.5 (.138) max 3 (.118) max TABLE OF VALUES ND06/NE06/NV06 +10% ø 0.6 (.024)-0.05 5.08 (0.2) 䉱 B (K) (ΔB/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) N_06J00151 N_06J00221 150 220 J 3480 (2) – 3.9 N_06K00331 N_06K00471 330 470 K 3630 (2) – 4.0 N_06L00681 N_06L00102 680 1,000 L 3790 (2) – 4.2 N_06M00152 1,500 M 3950 (2) – 4.4 N_06N00222 N_06N00332 2,200 3,300 N 4080 (2) – 4.6 N_06P00472 N_06P00682 N_06P00103 4,700 6,800 10,000 P 4220 (2) – 4.7 N_06Q00153 N_06Q00223 15,000 22,000 Q 4300 (2) – 4.7 N_06R00333 33,000 R 4400 (2) – 4.8 N_06S00473 N_06S00683 47,000 68,000 S 4520 (2) – 5.0 N_06T00104 100,000 T 4630 (2) – 5.1 N_06U00154 N_06U00224 N_06U00334 150,000 220,000 330,000 U 4840 (2) – 5.3 For other resistance values, please consult us. 86 | www.avx.com 011516 NTC DISC Thermistors ND 03/06/09 • NE 03/06/09 • NV 06/09 TABLE OF VALUES ND09/NE09/NV09 ND09/NE09 9.5 (.374) max 35 (.138) min +10% ø 0.6 (.024) -0.05 +10% ø 0.6 (.024) -0.05 5.08 (.02) Part Number Rn at 25°C (Ω) Material Code 3.5 (.138) max 3 (.118) max 5 (.197) max 3 (.118) max 35 (.138) min 9.5 (.375) max NV09 5.08 (.02) B (K) (ΔB/B (1) ± 5% (2) ± 3% ) ␣ at 25°C (%/°C) N_09J00680 N_09J00101 68 100 J 3480 (2) – 3.9 N_09K00151 N_09K00221 150 220 K 3630 (2) – 4.0 N_09L00331 330 L 3790 (2) – 4.2 N_09M00471 N_09M00681 470 680 M 3950 (2) – 4.4 N_09N00102 N_09N00152 1,000 1,500 N 4080 (2) – 4.6 N_09P00222 N_09P00332 2,200 3,300 P 4220 (2) – 4.7 N_09Q00472 N_09Q00682 4,700 6,800 Q 4300 (2) – 4.7 N_09R00103 N_09R00153 10,000 15,000 R 4400 (2) – 4.8 N_09S00223 22,000 S 4520 (2) – 5.0 N_09T00333 N_09T00473 33,000 47,000 T 4630 (2) – 5.1 N_09U00683 N_09U00104 N_09U00154 68,000 100,000 150,000 U 4840 (2) – 5.3 011516 www.avx.com | 87 NTC DISC Thermistors ND 03/06/09 • NE 03/06/09 • NV 06/09 TAPING CHARACTERISTICS Missing components A maximum of 3 consecutive components may be missing from the bandolier, surrounded by at least 6 filled positions. The number of missing components may not exceed 0.5% of the total per packing module. DIMENSIONS: The beginning and the end of tape exhibit 8 or 9 blank positions. millimeters (inches) REEL AMMOPACK 30 (1.18) Interlayer Paper H ⭋ 8 (.315) L 42 (1.66) Inside I L 330 (13.0) h ⭋ 31 (1.22) I 46 (1.81) H 290 (11.4) 48(1.99) Outside ⭋ 360 (14.2) P h p p Marking on this side Reference plane H1 P1 W2 H1 E A B H W0 H0 W1 W Adhesive tape I2 d D0 P0 Direction of unreeling Cross section t A-B E Value 18 6 9 3 max. Tolerance +1 / -0.5 ±0.3 +0.75 / -0.5 4 16/19.5 ±0.2 ±0.5 W W0 W1 W2 D0 H0 H1 88 | www.avx.com Dimensions Characteristics Leading tape width Adhesive tape width Sprocket hole position Distance between the top of the tape and the adhesive Diameter of sprocket hole Distance between the tape axis and the seating plane of the component Distance between the tape axis and the top of component body Value 12.7 254 Tolerance ±0.2 ±1 0.7 ±0.2 +0.6 -0.1 2.54 5.08 5.08 P0 – t E 3.85 ± 0.7 P1 12.7 0.5 0.6 0 0 ±1.0 ±5% ±1.3 ±2 P d 3P 3h Dimensions Characteristics Sprocket holes pitch Distance between 21 consecutive holes 20 pitches Total thickness of tape Lead spacing Distance between the sprocket hole axis and the lead axis Spacing of components Lead diameter Verticality of components Alignment of components 011516 NTC Accurate Thermistors NJ 28 • NP 30 • NI 24 • NK 20 High precision resistance and an outstanding ability to reproduce the sensibility index B, make these ranges of products the types of thermistors ideal for temperature measurement applications. Leaded or unleaded, these small size and rapid response time thermistors are able to meet the most accurate requirements. Parts are complying to AEC-Q200 requirements. FEATURES APPLICATIONS • Small size • Tight tollerance • High precission • Engine Control Systems • Airbag Sensor & Control Systems • ABS/ESP Systems and more CHECK FOR UP-TO-DATE CATALOG AT http://datasheets.avx.com/nj-ni-nk-np.pdf NJ 28 NP 30 NI 24 NK 20 Finish Coated chip with phenolic resin + varnish + tinned copper wires Coated chip with epoxy AWG30 insulated leads + Silver plated nickel wires Chip Coated chip with epoxy 0.4 (.016) +10% -15% Marking 3 (.118) max 2.4 (.094) max 1. ± 75 ( 0. .0 25 69 (0 ) .1 0) % 0.4 (.016) +10 - 15% 2.4 (.094) max 35 (1.38) min millimeters (inches) 35 (1.38) min 3 (.118) max 35 (1.38) min DIMENSIONS: 3.0 (.118) max 3 (.118) max 3.0 (.118) max 2.8 (.110) max 2.8 (.110) max 0.75 (.030) ± 0.25 (.010) Types 0.57 (.022) +7% -7% 1.75 (.069) ± 0.25 (0.10) On packaging only Operating temperature -55°C to +150°C Tolerance on Rn (25°C) ±1%, ±2%, ±3% Maximum dissipation at 25°C 0.16 W Thermal dissipation factor* 3 mW/°C 3 mW/°C 2 mW/°C 8s 8s 6s Thermal time constant Response time <2s HOW TO ORDER NJ28 MA 0502 F –– Type Material Code MA (See table below) Resistance 5KΩ Tolerance F (±1%) Packaging Bulk OPTIONS TABLE OF VALUES NJ28 • NP30 • NI24 • NK200 Types Rn at 25°C (Ω) Material Code N_ _ _ KA 0202 N_ _ _ MA 0302 N_ _ _ MA 0502 N_ _ _ MA 0103 N_ _ _ NA 0103 N_ _ _ PA 0203 N_ _ _ QA 0503 N_ _ _ RA 0104 2,000 3,000 5,000 10,000 10,000 20,000 50,000 100,000 KA MA MA MA NA PA QA RA LEAD-FREE COMPATIBLE COMPONENT B (K) (⌬B/B ) (1) ± 5% (2) ± 3% 3625 ± 1% 3960 ± 0.5% 3960 ± 0.5% 3960 ± 0.5% 4100 ± 1% 4235 ± 1% 4250 ± 1% 4380 ± 1% ␣ at 25°C (%/°C) – 4.1 – 4.5 – 4.5 – 4.5 – 4.6 – 4.8 – 4.8 – 4.9 Consult factory for availability of options: • other nominal resistance values • other tolerances • alternative lead materials or lengths • controlled dimensions * – = Add type as outlined above (Example NJ 2 8). 011516 www.avx.com | 89 ADVANCED TECHNOLOGY FILTERS AVX advanced technology filters are custom designed for a wide range of high temperature and mission critical applications. Innovative solutions include: • Hermetic High Temperature Solder-Ins High frequency, high reliability filters designed for space savings in harsh environment applications. Components can withstand short high temperature excursions as high as 400ºC and have an operating temperature range that goes up to 200ºC. Please email AVX at [email protected] for any inquiries. A KYOCERA GROUP COMPANY Advanced Technology Filters Hermetic High Temperature Solder-Ins These are high frequency filters in space saving solder-in designs which will operate under harsh environments and meet the high reliability requirements of MIL-F-28861 without outgassing. AVX Filters Corporation has designed a filter which sets a new standard for the industry. These feed-thru filters are constructed with hi-rel semiconductor materials and rugged MLC discoidal capacitors. They are also manufactured at high temperatures (>500°C) without fluxes, epoxies or other polymers, thus eliminating failure mechanisms associated with conventional solder-ins. These solder-ins withstand short temperature excursions as high as 400°C, and can actually be operated at temperatures to 200°C. Available either as discrete packages in standard case sizes or as multiple filter brackets, all have hermetic glass-to-metal seals on both ends. FEATURES • • • • • Standard sizes Epoxy free construction Hermetic on both ends MIL-PRF-31033 Discoidal Capacitor 400°C installation CHECK FOR UP-TO-DATE CATALOG AT http://www.avx.com/docs/Catalogs/SVSolder-In.pdf AVX FILTERS SOLDER-IN STYLE FILTER STANDARD CONSTRUCTION HERMETIC CONSTRUCTION DISCOIDAL CAPACITOR EPOXY HOUSING HIGH TEMPERATURE METALURGICAL BOND CONDUCTIVE POLYMER EPOXY ADHESIVE HOUSING SEALING GLASS DISCOIDAL CAPACITOR GLASS SEAL HIGH TEMPERATURE METALURGICAL BOND GLASS SEAL LEAD STYLE SPECIFICATIONS CHARACTERISTICS • Discrete, hermetically sealed solder-in filters • Operating temperature range: -55°C to 200°C • Rugged monolithic ceramic capacitor construction AVX Filters Series* • 400°C rated installation temperature WQ: XQ: YQ: ZQ: .400" Case Diameter .250" Case Diameter .165" Case Diameter .128" Case Diameter • Voltage range: 50 to 300VDC • Capacitance Range: 10 pF to 1.2 μF • Capacitor attached with solderless, fluxless, high temperature metallurgical bond • Hermeticity: 1 x 10-7 ATM cm3/sec minimum • Hermetic glass-to-metal seals on both ends • Custom design available • Multiple filter arrays -Custom bracket housing employing discrete hermetic filters - Custom rugged bracket housings with inter-rated hermetic filtered feed-thrus • Rated current: up to 15 amps • Circuits: C • Designed to meet or exceed requirements of MIL-F-28861 • No epoxies, resins or polymers to outgas or degrade in harsh environments 011516 www.avx.com | 91 DOWN-HOLE APPLICATION NOTES With extreme temperatures, high pressure, and high mechanical stress, down-hole applications present some of the toughest environments for passive components. AVX understands these challenges and is committed to meeting the demands of downhole applications through innovative passive component solutions designed to maintain optimal performance in extreme conditions. A KYOCERA GROUP COMPANY Down-Hole Application Notes OVERVIEW The global demand for oil and gas drives the development of increasingly sophisticated equipment utilized in down-hole oil exploration. Advanced down-hole electronics must provide optimal performance while subject to extreme environmental conditions below the earth’s surface. Drilling depths of more than 7 miles result in internal module temperatures approaching or surpassing the 200°C mark and they continue to escalate. In down-hole oil exploration, electronic sensors are utilized to relay information from the tool beneath the surface of the earth, to the drilling engineers on the oil rig. This information is collected by various sensors within the tool. Information logging consists of sending, receiving, recording and analyzing of essential data allowing engineers to make critical decisions on further drilling operations based on the characteristics of the material surrounding the well trajectory. In order to fulfill these demanding requirements, AVX provides a wide range of products that are capable of withstanding extreme temperatures. These components are implemented into logging modules such as sonic, gamma-ray, density, and resistivity logging tools. AVX offers high temperature solutions through both ceramic and tantalum capacitors, each of which provides distinct highly reliable characteristics depending on what the application requires. AVX capacitors offer variety to meet today’s size, voltage, temperature, and value constraints of many applications. Ceramic Capacitors AVX offers multilayer ceramic capacitors for high temperature applications. With manufacturing plants all over the world with state of the art equipment, AVX ceramic capacitors exhibit excellent reliability and performance. The construction of these capacitors is the key advantage of AVX ceramic products. Multilayer ceramic capacitors are constructed with alternating layers of ceramic dielectric material, and layers of conductive electrode material. This is done by utilizing tape casting techniques or wet lay down techniques, depending on the type of capacitor, and then screen-printing the electrode material on top of the ceramic layer. As shown in Figure A, terminations are then added to the ends of the capacitor which connect the internal electrodes and allow for the capacitor to either be soldered to the board (SMD) or to the leads. End Terminations Terminated Edge Electrodes Terminated Edge Margin Electrodes Due to their construction and materials, there are certain requirements necessary to consider when using multilayer ceramic capacitors. While ceramic materials have exceptional compressive strength, they can be susceptible to fractures due to tensile stress. It is necessary to choose particular options provided by AVX products to address this issue. Custom leads are recommended for high vibration conditions as well as for temperatures that may exceed the recommended operating temperature. The custom leads and terminations absorb the tensile stress and prevent cracking in the ceramic capacitor. Thermal shock should also be considered to reduce the risk of differential expansion caused by the increased temperatures. AVX provides highly reliable ceramic capacitors that take possible failure modes into consideration and provide a high quality product with exceptional performance while performing in harsh conditions. Tantalum Capacitors BACKGROUND Ceramic Layer AVX ceramic capacitors can also be encapsulated in a casing and fit with leads to further increase environmental durability. The encapsulated capacitors are then epoxy filled with a material that is CTE matched to the ceramic material. Electrodes Terminated Edge Figure A Multilayer ceramic capacitors can be stacked to increase the electrical capabilities of the capacitor (capacitance and voltage). Since capacitance is additive when connected in parallel, the stacked construction can create high capacitance values while taking up the same footprint on the PCB. AVX manufactures both dry tantalum and wet tantalum capacitors for high temperature applications, each having its own unique manufacturing process. As shown in Figure B, tantalum chip capacitors incorporate a porous tantalum metal pellet which forms the anode, while its oxide layer makes up the dielectric. AVX tantalum technology uses manganese dioxide as the counter electrode (cathode) with self-healing properties for long life. This construction allows for very high capacitance in a small package. Figure B Wet tantalum capacitors are constructed inside of a cylindrical tantalum can, containing the tantalum anode along with an electrolytic solution. A proprietary cathode is incorporated and allows for less wasted space which makes the wet tantalums an ideal candidate for high capacitance in a small size component. The wet tantalums and tantalum chips are available with maximum operating temperatures from 175°C to 200°C. The leads on these products also absorb mechanical shock from vibration in down-hole applications. For applications with temperatures above 200°C, AVX has developed a new construction technology (THH series) that uses a ceramic casing around the tantalum chip. THH series can operate at temperatures up to 230°C. These are hermetically sealed parts, capable of reliable operation in harsh environments. AVX provides products that exhibit optimal performance characteristics in down-hole environments. Whether ceramic or tantalum, AVX has a solution for the needs of the high temperature applications market. www.avx.com | 93 Down-Hole Application Notes SONIC LOGGING TOOL Sonic logging is implemented in down-hole applications to determine the porosity of the materials surrounding the well hole. Facilitating sonic logging, the acoustic module consists of various piezoelectric sensors driven by voltage regulators, amplifiers, filters, and shaping networks that send and receive the acoustic signal the engineer uses to help determine the depth and direction of the down-hole tool. Due to the extreme conditions inside the well, the electronic module’s components must be able to withstand vibrations and high temperatures during normal operating life conditions. Sonic sensors used for porosity measurements in down-hole applications typically operate at lower frequencies in order to penetrate the dense surrounding materials. Tantalum capacitors perform exceptionally well at these low operating frequencies. AVX offers high temperature wet tantalum capacitors as well as high temperature tantalum chips. These tantalum products have operating temperatures up to 230°C with capacitance values ranging from 0.1μF-680μF and rated voltages from 3.6VDC-125VDC. Sonic Tool Voltage Multiplier Diagram: Surface Level Equipment Down-Hole Level Equipment Transmitter Voltage Multiplier Voltage Multiplier Transducer Receivers Data Recording Voltage Multiplier EMI Filter Capacitor Transducer EMI Filter Capacitor 5 Stage Voltage Multiplier + OUT - The sonic module consists of a transmitter and a receiver. The transmitter directs a low frequency acoustic signal around the borehole, part of which bounces back to the receiver. To filter the noise out of the signal, a high temperature tantalum capacitor is utilized, like AVX’s THH. Ta capacitors exhibit high capacitance per volume due to the characteristics of the tantalum pentoxide dielectric layer. The dielectric layer is a thin film with a high dielectric constant and has a high surface area 94 | www.avx.com GAMMA-RAY LOGGING TOOL The Gamma-Ray Log helps measure the amount of shale in a formation by measuring the naturally occurring radiation from various isotopes of the elements potassium, thorium, and uranium. Although the gamma-ray log cannot measure porosity like the sonic log, it is an excellent indicator of shale. Noting the differences in the Gamma-Ray Log and the porosity log (sonic log), engineers are able to estimate the volume of shale within a formation. Gamma-Ray sensors are subject to extremely harsh conditions. Being implemented into the tool, these sensors operate deep below the surface where temperatures can exceed 200°C. Along with drastic temperature increases, the vibration in the tool is severe. It is necessary for the components in these sensors to have high temperature capabilities as well as optimum mechanical shock and vibration characteristics. Transducer EMI Filter Capacitor Data Recording The HV multiplier commonly utilizes SMT miniature HV MLCCs ranging in size from 0805 to 2225. AVX offers high voltage MLC chip and radial leaded options. C0G, N1500 and X7R dielectric materials are available in high voltage applications up to 5kV. Special design criteria in the HV radial series and AVX high voltage MLC chips allow for low leakage, capacitance values up to 15μF and tolerances as tight as 5%. Gamma-Ray logs consist of gamma ray sensors that convert the detected radiation to a corresponding electrical signal. High voltage regulators, amplifiers, and decoupling ceramic capacitors used in and in-between stages, are used to transmit the signal from the gamma-ray sensor up to the surface for log evaluation. The low voltage signals are sometimes converted to higher voltages to improve signal to noise ratios of systems. Power Supply Shaping Network due to the micro-porosity of the tantalum anode. Because capacitance is directly related to the dielectric constant and surface area, and inversely related to the thickness of the dielectric material, this technology provides very high volumetric efficiency. AVX offers high temperature ceramic capacitors designed specifically for these conditions. AVX high temperature ceramic stacked capacitors have exceptional 200°C performance with capacitance values up to 340μF. When using gamma radiation, the components must also be suitable at very high frequencies. Class I (C0G/NP0) ceramic capacitors are capable of withstanding the high frequency requirements in Gamma-Ray detection sensors as well as voltages up to 500V. Stacked ceramic capacitors are offered in various sizes, custom shapes, many lead styles including soft custom leads, and can even be encapsulated. These options allow the components to endure extreme mechanical shock and vibration conditions that Gamma-Ray sensors will encounter in the well. DENSITY LOGGING TOOL The density tool is used to measure the bulk density, and ultimately porosity, of formations around well holes using gamma-rays. The density tool consists of a gamma-ray emitter (nuclear source), driven by a high voltage supply, and two or more gamma-ray detectors (receivers). AVX ceramic capacitors are used in density sensor applications. As seen in the circuit, density sensors incorporate multiple filtering and decoupling capacitors. These capacitors need to be capable of high voltages and Down-Hole Application Notes Radiation Tool High Voltage Supply Diagram: High Rel / High Frequency NPO IN Filter Cap Bias Cap Digital Signal Decoupling Cap Digital Signal HV Decoupling Cap High Voltage Filter Cap + downhole environments, it is recommended that a high temperature capacitor with and NP0 dielectric be implemented to reduce the effects of capacitance drift with temperature. The NP0 dielectric material has the lowest capacitance change vs. temperature, making them an optimum candidate for filtering. See plot below. Δ Capacitance vs. Temperature Percentage Capacitance Change high frequencies. Due to its excellent performance in harsh environments, high reliability NP0 ceramic capacitors are chosen for these applications. As previously mentioned, AVX ceramic stacked capacitors have capacitance values up to 340μF and can withstand voltages up to 500V with no derating necessary. The effects of non-ideal parasitics in a capacitor become critical when using the capacitor for filtering to improve voltage quality with low ESR and low ESL being the most important factors. Superior ESR and ESL characteristics, along with advantageous volumetric capabilities, are the main qualities that make stacked MLCC capacitors ideal for these applications. 0 -20 -40 X7R NPO -60 -75 -50 -25 OUT 0 25 50 75 100 125 150 175 200 Temperature (ºC) - RESISTIVITY LOGGING TOOL To reduce noise at low frequencies, a large enough capacitor must be used with low leakage current, along with a bypass capacitor for higher frequencies connected from V+ to ground. Tantalum capacitors offer large capacitance values in a small package, performing well at low frequencies; while ceramic capacitors offer great decoupling capability at higher frequencies. Resistivity logs are used to indirectly measure the resistance of the various formations around a borehole. Temperature VFC Tool Diagram: High Rel / High Frequency NPO High Voltage Ceramic Capacitor The resistivity tool works by probing the various formations with magnetic fields that induce a current in the formation. Since current will flow through low resistance material, and fail to flow through high resistance material (like hydrocarbons), the resistivity tool helps to determine possible locations of oil deep inside the earth’s crust. Several tools are used to measure resistivity including: the electric tool, induction tool, and focused electric tool. The three different tools conduct three different resistivity measurements on the formation surrounding the borehole: As with all electronic devices, power must be supplied for the device to become operational. Because high temperatures can vary the output of the resistivity tool’s power supply, and damage the resistivity tool’s components, temperature compensation is used to control the output so that it does not become unstable. The temperature compensation network consists of a temperature-current transducer, like a thermistor, and a voltage to frequency converter used as feedback to control the output of the power supply. The temperature compensation of network’s voltage to frequency converter uses the thermistor’s current to output a signal that can control the power supply’s operation, while a timing capacitor is used to set the frequency of the VFC. For the voltage-to-frequency operation to be a success it is crucial that the RC network have the correct time constant, specified by the VFC device. Since the input to the capacitor can change polarity, and temperatures can vary greatly in Ceramic Capacitor decouples at high frequencies Tantalum Capacitor decouples at low frequencies V+ + C = 0.1μF C = 6.8μF - NTC Thermistor Voltage-toFrequency Converter PCB Ground Vout C1 = 0.01μF NP0/C0G Timing Capacitor sets the VFC’s frequency SUMMARY Downhole oil exploration and other high temperature applications require that every component exposed to high temperature meet the high standards of that industry. AVX components provide solutions to a wide variety of these applications. High reliability and ideal performance under these harsh environmental conditions is the advantage AVX offers over competitive products. Many options and customizable designs are available for AVX components in order to suit the needs of all application requirements. www.avx.com | 95 AMERICAS EUROPE ASIA-PACIFIC ASIA-KED (KYOCERA Electronic Devices) AVX Greenville, SC AVX Limited, England Tel: 864-967-2150 Tel: +44-1276-697000 AVX/Kyocera (S) Pte Ltd., Singapore KED Hong Kong Ltd. Tel: +852-2305-1080/1223 Tel: +65-6286-7555 AVX S.A.S., France Tel: +33-1-69-18-46-00 AVX/Kyocera, Asia, Ltd., Hong Kong AVX GmbH, Germany Tel: +852-2363-3303 Tel: +49-0811-95949-0 AVX SRL, Italy AVX/Kyocera Yuhan Hoesa, South Korea Tel: +39-02-614-571 Tel: +82-2785-6504 AVX Czech Republic AVX/Kyocera HK Ltd., Taiwan Tel: +420-57-57-57-521 KED Hong Kong Ltd. Shenzen Tel: +86-755-3398-9600 KED Company Ltd. Shanghai Tel: +86-21-3255-1833 KED Hong Kong Ltd. Beijing Tel: +86-10-5869-4655 Tel: +886-2-2656-0258 AVX/ELCO UK KED Taiwan Ltd. Tel: +44-1638-675000 AVX/Kyocera (M) Sdn Bhd, Malaysia ELCO Europe GmbH Tel: +60-4228-1190 Tel: +49-2741-299-0 AVX S.A., Spain AVX/Kyocera International Trading Co. Ltd., Shanghai Tel: +34-91-63-97-197 Tel: +86-21-3255 1933 AVX Benelux AVX/Kyocera Asia Ltd., Shenzen Tel: +65-6509-0328 Tel: +86-755-3336-0615 Kyocera Corporation Japan AVX/Kyocera International Trading Co. Ltd., Beijing Tel: +81-75-604-3449 Tel: +31-187-489-337 Tel: +886-2-2950-0268 KED Korea Yuhan Hoesa, South Korea Tel: +82-2-783-3604/6126 KED (S) Pte Ltd. Singapore Tel: +86-10-6588-3528 AVX/Kyocera India Liaison Office Tel: +91-80-6450-0715 Contact: A KYOCERA GROUP COMPANY http://www.avx.com S-HTS0M0616-N