VISHAY I N T E R T E C H N O L O G Y , I N C . INTERACTIVE data book LEADED MAGNETICS AND INDUCTORS vishay DALE vsD-db0058-0112 Notes: 1. To navigate: a) Click on the Vishay logo on any datasheet to go to the Contents page for that section. Click on the Vishay logo on any Contents page to go to the main Table of Contents page. b) Click on the products within the Table of Contents to go directly to the datasheet. c) Use the scroll or page up/page down functions. d) Use the Adobe ® Acrobat ® page function in the browser bar. 2. To search the text of the catalog use the Adobe ® Acrobat ® search function. One of the World’s Largest Manufacturers of Discrete Semiconductors and Passive Components LEADED MAGNETICS AND INDUCTORS w w w. v i s h a y. c o m DATA BOOK V I S H A Y I N T E R T E C H N O L O G Y, I N C . VISHAY INTERTECHNOLOGY, INC. DISCRETE SEMICONDUCTORS RECTIFIERS SMALL-SIGNAL DIODES ZENER & SUPPRESSOR DIODES MOSFETs RF TRANSISTORS OPTOELECTRONICS ICs PASSIVE COMPONENTS CAPACITORS RESISTIVE PRODUCTS MAGNETICS INTEGRATED MODULES MEASUREMENT SENSORS AND EQUIPMENT Schottky (single, dual) Standard, Fast and Ultra-Fast Recovery (single, dual) Clamper/Damper Bridge Superectifier ® Schottky and Switching (single, dual) Tuner/Capacitance (single, dual) Bandswitching PIN Zener Diodes (single, dual) TVS (TransZorb,® Automotive, Arrays) Power MOSFETs JFETs Bipolar RF Transistors (AF and RF) Dual Gate MOSFETs MOSMICs® IR Emitters, Detectors and IR Receiver Modules Opto Couplers and Solid State Relays Optical Sensors LEDs and 7 Segment Displays Infrared Data Transceiver Modules Custom products Power ICs Analog Switches Tantalum Capacitors Solid Tantalum Capacitors Wet Tantalum Capacitors Ceramic Capacitors Multilayer Chip Capacitors Disc Capacitors Film Capacitors Power Capacitors Heavy Current Capacitors Aluminum Capacitors Foil Resistors Film Resistors Thin Film Resistors Thick Film Resistors Metal Oxide Film Resistors Carbon Film Resistors Wirewound Resistors Variable Resistors Cermet Variable Resistors Wirewound Variable Resistors Conductive Plastic Variable Resistors Networks/Arrays Non-Linear Resistors NTC Thermistors PTC Thermistors Inductors Transformers DC/DC CONVERTERS STRAIN GAGES INSTRUMENTATION PHOTOSTRESS® PRODUCTS TRANSDUCERS Stress Analysis Transducer-Class® Installation Accessories Strain Indicators Amplifiers Data Systems Polariscopes Plastics Load Cells Linear Displacement Sensors ONE OF THE WORLD'S LARGEST MANUFACTURERS OF DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS Vishay Leaded Magnetics and Inductors Vishay Dale 1505 E. Highway 50 P.O. Box 180 Yankton, SD 57078-0180, USA Phone: 605-665-9301 Fax: 605-665-1627 www.vishay.com The products listed in this catalog are not generally recommended for use in life support systems where a failure or malfunction of the component may directly threaten life or cause injury. The user of products in such applications assumes all risks of such use and will agree to hold Vishay Intertechnology, Inc. and all the companies whose products are represented in this catalog, harmless against all damages. Table of Contents Vishay Dale Contents ................................................................................................................................................................................................... 1 Product Selector Guide ........................................................................................................................................................................... 2 IM, Inductors, MIL-C- 15305 qualified, type LT and commercial, molded .................................................................................................. 8 IM-6-38, Inductors, medium, current ....................................................................................................................................................... 14 IM-6-RFCS-40, Inductors, commercial, molded ...................................................................................................................................... 15 IM-10-xx, Inductors, commercial, molded ............................................................................................................................................... 16 IM-10RFCL-12, Inductors, commercial, molded ...................................................................................................................................... 18 IM-2SWWD-30, Inductors, commercial subminiature, molded, shielded ................................................................................................ 19 IMS-2WWD-40, Inductors, subminiature, shielded .................................................................................................................................. 21 IMS-2, Inductors, MIL-C-15305 qualified, type LT and commercial, miniature, molded, shielded ........................................................... 22 IMS-5, Inductors, MIL-C-15305 qualified, type LT and commercial, molded, shielded ............................................................................ 24 IMS-5WD-40, Inductors, miniature, shielded ........................................................................................................................................... 26 IR, Inductors, epoxy comformal coated, uniform roll coated ................................................................................................................... 28 IRF, Inductors, epoxy conformal coated, uniform roll coated ................................................................................................................... 31 IRF-24, Epoxy conformal coated, axial leaded ........................................................................................................................................ 33 IRF-36, Epoxy conformal coated, axial leaded ........................................................................................................................................ 34 IRF-46, Epoxy conformal coated, axial leaded ........................................................................................................................................ 35 IRF-24, 36, 46 PACKAGING SPECS ..................................................................................................................................................... 36 IHD, Filter inductors, high current ............................................................................................................................................................ 37 IHA, Filter inductors, high current ............................................................................................................................................................ 38 IH, Filter inductors, high current .............................................................................................................................................................. 39 IHM-2, Filter inductors, high current ........................................................................................................................................................ 40 IHB, Filter inductors, high current ............................................................................................................................................................ 41 IHV, Filter inductors, high current ............................................................................................................................................................ 44 PC, Inductors, subminiature, shielded ..................................................................................................................................................... 45 WVL, Inductors, variable, subminiature, shielded ................................................................................................................................... 47 TJ, Inductors, toroid, wirewound, open ................................................................................................................................................... 49 TE, Inductors, toroid, wirewound, dipencap ............................................................................................................................................ 56 TD, Inductors, toroid, wirewound, dipencap ............................................................................................................................................ 56 Custom Products ................................................................................................................................................................................... 61 Definitions .............................................................................................................................................................................................. 69 Engineering Note ................................................................................................................................................................................... 76 Packaging Methods ............................................................................................................................................................................... 78 Revision 28-Feb-02 www.vishay.com 1 Product Selector Guide Vishay Dale CONSTRUCTION CONSTRUCTION PHYSICAL COIL CORE TYPE TERMINATIONS Leaded Magnetic Products INDUCTOR MODELS INCHES PICTURES [MILLIMETERS] www.vishay.com 2 MOLDED WIREWOUND LEADED NON MAGNETIC, POWERED IRON, FERRITE L W INDUCTANCE H μH @0.01 @.10 @1 @10 @100 IM-1 0.210 [5.33] 0.086 [2.18] IM-2 0.260 [6.60] 0.105 [2.67] IM-4 0.385 [9.78] 0.165 [4.19] 0.15 IM-6 0.450 [11.43] 0.200 [5.08] 0.1 IM-8 0.570 [14.48] 0.225 [5.72] IM-9 0.570 [14.48] 0.260 [6.60] IM-10 0.750 [19.05] 0.250 [6.35] IM-6-38 0.450 [11.43] 0.200 [5.08] IM-6RFCS-40 0.440 [11.18] 0.188 [4.78] IM-10-22 0.570 [14.48] 0.230 [5.84] IM-10-28 0.570 [14.48] 2.90 [7.37] IM-10-31 0.570 [14.48] 0.320 [8.13] 180 390 IM-10-37 0.635 [16.13] 0.385 [9.78] 470 IM-10-46 0.697 [17.70] 0.478 [12.14] IM-10-RFCL-12 0.900 [22.86] 0.310 [7.87] 0.10 @1000 @10000 100 0.022 1K 1.8K 1K 1.1K 68 3.6K 150 3.9K 0.22 10K 470 0.1 1K 0.47 3.6K 1.2 120 1K 1.5K 1.0 For technical questions, contact [email protected] 10K 10K Document Number: 34081 Revision 07-Jan-02 Product Selector Guide Vishay Dale Leaded Magnetic Products @0.1 RATED CURRENT DCR SRF mA Ohms MHz @1 @10 @100 @1000 @10000 52 56 78 @0..1 @1 0.13 895 28 @0.01 0.025 72 2.45K 0.03 56.7 3.6K 0.02 57 195 4K 0.02 1.97K 0.06 2.4K 0.075 72 40 Document Number: 34081 Revision 07-Jan-02 360 2.2 400 300 1.5 10 3.9 14.5 22 0.03 13 2.1 4.1 9 4K 510 0.95 1.45 16.5 95 125 80 525 1.5 2.8 4.5 5.5 8.7 84 900 8.3 118 148 680 1.6 3.3 5.3 0.024 @100 @1000 @10000 3.4 21 40 2.38K @10 2.8 44 104 @1 16.5 47 61 185 @0.1 9.5 2.4K 132 168 47 @100 17.5 78 57 @10 170 6 2.7 3.7 70 80 0.8 0.45 For technical questions, contact [email protected] 2.2 136 www.vishay.com 3 Product Selector Guide PHYSICAL CONSTRUCTION CONSTRUCTION COIL TERMINATIONS CORE TYPE Vishay Dale Leaded Magnetic Products INDUCTOR MODELS INCHES PICTURES [MILLIMETERS] SHIELDED-MOLDED ROLL COATED SLEEVED FERRITE WIREWOUND LEADED NON MAGNETIC, POWDERED IRON, FERRITE L H @ 0.01 @0.10 @1 @10 @100 @1000 @ 10000 IMS-2SWWD-30 0.345 [8.76] 0.136 [3.45] 0.1 1.8K IMS-2WWD-40 0.335 [8.51] 0.133 [3.38] 0.1 1K IMS-2 0.260 [6.60] 0.105 [2.67] 0.1 IMS-5 0.430 [10.92] 0.172 [4.37] 0.1 IMS-5WD-40 0.450 [11.43] 0.164 [4.166] 0.1 IR-2 0.330 [8.38] 0.120 [3.05] 0.1 IR-4 0.440 [11.18] 0.180 [4.57] 0.15 IRF-1 0.330 [8.38] 0.120 [3.15] 0.1 1K IRF-3 0.410 [10.41] 0.165 [4.19] 0.22 1K IRF-24 0.394 [10.01] 0.118 [3.00] 0.1 1K IRF-36 0.551 [14.00] 0.157 [3.99] 0.1 1K IRF-46 0.551 [14.00] 0.197 [5.00] IHD-1 0.700 [17.78] 0.270 [6.86] IHD-3 0.900 [22.86] 0.460 [11.68] 0.8-1.3 [20.3-33] 0.475-0.700 [12.1-17.8] IHA www.vishay.com 4 W INDUCTANCE μH 560 100K 5.6K 1K 1.8K 1K 1.0 39K 18K 3.9 5.0 For technical questions, contact [email protected] 100K 1K Document Number: 34081 Revision 07-Jan-02 Product Selector Guide Vishay Dale Leaded Magnetic Products RATED CURRENT @0.1 mA @10 @100 @1000 @10000 @0.01 @1 44 1.038K 40 1.79K 0.025 4K 0.02 28 1.35K 56 2.45K 1.35K 60 100 60 100 72 0.03 56.7 0.15 80 70 1.4K Document Number: 34081 Revision 07-Jan-02 0.009 4K 0.007 9.3K 0.01 400 3.4 680 1.6 400 1.4 380 1.15 17.4 1.4 270 0.2 525 1.4 30 8 5.3K 250 0.65 14 0.085 490 0.11 26 @1000 400 7 104 @100 480 4.5 678 200 25 2.6 0.08 1.75K @1 28 0.1 700 @0.1 52 0.06 1.4K @0.01 33 0.1 56 @10 @100 0.112 670 11 SRF MHz @10 0.087 1.72K 80 @0.1 DCR Ohms @1 280 320 1.7 N/A 40 76 0.60 For technical questions, contact [email protected] N/A N/A www.vishay.com 5 Product Selector Guide PHYSICAL Leaded Magnetic Products CONSTRUCTION COIL CONSTRUCTION CORE TYPE TERMINATIONS Vishay Dale INDUCTOR MODELS INCHES PICTURES [MILLIMETERS] L VARIABLE MISC FERRITE IH (Sleeved) OPEN WIREWOUND LEADED DIPENCAP TOROID 0.875-1.687 [22.2-42.8] IHM-2 (Encap) 1.0 [25.4] IHB (Open) H μH @0.1 0.6-1.0 [15.2-25.4] 0.5 [12.7] @1 @10 5 @100 @1000 @10000 @100000 250 0.56 [14.22] 1 0.66 - 2.0 [16.8 - 50.8] 0.84 - 1.5 [21.3 - 38.1] 1 IHV (Sleeved) 2.45-2.55 [62.2-64.8] 1.02-1.92 [25.9-48.8] PC (Shielded) 0.310 [7.87] 0.270 [6.86] 0.1 1K WVL (Variable) 0.320 [8.13] 0.430 0.1 [10.92] 1K TJ-3 www.vishay.com 6 W INDUCTANCE 0.65-0.66 0.65-0.66 [16.5-16.8] [16.5-16.8] 15K 47K 24 500 0.30-0.32 [7.6-8.1] 1.2 1.5K TJ-4 0.88 [22.4] 0.88 [22.4] 0.40 [10.2] 1.2 1.5K TJ-5 1.00 [25.4] 1.00 [25.4] 0.45 [11.4] 1.2 1.5K TJ-6 1.38 [35.1] 1.38 [35.1] 0.83 [21.1] 1.2 2.7K TJ-7 1.65 [41.9] 1.65 [41.9] 0.75 [19.1] 1.2 2.7K TJ-8 1.92-1.94 1.92-1.94 [48.8-49.3] [48.8-49.3] 1.00 [25.4] 1.5 TJ-9 2.66-2.72 2.66-2.72 [67.6-69.1] [67.6-69.1] 1.42 [36.1] 1.5 TE-3 0.685 [17.40] 0.685 [17.40] 1.00 [25.4] TE-4 1.06 [26.92] 1.06 [26.92] 1.00 [25.4] TE-5 1.32 [33.53] 1.32 [33.53] 1.00 [25.4] TD-3 0.685 [17.40] 0.685 [17.40] 3.00 [76.2] TD-4 1.06 [26.92] 1.06 [26.92] 4.00 [101.60] TD-5 1.32 [33.53] 1.32 [33.53] 6.00 [152.40] 3.9K 5.6K 4M 50 150 2M 1K 50 For technical questions, contact [email protected] 2M 4M 2M 150 1K 2M Document Number: 34081 Revision 07-Jan-02 Product Selector Guide Vishay Dale Leaded Magnetic Products RATED CURRENT @1 DCR mA @100 @1000 @10000 @0.001 @ 0..01 @10 24K 5K 260 17.8K 800 35K 0.008 @1 @10 @0.001 @0.01 MHz @0.1 @1 0.09 21.9 0.003 N/A 6.19 0.8 0.05 2.5K 0.03 12 2.35 141 1.51K 0.03 12 1.9 10K 0.006 10.7K 0.006 1.3K 10.1K 0.006 0.539 N/A 2K 16K 0.004 0.499 N/A 2.7K 16K 0.005 0.359 N/A 18.5K 0.005 0.304 N/A 20K 0.004 0.224 N/A 900 3.2K 5K 1.476 0.952 2.7K N/A 0.54 1.2K 1.7 200 0.009 2.7K N/A 0.54 1.2K 475 7.6 2.6 0.011 0.008 0.68 Document Number: 34081 Revision 07-Jan-02 250 0.009 475 N/A 1.7 670 N/A 0.68 N/A 5.7 N/A N/A N/A @ 100 N/A 141 500 @10 N/A 0.005 60K 0.0025 15K SRF Ohms @0.1 0.8 7.6 2.6 0.011 0.008 For technical questions, contact [email protected] 0.80 www.vishay.com 7 IM Vishay Dale Inductors Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded FEATURES • Wide inductance range in small package. • Flame retardant coating. • Precision performance, excellent reliability, sturdy construction. • Epoxy molded construction provides superior moisture protection. INDUCTANCE RANGE AND MILITARY STANDARD INDUCTANCE RANGE Mil. Range in bold face CLASSIFICATION MODEL FROM TO MILITARY STANDARD GRADE CLASS IM-1 0.10H 100H — — — IM-2 0.022H 0.10H 1.2H 33H 0.082H 1H 27H 1000H — 1 1 1 — B A A — MS75083 MS75084 MS75085 IM-4 0.15H 5.6H 36H 270H 4.7H 33H 240H 1800H 1 1 1 — B A A — MS18130 MS14046 MS90538 — IM-6 0.10H 3.3H 33H 270H 2.7H 27H 220H 1000H 1 1 — 1 B A — A MS75008 Not QPL'd MS75101 — MS90539 Not QPL'd IM-8 1100H 3600H 1 A MS90540 Not QPL'd IM-9 68H 150H 1 A MS14047 Not QPL'd IM-10 3900H 10,000H 1 A MS90541 Not QPL'd A Dia. A (Dia.) MECHANICAL SPECIFICATIONS Terminal Strength: Per MIL-STD-202, Method 211, Test Condition A: For IM-1, 3 pounds pull. For IM-2, -4, -6, -8, -9 and -10, 5 pounds pull and twist. Weight: IM-1 = .25 gram maximum. IM-2 = .30 gram maximum. IM-4 = .65 gram maximum. IM-6 = .95 gram maximum. IM-8 = 1.5 gram maximum. IM-9 = 2.0 gram maximum. IM-10 = 2.5 gram maximum. MATERIAL SPECIFICATIONS TEST EQUIPMENT* B D Dia. MODEL Inductance Tolerance: 1%, 3%, 5%, 10%, 20%. Other tolerances available on request. Insulation Resistance: 1000 Megohm minimum per MIL-STD-202, Method 302, Test Condition B. Dielectric Strength: Per MIL-STD-202, Method 301: 1000 VAC for IM-2, -4, -6, -8, -9 and -10. 200 VAC for IM-1. Encapsulant: Epoxy. Standard Terminals: IM-1 and IM-2, 24 AWG; IM-4, IM-6 and IM-9, 22 AWG; IM-8, 21 AWG; and IM-10, 20 AWG, tinned copper. DIMENSIONS in inches [millimeters] C Typ. ELECTRICAL SPECIFICATIONS B C (Typ.) D (Dia.) • H/P 4342A Q-Meter. • Measurements Corporation Megacycle Meter, Model 59. • Wheatstone bridge. *Test procedures per MIL-PRF-15305. ENVIRONMENTAL PERFORMANCE CONDITIONS Barometric Pressure Test Condition C MIL-STD-202, Method 105 Thermal Shock Test Condition A-1 MIL-STD-202, Method 107 Flammability — MIL-STD-202, Method 111 Overload — MIL-PRF-15305 Low Temperature Storage — MIL-PRF-15305 Maximum 0.086 [2.18] 0.210 [5.33] 1.62 [41.15] 0.0215 [.546] Minimum 0.070 [1.78] 0.190 [4.83] 1.38 [35.05] 0.0185 [.470] IM-2 Maximum 0.105 [2.67] 0.260 [6.60] 1.63 [41.40] 0.0215 [.546] Minimum 0.085 [2.16] 0.240 [6.10] 1.25 [31.75] 0.0185 [.470] IM-4 Maximum 0.165 [4.19] 0.385 [9.78] 1.63 [41.40] 0.027 [.686] Minimum 0.145 [3.68] 0.365 [9.27] 1.25 [31.75] 0.023 [.584] IM-6 Maximum 0.200 [5.08] 0.450 [11.43] 1.63 [41.40] 0.027 [.686] Minimum 0.180 [4.57] 0.430 [10.92] 1.25 [31.75] 0.023 [.584] IM-8 Maximum 0.225 [5.72] 0.570 [14.48] 1.63 [41.40] 0.030 [.762] Minimum 0.205 [5.21] 0.550 [13.97] 1.25 [31.75] 0.026 [.660] IM-9 Maximum 0.260 [6.60] 0.570 [14.48] 1.63 [41.40] 0.027 [.686] Minimum 0.240 [6.10] 0.550 [13.97] 1.25 [31.75] 0.023 [.584] Resistance to Soldering Heat IM-10 Maximum 0.250 [6.35] 0.750 [19.05] 1.63 [41.40] 0.034 [.864] Minimum 0.230 [5.84] 0.730 [18.54] 1.25 [31.75] 0.030 [.762] Resistance to Solvents www.vishay.com 8 SPECIFICATIONS TEST IM-1 For technical questions, contact [email protected] Test Condition A — MIL-STD-202, Method 210 MIL-STD-202, Method 215 Document Number 34030 Revision 02-Nov-01 IM Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded STANDARD ELECTRICAL SPECIFICATIONS 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 10% 10% 10% 10% 10% 10% 10% 10% — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — LT4K 339 340 341 342 343 344 345 346 347 348 349 350 351 LT10K 061 062 063 064 065 066 067 068 35 35 35 35 30 30 25 25 25 40 40 40 40 35 40 40 45 45 45 50 55 55 55 45 45 40 40 40 45 45 45 45 45 45 45 45 45 50 40 40 40 40 40 40 40 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 50.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 680.0 650.0 560.0 540.0 500.0 440.0 410.0 380.0 340.0 250.0 215.0 200.0 190.0 170.0 150.0 135.0 130.0 110.0 100.0 95.0 88.0 78.0 69.0 52.0 47.0 31.0 26.0 23.0 20.0 17.0 15.0 13.5 12.5 11.5 10.5 10.0 9.5 900.0 875.0 850.0 825.0 800.0 775.0 750.0 725.0 0.13 0.15 0.18 0.21 0.25 0.38 0.49 0.59 0.62 0.18 0.20 0.22 0.25 0.28 0.49 0.56 0.72 0.85 1.2 1.5 2.1 2.8 3.2 4.4 5.2 3.0 3.4 3.8 4.3 4.7 5.2 6.8 8.2 10.0 11.5 16.0 17.5 0.025 0.03 0.035 0.04 0.045 0.05 0.06 0.07 895 835 760 705 645 525 460 420 410 510 485 465 435 410 310 290 257 236 198 178 150 130 122 104 95 126 118 112 105 100 95 83.5 76 69 64 54.5 52 2400 2200 2000 1900 1800 1700 1500 1400 40 40 38 35 33 33 30 30 30 30 28 28 25 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 680.0 640.0 600.0 550.0 510.0 430.0 410.0 365.0 330.0 300.0 275.0 250.0 230.0 0.08 0.09 0.10 0.12 0.14 0.16 0.22 0.30 0.35 0.50 0.60 0.85 1.0 1350 1270 1200 1105 1025 960 815 700 650 545 495 415 385 25 28 30 30 37 45 45 45 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 150.0 140.0 125.0 115.0 100.0 90.0 80.0 75.0 0.18 0.22 0.30 0.40 0.55 0x.85 1.0 1.2 590 535 455 395 355 270 250 230 PHENOLIC CORE IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — MS75083 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 MS75084 -01 -02 -03 -04 -05 -06 -07 -08 IRON CORE 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 20% 10% 10% 10% 10% 10% 10% 10% Q MIN. PHENOLIC CORE 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 RATED** DC CURRENT (mA) MIL. TYPE PHENOLIC CORE TOL. IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-1 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 TEST FREQ. SELF- RESONANT* DCR L&Q MAX. FREQ. MIN. (MHz) (Ohms) (MHz) MIL. STD. IRON CORE MODEL IND. (H) *Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table. NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information. NOTE: Products with dashes instead of Military Standard value and type designations are not qualified. Document Number 34030 Revision 02-Nov-01 For technical questions, contact [email protected] www.vishay.com 9 IM Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded STANDARD ELECTRICAL SPECIFICATIONS 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 10% 10% 10% 10% 10% 10% 10% 10% 10% MS75084 -09 -10 -11 -12 -13 -14 -15 -16 -17 LT10K 069 070 071 072 073 074 075 076 077 50 50 55 55 45 40 50 50 50 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 65.0 60.0 55.0 50.0 40.0 35.0 30.0 25.0 20.0 1.8 2.0 2.7 3.7 2.7 2.8 3.1 3.3 3.5 185 175 155 130 155 150 145 140 135 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 560.0 680.0 820.0 1000.0 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% MS75085 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 -14 -15 -16 -17 -18 -19 LT10K 078 079 080 081 082 083 084 085 086 087 088 089 090 091 092 093 094 095 096 45 45 45 45 50 50 50 30 30 30 30 30 30 30 30 30 30 30 30 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 24.0 22.0 20.0 18.0 15.0 14.0 13.0 12.0 11.0 10.0 9.0 8.0 7.0 6.5 6.0 5.0 4.0 3.8 3.4 3.4 3.6 4.5 5.7 6.7 7.3 8.0 13.0 15.0 17.0 21.0 25.0 28.0 35.0 42.0 46.0 60.0 65.0 72.0 130 125 110 100 92 88 84 66 61 57 52 47 45 40 36 35 30 29 28 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 0.15 0.22 0.33 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 20% 20% 20% 20% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% MS18130 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 -14 -15 -16 LT4K 074 075 076 077 078 079 080 081 082 083 084 085 086 087 088 089 50 50 45 45 50 50 50 50 33 33 33 33 33 33 33 33 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 525.0 450.0 360.0 310.0 280.0 250.0 220.0 200.0 180.0 160.0 150.0 135.0 120.0 110.0 100.0 90.0 0.03 0.055 0.09 0.12 0.135 0.15 0.22 0.29 0.42 0.50 0.65 0.95 1.20 2.0 2.30 2.60 2450 1810 1400 1225 1150 1100 900 785 650 600 525 435 385 300 280 260 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% MS14046 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 LT10K 128 129 130 131 132 133 134 135 136 137 45 50 50 55 65 65 75 75 60 65 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 60.0 55.0 50.0 45.0 42.0 40.0 34.0 30.0 25.0 19.0 0.32 0.50 0.60 0.90 1.10 1.40 2.25 2.50 2.60 3.0 495 395 360 290 265 240 185 175 170 165 FERRITE CORE TOL. Q MIN. IRON CORE RATED** DC CURRENT (mA) MIL. TYPE PHENOLIC CORE IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 IM-2 TEST FREQ. SELF-RESONANT* DCR FREQ. MIN. L&Q MAX. (MHz) (MHz) (Ohms) MIL. STD. IRON CORE MODEL IND. (H) *Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table. NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information. NOTE: Products with dashes instead of Military Standard value and type designations are not qualified. www.vishay.com 10 For technical questions, contact [email protected] Document Number 34030 Revision 02-Nov-01 IM Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded MIL. TYPE Q MIN. TEST FREQ. L&Q (MHz) SELF-RESONANT* FREQ. MIN. (MHz) DCR MAX. (Ohms) RATED** DC CURRENT (mA) 36.0 39.0 43.0 47.0 51.0 56.0 62.0 68.0 75.0 82.0 91.0 100.0 110.0 120.0 130.0 150.0 160.0 180.0 200.0 220.0 240.0 270.0 300.0 330.0 360.0 390.0 430.0 470.0 510.0 560.0 620.0 680.0 750.0 820.0 910.0 1000.0 1100.0 1200.0 1300.0 1500.0 1600.0 1800.0 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% MS90538 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 -14 -15 -16 -17 -18 -19 -20 -21 — — — — — — — — — — — — — — — — — — — — — LT10K 001 002 003 004 005 006 007 008 009 010 011 012 013 014 015 016 017 018 019 020 021 — — — — — — — — — — — — — — — — — — — — — 60 60 60 55 55 55 55 55 55 50 50 50 60 65 65 65 65 65 65 65 65 65 65 65 65 65 65 65 65 65 65 55 55 55 55 55 30 30 30 30 30 30 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.25 0.25 0.25 0.25 0.25 0.25 15.5 14.5 13.7 13.0 12.7 12.0 11.5 11.0 10.5 10.3 10.0 9.5 8.9 8.7 8.5 8.0 7.5 7.0 6.5 6.2 5.9 5.7 5.4 5.1 4.8 4.5 4.2 3.9 3.7 3.5 3.3 3.1 2.9 2.7 2.5 2.3 2.1 2.0 1.9 1.8 1.7 1.6 2.50 2.60 2.70 2.75 2.85 3.0 3.15 3.30 3.70 3.90 4.30 4.50 4.90 5.20 5.45 6.05 6.40 6.75 7.10 7.45 7.80 11.0 11.5 12.0 15.5 16.3 17.1 17.9 18.8 24.7 25.9 27.2 28.6 30.0 31.5 33.1 43.5 45.7 49.0 52.5 54.0 56.7 180 176 172 170 167 164 160 156 147 143 136 133 128 124 121 114 111 108 106 103 101 129 125 123 108 105 102 100 98 85 83 81 79 77 76 74 64 63 61 59 58 56 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 20% 20% 20% 20% 20% 20% 20% 20% 20% 10% 10% 10% 10% 10% 10% 10% 10% 10% MS75008 — — -21 — -22 — -23 — -24 -25 -26 -27 -28 -29 -30 -31 -32 -33 LT4K — — 027 — 028 — 029 — 030 031 032 033 034 035 036 037 038 039 (Not QPL'd) 55 55 55 55 50 50 50 50 50 50 45 40 40 30 30 30 30 30 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 7.9 7.9 7.9 7.9 7.9 510.0 510.0 510.0 450.0 415.0 380.0 350.0 320.0 300.0 270.0 250.0 210.0 200.0 180.0 170.0 150.0 140.0 120.0 .020 .025 .030 .030 .035 .050 .065 .080 .085 .125 .150 .205 .290 .400 .485 .740 .970 1.20 3600 3300 3000 2900 2800 2400 2000 1800 1700 1450 1300 1100 930 785 700 580 505 460 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-4 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 MODEL PHENOLIC CORE TOL. MIL. STD. IND. (H) IRON CORE STANDARD ELECTRICAL SPECIFICATIONS *Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table. NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information. NOTE: Products with dashes instead of Military Standard value and type designations are not qualified. Document Number 34030 Revision 02-Nov-01 For technical questions, contact [email protected] www.vishay.com 11 IM Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded RATED** DC CURRENT (mA) 70.0 65.0 60.0 50.0 50.0 48.0 42.0 36.0 30.0 30.0 24.0 22.0 20.0 18.0 16.0 15.0 12.0 10.0 8.0 6.0 5.4 5.0 4.7 0.140 0.155 0.210 0.280 0.375 0.440 0.605 1.05 1.20 1.95 2.20 2.75 3.5 3.8 4.0 4.4 4.7 5.3 6.0 5.0 5.8 6.6 7.4 990 870 745 645 560 540 440 370 310 255 240 205 185 176 170 164 156 143 133 124 118 114 112 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 5.6 5.3 5.0 4.7 4.5 4.3 4.0 3.8 3.6 3.5 3.4 3.3 3.1 2.9 2.8 8.2 8.7 9.1 9.6 10.0 10.6 11.1 11.6 12.3 13.0 13.7 14.4 15.1 15.8 16.5 110 107 105 102 100 97 95 93 91 88 85 83 81 79 78 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 2.8 2.7 2.6 2.4 2.3 2.2 2.1 2.0 1.9 1.8 1.7 1.6 1.5 21.0 22.0 23.0 25.0 26.0 28.0 29.0 30.0 31.0 33.0 35.0 38.0 40.0 78 76 75 72 70 68 67 66 64 62 61 58 57 TOL. Q MIN. 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% 10% MS75101 -01 -02 -03 -04 -05 -06 -07 -08 -09 -10 -11 -12 — — — — — — — — — — — LT10K 169 170 171 172 173 174 175 176 177 178 179 180 — — — — — — — — — — — 30 30 30 30 30 30 30 50 55 60 60 65 75 75 75 75 75 75 65 65 65 65 65 LT10K 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 270.0 300.0 330.0 360.0 390.0 430.0 470.0 510.0 560.0 620.0 680.0 750.0 820.0 910.0 1000.0 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% MS90539 -01 -02 -03 -04 -05 -06 -07 -08 -09 -10 -11 -12 -13 -14 -15 LT10K 022 023 024 025 026 027 028 029 030 031 032 033 034 035 036 (Not QPL'd) 65 65 65 65 65 65 65 65 65 60 60 60 60 60 60 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 IM-8 1100.0 1200.0 1300.0 1500.0 1600.0 1800.0 2000.0 2200.0 2400.0 2700.0 3000.0 3300.0 3600.0 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% MS90540 -01 -02 -03 -04 -05 -06 -07 -08 -09 -10 -11 -12 -13 LT10K 037 038 039 040 041 042 043 044 045 046 047 048 049 (Not QPL'd) 60 60 60 65 65 65 65 70 70 70 70 70 70 MODEL IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IM-6 IRON CORE DCR MAX. (Ohms) MIL. TYPE IRON CORE TEST FREQ. SELF-RESONANT* L&Q FREQ. MIN. (MHz) (MHz) MIL. STD. IND. (H) IRON CORE STANDARD ELECTRICAL SPECIFICATIONS STANDARD ELECTRICAL SPECIFICATIONS *Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table. NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information. NOTE: Products with dashes instead of Military Standard value and type designations are not qualified. www.vishay.com 12 For technical questions, contact [email protected] Document Number 34030 Revision 02-Nov-01 IM Vishay Dale Inductors, Military, MIL-PRF-15305 Qualified, Type LT and Commercial, Molded STANDARD ELECTRICAL SPECIFICATIONS IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 IM-10 RATED** DC CURRENT (mA) TOL. MIL. TYPE Q MIN. 68.0 82.0 100.0 120.0 150.0 10% 10% 10% 10% 10% MS14047 -01 -02 -03 -04 -05 LT10K 138 139 140 141 142 (Not QPL'd) 70 65 65 75 75 2.5 2.5 2.5 0.79 0.79 13.0 11.7 10.7 9.3 8.3 3.3 3.5 3.8 4.7 5.3 168 162 155 142 132 3900.0 4300.0 4700.0 5000.0 5600.0 6200.0 6800.0 7500.0 8200.0 9100.0 10000.0 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% 5% MS90541 -01 -02 -03 -04 -05 -06 -07 -08 -09 -10 -11 LT10K 050 051 052 053 054 055 056 057 058 059 060 (Not QPL'd) 80 80 80 80 80 80 80 80 80 80 80 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 1.45 1.40 1.35 1.30 1.25 1.20 1.15 1.10 1.05 1.0 0.95 44.0 46.0 48.0 50.0 53.0 56.0 59.0 62.0 65.0 68.0 72.0 61 59 58 57 56 54 52 51 50 49 47 IRON CORE IM-9 IM-9 IM-9 IM-9 IM-9 TEST FREQ. SELF-RESONANT* DCR MAX. FREQ. MIN. L&Q (Ohms) (MHz) (MHz) MIL. STD. IRON CORE MODEL IND. (H) *Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table. NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information. NOTE: Products with dashes instead of Military Standard value and type designations are not qualified. MAXIMUM TEMPERATURE RISE OPERATING TEMPERATURE RANGE IM-1 0.10H to .47H = 35C at + 90C ambient 0.56H to 1000H = 15C at + 90C ambient - 55C to + 125C - 55C to + 105C IM-2 0.022H to 1.0H = 35C at + 90C ambient 1.2H to 27H = 15C at + 90C ambient 33H to 1000H = 15C at + 90C ambient - 55C to + 125C - 55C to + 105C - 55C to + 105C IM-4 0.15H to 4.7H = 35C at + 90C ambient 5.6H to 33H = 15C at + 90C ambient 36H to 240H = 15C at + 90C ambient 270H to 1800H = 35C at + 90C ambient - 55C to + 125C - 55C to + 105C - 55C to + 105C - 55C to + 125C IM-6 0.1H to 2.7H = 35C at + 90C ambient 3.3H to 1000H = 15C at + 90C ambient - 55C to + 125C - 55C to + 105C = 15C at + 90C ambient - 55C to + 105C IM-8, IM-9, IM-10 ORDERING INFORMATION 10H INDUCTANCE VALUE IM-2 MODEL 10% INDUCTANCE TOLERANCE ORDERING INFORMATION - MILITARY PART NUMBER MS75084 MILITARY STANDARD Document Number 34030 Revision 02-Nov-01 - 12 INDUCTANCE VALUE OR LT TYPE 10 GRADE AND CLASS For technical questions, contact [email protected] K FAMILY 072 ID NUMBER www.vishay.com 13 IM-6-38 Vishay Dale Inductors Medium Current FEATURES • Wide inductance range in small package. • Flame retardant coating. • Epoxy molded construction provides superior moisture protection. • Superior electrical specifications. High Q and self resonant frequency, low DC resistance, high rated DC current. STANDARD ELECTRICAL SPECIFICATIONS IND. (μH) TOL. Q MIN. 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 ± 20% ± 20% ± 20% ± 20% ± 20% ± 20% ± 20% ± 20% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 55 55 55 55 55 55 55 55 55 65 65 65 65 65 65 55 55 55 55 45 45 55 55 55 55 55 55 45 45 45 45 30 30 55 55 60 60 60 60 60 60 SELFTEST RATED FREQ. RESONANT DCR DC L & Q FREQ. MIN. MAX. CURRENT (Ohms) (mA) (MHz) (MHz) 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 25.0 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 360.0 340.0 320.0 260.0 200.0 195.0 190.0 175.0 160.0 145.0 125.0 95.0 85.0 47.0 45.0 35.0 30.0 26.0 24.0 22.0 20.0 32.0 32.0 23.0 23.0 20.0 20.0 19.0 19.0 14.0 14.0 4.5 4.5 4.0 3.4 8.5 8.2 5.8 5.5 5.1 2.1 0.024 0.026 0.030 0.033 0.036 0.040 0.043 0.048 0.053 0.058 0.067 0.075 0.083 0.095 0.100 0.110 0.120 0.135 0.155 0.165 0.175 0.320 0.390 0.475 0.565 0.650 0.720 0.780 0.830 0.900 0.980 1.07 1.15 1.45 1.66 2.80 3.10 3.15 4.30 4.40 4.50 2380 2210 2070 2000 1910 1860 1810 1730 1650 1570 1490 1430 1370 1300 1230 1210 1190 1100 1020 975 940 775 645 625 600 560 520 495 465 450 440 420 400 365 340 240 235 230 205 190 185 ELECTRICAL SPECIFICATIONS Inductance Tolerance: ± 5%, ± 10%, ± 20%. Other tolerances available on request. Insulation Resistance: 1000 Megohm per MIL-STD-202, Method 302, Test Condition B. Operating Temperature: - 55°C to + 105°C (no load); - 55°C to + 80°C (at full rated current). MECHANICAL SPECIFICATIONS Terminal Strength: 5 pounds pull per MIL-STD-202, Method 211, Test Condition A. MATERIAL SPECIFICATIONS Core: Ferrite. Encapsulant: Epoxy. Terminals: Tinned copper, standard. DIMENSIONS in inches [millimeters] C Typ. B A Dia. D Dia. MODEL A (Dia.) B C (Typ.) D (Dia.) IM-6-38 Maximum 0.200 [5.08] 0.450 [11.43] 1.63 [41.40] 0.027 [0.686] Minimum 0.180 [4.57] 0.430 [10.92] 1.25 [31.75] 0.023 [0.584] ENVIRONMENTAL PERFORMANCE TEST CONDITIONS SPECIFICATIONS — MIL-STD-202, Method 111 Resistance to Soldering Heat Test Condition A MIL-STD-202, Method 210 Resistance to Solvents — MIL-STD-202, Method 215 Flammability ORDERING INFORMATION MARKING — Vishay Dale IM-6-38 3.9μH ± 10% — Inductance value MODEL INDUCTANCE VALUE INDUCTANCE TOLERANCE — Date code www.vishay.com 14 For technical questions, contact [email protected] Document Number 34033 Revision 02-Nov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ov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³ &RORUFRGHGSHU0,/35) ODWHVWUHYLVLRQ ORDERING INFORMATION ,05)&6 + 02'(/ ,1'8&7$1&( 9$/8( ,1'8&7$1&( 72/(5$1&( ZZZYLVKD\FRP IM-10-22, -28, -31, -37, -46 Vishay Dale Inductors Commercial, Molded FEATURES • High Q and SRF. • Non standard tolerances are also available in all types. • Maximum protection with minimum size as a result of full encapsulation in a thermo-setting mineral filled plastic jacket. • Assured uniformity of product, a result of stringent quality control and inspection procedures at every production stage. DIMENSIONS in inches [millimeters] 1.25 [31.75] Min. A B C MODEL A B C IM-10-22 0.560 ± 0.010 [14.22 ± 0.254] #22 AWG 0.025 ± 0.002 [0.635 ± 0.051] (0.47μH thru 39μH) #21 AWG 0.028 ± 0.002 [0.711 ± 0.051] (1100μH thru 3600μH) 0.220 ± 0.010 [5.59 ± 0.254] IM-10-28 0.940 ± 0.010 [23.88 ± 0.254] #21 AWG 0 .028 ± 0.002 [0.711 ± 0.051] 0.280 ± 0.010 [7.11 ± 0.254] IM-10-31 0.560 ± 0.010 [14.22 ± 0.254] #21 AWG 0 .028 ± 0.002 [0.711 ± 0.051] 0.310 ± 0.010 [7.87 ± 0.254] IM-10-37 0.625 ± 0.010 [15.88 ± 0.254] #21 AWG 0 .028 ± 0.002 [0.711 ± 0.051] 0.375 ± 0.010 [9.52 ± 0.254] IM-10-46 0.687 ± 0.010 [17.45 ± 0.254] #21 AWG 0 .028 ± 0.002 [0.711 ± 0.051] 0.468 ± 0.010 [11.89 ± 0.254] INDUCTANCE RANGE INDUCTANCE RANGE MAXIMUM OPERATING TEMPERATURE MODEL FROM TO CORE MATERIAL IM-10-22 0.47μH 4.7μH Phenolic + 125°C 5.6μH 39μH Iron + 105°C 1100μH 3600μH Iron + 105°C 1.2μH 18μH Phenolic + 125°C 22μH 120μH Iron + 105°C IM-10-31 180μH 390μH Iron + 105°C IM-10-37 470μH 1000μH Iron + 105°C IM-10-46 1500μH 10000μH Iron + 105°C IM-10-28 MODEL IND. (μH) IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 www.vishay.com 16 TOL. PREVIOUS PART NO. Q MIN. TEST FREQ. (MHz) SELF-RESONANT FREQ. MIN. (MHz) DCR @ + 25°C MAX. (Ohms) RATED DC CURRENT (mA) ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 4412-1K 4412-2K 4412-3K 4412-4K 4412-5K 4412-6K 4412-7K 4412-8K 4412-9K 4411-10K 4412-11K 4412-12K 4412-13K 65 65 65 65 65 40 40 40 40 40 40 40 40 25 25 25 25 25 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 300 270 240 220 200 180 160 150 135 120 105 100 90 0.06 0.07 0.08 0.11 0.14 0.19 0.28 0.37 0.50 0.65 1.00 1.20 1.80 1970 1850 1700 1450 1290 1120 925 790 680 600 480 440 360 For technical questions, contact [email protected] PHENOLIC CORE STANDARD ELECTRICAL SPECIFICATIONS Document Number 34035 Revision 02-Nov-01 IM-10-22, -28, -31, -37, -46 Vishay Dale Inductors Commercial, Molded DCR @ + 25°C MAX. (Ohms) RATED DC CURRENT (mA) ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 4422-1K 4422-2K 4422-3K 4422-4K 4422-5K 4422-6K 4422-7K 4422-8K 4422-9K 4422-10K 4422-11K 35 35 35 35 45 45 50 60 60 60 70 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 55 50 44 42 34 32 28 24 22 20 18 885 710 680 625 465 442 380 326 275 258 224 1312-20J 1312-21J 1312-22J 1312-23J 1312-24J 1312-25J 1312-26J 1312-27J 1312-28J 1312-29J 1312-30J 1312-31J 1312-32J 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 ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 60 60 60 65 65 65 65 70 70 70 70 70 70 60 60 60 60 60 60 60 60 60 60 60 60 40 40 40 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.8 2.7 2.6 2.4 2.3 2.2 2.1 2.0 1.9 1.8 1.7 1.6 1.5 170 160 140 125 115 100 95 90 80 75 68 60 53 50 45 0.13 0.20 0.22 0.26 0.45 0.52 0.70 1.00 1.30 1.50 2.00 21.0 22.0 23.0 25.0 26.0 28.0 29.0 30.0 31.0 33.0 35.0 38.0 40.0 0.075 0.090 0.135 0.160 0.220 0.305 0.450 0.560 0.745 1.05 1.40 1.90 2.65 3.25 4.15 78 76 75 72 70 68 67 66 64 62 61 58 57 2400 2150 1750 1600 1350 1150 955 860 745 635 550 460 395 355 315 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 22 27 33 39 47 56 68 82 100 120 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 50 45 60 55 65 65 75 75 75 95 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 24 22 19 18 16 14 13 12 12 10 0.295 0.350 0.550 0.650 1.00 1.15 1.85 2.10 2.50 4.10 725 660 525 485 390 360 285 265 245 195 IM-10-31 IM-10-31 IM-10-31 IM-10-31 IM-10-31 ± 10% ± 10% ± 10% ± 10% ± 10% 80 80 80 75 75 0.79 0.79 0.79 0.79 0.79 6.0 5.5 5.1 4.2 3.9 5.5 5.9 6.6 7.8 8.7 148 145 138 122 118 IM-10-37 IM-10-37 IM-10-37 IM-10-37 IM-10-37 180 220 270 330 390 470 560 680 820 1000 4424-1K 4424-2K 4424-3K 4424-4K 4424-5K 4424-6K 4424-7K 4424-8K 4424-9K 4424-10K 31A181K 31A221K 31A271K 31A331K 31A391K ± 10% ± 10% ± 10% ± 10% ± 10% 37A471K 37A561K 37A681K 37A821K 37A102K 80 80 75 75 70 0.79 0.79 0.79 0.79 0.79 3.7 3.5 3.2 3.0 2.7 9.0 10.0 11.2 13.0 14.5 125 118 112 105 95 IM-10-46 IM-10-46 IM-10-46 IM-10-46 IM-10-46 1500 2200 2700 5100 10000 ± 10% ± 10% ± 10% ± 10% ± 10% 46A152K 46A222K 46A272K 46A512K 46A103K 85 85 85 70 70 0.25 0.25 0.25 0.25 0.25 2.2 1.8 1.6 1.0 0.8 22.0 27.0 32.0 66.0 70.0 84 76 69 48 47 MODEL IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 5.6 6.8 8.2 10 12 15 18 22 27 33 39 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-22 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 IM-10-28 1100 1200 1300 1500 1600 1800 2000 2200 2400 2700 3000 3300 3600 4414-1K 4414-2K 4414-3K 4414-4K 4414-5K 4414-6K 4414-7K 4414-8K 4414-9K 4414-10K 4414-11K 4414-12K 4414-13K 4414-14K 4414-15K MARKING IRON CORE SELF-RESONANT FREQ. MIN. (MHz) PHENOLIC CORE TEST FREQUENCY (MHz) IRON CORE Q MIN. IRON CORE IRON CORE IRON CORE TOLERANCE PREVIOUS PART NO. IND. (μH) IRON CORE STANDARD ELECTRICAL SPECIFICATIONS ORDERING INFORMATION — Color coded, see packaging Document Number 34035 Revision 02-Nov-01 IM-10-28 MODEL 22μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE www.vishay.com 17 ,05)&/ 9LVKD\'DOH ,QGXFWRUV &RPPHUFLDO0ROGHG FEATURES ,QGXFWDQFHUDQJHLV+WR+ 3URYHQUHOLDELOLW\PROGHGLQGXFWRUV ELECTRICAL SPECIFICATIONS STANDARD ELECTRICAL SPECIFICATIONS 02'(/ 7(67 65) '&5 5$7(''& 4 )5(4 0,1 0$; &855(17 ,1' + 72/ 0,1 0+] 0+] 2KPV P$ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ ,05)&/ MECHANICAL SPECIFICATIONS 7HUPLQDO6WUHQJWK0HHWVSRXQGSXOOWHVWZKHQWHVWHGSHU 0,/35)ODWHVWUHYLVLRQ DENSITY SPECIFICATIONS :HLJKWJUDPVPD[LPXP ENVIRONMENTAL SPECIFICATIONS ,521&25( ,QGXFWDQFH7ROHUDQFHRQ40HWHUIRU+WR+ FSVEULGJHIRU+WR+ 127(/DQG4DUHQRWDOZD\VWHVWHGDWWKHVDPHIUHTXHQF\ ,QGXFWDQFHYDOXHVWHVWHGRQ40HWHUDUHWHVWHGDWVWDQGDUG WHVWIUHTXHQFLHV 'LHOHFWULF6WUHQJWK9506DWVHDOHYHO 2SHUDWLQJ7HPSHUDWXUH&WR& 6HOI5HVRQDQW)UHTXHQF\0LQLPXP65)PHDVXUHGZLWKIXOO OHQJWKOHDGVRQ*ULG'LS0HWHU 40HDVXUHGRQ40HWHU 5DWLQJZDWWGLVVLSDWLRQIRU/0RGHOV 0RLVWXUH5HVLVWDQFH0HHWVUHTXLUHPHQWVRI0,/35) 6KRFN5HVLVWDQFH0HHWVUHTXLUHPHQWVRI0,/35) 9LEUDWLRQ+LJKIUHTXHQF\+]WR+]#* PD[LPXPIRUORJDULWKPLFVZLQJVHDFKRIPLQXWHGXUDWLRQ UHSHDWHGIRUHDFKRIWKUHHPXWXDOO\SHUSHQGLFXODUSODQHV DIMENSIONS LQLQFKHV>PLOOLPHWHUV@ >@ 'LD0D[ >@ 7\S0LQ >@7&: >@ 0D[ MARKING ³&RORUFRGHG ORDERING INFORMATION ,05)&/ 02'(/ + ,1'8&7$1&( 9$/8( ,1'8&7$1&( 72/(5$1&( 0RGHOHOHFWULFDOVDQGWROHUDQFHVVKRZQ ZZZYLVKD\FRP )RUWHFKQLFDOTXHVWLRQVFRQWDFW0DJQHWLFV#YLVKD\FRP 'RFXPHQW1XPEHU 5HYLVLRQ02Nov1 ,066::' 9LVKD\'DOH ,QGXFWRUV &RPPHUFLDO 6XEPLQLDWXUH 0ROGHG 6KLHOGHG FEATURES &ODVVLILFDWLRQLV*UDGH&ODVV$ 8OWUDUHOLDEOHPROGHGVKLHOGHGLQGXFWRU ,QGXFWDQFHUDQJHLV+WR+ >PP@GLDPHWHUE\>PP@OHQJWK 0ROGHGHSR[\HQYHORSH 6XEPLQLDWXUHVL]HIRUKLJKGHQVLW\FLUFXLWVDQGKLJK LQGXFWDQFHWRVL]HUDWLR 8WPRVWUHOLDELOLW\HOHFWULFDOSHUIRUPDQFHDQGPLQLPXP FRXSOLQJLQKLJKGHQVLW\SDFNDJLQJ ELECTRICAL SPECIFICATIONS DENSITY SPECIFICATIONS ,QGXFWDQFH7ROHUDQFHRQ40HWHUDWVSHFLILHG IUHTXHQF\ 'LHOHFWULF6WUHQJWK9506DWVHDOHYHO 2SHUDWLQJ7HPSHUDWXUH&WR& 6HOI5HVRQDQW)UHTXHQF\0HDVXUHGSHU0,/35) 40HDVXUHGRQD40HWHUDWVSHFLILHGIUHTXHQF\ 5DWLQJ0D[LPXPEDVHGRQZDWWGLVVLSDWLRQ :HLJKWJUDPPD[LPXP MECHANICAL SPECIFICATIONS 7HUPLQDO6WUHQJWK0HHWVILYHSRXQGSXOOWHVWWKUHH URWDWLRQVLQDOWHUQDWHGLUHFWLRQVSHU0,/35)ODWHVW UHYLVLRQ 6KLHOGLQJ/HVVWKDQFRXSOLQJZLWKWZRXQLWVPRXQWHG VLGHE\VLGHDWF\FOHV ENVIRONMENTAL SPECIFICATIONS 0RLVWXUH0HHWVUHTXLUHPHQWVRI0,/35) 9LEUDWLRQ+LJKIUHTXHQF\+]WR+]#J PD[LPXPIRUORJDULWKPLFVZLQJVHDFKRIPLQXWH GXUDWLRQUHSHDWHGIRUHDFKRIWKUHHPXWXDOO\SHUSHQGLFXODUSODQHV 6KRFNJPV DIMENSIONS LQLQFKHV>PLOOLPHWHUV@ >@ >@7&: >@ >@ 0D[ STANDARD ELECTRICAL SPECIFICATIONS ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' 72/ 4 0,1 7(67)5(4 0,1 0+] 6(/)5(621$17 '&5 )5(40,1 0$; 0+] 2KPV 5$7(''& ,1&5(0(17$/ &855(17 &855(17 P$ P$ ! ! ! ! ! ! ! ! ! ! ! ! 3+(12/,& 02'(/ ,1' + ,QFUHPHQWDO&XUUHQW7KH'&FXUUHQWUHTXLUHGWRFDXVHDUHGXFWLRQLQWKHQRPLQDOLQGXFWDQFHYDOXH 'RFXPHQW1XPEHU 5HYLVLRQ23Jan2 )RUWHFKQLFDOTXHVWLRQVFRQWDFW0DJQHWLFV#YLVKD\FRP ZZZYLVKD\FRP ,066::' 9LVKD\'DOH ,QGXFWRUV&RPPHUFLDO 6XEPLQLDWXUH 0ROGHG 6KLHOGHG 02'(/ 72/ ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' ,066::' 4 0,1 '&5 0$; 2KPV 5$7(''& &855(17 P$ ! ! ! ! ! ! ! ! ! ! ! ! ! ! ,521 7(67)5(4 6(/)5(621$17 0,1 )5(40,1 0+] 0+] ,1' + )(55,7( STANDARD ELECTRICAL SPECIFICATIONS ,1&5(0(17$/ &855(17 P$ ,QFUHPHQWDO&XUUHQW7KH'&FXUUHQWUHTXLUHGWRFDXVHDUHGXFWLRQLQWKHQRPLQDOLQGXFWDQFHYDOXH ORDERING INFORMATION MARKING ³&RORUFRGHGSHU0,/35)ODWHVWUHYLVLRQ ZZZYLVKD\FRP ,066::' + 02'(/ ,1'8&7$1&( 9$/8( ,1'8&7$1&( 72/(5$1&( )RUWHFKQLFDOTXHVWLRQVFRQWDFW0DJQHWLFV#YLVKD\FRP 'RFXPHQW1XPEHU 5HYLVLRQ23Jan2 IMS-2WWD-40 Vishay Dale Inductors Subminiature, Shielded FEATURES • • • • • • ELECTRICAL SPECIFICATIONS STANDARD ELECTRICAL SPECIFICATIONS IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 42 42 42 42 42 42 42 42 41 39 36 35 25 25 25 25 25 25 25 25 25 25 25 25 > 400 > 400 > 400 366 331 298 288 271 247 236 216 200 0.112 0.126 0.138 0.165 0.198 0.220 0.258 0.292 0.360 0.397 0.472 0.638 1720 1630 1550 1420 1330 1230 1140 1060 960 915 840 720 > 1720 > 1630 > 1550 > 1420 > 1330 > 1230 > 1140 > 1060 > 960 > 915 > 840 > 720 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 IMS-2WWD-40 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 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 42 38 38 38 36 38 38 40 42 42 45 47 51 51 25 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 136 120 111 103 94 85 78 73 66 62 54 50 44 39 0.208 0.225 0.265 0.285 0.330 0.381 0.432 0.576 0.787 1.04 1.40 1.68 2.58 3.65 1260 1210 1120 1080 1000 935 875 755 650 565 485 440 355 300 > 1260 > 1210 > 1120 > 1080 > 1000 > 935 > 875 > 755 > 650 > 565 > 485 > 440 > 355 > 300 Document Number 34047 Revision 02-Nov-01 PHENOLIC MODEL TEST SRF DCR RATED DC INCR.* IND. Q FREQ. MIN. MAX. CURRENT CURRENT (μH) TOL. MIN. (MHz) (MHz) (Ohms) (mA) (mA) Inductance Tolerance: ± 10% Q-Meter. Dielectric Strength: 700VRMS at sea level. Operating Temperature: - 55°C to + 125°C. Self-Resonant Frequency: Minimum SRF measured with full length leads on Grid-Dip Meter. Rating: Maximum current based on 1/3 watt dissipation. MECHANICAL SPECIFICATIONS Terminal Strength: Meets 5 pound pull test. DENSITY SPECIFICATIONS Weight: 0.50 gram maximum. Shielding: Less than 3% coupling with two units mounted side by side at 1000 cycles. IRON DIMENSIONS in inches [millimeters] 1.3 [33.02] Typ. Min. #24 .020 ± .002 [.508 ± .051] TCW .335 [8.51] Max. .133 [3.38] Max. MARKING — Color coded FERRITE 620 200 44 .862 IMS-2WWD-40 15 ± 10% 45 2.5 570 175 40 1.02 IMS-2WWD-40 18 ± 10% 43 2.5 545 160 36 1.12 IMS-2WWD-40 22 ± 10% 42 2.5 510 155 33 1.28 IMS-2WWD-40 27 ± 10% 37 2.5 440 150 30 1.70 IMS-2WWD-40 33 ± 10% 46 2.5 405 145 26 1.99 IMS-2WWD-40 39 ± 10% 38 2.5 370 140 23 2.41 IMS-2WWD-40 47 ± 10% 42 2.5 340 130 22 2.85 IMS-2WWD-40 56 ± 10% 41 2.5 320 120 18 3.21 IMS-2WWD-40 68 ± 10% 46 2.5 305 115 17 3.57 IMS-2WWD-40 82 ± 10% 46 2.5 280 100 15 4.10 IMS-2WWD-40 100 ± 10% 43 2.5 235 80 13 5.97 IMS-2WWD-40 120 ± 10% 50 0.79 215 68 12 7.05 IMS-2WWD-40 150 ± 10% 49 0.79 200 64 11 8.12 IMS-2WWD-40 180 ± 10% 56 0.79 150 60 10 14.8 IMS-2WWD-40 220 ± 10% 53 0.79 140 58 9 16.8 IMS-2WWD-40 270 ± 10% 57 0.79 130 56 IMS-2WWD-40 330 ± 10% 57 0.79 8.5 18.6 120 54 8 21.1 IMS-2WWD-40 390 ± 10% 57 0.79 100 52 7 32.2 IMS-2WWD-40 470 ± 10% 50 0.79 95 50 6 36.4 IMS-2WWD-40 560 ± 10% 50 0.79 90 48 IMS-2WWD-40 680 ± 10% 56 0.79 5.5 41.1 85 47 5 45.0 IMS-2WWD-40 820 ± 10% 49 0.79 80 45 IMS-2WWD-40 1000 ± 10% 49 0.79 4.5 52.0 *Incremental Current: The DC current required to cause a 5% reduction in the nominal inductance value. Classification is Grade 2, Class B. Inductance range is 0.10μH to 1000μH. High inductance-to-size ratio. 0.133" [3.38mm] diameter by 0.335" [8.51mm] length. Subminiature shielded inductor. Solves special problems in density circuit application. 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ELECTRICAL SPECIFICATIONS Inductance Tolerance: ± 10% on Q-Meter for 0.10μH to 22μH. ± 5% on 1KC Bridge for 27μH to 1000μH. ± 10% on 1KC Bridge for 1200μH to 56,000μH. ± 20% on 1KC Bridge measured at point on leads 1/4" [6.35mm] from body for 68,000μH to 180,000μH. Dielectric Strength: 700V RMS at sea level. Operating Temperature: - 55°C to + 125°C. Self-Resonant Frequency: Minimum SRF measured with full length leads on Grid-Dip Meter. Q: Measured on Q-Meter. Maximum Current: Based on temperature rise not to exceed 40°C at + 85°C ambient. MECHANICAL SPECIFICATIONS Terminal Strength: Meets 5 pound pull test. DENSITY SPECIFICATIONS Weight: 0.75 gram maximum. Shielding: Less than 3% coupling with two units mounted side by side at 1000 cycles. DIMENSIONS in inches [millimeters] 1.30 [33.02] Typ. Min. #24 0.020 ± 0.002 [0.508 ± 0.051] TCW 0.450 [11.43] Max. 0.164 [4.17] Max. STANDARD ELECTRICAL SPECIFICATIONS IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 TOL. Q MIN. TEST FREQ. Q (MHz) SELF-RESONANT FREQ. MIN. (MHz) DCR MAX. (Ohms) RATED DC CURRENT (mA) ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 55 55 55 50 56 50 48 48 48 45 45 41 25 25 25 25 25 25 25 25 25 25 25 25 400 400 400 366 331 298 270 248 226 206 188 171 0.020 0.029 0.032 0.040 0.045 0.08 0.09 0.16 0.17 0.36 0.37 0.46 4000 3350 3000 2850 2700 2000 1900 1420 1400 960 940 870 INCREMENTAL* CURRENT (mA) 4000 3350 3000 2850 2700 2000 1900 1420 1400 960 940 870 PHENOLIC MODEL IND. (μH) *Incremental Current: The DC current required to cause a 5% reduction in the nominal inductance value. www.vishay.com 26 For technical questions, contact [email protected] Document Number 34051 Revision 02-Nov-01 IMS-5WD-40 Vishay Dale Inductors, Miniature, Shielded TOL. Q MIN. TEST FREQ. (MHz) SELF-RESONANT FREQ. MIN. (MHz) DCR MAX. (Ohms) RATED DC CURRENT (mA) 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 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 42 43 41 42 42 41 40 40 40 40 40 45 46 47 47 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 131 120 108 99 90 86 73 68 61 56 51 46 42 38 34 0.062 0.067 0.16 0.17 0.19 0.20 0.31 0.33 0.58 0.64 0.68 1.3 1.4 1.5 1.7 2300 2200 1420 1370 1300 1270 1030 1000 750 710 680 500 480 460 440 2300 2200 1420 1370 1300 1270 1030 1000 750 710 680 500 480 460 440 IRON 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 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 45 47 42 43 45 46 40 40 42 63 62 63 60 57 52 50 43 66 64 71 67 62 52 51 51 50 51 52 48 48 48 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 0.25 43 38 35 32 30 26 24 22 14 12 11 10 9.2 8.8 8.0 7.2 6.8 6.4 6.0 5.2 4.8 4.5 1.2 1.2 1.1 1.0 0.94 0.84 0.77 0.67 0.65 0.88 0.95 1.15 1.2 1.6 1.8 2.2 2.3 2.4 2.6 2.9 3.3 3.6 4.1 4.8 5.6 6.2 10.0 11.5 12.0 13.8 16.0 18.2 23.7 30.2 33.7 43.1 48.7 62.7 70.5 104 610 590 530 520 450 420 390 375 360 345 330 315 300 280 260 240 230 180 170 160 150 140 135 118 105 99 87 82 72 68 56 235 220 200 193 183 177 170 165 160 157 145 126 110 105 91 87 72 67 65 60 55 52 50 48 42 37 33 30 29 28 24 FERRITE STANDARD ELECTRICAL SPECIFICATIONS IND. (μH) IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 IMS-5WD-40 MODEL INCREMENTAL* CURRENT (mA) *Incremental Current: The DC current required to cause a 5% reduction in the nominal inductance value. MARKING ORDERING INFORMATION — Model — Inductance value — Tolerance — Date code Document Number 34051 Revision 02-Nov-01 IMS-5WD-40 MODEL For technical questions, contact [email protected] 0.10μH INDUCTANCE VALUE ± 10% INDUCTANCE TOLERANCE www.vishay.com 27 ,5 9LVKD\'DOH ,QGXFWRUV (SR[\&RQIRUPDO&RDWHG 8QLIRUP5ROO&RDWHG FEATURES )ODPHUHWDUGDQWFRDWLQJ &RORUEDQGLGHQWLILFDWLRQ ([FHOOHQWHQYLURQPHQWDOFKDUDFWHULVWLFV 8QLIRUPFRDWLQJLVH[FHOOHQWIRUDXWRPDWLFLQVHUWLRQ &RPSDUDEOHLQTXDOLW\WRPROGHGFKRNHVDWDORZHUSULFH (SR[\FRDWLQJLVPRUHGXUDEOHWKDQODFTXHUFRDWHG PRGHOV\HWLVSULFHGFRPSDUDEO\ ELECTRICAL SPECIFICATIONS MECHANICAL SPECIFICATIONS ,QGXFWDQFH7ROHUDQFH 2WKHUWROHUDQFHVDYDLODEOHRQUHTXHVW 7HUPLQDO6WUHQJWKSRXQGVSXOOSHU0,/67' 0HWKRG7HVW&RQGLWLRQ$ ,QVXODWLRQ5HVLVWDQFH0HJRKPPLQLPXPSHU 0,/67'0HWKRG7HVW&RQGLWLRQ% :HLJKW,5 JUDPPD[LPXP ,5 JUDPPD[LPXP 'LHOHFWULF6WUHQJWK9$&SHU0,/67' 0HWKRG TEST EQUIPMENT* +3$40HWHU MATERIAL SPECIFICATIONS 0HDVXUHPHQWV&RUSRUDWLRQ0HJDF\FOH0HWHU0RGHO &RDWLQJ(SR[\XQLIRUPUROOFRDWHG :KHDWVWRQHEULGJH /HDG7LQQHGFRSSHU 7HVWSURFHGXUHVSHU0,/35) DIMENSIONS LQLQFKHV>PLOOLPHWHUV@ ENVIRONMENTAL PERFORMANCE $ 0D[ %DURPHWULF 3UHVVXUH >@0LQ >@0D[ 7HVW&RQGLWLRQ& 0,/67' 0HWKRG 7HVW&RQGLWLRQ$ 0,/67' 0HWKRG )ODPPDELOLW\ ³ 0,/67' 0HWKRG 2YHUORDG ³ 0,/35) /RZ7HPSHUDWXUH 6WRUDJH ³ 0,/35) 7KHUPDO6KRFN ' 02'(/ & 0D[ 63(&,),&$7,216 &21',7,216 7(67 %0D[ $0D[ %0D[ &0D[ ' ,5 >@ >@ >@ >@ 5HVLVWDQFHWR 6ROGHULQJ+HDW 7HVW&RQGLWLRQ$ 0,/67' 0HWKRG ,5 >@ >@ >@ >@ 5HVLVWDQFHWR 6ROYHQWV ³ 0,/67' 0HWKRG MAXIMUM TEMPERATURE RISE ,5 23(5$7,1*7(03(5$785(5$1*( +WR+ &#&DPELHQW +WR+ &#&DPELHQW +WR+ &#&DPELHQW &WR& &WR& &WR& ,5 +WR+ +WR+ +WR+ +WR+ ZZZYLVKD\FRP &#&DPELHQW &#&DPELHQW &#&DPELHQW &#&DPELHQW &WR& &WR& &WR& &WR& )RUWHFKQLFDOTXHVWLRQVFRQWDFW0DJQHWLFV#YLVKD\FRP 'RFXPHQW1XPEHU 5HYLVLRQ02Nov1 ,5 ,QGXFWRUV(SR[\&RQIRUPDO&RDWHG8QLIRUP5ROO&RDWHG 9LVKD\'DOH '&5 0$; 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RATED FREQ. FREQ. DCR DC Q L&Q MIN. MAX. CURRENT MIN. (MHz) (MHz) (Ohms) (mA) • High performance ferrite core is used in this epoxy conformally coated choke which allows for inductance values to 1000μH. • Axial lead type, small lightweight design. • Special magnetic core structure contributes to high Q and self-resonant frequencies. • Treated with epoxy resin coating for humidity resistance to ensure long life. • Heat resistant adhesives. ELECTRICAL SPECIFICATIONS IND. (μH) TOL. 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 30 30 30 30 40 40 40 40 40 40 40 40 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 280 280 280 280 280 260 260 220 200 180 160 140 0.085 0.085 0.095 0.12 0.15 0.15 0.15 0.17 0.17 0.17 0.18 0.18 1400 1350 1270 1200 1150 1110 1110 1000 1000 950 900 900 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 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 50 50 50 50 50 25.2 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 135 135 130 125 80 80 70 65 45 40 30 28 22 20 16 15 13 11 10 9.5 8.5 7.5 6.5 6.0 5.5 0.18 0.18 0.20 0.23 0.25 0.28 0.30 0.32 0.35 0.40 0.45 0.56 0.72 0.80 0.88 1.0 1.2 1.35 1.50 1.70 2.30 2.60 2.90 3.20 3.70 815 740 700 655 630 595 575 555 530 500 470 425 370 350 335 315 285 270 255 240 205 195 185 175 165 Maximum Temperature Rise: + 20°C. 120 150 180 220 270 330 390 470 560 680 820 1000 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 60 60 60 60 60 60 60 60 60 60 60 50 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 5.4 4.75 4.35 4.0 3.7 3.4 2.8 2.56 2.35 2.0 1.60 1.15 3.80 4.90 5.0 6.50 7.5 9.5 10.5 17.5 18.5 20.0 23.7 30.0 160 150 140 130 120 100 95 90 85 75 65 60 ORDERING INFORMATION Document Number 34056 Revision 07-Dec-01 Inductance Range: 0.1μH to 1000μH. Inductance Tolerance: ± 10% from 0.1μH to 1000μH standard, ± 5% optional. Operating Temperature Range: - 20°C to + 105°C. Dielectric Strength: 250V RMS. MECHANICAL SPECIFICATIONS Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3. Protection: Epoxy uniform roll coated. Leads: Tinned copper. ENVIRONMENTAL SPECIFICATIONS DIMENSIONS in inches [millimeters] C (Max.) D (Max.) B (Max.) A (Max.) 0.98 [25.0] Min. 1.22 [31.0] Max. MODEL IRF-24 IRF-24 MODEL A (Max.) B (Max.) C (Max.) D (Max.) 0.157 [4.0] 0.118 [3.0] 0.394 [10.0] 0.020 [0.5] 6.8μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE www.vishay.com 33 IRF-36 Vishay Dale Inductors Epoxy Conformal Coated, Axial Leaded FEATURES STANDARD ELECTRICAL SPECIFICATIONS TEST FREQ. Q L&Q MIN. (MHz) SELFRES. FREQ. MIN. (MHz) RATED DCR DC MAX. CURRENT (Ω) (mA) • High performance ferrite core is used in this epoxy conformally coated choke which allows for inductance values to 1000μH. • Axial lead type, small lightweight design. • Special magnetic core structure contributes to high Q and self-resonant frequencies. • Treated with epoxy resin coating for humidity resistance to ensure long life. • Heat resistant adhesives and special structural design for effective open circuit measurement. IND. (μH) TOL. 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 25 25 25 25 25 25 25 25 25 25 25 45 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 25.2 320 320 320 320 300 300 300 280 250 230 210 172 0.15 0.16 0.17 0.19 0.21 0.24 0.28 0.32 0.36 0.41 0.47 0.24 1750 1650 1560 1480 1400 1320 1280 1200 1150 1100 1030 980 Inductance Range: 0.1μH to 1000μH. Inductance Tolerance: ± 10% from 0.1μH to 1000μH standard, ± 5% optional. Operating Temperature Range: - 20°C to + 105°C. Dielectric Strength: 250V RMS. 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 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, + 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 45 50 50 55 55 60 65 65 70 70 75 70 70 70 70 65 40 55 55 50 45 40 40 35 30 25.2 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 7.96 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 2.52 140 140 131 121 110 100 94 86 80 74 68 53 45 34 20 14 9.9 7.6 6.3 6.3 6.3 6.2 5.7 5.3 4.8 0.24 0.27 0.30 0.32 0.35 0.35 0.35 0.37 0.39 0.43 0.48 0.52 0.58 0.63 0.72 0.77 0.84 0.94 1.03 1.12 1.22 1.34 1.47 1.62 1.80 920 880 830 790 750 720 670 640 620 590 550 530 500 480 460 430 410 390 370 350 340 320 306 290 275 Maximum Temperature Rise: + 20°C. 120 150 180 220 270 330 390 470 560 680 820 1000 ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% ± 5%, ± 10% 70 70 70 70 65 65 65 60 60 55 55 50 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 0.796 3.8 3.5 3.3 3.0 2.8 2.6 2.4 2.25 2.10 1.95 1.85 1.40 3.7 4.2 4.6 5.1 5.8 6.4 7.0 7.7 8.5 9.4 12.0 17.4 185 175 165 155 146 137 133 126 120 113 100 100 www.vishay.com 34 ELECTRICAL SPECIFICATIONS MECHANICAL SPECIFICATIONS Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3. Protection: Epoxy uniform roll coated. Leads: Tinned copper. ENVIRONMENTAL SPECIFICATIONS DIMENSIONS in inches [millimeters] C (Max.) D (Max.) B (Max.) A (Max.) 0.98 [25.0] Min. 1.22 [31.0] Max. MODEL IRF-36 A (Max.) B (Max.) C (Max.) D (Max.) 0.236 [6.0] 0.157 [4.0] 0.551 [14.0] 0.026 [0.65] ORDERING INFORMATION IRF-36 MODEL 4.7μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE Document Number 34057 Revision 07-Dec-01 IRF-46 Vishay Dale Inductors Epoxy Conformal Coated, Axial Leaded FEATURES • Axial lead type, small lightweight design. • Special magnetic core structure contributes to high Q and self-resonant frequencies. • Treated with epoxy resin coating for humidity resistance to ensure long life. • Heat resistant adhesives and special structural design for effective open circuit measurement. STANDARD ELECTRICAL SPECIFICATIONS TEST RATED FREQ. DCR SRF DC Q Q MAX. MIN. CURRENT MIN. (MHz) (Ω) (MHz) (mA) ELECTRICAL SPECIFICATIONS Inductance Range: 1000μH to 39,000μH. Inductance Tolerance: ± 10% standard, ± 5% optional. Operating Temperature Range: - 20°C to + 105°C. Dielectric Strength: 250VRMS. IND. @ 1KHz (μH) TOL. 1000 ± 5%, ± 10% 80 2.52 8 1.7 200 1200 ± 5%, ± 10% 80 2.52 9 1.5 180 1500 ± 5%, ± 10% 80 2.52 10 1.4 160 Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3. Protection: Epoxy uniform roll coated. Leads: Tinned copper. 1800 ± 5%, ± 10% 80 2.52 11 1.3 150 ENVIRONMENTAL SPECIFICATIONS 2200 ± 5%, ± 10% 80 2.52 14 1.2 120 Maximum Temperature Rise: + 20°C. 2700 ± 5%, ± 10% 80 2.52 18 1.0 110 3300 ± 5%, ± 10% 80 2.52 22 0.9 105 3900 ± 5%, ± 10% 80 2.52 26 0.8 100 C (Max.) 4700 ± 5%, ± 10% 80 2.52 30 0.7 95 A (Max.) 5600 ± 5%, ± 10% 60 2.52 34 0.7 80 6800 ± 5%, ± 10% 60 2.52 48 0.5 75 8200 ± 5%, ± 10% 60 2.52 62 0.5 70 10,000 ± 5%, ± 10% 60 2.52 74 0.5 65 12,000 ± 5%, ± 10% 50 2.52 88 0.4 60 15,000 ± 5%, ± 10% 50 2.52 102 0.4 55 18,000 ± 5%, ± 10% 40 0.0796 150 0.3 50 22,000 ± 5%, ± 10% 40 0.0796 180 0.3 45 27,000 ± 5%, ± 10% 40 0.0796 210 0.3 40 30,000 ± 5%, ± 10% 40 0.0796 240 0.3 35 33,000 ± 5%, ± 10% 40 0.0796 250 0.2 30 39,000 ± 5%, ± 10% 40 0.0796 270 0.2 25 MECHANICAL SPECIFICATIONS DIMENSIONS in inches [millimeters] D (Max.) 0.98 [25.0] Min. 1.22 [31.0] Max. B (Max.) MODEL IRF-46 A (Max.) B (Max.) C (Max.) D (Max.) 0.236 [6.0] 0.197 [5.0] 0.551 [14.0] 0.026 [0.65] ORDERING INFORMATION IRF-46 15,000μH ± 10% MODEL INDUCTANCE VALUE INDUCTANCE TOLERANCE Document Number 34058 Revision 02-Nov-01 For technical questions, contact [email protected] www.vishay.com 35 IRF-24, -36, -46 Vishay Dale Packaging Specifications REEL DIMENSIONS in millimeters Marking 150 70 75 306 MARKING: 1. Product name 2. Quantity PACKAGING UNIT (per reel): 5,000 pieces per reel. TAPE DIMENSIONS in millimeters 6.0 ± 1.0 6.0 ± 1.0 A 1.0 Max. 0.5 Max. 2.5 Max. 1.0 Max. Loose tape end 1.0 Max. 5.0 ± 0.5 B TAPE DIMENSION FOR INNER TAPE WIDTH OF 52mm www.vishay.com 36 A 52 ± 1 B 26 ± 1 B NOTES: 1. Color code in uniform direction is not specified. 2. Array of components is complete, none are missing. For technical questions, contact [email protected] Document Number 34059 Revision 02-Nov-01 IHD Vishay Dale Filter Inductors High Current FEATURES • • • • • Printed circuit mounting (axial leads). Protected by polyolefin tubing. High saturation bobbin used allowing high inductance with low DC resistance. Pre-tinned leads. High resistivity core offers very high parallel resistance, resulting in maximum coil performance. • 20 sleeveless models available at reduced cost. ELECTRICAL SPECIFICATIONS STANDARD ELECTRICAL SPECIFICATIONS MODEL IHD-1 MODEL IHD-3 INCREINCRERATED MENTAL RATED MENTAL IND. DCR CURRENT CURRENT IND. DCR CURRENT CURRENT @ 1kHz MAX. (Max. (Amps @ 1kHz (Amps MAX. (Max. (μH) TOL. (Ohms) Amps) Approx.) (μH) TOL. (Ohms) Amps) Approx.) 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 10000 12000 15000 18000 ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 0.009 0.010 0.011 0.012 0.013 0.014 0.016 0.017 0.022 0.024 0.026 0.028 0.033 0.037 0.040 0.044 0.050 0.070 0.075 0.084 0.104 0.130 0.145 0.152 0.208 0.283 0.330 0.362 0.505 0.557 0.650 0.770 1.03 1.14 1.50 1.98 2.30 2.55 3.0 4.0 4.40 5.80 6.56 8.63 10.1 11.2 15.0 20.8 23.4 26.0 36.0 40.0 Document Number 34016 Revision 07-Dec-01 5.3 5.0 4.8 4.6 4.4 4.2 4.0 3.8 3.4 3.2 3.1 3.0 2.8 2.6 2.5 2.4 2.2 1.9 1.8 1.7 1.6 1.4 1.3 1.3 1.1 0.94 0.87 0.83 0.70 0.67 0.62 0.57 0.49 0.47 0.41 0.36 0.33 0.31 0.29 0.25 0.24 0.21 0.20 0.17 0.16 0.15 0.13 0.11 0.10 0.10 0.08 0.08 7.0 6.4 5.7 5.2 4.7 4.3 3.9 3.6 3.3 3.0 2.7 2.5 2.3 2.1 1.9 1.7 1.5 1.4 1.3 1.2 1.1 0.97 0.88 0.80 0.73 0.66 0.60 0.54 0.49 0.45 0.40 0.37 0.34 0.31 0.28 0.26 0.23 0.21 0.19 0.18 0.16 0.14 0.13 0.12 0.11 0.10 0.09 0.08 0.08 0.07 0.06 0.06 3.9 ± 15% 4.7 ± 15% 5.6 ± 15% 6.8 ± 15% 8.2 ± 15% 10.0 ± 15% 12.0 ± 15% 15.0 ± 15% 18.0 ± 15% 22.0 ± 15% 27.0 ± 15% 33.0 ± 15% 39.0 ± 15% 47.0 ± 15% 56.0 ± 15% 68.0 ± 15% 82.0 ± 15% 100.0 ± 15% 120.0 ± 15% 150.0 ± 15% 180.0 ± 15% 220.0 ± 15% 270.0 ± 15% 330.0 ± 15% 390.0 ± 15% 470.0 ± 15% 560.0 ± 15% 680.0 ± 15% 820.0 ± 15% 1000.0 ± 15% 1200.0 ± 15% 1500.0 ± 15% 1800.0 ± 15% 2200.0 ± 15% 2700.0 ± 15% 3300.0 ± 15% 3900.0 ± 15% 4700.0 ± 15% 5600.0 ± 15% 6800.0 ± 15% 8200.0 ± 15% 10000.0 ± 15% 12000.0 ± 15% 15000.0 ± 15% 18000.0 ± 15% 22000.0 ± 15% 27000.0 ± 15% 33000.0 ± 15% 39000.0 ± 15% 47000.0 ± 15% 56000.0 ± 15% 68000.0 ± 15% 82000.0 ± 15% 100000.0 ± 15% 0.007 0.008 0.011 0.011 0.013 0.016 0.018 0.020 0.022 0.024 0.025 0.028 0.031 0.034 0.043 0.059 0.066 0.084 0.113 0.129 0.150 0.162 0.226 0.257 0.288 0.393 0.504 0.570 0.643 0.844 0.977 1.18 1.50 1.76 2.13 2.53 2.84 3.79 4.24 5.75 6.44 7.30 9.34 10.7 14.8 18.0 22.7 25.7 29.7 33.7 38.0 52.8 67.3 76.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 4.0 3.2 2.5 2.0 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.6 1.2 1.0 1.0 0.80 0.80 0.60 0.60 0.60 0.50 0.40 0.40 0.40 0.40 0.32 0.25 0.25 0.25 0.20 0.20 0.16 0.13 0.13 0.13 0.10 0.10 0.10 0.08 0.07 0.07 8.2 7.5 6.9 6.3 5.7 5.2 4.7 4.3 3.9 3.5 3.2 2.9 2.7 2.5 2.3 2.1 1.9 1.7 1.6 1.4 1.3 1.2 1.1 0.95 0.88 0.80 0.74 0.67 0.61 0.56 0.51 0.46 0.42 0.38 0.34 0.31 0.29 0.26 0.24 0.22 0.20 0.18 0.17 0.15 0.14 0.12 0.11 0.10 0.09 0.09 0.08 0.07 0.07 0.06 Inductance: Measured at 1V with no DC current. Incremental Current: The typical current at which the inductance will be decreased by 5% from its initial zero DC value. Dielectric Rating: 2500VRMS between winding and outer circumference to within 0.250" [6.35mm] of the insulating sleeve edge. Operating Temperature: - 55°C to + 125°C (no load). - 55°C to + 85°C (at full rated current). Current Rating: Maximum continuous. Operating current (DC or RMS) based on a 40°C temperature rise. MECHANICAL SPECIFICATIONS Wire: Solid soft copper. Terminals: 20 AWG tinned copper leads. Coating: Polyolefin tubing - flame retardant UL type VW-1 per MIL-I-23053/5, Class 3 requirements. Core Material: Ferrite. DIMENSIONS in inches [millimeters] B Max. 1.13 [28.70] Min. Typ. 0.032 [0.813] Dia. Typ. A Dia. Max. MODEL #20 AWG A (Max.) B (Max.) IHD-1 0.270 [6.85] 0.700 [17.78] IHD-3 0.460 [11.68] 0.900 [22.86] MARKING — Vishay Dale — Model — Value — Date code ORDERING INFORMATION IHD-1 MODEL For technical questions, contact [email protected] 3.9μH INDUCTANCE VALUE ± 15% INDUCTANCE TOLERANCE www.vishay.com 37 IHA Vishay Dale Filter Inductors High Current FEATURES • Printed circuit mounting (axial leads). • Pre-tinned leads. • Low cost construction. • Protected by polyolefin tubing - flame retardant UL type VW-1 per MIL-I-23053/5, Class 3 requirements. STANDARD ELECTRICAL SPECIFICATIONS MODEL IND. @ 1kHz (μH) IHA-101 IHA-102 IHA-103 IHA-104 IHA-105 TOL. DCR MAX. (Ohms) RATED CURRENT (Max. Amps) 50 100 250 500 1000 ± 10% ± 10% ± 10% ± 10% ± 10% 0.12 0.16 0.28 0.42 0.60 2.5 2.1 1.8 1.6 1.4 IHA-201 IHA-202 IHA-203 IHA-204 IHA-205 27 50 100 250 500 ± 10% ± 10% ± 10% ± 10% ± 10% 0.060 0.085 0.12 0.20 0.32 3.7 3.1 2.7 2.4 2.3 IHA-301 IHA-302 IHA-303 IHA-304 IHA-305 5 10 27 50 100 ± 10% ± 10% ± 10% ± 10% ± 10% 0.015 0.021 0.040 0.050 0.070 6.8 6.1 4.8 4.3 4.2 IHA-501 IHA-502 IHA-503 IHA-504 IHA-505 5 10 27 50 100 ± 10% ± 10% ± 10% ± 10% ± 10% 0.010 0.015 0.030 0.040 0.060 9.3 8.3 6.5 6.1 5.9 ELECTRICAL SPECIFICATIONS Inductance: Measured at 1V with no DC current. Current Rating: Maximum continuous operating current (DC or RMS) based on 50°C temperature rise. Dielectric Rating: 2500VRMS, 60Hz, applied for one minute between winding and outer circumference to within 0.250" [6.35mm] of the insulation sleeve edge. Operating Temperature: - 55°C to + 125°C (no load). - 55°C to + 75°C (at full rated current). MECHANICAL SPECIFICATIONS Winding: Layered solenoid type. Wire: Solid soft copper. Terminals: Tinned copper leads. Encapsulant: Polyolefin tubing. Core Material: Ferrite. APPLICATIONS Noise filtering for switching regulators, power amplifiers, power supplies and SCR and Triac control circuits. MARKING 1.25 [31.75] Min. Typ. B Max. .125 [3.18] C Typ. A Max. SCHEMATIC MODEL A (Max.) B (Max.) ± 0.002 [0.050] IHA-101 IHA-102 IHA-103 IHA-104 IHA-105 0.475 [12.07] 0.475 [12.07] 0.475 [12.07] 0.550 [13.97] 0.550 [13.97] 0.800 [20.32] 0.800 [20.32] 1.05 [26.67] 1.05 [26.67] 1.175 [29.85] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] IHA-201 IHA-202 IHA-203 IHA-204 IHA-205 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.600 [15.24] 0.750 [19.05] 0.800 [20.32] 0.800 [20.32] 0.920 [23.37] 0.920 [23.37] 1.05 [26.67] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] IHA-301 IHA-302 IHA-303 IHA-304 IHA-305 0.475 [12.07] 0.475 [12.07] 0.550 [13.97] 0.550 [13.97] 0.550 [13.97] 0.800 [20.32] 0.920 [23.37] 0.800 [20.32] 0.920 [23.37] 1.175 [29.85] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] IHA-501 IHA-502 IHA-503 IHA-504 IHA-505 0.475 [12.07] 0.475 [12.07] 0.700 [17.78] 0.700 [17.78] 0.700 [17.78] 1.05 [26.67] 1.05 [26.67] 1.05 [26.67] 1.05 [26.67] 1.30 [33.02] 0.040 [1.02] 0.040 [1.02] 0.040 [1.02] 0.040 [1.02] 0.040 [1.02] C ORDERING INFORMATION — Vishay Dale — Model — Date code www.vishay.com 38 DIMENSIONS in inches [millimeters] IHA-101 MODEL 50μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE Document Number 34014 Revision 02-Nov-01 IH Vishay Dale Filter Inductors High Current FEATURES • Printed circuit mounting. • Pre-tinned leads. • Protected by polyolefin tubing - flame retardant UL type VW1 per MIL-I-23053/5, Class 3 requirements. APPLICATIONS Noise filtering for switching regulators, power amplifiers, power supplies and SCR and Triac control circuits. ELECTRICAL SPECIFICATIONS Inductance: Measured at 1.0V with zero DC current. Incremental Current: The typical current at which the inductance will be decreased by 5% from its initial zero DC value. Operating Temperature: - 55°C to + 125°C (no load). - 55°C to + 75°C (at full rated current). STANDARD ELECTRICAL SPECIFICATIONS IND. @ 1 kHz MODEL (μH) TOL. DCR MAX. (Ohms) 5 10 27 50 100 150 250 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 0.015 0.018 0.035 0.050 0.065 0.075 0.090 10.0 9.0 7.0 5.6 5.2 5.0 5.0 25 19 12 8 6 5 4 IH-5 IH-5 IH-5 IH-5 IH-5 IH-5 IH-5 5 10 27 50 68 100 150 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 0.012 0.015 0.025 0.030 0.035 0.050 0.060 14.0 12.0 9.0 8.0 7.5 7.5 7.0 25 19 13 10 9 7 5 IH-10 IH-10 IH-10 IH-10 IH-10 IH-10 5 10 27 50 68 100 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 0.010 0.012 0.018 0.025 0.027 0.030 19.0 16.0 12.5 11.0 10.0 10.0 25 19 12 10 8 7 IH-15 IH-15 IH-15 IH-15 5 10 27 50 ± 10% ± 10% ± 10% ± 10% 0.008 0.010 0.015 0.020 24.0 20.0 16.0 15.0 25 19 14 10 MARKING — Vishay Dale — Model — Inductance value — Date code ORDERING INFORMATION 10μH INDUCTANCE VALUE Document Number 34013 Revision 02-Nov-01 MECHANICAL SPECIFICATIONS Wire: Solid soft copper. Terminals: Extensions of the winding. Core Material: Ferrite. Coating: Polyolefin tubing. DIMENSIONS in inches [millimeters] RATED INCREMENTAL CURRENT CURRENT (Max. Amps) (Amps) IH-3 IH-3 IH-3 IH-3 IH-3 IH-3 IH-3 IH-5 MODEL Current Rating: Maximum continuous operating current (DC or RMS) based on a 50°C temperature rise. ± 10% INDUCTANCE TOLERANCE A B 1.0 ± .125 [25.40 ± 3.18] Schematic C IND. MODEL (μH) D Leads tinned to within .125 [3.18] A (Max.) B (Max.) C D ± 0.062 [1.57] ± 0.005 [0.127] IH-3 IH-3 IH-3 IH-3 IH-3 IH-3 IH-3 5 10 27 50 100 150 250 0.875 [22.23] 1.125 [28.58] 0.875 [22.23] 0.875 [22.23] 1.125 [28.58] 1.375 [34.93] 1.625 [41.28] 0.600 [15.24] 0.625 [15.88] 0.800 [20.32] 0.800 [20.32] 0.800 [20.32] 0.800 [20.32] 0.800 [20.32] 0.500 [12.70] 0.687 [17.45] 0.437 [11.10] 0.750 [19.05] 0.937 [23.80] 1.062 [26.97] 1.312 [33.32] 0.042 [1.067] 0.042 [1.067] 0.042 [1.067] 0.042 [1.067] 0.042 [1.067] 0.042 [1.067] 0.042 [1.067] IH-5 IH-5 IH-5 IH-5 IH-5 IH-5 IH-5 5 10 27 50 68 100 150 0.875 [22.23] 1.125 [28.58] 0.875 [22.23] 1.125 [28.58] 1.125 [28.58] 1.375 [34.93] 1.625 [41.28] 0.625 [15.88] 0.625 [15.88] 0.840 [21.34] 0.840 [21.34] 0.860 [21.84] 0.860 [21.84] 0.860 [21.84] 0.750 [19.05] 1.0 [25.40] 0.562 [14.27] 0.750 [19.05] 0.875 [22.23] 1.0 [25.40] 1.250 [31.75] 0.053 [1.35] 0.053 [1.35] 0.053 [1.35] 0.053 [1.35] 0.053 [1.35] 0.053 [1.35] 0.053 [1.35] IH-10 IH-10 IH-10 IH-10 IH-10 IH-10 5 10 27 50 68 100 1.125 [28.58] 1.375 [34.93] 1.125 [28.58] 1.375 [34.93] 1.375 [34.93] 1.625 [41.28] 0.635 [16.13] 0.635 [16.13] 0.935 [23.75] 0.935 [23.75] 0.935 [23.75] 0.935 [23.75] 0.812 [20.62] 1.218 [30.94] 0.687 [17.45] 0.937 [23.80] 1.125 [28.58] 1.312 [33.32] 0.065 [1.65] 0.065 [1.65] 0.065 [1.65] 0.065 [1.65] 0.065 [1.65] 0.065 [1.65] IH-15 IH-15 IH-15 IH-15 5 10 27 50 1.375 [34.93] 0.700 [17.78] 0.937 [23.80] 1.687 [42.85] 0.700 [17.78] 1.50 [38.10] 1.375 [34.93] 1.0 [25.40] 0.937 [23.80] 1.625 [41.28] 1.0 [25.40] 1.125 [28.58] 0.082 [2.08] 0.082 [2.08] 0.082 [2.08] 0.082 [2.08] For technical questions, contact [email protected] www.vishay.com 39 IHM-2 Vishay Dale Filter Inductors High Current FEATURES • Totally encapsulated using a potted flame-resistant shell. • Pre-tinned leads. • Printed circuit mounting. STANDARD ELECTRICAL SPECIFICATIONS IND. @ 1kHz (μH) 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 560.0 680.0 820.0 1000.0 1200.0 1500.0 1800.0 2200.0 2700.0 3300.0 3900.0 4700.0 5600.0 6800.0 8200.0 10000.0 12000.0 15000.0 www.vishay.com 40 TOLERANCE DCR MAXIMUM (Ohms) RATED CURRENT (Max. Amps) ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 0.005 0.005 0.006 0.006 0.007 0.008 0.008 0.009 0.010 0.011 0.012 0.013 0.014 0.016 0.022 0.024 0.033 0.037 0.051 0.056 0.076 0.084 0.093 0.103 0.140 0.175 0.210 0.241 0.330 0.420 0.510 0.561 0.610 0.687 0.910 1.03 1.40 1.57 2.20 2.42 3.30 3.72 5.10 5.58 7.70 8.32 11.70 12.80 14.20 15.70 21.90 17.8 17.0 16.2 15.6 15.0 14.5 14.0 13.5 13.0 12.75 12.50 11.25 10.0 9.25 8.50 7.50 6.50 6.0 5.50 5.0 4.50 4.25 4.0 3.65 3.30 3.0 2.70 2.45 2.20 1.95 1.70 1.65 1.60 1.45 1.30 1.15 1.0 0.92 0.84 0.77 0.69 0.62 0.55 0.50 0.45 0.41 0.36 0.35 0.33 0.30 0.26 ELECTRICAL SPECIFICATIONS Inductance: Measured at 1V with no DC current. Current Rating: Maximum continuous operating current based on 50°C temperature rise. Dielectric Rating: 1500VRMS between windings and top of component. Operating Temperature: - 55°C to + 125°C (no load). - 55°C to + 75°C (at full rated current). MECHANICAL SPECIFICATIONS Terminals: 18 AWG tinned copper. Encapsulant: Flame-resistant shell potted with epoxy. Core Material: Ferrite. DIMENSIONS in inches [millimeters] 0.500 ± 0.015 [12.70 ± 0.381] 1.0 ± 0.015 [25.40 ± 0.381] 0.560 [14.22] Max. 0.150 [3.81] 0.125 [3.18] 0.020 [0.508] Min. Typ. 0.500 ± 0.015 [12.70 ± 0.381] 0.250 ± 0.015 [6.35 ± 0.381] 0.040 ± 0.001 [1.02 ± 0.025] Dia. 0.250 ± 0.010 [6.35 ± 0.254] #18 AWG MARKING — Vishay Dale — Model — Value — Date code ORDERING INFORMATION IHM-2 MODEL 10μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE Document Number 34017 Revision 02-Nov-01 IHB Vishay Dale Filter Inductors High Current FEATURES • • • • ELECTRICAL SPECIFICATIONS Inductance: Measured at 1V with no DC current. Dielectric: 2500VRMS between winding and 0.250" [6.35mm] of insulating covering edge (with optional insulating covering). Current Rating: Maximum continuous operating current based on a + 50°C temperature rise. Printed circuit mounting. Wide range of inductance and current ratings. Pre-tinned leads. Optional polyolefin tubing and printing available at additional cost. Operating Temperature: - 55°C to + 130°C (no load). - 55°C to + 80°C (at full rated current). MECHANICAL SPECIFICATIONS Terminals: Extensions of winding wire, solder coated to within 0.063" [1.60mm] of body. Mounting: Center hole for mechanical mounting. Insulated bushings recommended for center hole mounting. DIMENSIONS in inches [milimeters] D Dia. B .500 ± .062 [12.70 ± 1.57] E* C Dia. A Dia. A (Max.) MODEL B (Max.) C (Min.) D (Min.) IHB-1 0.660 [16.76] 0.840 [21.34] 0.162 [4.11] IHB-2 0.825 [20.96] 0.840 [21.34] 0.162 [4.11] IHB-3 1.10 [27.94] 0.840 [21.34] 0.162 [4.11] IHB-4 1.60 [40.64] 0.250 [6.35] 1.03 [26.16] IHB-5 1.60 [40.64] 1.45 [36.83] 0.250 [6.35] IHB-6 2.0 [50.80] 1.50 [38.10] 0.330 [8.38] *E varies between components. See individual model specifications for details. Tolerance of ± 0.035. 0.115 [2.92] 0.115 [2.92] 0.115 [2.92] 0.175 [4.45] 0.175 [4.45] 0.240 [6.10] STANDARD ELECTRICAL SPECIFICATIONS IND. @ 1kHz (μH) TOL. DCR MAX. RATED CURRENT (Ohms) (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz TOL. (μH) DCR MAX. RATED CURRENT (Ohms) (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz (μH) 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 560.0 DCR MAX. TOL. (Ohms) RATED CURRENT (Amps) APPROX. LEAD “E” SPACING 2.8 2.8 2.8 2.0 1.6 1.6 1.6 1.6 1.3 1.0 0.8 0.8 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.500 [12.70] 0.480 [12.19] 0.480 [12.19] 0.480 [12.19] 0.475 [12.07] 0.475 [12.07] MODEL IHB-1 1.0 ± 20% 0.003 9.0 0.550 [13.97] 8.2 ± 20% 0.009 9.0 0.550 [13.97] 1.2 ± 20% 0.003 9.0 0.550 [13.97] 10.0 ± 10% 0.010 9.0 0.550 [13.97] 1.5 ± 20% 0.004 9.0 0.550 [13.97] 12.0 ± 10% 0.011 9.0 0.550 [13.97] 1.8 ± 20% 0.004 9.0 0.550 [13.97] 15.0 ± 10% 0.015 7.2 0.500 [12.70] 2.2 ± 20% 0.005 9.0 0.550 [13.97] 18.0 ± 10% 0.016 7.2 0.500 [12.70] 2.7 ± 20% 0.005 9.0 0.550 [13.97] 22.0 ± 10% 0.020 5.5 0.500 [12.70] 3.3 ± 20% 0.005 9.0 0.550 [13.97] 27.0 ± 10% 0.030 4.5 0.500 [12.70] 3.9 ± 20% 0.006 9.0 0.550 [13.97] 33.0 ± 10% 0.040 4.0 0.475 [12.07] 4.7 ± 20% 0.007 9.0 0.550 [13.97] 39.0 ± 10% 0.046 4.0 0.475 [12.07] 5.6 ± 20% 0.007 9.0 0.550 [13.97] 47.0 ± 10% 0.062 2.8 0.470 [11.94] 6.8 ± 20% 0.008 9.0 0.550 [13.97] 56.0 ± 10% 0.069 2.8 0.470 [11.94] Document Number 34015 Revision 02-Nov-01 For technical questions, contact [email protected] ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 0.077 0.083 0.095 0.127 0.181 0.217 0.240 0.300 0.336 0.460 0.636 0.696 www.vishay.com 41 IHB Vishay Dale Filter Inductors, High Current STANDARD ELECTRICAL SPECIFICATIONS IND. @ 1kHz (μH) DCR RATED MAX. CURRENT TOL. (Ohms) (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz (μH) (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz (μH) TOL. (Ohms) (Amps) APPROX. LEAD “E” SPACING DCR RATED MAX. CURRENT TOL. (Ohms) DCR RATED MAX. CURRENT MODEL IHB-2 1.0 ± 20% 0.003 11.4 0.620 [15.75] 15.0 ± 10% 0.013 9.0 0.620 [15.75] 220.0 ± 10% 0.150 2.8 0.600 [15.24] 1.2 ± 20% 0.003 11.4 0.620 [15.75] 18.0 ± 10% 0.018 7.2 0.615 [15.62] 270.0 ± 10% 0.213 2.0 0.600 [15.24] 1.5 ± 20% 0.003 11.4 0.620 [15.75] 22.0 ± 10% 0.019 7.2 0.615 [15.62] 330.0 ± 10% 0.305 1.6 0.600 [15.24] 1.8 ± 20% 0.003 11.4 0.620 [15.75] 27.0 ± 10% 0.026 5.5 0.575 [14.61] 390.0 ± 10% 0.320 1.6 0.600 [15.24] 2.2 ± 20% 0.004 11.4 0.620 [15.75] 33.0 ± 10% 0.029 5.5 0.575 [14.61] 470.0 ± 10% 0.355 1.6 0.590 [14.99] 2.7 ± 20% 0.005 11.4 0.620 [15.75] 39.0 ± 10% 0.030 5.5 0.600 [15.24] 560.0 ± 10% 0.388 1.6 0.590 [14.99] 3.3 ± 20% 0.005 11.4 0.620 [15.75] 47.0 ± 10% 0.035 5.5 0.600 [15.24] 680.0 ± 10% 0.430 1.6 0.590 [14.99] 3.9 ± 20% 0.005 11.4 0.620 [15.75] 56.0 ± 10% 0.039 5.5 0.600 [15.24] 820.0 ± 10% 0.590 1.3 0.590 [14.99] 4.7 ± 20% 0.005 11.4 0.620 [15.75] 68.0 ± 10% 0.053 4.8 0.600 [15.24] 1000.0 ± 10% 0.818 1.0 0.590 [14.99] 5.6 ± 20% 0.006 11.4 0.620 [15.75] 82.0 ± 10% 0.060 4.8 0.600 [15.24] 1200.0 ± 10% 1.14 0.8 0.590 [14.99] 6.8 ± 20% 0.007 11.4 0.620 [15.75] 100.0 ± 10% 0.080 4.0 0.600 [15.24] 1500.0 ± 10% 1.26 0.8 0.590 [14.99] 8.2 ± 20% 0.007 11.4 0.620 [15.75] 120.0 ± 10% 0.090 4.0 0.600 [15.24] 1800.0 ± 10% 1.39 0.8 0.590 [14.99] 10.0 ± 10% 0.009 11.4 0.620 [15.75] 150.0 ± 10% 0.098 4.0 0.600 [15.24] 2200.0 ± 10% 1.54 0.8 0.590 [14.99] 12.0 ± 10% 0.009 11.4 0.620 [15.75] 180.0 ± 10% 0.110 4.0 0.600 [15.24] MODEL IHB-3 1.0 ± 20% 0.003 21.0 0.790 [20.07] 18.0 ± 10% 0.010 13.5 0.750 [19.05] 330.0 ± 10% 0.122 4.5 0.770 [19.56] 1.2 ± 20% 0.003 21.0 0.790 [20.07] 22.0 ± 10% 0.011 13.5 0.750 [19.05] 390.0 ± 10% 0.169 4.0 0.740 [18.80] 1.5 ± 20% 0.003 21.0 0.790 [20.07] 27.0 ± 10% 0.012 13.5 0.800 [20.32] 470.0 ± 10% 0.187 4.0 0.740 [18.80] 1.8 ± 20% 0.003 21.0 0.790 [20.07] 33.0 ± 10% 0.017 13.5 0.780 [19.81] 560.0 ± 10% 0.205 4.0 0.740 [18.80] 2.2 ± 20% 0.003 21.0 0.790 [20.07] 39.0 ± 10% 0.022 11.4 0.780 [19.81] 680.0 ± 10% 0.256 2.8 0.725 [18.42] 2.7 ± 20% 0.003 21.0 0.790 [20.07] 47.0 ± 10% 0.024 9.0 0.760 [19.30] 820.0 ± 10% 0.288 2.8 0.725 [18.42] 3.3 ± 20% 0.003 21.0 0.790 [20.07] 56.0 ± 10% 0.026 9.0 0.760 [19.30] 1000.0 ± 10% 0.426 2.0 0.715 [18.16] 3.9 ± 20% 0.003 21.0 0.790 [20.07] 68.0 ± 10% 0.029 9.0 0.760 [19.30] 1200.0 ± 10% 0.462 2.0 0.760 [19.30] 4.7 ± 20% 0.003 21.0 0.790 [20.07] 82.0 ± 10% 0.032 9.0 0.760 [19.30] 1500.0 ± 10% 0.518 2.0 0.760 [19.30] 5.6 ± 20% 0.003 21.0 0.790 [20.07] 100.0 ± 10% 0.034 9.0 0.760 [19.30] 1800.0 ± 10% 0.705 1.6 0.740 [18.80] 6.8 ± 20% 0.004 21.0 0.790 [20.07] 120.0 ± 10% 0.046 7.2 0.740 [18.80] 2200.0 ± 10% 1.02 1.3 0.720 [18.29] 8.2 ± 20% 0.004 21.0 0.790 [20.07] 150.0 ± 10% 0.064 5.5 0.720 [18.29] 2700.0 ± 10% 1.14 1.3 0.720 [18.29] 10.0 ± 10% 0.006 17.0 0.770 [19.56] 180.0 ± 10% 0.072 5.5 0.720 [18.29] 3300.0 ± 10% 1.27 1.3 0.720 [18.29] 12.0 ± 10% 0.008 13.5 0.750 [19.05] 220.0 ± 10% 0.080 5.5 0.790 [20.07] 3900.0 ± 10% 1.67 1.0 0.700 [17.78] 15.0 ± 10% 0.009 13.5 0.750 [19.05] 270.0 ± 10% 0.110 4.5 0.770 [19.56] 4700.0 ± 10% 1.86 1.0 0.730 [18.54] MODEL IHB-4 1.8 ± 20% 0.002 27.0 1.10 [27.94] 39.0 ± 10% 0.012 21.0 1.10 [27.94] 820.0 ± 10% 0.154 7.2 1.13 [28.70] 2.2 ± 20% 0.002 27.0 1.10 [27.94] 47.0 ± 10% 0.018 14.4 1.10 [27.94] 1000.0 ± 10% 0.216 5.5 1.10 [27.94] 2.7 ± 20% 0.003 27.0 1.10 [27.94] 56.0 ± 10% 0.019 14.4 1.11 [28.19] 1200.0 ± 10% 0.232 5.5 1.10 [27.94] 3.3 ± 20% 0.003 27.0 1.10 [27.94] 68.0 ± 10% 0.021 14.4 1.11 [28.19] 1500.0 ± 10% 0.324 4.5 1.14 [28.96] 3.9 ± 20% 0.003 27.0 1.10 [27.94] 82.0 ± 10% 0.023 14.4 1.11 [28.19] 1800.0 ± 10% 0.360 4.5 1.14 [28.96] 4.7 ± 20% 0.003 27.0 1.10 [27.94] 100.0 ± 10% 0.025 14.4 1.11 [28.19] 2200.0 ± 10% 0.494 4.0 1.11 [28.19] 5.6 ± 20% 0.004 27.0 1.10 [27.94] 120.0 ± 10% 0.028 14.4 1.11 [28.19] 2700.0 ± 10% 0.555 4.0 1.11 [28.19] 6.8 ± 20% 0.004 27.0 1.10 [27.94] 150.0 ± 10% 0.040 11.4 1.10 [27.94] 3300.0 ± 10% 0.773 2.8 1.09 [27.69] 8.2 ± 20% 0.004 27.0 1.10 [27.94] 180.0 ± 10% 0.045 11.4 1.10 [27.94] 3900.0 ± 10% 0.845 2.8 1.09 [27.69] 10.0 ± 10% 0.005 27.0 1.10 [27.94] 220.0 ± 10% 0.050 11.4 1.10 [27.94] 4700.0 ± 10% 1.14 2.0 1.07 [27.18] 12.0 ± 10% 0.005 27.0 1.10 [27.94] 270.0 ± 10% 0.056 11.4 1.10 [27.94] 5600.0 ± 10% 1.60 2.0 1.05 [26.67] 15.0 ± 10% 0.006 27.0 1.10 [27.94] 330.0 ± 10% 0.074 11.4 1.16 [29.46] 6800.0 ± 10% 1.76 1.6 1.05 [26.67] 18.0 ± 10% 0.008 27.0 1.10 [27.94] 390.0 ± 10% 0.082 9.0 1.13 [28.70] 8200.0 ± 10% 1.95 1.6 1.09 [27.69] 22.0 ± 10% 0.009 21.0 1.10 [27.94] 470.0 ± 10% 0.114 7.2 1.13 [28.70] 10000.0 ± 10% 2.76 1.3 1.07 [27.18] 27.0 ± 10% 0.010 21.0 1.10 [27.94] 560.0 ± 10% 0.125 7.2 1.13 [28.70] 12000.0 ± 10% 3.04 1.3 1.07 [27.18] 33.0 ± 10% 0.011 21.0 1.10 [27.94] 680.0 ± 10% 0.139 7.2 1.13 [28.70] 15000.0 ± 10% 3.39 1.3 1.07 [27.18] www.vishay.com 42 For technical questions, contact [email protected] Document Number 34015 Revision 02-Nov-01 IHB Vishay Dale Filter Inductors, High Current STANDARD ELECTRICAL SPECIFICATIONS IND. @ 1kHz (μH) TOL. (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz (μH) DCR MAX. RATED CURRENT (Ohms) TOL. DCR MAX. RATED CURRENT (Ohms) (Amps) APPROX. LEAD “E” SPACING IND. @ 1kHz (μH) TOL. DCR MAX. RATED CURRENT (Ohms) (Amps) APPROX. LEAD “E” SPACING MODEL IHB-5 1.8 ± 20% 0.002 35.0 1.13 [28.70] 39.0 ± 10% 0.010 27.0 1.10 [27.94] 820.0 ± 10% 0.127 9.0 1.07 [27.18] 2.2 ± 20% 0.002 35.0 1.13 [28.70] 47.0 ± 10% 0.011 27.0 1.10 [27.94] 1000.0 ± 10% 0.176 7.2 1.05 [26.67] 2.7 ± 20% 0.002 35.0 1.13 [28.70] 56.0 ± 10% 0.013 21.0 1.10 [27.94] 1200.0 ± 10% 0.195 7.2 1.05 [26.67] 3.3 ± 20% 0.002 35.0 1.13 [28.70] 68.0 ± 10% 0.015 21.0 1.10 [27.94] 1500.0 ± 10% 0.274 5.5 1.03 [26.16] 3.9 ± 20% 0.003 35.0 1.13 [28.70] 82.0 ± 10% 0.017 21.0 1.10 [27.94] 1800.0 ± 10% 0.302 5.5 1.10 [27.94] 4.7 ± 20% 0.003 35.0 1.13 [28.70] 100.0 ± 10% 0.018 21.0 1.10 [27.94] 2200.0 ± 10% 0.338 5.5 1.10 [27.94] 5.6 ± 20% 0.003 35.0 1.13 [28.70] 120.0 ± 10% 0.022 17.0 1.08 [27.43] 2700.0 ± 10% 0.459 4.5 1.08 [27.43] 6.8 ± 20% 0.003 35.0 1.13 [28.70] 150.0 ± 10% 0.025 17.0 1.08 [27.43] 3300.0 ± 10% 0.642 4.0 1.06 [26.92] 8.2 ± 20% 0.003 35.0 1.13 [28.70] 180.0 ± 10% 0.035 13.5 1.12 [28.45] 3900.0 ± 10% 0.699 4.0 1.06 [26.92] 10.0 ± 10% 0.004 35.0 1.13 [28.70] 220.0 ± 10% 0.040 13.5 1.12 [28.45] 4700.0 ± 10% 0.775 4.0 1.06 [26.92] 12.0 ± 10% 0.004 35.0 1.13 [28.70] 270.0 ± 10% 0.044 13.5 1.12 [28.45] 5600.0 ± 10% 0.843 4.0 1.06 [26.92] 15.0 ± 10% 0.005 35.0 1.13 [28.70] 330.0 ± 10% 0.049 13.5 1.12 [28.45] 6800.0 ± 10% 1.15 2.8 1.04 [26.42] 18.0 ± 10% 0.007 27.0 1.10 [27.94] 390.0 ± 10% 0.070 11.4 1.09 [27.69] 8200.0 ± 10% 1.26 2.8 1.09 [27.69] 22.0 ± 10% 0.007 27.0 1.10 [27.94] 470.0 ± 10% 0.078 11.4 1.09 [27.69] 10000.0 ± 10% 1.74 2.0 1.07 [27.18] 27.0 ± 10% 0.008 27.0 1.10 [27.94] 560.0 ± 10% 0.105 9.0 1.07 [27.18] 12000.0 ± 10% 1.92 2.0 1.07 [27.18] 33.0 ± 10% 0.009 27.0 1.10 [27.94] 680.0 ± 10% 0.115 9.0 1.07 [27.18] 15000.0 ± 10% 2.17 2.0 1.07 [27.18] MODEL IHB-6 4.7 ± 20% 0.002 35.0 1.43 [36.32] 120.0 ± 10% 0.015 27.0 1.45 [36.83] 3300.0 ± 10% 0.498 4.5 1.32 [33.53] 5.6 ± 20% 0.002 35.0 1.43 [36.32] 150.0 ± 10% 0.023 21.0 1.41 [35.81] 3900.0 ± 10% 0.548 4.5 1.32 [33.53] 6.8 ± 20% 0.003 35.0 1.43 [36.32] 180.0 ± 10% 0.025 21.0 1.41 [35.81] 4700.0 ± 10% 0.608 4.5 1.32 [33.53] 8.2 ± 20% 0.003 35.0 1.43 [36.32] 220.0 ± 10% 0.028 21.0 1.41 [35.81] 5600.0 ± 10% 0.671 4.5 1.38 [35.05] 10.0 ± 10% 0.003 35.0 1.43 [36.32] 270.0 ± 10% 0.030 21.0 1.41 [35.81] 6800.0 ± 10% 0.750 4.5 1.38 [35.05] 12.0 ± 10% 0.004 35.0 1.43 [36.32] 330.0 ± 10% 0.040 17.0 1.38 [35.05] 8200.0 ± 10% 1.03 4.0 1.35 [34.29] 15.0 ± 10% 0.004 35.0 1.43 [36.32] 390.0 ± 10% 0.055 13.5 1.35 [34.29] 10000.0 ± 10% 1.16 4.0 1.35 [34.29] 18.0 ± 10% 0.005 35.0 1.43 [36.32] 470.0 ± 10% 0.061 13.5 1.35 [34.29] 12000.0 ± 10% 1.54 2.8 1.33 [33.78] 22.0 ± 10% 0.005 35.0 1.43 [36.32] 560.0 ± 10% 0.068 13.5 1.35 [34.29] 15000.0 ± 10% 1.75 2.8 1.33 [33.78] 27.0 ± 10% 0.006 35.0 1.43 [36.32] 680.0 ± 10% 0.094 11.4 1.33 [33.78] 18000.0 ± 10% 1.94 2.8 1.38 [35.05] 33.0 ± 10% 0.006 35.0 1.43 [36.32] 820.0 ± 10% 0.104 11.4 1.33 [33.78] 22000.0 ± 10% 2.74 2.0 1.36 [34.54] 39.0 ± 10% 0.006 35.0 1.43 [36.32] 1000.0 ± 10% 0.143 9.0 1.31 [33.27] 27000.0 ± 10% 3.71 1.7 1.33 [33.78] 47.0 ± 10% 0.008 35.0 1.53 [38.86] 1200.0 ± 10% 0.156 9.0 1.40 [35.56] 33000.0 ± 10% 4.16 1.7 1.33 [33.78] 56.0 ± 10% 0.009 35.0 1.53 [38.86] 1500.0 ± 10% 0.219 7.2 1.37 [34.80] 39000.0 ± 10% 5.55 1.4 1.31 [33.27] 68.0 ± 10% 0.009 35.0 1.53 [38.86] 1800.0 ± 10% 0.241 7.2 1.37 [34.80] 47000.0 ± 10% 6.19 1.4 1.34 [34.04] 82.0 ± 10% 0.010 35.0 1.53 [38.86] 2200.0 ± 10% 0.270 7.2 1.37 [34.80] 100.0 ± 10% 0.014 27.0 1.45 [36.83] 2700.0 ± 10% 0.364 5.5 1.34 [34.04] MARKING ORDERING INFORMATION — Model — Value — Date code Document Number 34015 Revision 02-Nov-01 IHB-1 MODEL 10PH INDUCTANCE VALUE For technical questions, contact [email protected] r 10% INDUCTANCE TOLERANCE www.vishay.com 43 IHV Vishay Dale Filter Inductors High Current FEATURES • Printed circuit mounting. • Low cost construction. • Designed for use with switching power supplies. • Pre-tinned leads. • Protected by polyolefin tubing-flame retardant UL type VW-1 per MIL-I-23053/5, class 3 requirements. STANDARD ELECTRICAL SPECIFICATIONS IND.* @ 1 kHz (μH) MODEL IHV-15-500 IHV-20-200 IHV-28-60 IHV-30-150 IHV-40-39 IHV-45-92 IHV-50-50 IHV-60-24 SELFRATED RESONANT DCR CURRENT FREQ. MIN. MAX. (MHz) TOL. (Ohms) (Max. Amps) ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 500 200 60 150 39 92 50 24 0.8 1.2 1.9 2.1 2.5 2.9 3.1 5.7 0.0500 0.0210 0.0085 0.0130 0.0048 0.0075 0.0045 0.0025 15 20 28 30 40 45 50 60 ELECTRICAL SPECIFICATIONS Inductance: Measured at 1V with no DC current. Dielectric: 2500VRMS between winding and outer circumference to within 0.250" [6.35mm] of the insulation sleeve edge. Operating Temperature: - 55°C to + 125°C (no load). - 55°C to + 75°C (at full rated current). MECHANICAL SPECIFICATIONS Terminals: Extensions of winding, solder coated. Encapsulant: Polyolefin tubing. Core Material: Iron laminations. *Will not change more than ± 10% at rated current. DIMENSIONS in inches [millimeters] Style 1 Style 2 A Max. B .125 [3.18] Max. E Dia. IHV-15-500 IHV-20-200 IHV-28-60 IHV-30-150 IHV-40-39 IHV-45-92 IHV-50-50 IHV-60-24 E Dia. C STYLE A (Max.) B ± 0.050 [1.27] C ± 0.062 [1.57] D ± 0.062 [1.57] E (Dia.) TYPICAL WEIGHT (Grams) 1 2 2 2 2 2 1 2 2.45 [62.23] 2.45 [62.23] 2.45 [62.23] 2.45 [62.23] 2.45 [62.23] 2.55 [64.77] 2.55 [64.77] 2.45 [62.23] 1.45 [36.83] 1.45 [36.83] 1.02 [25.91] 1.65 [41.91] 1.15 [29.21] 1.92 [48.77] 1.57 [39.88] 1.27 [32.26] 0.980 [24.89] 0.980 [24.89] 0.770 [19.56] 1.08 [27.43] 0.820 [20.83] 1.21 [30.73] 1.05 [26.67] 0.890 [22.61] 1.95 [49.53] — — — — — 2.10 [53.34] — 0.082 [2.08] 0.102 [2.59] 0.102 [2.59] 0.129 [3.28] 0.129 [3.28] 0.162 [4.11] 0.162 [4.11] 0.162 [4.11] 305 310 160 470 210 650 420 270 ORDERING INFORMATION MARKING — Vishay Dale — Model — Date code www.vishay.com 44 .750 [19.0] .500 [12.70] Tinned C D MODEL B .125 [3.18] Max. .750 [19.0] .500 [12.70] Tinned A Max. IHV-15 MODEL 500μH INDUCTANCE VALUE For technical questions, contact [email protected] ± 10% INDUCTANCE TOLERANCE Document Number 34022 Revision 02-Nov-01 PC Vishay Dale Inductors Subminiature, Shielded FEATURES x x x x x x x x Classification is Grade 1, Class B Subminiature shielded Inductance range is 0.10 µH to 100000 µH Printed board mounting facilitated by 0.200" [5.08 mm] grid spacing Radial lead fixed inductor High Q values Unitized epoxy-molded construction Shielded construction to allow maximum density packaging ELECTRICAL SPECIFICATIONS DENSITY SPECIFICATIONS Inductance Tolerance: ± 10 % Dielectric Strength: 840 VRMS at sea level Working Voltage: 300 VDC Q and SRF Values: Minimum not less than 80 % of specified value Maximum Current: Based on temperature rise not to exceed 35 °C at + 90 °C ambient Weight: 1.5 grams maximum MECHANICAL SPECIFICATIONS Operating Temperature: - 55 qC to + 125 qC Terminal Pull: 3 pounds Shielding: 3 % coupling maximum when two units are tested side by side ENVIRONMENTAL SPECIFICATIONS Moisture: Per MIL-STD-202, Method 106 Vibration: Low frequency, 10 Hz to 55 Hz at 0.06" [1.52 mm] maximum total excursion at rate of 1 linear sweep per minute for 2 hours repeated for each of three mutually perpendicular planes Shock: 100 g, 6 ms, body mounted DIMENSIONS in inches [millimeters] 0.300 ± 0.010 [7.62 ± 0.254] 0.265 ± 0.010 [6.73 ± 0.254] Dia. 0.270 [6.86] Max. 0.080 ± 0.010 [2.03 ± 0.254] 3/8 ± 1/16 [9.52 ± 1.59] #24 0.020 ± 0.002 [0.508 ± 0.051] TCW 0.200 ± 0.005 [5.08 ± 0.127] STANDARD ELECTRICAL SPECIFICATIONS MODEL IND. (µH) TOL. Q NOM. PC PC PC PC PC PC PC 0.10 0.12 0.15 0.18 0.22 0.27 0.33 ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % 70 70 70 70 70 80 80 TEST FREQ. (MHz) 25 25 25 25 25 25 25 SELF-RESONANT FREQ. NOM. (MHz) > 250 > 250 > 250 > 250 > 250 > 250 > 250 DCR MAX. (Ohms) 0.030 0.030 0.030 0.035 0.038 0.040 0.040 RATED DC CURRENT (mA) 2500 2500 2500 2400 2300 2200 2200 INCREMENTAL* CURRENT (mA) 2500 2500 2500 2400 2300 2200 2200 * Incremental Current: The DC current required to cause a 5 % reduction in the nominal inductance value. Document Number: 34070 Revision: 02-Nov-01 For technical questions contact [email protected] www.vishay.com 45 PC Inductors, Subminiature, Shielded Vishay Dale STANDARD ELECTRICAL SPECIFICATIONS MODEL IND. (µH) TOL. Q NOM. PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC PC 0.39 0.47 0.56 0.68 0.82 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 ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % ± 10 % 80 80 80 80 85 85 90 100 115 110 110 90 90 95 95 85 95 90 120 120 115 125 115 120 120 110 115 105 105 95 95 90 95 95 100 100 100 100 95 100 90 100 TEST FREQ. (MHz) 25 25 25 25 25 25 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 SELF-RESONANT FREQ. NOM. (MHz) 250 230 220 190 180 160 170 155 135 120 104 93 87 79 72 63 60 54 37 28.8 23.8 21.3 20.6 18.6 17.7 14.9 13.9 12.9 11.7 10.5 5.6 5.2 4.9 4.6 4.2 3.55 3.45 3.2 2.9 2.7 2.5 2.35 DCR MAX. (Ohms) 0.045 0.045 0.050 0.055 0.060 0.070 0.085 0.100 0.110 0.120 0.125 0.165 0.180 0.245 0.265 0.330 0.460 0.640 0.800 0.865 0.940 1.03 1.18 1.30 1.41 1.61 2.08 2.20 2.42 2.15 2.38 2.52 2.88 3.18 3.50 4.80 5.44 5.9 6.3 7.2 8.0 12 INCREMENTAL* CURRENT (mA) 2100 2100 2000 1900 1800 1700 1670 1540 1470 1410 1380 1200 1135 985 950 853 720 620 545 520 504 460 418 398 385 350 333 330 320 300 190 175 150 125 120 110 105 100 90 80 70 65 RATED DC CURRENT (mA) 2100 2100 2000 1900 1800 1700 1670 1540 1470 1410 1380 1200 1135 985 950 853 720 620 545 520 504 460 418 398 385 350 330 320 300 333 316 306 288 273 260 222 209 201 194 181 172 141 * Incremental Current: The DC current required to cause a 5 % reduction in the nominal inductance value. MARKING - Manufacturer data printed www.vishay.com 46 ORDERING INFORMATION PC 0.10 µH ± 10 % MODEL INDUCTANCE VALUE INDUCTANCE TOLERANCE For technical questions contact [email protected] Document Number: 34070 Revision: 02-Nov-01 WVL Vishay Dale Inductors Variable, Subminiature, Shielded FEATURES • • • • • • • Classification is Grade 3, Class A. Subminiature shielded adjustable inductor. High Q values. Vertical or horizontal mounting. Inductance range is 0.10μH to 1000μH. 0.300" [7.62mm] diameter by 0.400" [10.16mm] length. Printed board mounting facilitated by 0.200" [5.08mm] grid spacing. • Unit has shield construction to allow maximum density packaging. • Accommodates close inductance adjustments in high density circuits that demand exceptional stability and high “Q” in the smallest size available. ELECTRICAL SPECIFICATIONS MECHANICAL SPECIFICATIONS Adjustable Inductance Range: Tunable range; ± 5% for 0.10μH to 1μH. ± 10% for 1.2μH to 1000μH. Tuning Tool: Use Number WVL-T or equal. Dielectic Strength: 840VRMS at sea level. Torque: 0.40 to 6 inch-ounces. Terminal Pull: 3 pounds. Working Voltage: 300VDC. Maximum Current: Based on temperature rise not to exceed 15°C at + 90°C ambient. Incremental Current: The DC current required to cause a five percent reduction in the nominal inductance value. Operating Temperature: - 55°C to + 105°C. DENSITY SPECIFICATIONS Weight: 1.5 grams maximum. Shielding: 3% coupling maximum when two units are tested side by side. DIMENSIONS in inches [millimeters] Vertical Style Horizontal Style 0.400 [10.16] 0.300 ± 0.020 [7.62 ± 0.508] 0.320 [8.13] 0.400 ± 0.030 [10.16 ± 0.762] 0.020 [0.508] Dia. Wire Phosphor-Bronze 3/8 ± 1/16 [9.52 ± 1.59] 3/8 ± 1/16 [9.52 ± 1.59] 0.200 ± 0.010 [5.08 ± 0.254] 0.375 [9.53] 0.050 [1.27] #24 0.020 ± 0.002 [0.508 ± 0.051] TCW 0.200 ± 0.010 [5.08 ± 0.254] Horizontal Mounting Clip Part Number ACS-57 (One required per unit.) Document Number 34086 Revision 02-Nov-01 For technical questions, contact [email protected] www.vishay.com 47 WVL Vishay Dale Inductors, Variable, Subminiature, Shielded STANDARD ELECTRICAL SPECIFICATIONS MODEL INDUCTANCE NOM. TUNABLE (μH) RANGE TEST SELF-RESONANT Q FREQUENCY FREQ. MIN. MINIMUM (MHz) (MHz) DCR MAXIMUM (Ohms) RATED DC CURRENT (mA) INCREMENTAL CURRENT (mA) WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 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 ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 5% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 56 56 56 56 56 64 64 64 64 64 64 68 68 72 80 92 88 88 77 72 76 76 68 76 72 96 96 92 100 92 96 96 88 92 84 84 25 25 25 25 25 25 25 25 25 25 25 25 25 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 7.9 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 200 200 200 200 200 200 200 200 184 176 150 144 128 136 124 108 96 83 74 70 63 58 50 48 43 30 23 19 17 16 15 14 12 11 10 9 0.030 0.030 0.030 0.035 0.038 0.040 0.040 0.045 0.045 0.050 0.055 0.060 0.070 0.085 0.100 0.110 0.120 0.125 0.165 0.180 0.245 0.265 0.330 0.460 0.640 0.800 0.865 0.940 1.03 1.18 1.30 1.41 1.61 2.08 2.20 2.42 1510 1450 1400 1370 1340 1300 1260 1240 1200 1160 1100 1040 986 968 893 853 817 800 696 659 571 550 493 417 359 316 301 292 267 243 231 223 203 191 185 174 — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL WVL 100 120 150 180 220 270 330 390 470 560 680 820 1000 ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% ± 10% 76 76 72 76 76 80 80 80 80 76 80 72 80 2.5 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 0.79 8.4 4.5 4.0 3.9 3.7 3.4 2.8 2.7 2.6 2.3 2.2 2.0 1.9 2.15 2.38 2.52 2.88 3.18 3.50 4.80 5.44 5.90 6.30 7.20 8 12 333 316 306 288 273 260 222 209 201 194 181 172 141 333 190 175 150 125 120 110 105 100 90 80 70 65 MARKING ORDERING INFORMATION — Manufacturer data printed WVL MODEL 0.10μH INDUCTANCE VALUE ± 5% TUNABLE RANGE For horizontal mounting use mounting clip Number ACS-57 or order with prefix H (i.e. H WVL .10). www.vishay.com 48 For technical questions, contact [email protected] Document Number 34086 Revision 02-Nov-01 TJ Vishay Dale Inductors Toroid, High Current FEATURES • Printed circuit mounting. • Wide range of inductance and current ratings. • Toroid design reduces EMI. • Vertical or horizontal mounting to optimize P.C. Board layout. APPLICATIONS Switching power supplies, EMI/RFI filtering, output chokes. DIMENSIONS in inches [millimeters] Vertical Mount Horizontal Mount (Mounting/Coating Code - 1U) (Mounting/Coating Code - 2U) Hot Solder Dip Leads Part Marking H Ld Part Marking D 0.062** [1.58] Max. Ls D 0.062** [1.58] Max. 0.500 [12.7] Min. H Ld Hot Solder Dip Leads Ls 0.500 [12.7] Min. NOMINAL NOMINAL LEAD NOMINAL LEAD NOMINAL DIAMETER (D) HEIGHT (H) LEAD SPACING DIAMETER DIAMETER (D) HEIGHT (H) LEAD SPACING DIAMETER (Ld) (Ls) (Max.) MODEL (Ld) (Max.) MODEL (Ls) (Max.) (Max.) TJ3 0.65 [16.5] 0.30 [7.6] 0.26 ± 0.04 [6.60 ± 1.02] See TJ3 Data TJ3 0.66 [16.8] 0.32 [8.1] 0.58 ± 0.08 [14.7 ± 2.03] See TJ3 Data TJ4 0.88 [22.4] 0.40 [10.2] 0.31 ± 0.09 [7.87 ± 2.29] See TJ4 Data TJ4 0.88 [22.4] 0.40 [10.2] 0.78 ± 0.10 [19.8 ± 2.54] See TJ4 Data TJ5 1.00 [25.4] 0.45 [11.4] 0.37 ± 0.08 [9.40 ± 2.03] See TJ5 Data TJ5 1.00 [25.4] 0.45 [11.4] 0.90 ± 0.10 [22.9 ± 2.54] See TJ5 Data TJ6 1.38 [35.1] 0.83 [21.1] 0.73 ± 0.10 [18.5 ± 2.54] See TJ6 Data TJ6 1.38 [35.1] 0.83 [21.1] 1.22 ± 0.16 [31.0 ± 4.06] See TJ6 Data TJ7 1.65 [41.9] 0.75 [19.1] 0.62 ± 0.13 [15.8 ± 3.30] See TJ7 Data TJ7 1.65 [41.9] 0.75 [19.1] 1.48 ± 0.17 [37.6 ± 4.32] See TJ7 Data TJ8 1.92 [48.8] 1.00 [25.4] 0.82 ± 0.18 [20.8 ± 4.57] See TJ8 Data TJ8 1.94 [49.3] 1.00 [25.4] 1.76 ± 0.18 [44.7 ± 4.57] See TJ8 Data TJ9 2.66 [67.6] 1.42 [36.1] 1.25 ± 0.17 [31.8 ± 4.32] See TJ9 Data TJ9 2.72 [69.1] 1.42 [36.1] 2.49 ± 0.23 [63.2 ± 5.84] See TJ9 Data *On larger units and units with finer wire, additional mechanical mounting is recommended. **Leads stripped to within .062" [1.58mm] of the coil. ENVIRONMENTAL PERFORMANCE TEST CONDITIONS SPECIFICATIONS Thermal Shock Test Condition B1 MIL-STD-202, Method 107 Resistance to Soldering Heat — MIL-STD-202, Method 210 Solderability — MIL-STD-202, Method 208 Document Number 34079 Revision 08-Jan-02 For technical questions, contact [email protected] www.vishay.com 49 TJ Vishay Dale Inductors Toroid, High Current ELECTRICAL SPECIFICATION RANGES MODEL INDUCTANCE RANGE1 (μH) DC RESISTANCE RANGE2 (Ohms) RATED CURRENT RANGE3 (Amps) TJ3 1.2 - 1500 0.006 - 1.476 10.0 - 0.5 TJ4 1.2 - 1500 0.006 - 0.952 10.7 - 0.9 TJ5 1.2 - 1500 0.006 - 0.539 10.1 - 1.3 TJ6 1.2 - 2700 0.004 - 0.499 16.0 - 2.0 TJ7 1.2 - 2700 0.005 - 0.359 16.0 - 2.7 TJ8 1.5 - 3900 0.005 - 0.304 18.5 - 3.2 TJ9 1.5 - 5600 0.004 - 0.224 20.0 - 5.0 1. Measured at 0.25 VRMS @ 10kHz. 2. DC Resistance measured @ + 25°C ± 5°C. 3. Maximum continuous operating current based on a calculated temperature rise of 40°C. STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] IND. MODEL (μH) TOL. TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX TJ3-XX ± 20% ± 20% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 1.2 1.5 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 560.0 680.0 820.0 1000.0 1200.0 1500.0 NOM. IND. RATED 10% CUR- @ 0 DC CURNOM. AMPS RENT DCR RENT (μH) (Ohms) (Amps) (Amps) 0.006 0.006 0.007 0.008 0.008 0.009 0.010 0.011 0.011 0.013 0.013 0.015 0.016 0.017 0.024 0.026 0.029 0.038 0.043 0.057 0.063 0.087 0.097 0.107 0.146 0.164 0.225 0.250 0.342 0.378 0.510 0.565 0.637 0.849 0.951 1.298 1.476 10.0 9.5 9.0 8.4 8.2 7.9 7.5 7.3 7.1 6.6 6.5 6.1 5.9 5.6 4.6 4.4 4.3 3.7 3.5 3.1 3.0 2.6 2.4 2.3 1.9 1.8 1.5 1.4 1.2 1.1 1.0 0.9 0.8 0.7 0.7 0.6 0.5 1.19 1.62 2.11 2.67 3.30 3.99 4.75 5.58 6.47 8.45 9.54 11.91 14.55 17.46 22.31 27.75 33.79 38.15 47.65 55.47 66.83 82.50 99.83 118.80 148.14 180.71 221.89 267.30 330.00 392.07 467.31 557.70 684.29 823.81 999.11 1203.87 1497.18 5.50 4.71 4.13 3.67 3.30 3.00 2.75 2.54 2.36 2.06 1.94 1.74 1.57 1.43 1.27 1.14 1.03 0.97 0.87 0.80 0.73 0.66 0.60 0.55 0.49 0.45 0.40 0.37 0.33 0.30 0.28 0.25 0.23 0.21 0.19 0.17 0.15 INDUCTANCE SHIFT WITH DC CURRENT* MIN. IND. (μH) 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 40% CURRENT (Amps) MIN. IND. (μH) LEAD DIAMETER "A" 0.91 1.24 1.62 2.04 2.52 3.05 3.64 4.27 4.95 6.46 7.30 9.11 11.13 13.35 17.07 21.23 25.85 29.18 36.45 42.44 51.12 63.11 76.37 90.88 113.32 138.24 169.75 204.48 252.45 299.94 357.49 426.64 523.48 630.22 764.32 920.96 1145.34 8.88 7.62 6.66 5.92 5.33 4.85 4.44 4.10 3.81 3.33 3.14 2.81 2.54 2.32 2.05 1.84 1.67 1.57 1.40 1.30 1.18 1.07 0.97 0.89 0.80 0.72 0.65 0.59 0.53 0.49 0.45 0.41 0.37 0.34 0.31 0.28 0.25 0.81 1.10 1.44 1.82 2.24 2.72 3.23 3.79 4.40 5.74 6.49 8.10 9.90 11.87 15.17 18.87 22.98 25.94 32.40 37.72 45.44 56.10 67.88 80.78 100.73 122.88 150.89 181.76 224.40 266.61 317.77 379.24 465.32 560.19 679.39 818.63 1018.08 12.69 10.88 9.52 8.46 7.62 6.92 6.35 5.86 5.44 4.76 4.48 4.01 3.63 3.31 2.93 2.63 2.38 2.24 2.00 1.86 1.69 1.52 1.38 1.27 1.14 1.03 0.93 0.85 0.76 0.70 0.64 0.59 0.53 0.48 0.44 0.40 0.36 0.71 0.96 1.26 1.59 1.96 2.38 2.83 3.32 3.85 5.03 5.67 7.09 8.66 10.39 13.27 16.51 20.11 22.70 28.35 33.01 39.76 49.09 59.40 70.69 88.14 107.52 132.03 159.04 196.35 233.28 278.05 331.83 407.15 490.17 594.47 716.30 890.82 16.50 14.14 12.38 11.00 9.90 9.00 8.25 7.62 7.07 6.19 5.82 5.21 4.71 4.30 3.81 3.41 3.09 2.91 2.61 2.41 2.20 1.98 1.80 1.65 1.48 1.34 1.21 1.10 0.99 0.91 0.83 0.76 0.69 0.63 0.57 0.52 0.46 0.61 0.82 1.08 1.36 1.68 2.04 2.42 2.84 3.30 4.31 4.86 6.08 7.42 8.90 11.38 14.15 17.23 19.46 24.30 28.29 34.08 42.08 50.91 60.59 75.55 92.16 113.16 136.32 168.30 199.96 238.33 284.43 348.99 420.14 509.55 613.98 763.56 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.029 [0.737] 0.029 [0.737] 0.029 [0.737] 0.025 [0.635] 0.025 [0.635] 0.023 [0.584] 0.023 [0.584] 0.020 [0.508] 0.020 [0.508] 0.020 [0.508] 0.018 [0.457] 0.018 [0.457] 0.016 [0.406] 0.016 [0.406] 0.014 [0.356] 0.014 [0.356] 0.013 [0.330] 0.013 [0.330] 0.013 [0.330] 0.011 [0.279] 0.011 [0.279] 0.010 [0.254] 0.010 [0.254] *The DC current values listed are typical values that drop the nominal inductance by the percent listed. www.vishay.com 50 For technical questions, contact [email protected] Document Number 34079 Revision 08-Jan-02 TJ Vishay Dale Inductors Toroid, High Current STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] MODEL IND. (μH) NOM. RATED 10% IND. NOM. CUR- @ 0 DC CURDCR RENT AMPS RENT TOL. (Ohms) (Amps) (Amps) (μH) ± 20% TJ4-XX 1.2 ± 20% TJ4-XX 1.5 ± 15% TJ4-XX 2.2 ± 15% TJ4-XX 2.7 ± 20% TJ4-XX 3.3 ± 20% TJ4-XX 4.7 ± 20% TJ4-XX 5.6 ± 20% TJ4-XX 6.8 ± 15% TJ4-XX 8.2 TJ4-XX 10.0 ± 15% TJ4-XX 12.0 ± 20% TJ4-XX 15.0 ± 20% TJ4-XX 18.0 ± 15% TJ4-XX 22.0 ± 15% TJ4-XX 27.0 ± 15% TJ4-XX 33.0 ± 15% TJ4-XX 39.0 ± 15% TJ4-XX 47.0 ± 15% TJ4-XX 56.0 ± 15% TJ4-XX 68.0 ± 15% TJ4-XX 82.0 ± 15% TJ4-XX 100.0 ± 15% TJ4-XX 120.0 ± 15% TJ4-XX 150.0 ± 15% TJ4-XX 180.0 ± 15% TJ4-XX 220.0 ± 15% TJ4-XX 270.0 ± 15% TJ4-XX 330.0 ± 15% TJ4-XX 390.0 ± 15% TJ4-XX 470.0 ± 15% TJ4-XX 560.0 ± 15% TJ4-XX 680.0 ± 15% TJ4-XX 820.0 ± 15% TJ4-XX 1000.0 ± 15% TJ4-XX 1200.0 ± 15% TJ4-XX 1500.0 ± 15% ± 20% TJ5-XX 1.2 ± 25% TJ5-XX 1.5 ± 15% TJ5-XX 2.2 ± 25% TJ5-XX 2.7 3.9 ± 15% TJ5-XX 4.7 ± 15% TJ5-XX 5.6 ± 15% TJ5-XX 6.8 ± 15% TJ5-XX 8.2 ± 15% TJ5-XX TJ5-XX 10.0 ± 15% TJ5-XX 12.0 ± 15% 0.006 0.006 0.007 0.008 0.009 0.010 0.010 0.011 0.013 0.013 0.015 0.017 0.017 0.019 0.021 0.024 0.025 0.028 0.031 0.040 0.045 0.062 0.070 0.079 0.105 0.118 0.162 0.181 0.243 0.269 0.297 0.406 0.452 0.617 0.684 0.952 0.006 0.007 0.008 0.009 0.010 0.010 0.011 0.012 0.013 0.015 0.016 10.7 10.2 9.7 9.5 8.8 8.5 8.3 8.1 7.8 7.4 7.1 6.8 6.7 6.5 6.1 5.8 5.7 5.5 5.2 4.6 4.4 3.7 3.5 3.3 2.9 2.7 2.3 2.2 1.9 1.8 1.7 1.4 1.3 1.1 1.0 0.9 10.1 9.5 9.0 8.6 8.2 7.9 7.7 7.5 7.3 7.0 6.9 1.09 1.57 2.13 2.78 3.52 4.35 5.26 6.26 8.53 9.79 12.57 15.70 17.40 21.05 27.19 34.10 39.15 47.37 56.38 66.16 80.43 100.22 122.19 151.42 178.18 219.28 271.48 329.25 392.59 470.50 555.45 679.69 816.45 1005.02 1198.69 1504.93 1.15 1.66 2.25 2.94 3.73 4.60 5.57 6.62 7.77 10.35 11.78 INDUCTANCE SHIFT WITH DC CURRENT* MIN. IND. (μH) 0.83 8.75 1.20 7.29 1.63 6.25 2.13 5.47 2.70 4.86 3.33 4.38 4.03 3.98 4.79 3.65 6.52 3.13 7.49 2.92 9.62 2.57 12.01 2.30 13.31 2.19 16.11 1.99 20.80 1.75 26.09 1.56 29.95 1.46 36.24 1.33 43.13 1.22 50.62 1.12 61.53 1.02 76.67 0.91 93.48 0.83 115.84 0.74 136.30 0.68 167.75 0.62 207.68 0.55 251.88 0.50 300.33 0.46 359.93 0.42 424.92 0.39 519.96 0.35 624.59 0.32 768.84 0.29 916.99 0.26 0.24 1151.27 0.88 10.63 1.27 8.86 1.72 7.60 2.25 6.65 2.85 5.91 3.52 5.32 4.26 4.83 5.07 4.43 5.95 4.09 7.92 3.54 9.01 3.32 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 40% CURRENT (Amps) MIN. IND. (μH) LEAD DIAMETER "A" 14.14 11.78 10.10 8.84 7.85 7.07 6.43 5.89 5.05 4.71 4.16 3.72 3.53 3.21 2.83 2.52 2.36 2.14 1.96 1.81 1.64 1.47 1.33 1.20 1.10 1.00 0.89 0.81 0.74 0.68 0.63 0.57 0.52 0.47 0.43 0.38 17.18 14.32 12.27 10.74 9.54 8.59 7.81 7.16 6.61 5.73 5.37 0.74 1.06 1.45 1.89 2.40 2.96 3.58 4.26 5.80 6.66 8.55 10.68 11.83 14.32 18.49 23.19 26.62 32.21 38.34 44.99 54.69 68.15 83.09 102.97 121.16 149.11 184.61 223.89 266.96 319.94 377.71 462.19 555.19 683.42 815.11 1023.35 0.78 1.13 1.53 2.00 2.53 3.13 3.78 4.50 5.29 7.04 8.01 20.20 16.83 14.43 12.62 11.22 10.10 9.18 8.42 7.21 6.73 5.94 5.31 5.05 4.59 4.04 3.61 3.37 3.06 2.81 2.59 2.35 2.10 1.91 1.71 1.58 1.42 1.28 1.16 1.06 0.97 0.89 0.81 0.74 0.66 0.61 0.54 24.54 20.45 17.53 15.34 13.63 12.27 11.16 10.23 9.44 8.18 7.67 0.65 0.93 1.27 1.66 2.10 2.59 3.13 3.73 5.07 5.82 7.48 9.34 10.35 12.53 16.18 20.29 23.29 28.19 33.54 39.37 47.86 59.63 72.70 90.10 106.01 130.47 161.53 195.90 233.59 279.95 330.49 404.41 485.79 597.99 713.22 895.43 0.68 0.99 1.34 1.75 2.22 2.74 3.31 3.94 4.63 6.16 7.01 26.26 21.88 18.75 16.41 14.59 13.13 11.93 10.94 9.38 8.75 7.72 6.91 6.56 5.97 5.25 4.69 4.38 3.98 3.65 3.37 3.05 2.73 2.48 2.23 2.05 1.85 1.66 1.51 1.38 1.26 1.16 1.05 0.96 0.86 0.79 0.71 31.90 26.59 22.79 19.94 17.72 15.95 14.50 13.29 12.27 10.63 9.97 0.55 0.80 1.09 1.42 1.80 2.22 2.68 3.19 4.35 4.99 6.41 8.01 8.87 10.74 13.87 17.39 19.97 24.16 28.75 33.74 41.02 51.11 62.32 77.23 90.87 111.83 138.46 167.92 200.22 239.95 283.28 346.64 416.39 512.56 611.33 767.51 0.59 0.84 1.15 1.50 1.90 2.35 2.84 3.38 3.96 5.28 6.01 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.029 [0.737] 0.029 [0.737] 0.025 [0.635] 0.025 [0.635] 0.025 [0.635] 0.023 [0.584] 0.023 [0.584] 0.020 [0.508] 0.020 [0.508] 0.018 [0.457] 0.018 [0.457] 0.018 [0.457] 0.016 [0.406] 0.016 [0.406] 0.014 [0.356] 0.014 [0.356] 0.013 [0.330] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] *The DC current values listed are typical values that drop the nominal inductance by the percent listed. Document Number 34079 Revision 08-Jan-02 For technical questions, contact [email protected] www.vishay.com 51 TJ Vishay Dale Inductors Toroid, High Current STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] MODEL IND. (μH) NOM. IND. 10% RATED DCR CUR- @ 0 DC CURMAX. RENT AMPS RENT (μH) (Amps) TOL. (Ohms) (Amps) ± 15% TJ5-XX 15.0 ± 15% TJ5-XX 18.0 ± 15% TJ5-XX 22.0 ± 15% TJ5-XX 27.0 ± 15% TJ5-XX 33.0 ± 15% TJ5-XX 39.0 ± 15% TJ5-XX 47.0 ± 15% TJ5-XX 56.0 ± 15% TJ5-XX 68.0 ± 15% TJ5-XX 82.0 TJ5-XX 100.0 ± 15% TJ5-XX 120.0 ± 15% TJ5-XX 150.0 ± 15% TJ5-XX 180.0 ± 15% TJ5-XX 220.0 ± 15% TJ5-XX 270.0 ± 15% TJ5-XX 330.0 ± 15% TJ5-XX 390.0 ± 15% TJ5-XX 470.0 ± 15% TJ5-XX 560.0 ± 15% TJ5-XX 680.0 ± 15% TJ5-XX 820.0 ± 15% TJ5-XX 1000.0 ± 15% TJ5-XX 1200.0 ± 15% TJ5-XX 1500.0 ± 15% ± 20% TJ6-XX 1.2 ± 20% TJ6-XX 2.2 ± 20% TJ6-XX 3.3 ± 15% TJ6-XX 4.7 ± 25% TJ6-XX 5.6 ± 15% TJ6-XX 8.2 ± 15% TJ6-XX 10.0 ± 15% TJ6-XX 12.0 ± 15% TJ6-XX 15.0 ± 15% TJ6-XX 18.0 ± 15% TJ6-XX 22.0 ± 15% TJ6-XX 27.0 ± 15% TJ6-XX 33.0 TJ6-XX 39.0 ± 15% TJ6-XX 47.0 ± 15% TJ6-XX 56.0 ± 15% TJ6-XX 68.0 ± 15% TJ6-XX 82.0 ± 15% TJ6-XX 100.0 ± 15% TJ6-XX 120.0 ± 15% TJ6-XX 150.0 ± 15% TJ6-XX 180.0 ± 15% 0.017 0.019 0.021 0.023 0.025 0.027 0.029 0.032 0.035 0.038 0.042 0.047 0.054 0.060 0.067 0.092 0.104 0.138 0.154 0.205 0.232 0.260 0.349 0.393 0.539 0.004 0.005 0.006 0.007 0.007 0.008 0.009 0.010 0.011 0.012 0.012 0.014 0.015 0.017 0.017 0.019 0.021 0.023 0.025 0.027 0.031 0.033 6.6 6.4 6.2 6.0 5.7 5.5 5.3 5.2 5.1 5.0 4.9 4.8 4.7 4.6 4.2 3.7 3.5 2.9 2.8 2.3 2.2 2.1 1.7 1.6 1.3 16.0 16.0 16.0 16.0 16.0 15.2 14.5 13.9 13.3 12.7 12.5 11.8 11.5 11.0 10.7 10.4 10.0 9.5 9.2 8.8 8.6 8.5 14.90 18.40 22.26 26.50 33.53 38.69 47.10 56.35 66.42 81.14 97.34 119.65 149.45 182.57 219.01 272.73 332.35 389.34 469.25 556.60 684.66 825.98 994.01 1207.22 1507.01 1.12 1.98 3.10 4.46 6.08 7.94 10.04 12.40 15.00 17.86 20.96 27.90 31.74 40.18 44.76 54.68 65.60 83.82 97.22 119.16 151.90 179.06 2.95 2.66 2.42 2.22 1.97 1.83 1.66 1.52 1.40 1.27 1.16 1.04 0.93 0.84 0.77 0.69 0.63 0.58 0.53 0.48 0.44 0.40 0.36 0.33 0.29 22.38 16.78 13.43 11.19 9.59 8.39 7.46 6.71 6.10 5.59 5.16 4.48 4.20 3.73 3.53 3.20 2.92 2.58 2.40 2.17 1.92 1.77 INDUCTANCE SHIFT WITH DC CURRENT* MIN. IND. (μH) 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 40% CURRENT (Amps) MIN. IND. (μH) LEAD DIAMETER "A" 11.40 14.08 17.03 20.27 25.65 29.59 36.03 43.11 50.81 62.08 74.46 91.53 114.33 139.67 167.54 208.64 254.25 297.85 358.97 425.80 523.77 631.87 760.42 923.53 1152.86 0.85 1.52 2.37 3.41 4.65 6.07 7.68 9.49 11.48 13.66 16.03 21.34 24.28 30.73 34.24 41.83 50.18 64.13 74.37 91.16 116.20 136.98 4.77 4.29 3.90 3.58 3.18 2.96 2.68 2.45 2.26 2.05 1.87 1.68 1.51 1.36 1.24 1.12 1.01 0.93 0.85 0.78 0.70 0.64 0.58 0.53 0.47 36.15 27.11 21.69 18.08 15.49 13.56 12.05 10.85 9.86 9.04 8.34 7.23 6.78 6.03 5.71 5.16 4.72 4.17 3.87 3.50 3.10 2.85 10.13 12.51 15.14 18.02 22.80 26.31 32.03 38.32 45.17 55.18 66.19 81.36 101.63 124.15 148.92 185.46 226.00 264.75 319.09 378.49 465.57 561.66 675.93 820.91 1024.76 0.76 1.35 2.11 3.04 4.13 5.40 6.83 8.43 10.20 12.14 14.25 18.97 21.59 27.32 30.44 37.19 44.61 57.00 66.11 81.03 103.29 121.76 6.82 6.14 5.58 5.11 4.54 4.23 3.83 3.51 3.23 2.92 2.67 2.41 2.15 1.95 1.78 1.59 1.44 1.33 1.21 1.12 1.01 0.92 0.83 0.76 0.68 51.65 38.73 30.99 25.82 22.13 19.37 17.22 15.49 14.09 12.91 11.92 10.33 9.68 8.61 8.15 7.38 6.74 5.96 5.53 5.00 4.43 4.08 8.87 10.95 13.25 15.77 19.95 23.02 28.03 33.53 39.52 48.28 57.91 71.19 88.93 108.63 130.31 162.28 197.75 231.66 279.20 331.18 407.38 491.46 591.44 718.30 896.67 0.66 1.18 1.84 2.66 3.62 4.72 5.98 7.38 8.93 10.62 12.47 16.60 18.89 23.90 26.63 32.54 39.03 49.88 57.84 70.90 90.38 106.54 8.86 7.98 7.25 6.65 5.91 5.50 4.99 4.56 4.20 3.80 3.47 3.13 2.80 2.53 2.31 2.07 1.88 1.73 1.58 1.45 1.31 1.19 1.09 0.98 0.88 67.14 50.35 40.28 33.57 28.77 25.18 22.38 20.14 18.31 16.78 15.49 13.43 12.59 11.19 10.60 9.59 8.76 7.75 7.19 6.50 5.75 5.30 7.60 9.38 11.35 13.51 17.10 19.73 24.02 28.74 33.88 41.38 49.64 61.02 76.22 93.11 111.69 139.09 169.50 198.57 239.32 283.87 349.18 421.25 506.95 615.68 768.57 0.57 1.01 1.58 2.28 3.10 4.05 5.12 6.32 7.65 9.11 10.69 14.23 16.19 20.49 22.83 27.89 33.45 42.75 49.58 60.77 77.47 91.32 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.032 [0.813] 0.029 [0.737] 0.029 [0.737] 0.025 [0.635] 0.025 [0.635] 0.023 [0.584] 0.023 [0.584] 0.023 [0.584] 0.020 [0.508] 0.020 [0.508] 0.018 [0.457] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] *The DC current values listed are typical values that drop the nominal inductance by the percent listed. www.vishay.com 52 For technical questions, contact [email protected] Document Number 34079 Revision 08-Jan-02 TJ Vishay Dale Inductors Toroid, High Current STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] NOM. RATED IND. 10% CUR- @ 0 DC CURDCR MAX. RENT AMPS RENT (Ohms) (Amps) (μH) (Amps) INDUCTANCE SHIFT WITH DC CURRENT* MIN. IND. (μH) 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 167.33 209.55 256.50 297.48 364.64 425.83 519.45 622.38 768.37 911.04 1147.81 1365.98 1677.98 2077.81 2.58 2.31 2.09 1.94 1.75 1.62 1.47 1.34 1.21 1.11 0.99 0.90 0.82 0.73 148.74 186.26 228.00 264.43 324.13 378.51 461.74 553.22 682.99 809.81 1020.27 1214.21 1491.54 1846.95 3.69 3.30 2.98 2.77 2.50 2.31 2.09 1.91 1.72 1.58 1.41 1.29 1.16 1.05 130.15 162.98 199.50 231.37 283.61 331.20 404.02 484.07 597.62 708.58 892.74 1062.43 1305.09 1616.08 4.80 111.56 0.045 [1.14] 4.29 139.70 0.040 [1.02] 3.87 171.00 0.040 [1.02] 3.60 198.32 0.040 [1.02] 3.25 243.09 0.036 [0.914] 3.01 283.88 0.036 [0.914] 2.72 346.30 0.032 [0.813] 2.49 414.92 0.032 [0.813] 2.24 512.24 0.032 [0.813] 2.06 607.36 0.029 [0.737] 1.83 765.20 0.029 [0.737] 1.68 910.66 0.025 [0.635] 1.51 1118.65 0.025 [0.635] 1.36 1385.21 0.023 [0.584] 34.59 0.88 27.67 1.38 23.06 1.98 19.77 2.70 17.30 3.53 15.37 4.46 13.84 5.51 12.58 6.66 11.53 7.93 9.88 10.80 9.22 12.39 8.65 14.10 7.69 17.85 6.92 22.03 6.29 26.66 5.77 31.73 5.32 37.23 4.77 46.32 4.32 56.40 3.95 67.47 3.64 79.54 3.22 101.84 2.94 121.67 2.66 148.94 2.39 185.29 2.16 225.61 2.01 262.24 1.82 318.14 1.67 379.45 1.50 466.20 1.37 561.87 1.25 678.64 1.13 819.81 1.02 1018.76 49.42 39.53 32.95 28.24 24.71 21.96 19.77 17.97 16.47 14.12 13.18 12.35 10.98 9.88 8.99 8.24 7.60 6.82 6.18 5.65 5.20 4.60 4.21 3.80 3.41 3.09 2.86 2.60 2.38 2.15 1.96 1.78 1.62 1.45 0.77 1.20 1.74 2.36 3.08 3.90 4.82 5.83 6.94 9.45 10.84 12.34 15.62 19.28 23.33 27.76 32.58 40.53 49.35 59.04 69.59 89.11 106.46 130.32 162.13 197.41 229.46 278.37 332.02 407.92 491.64 593.81 717.33 891.41 64.24 51.39 42.83 36.71 32.12 28.55 25.70 23.36 21.41 18.36 17.13 16.06 14.28 12.85 11.68 10.71 9.88 8.86 8.03 7.34 6.76 5.98 5.47 4.94 4.43 4.02 3.72 3.38 3.10 2.79 2.54 2.32 2.11 1.89 MODEL IND. (μH) TOL. TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX TJ6-XX 220.0 270.0 330.0 390.0 470.0 560.0 680.0 820.0 1000.0 1200.0 1500.0 1800.0 2200.0 2700.0 ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 0.037 0.058 0.065 0.070 0.101 0.110 0.129 0.143 0.160 0.209 0.238 0.323 0.363 0.499 8.4 7.4 7.0 6.7 5.5 5.3 4.4 4.2 4.0 3.3 3.1 2.6 2.5 2.0 218.74 273.92 335.30 388.86 476.66 556.64 679.02 813.56 1004.40 1190.90 1500.40 1785.60 2193.44 2716.10 1.60 1.43 1.29 1.20 1.08 1.00 0.91 0.83 0.75 0.69 0.61 0.56 0.50 0.45 TJ7-XX 1.2 TJ7-XX 2.2 TJ7-XX 2.7 TJ7-XX 3.9 TJ7-XX 5.6 TJ7-XX 6.8 TJ7-XX 8.2 TJ7-XX 10.0 TJ7-XX 12.0 TJ7-XX 15.0 TJ7-XX 18.0 TJ7-XX 22.0 TJ7-XX 27.0 TJ7-XX 33.0 TJ7-XX 39.0 TJ7-XX 47.0 TJ7-XX 56.0 TJ7-XX 68.0 TJ7-XX 82.0 TJ7-XX 100.0 TJ7-XX 120.0 TJ7-XX 150.0 TJ7-XX 180.0 TJ7-XX 220.0 TJ7-XX 270.0 TJ7-XX 330.0 TJ7-XX 390.0 TJ7-XX 470.0 TJ7-XX 560.0 TJ7-XX 680.0 TJ7-XX 820.0 TJ7-XX 1000.0 TJ7-XX 1200.0 TJ7-XX 1500.0 ± 20% ± 20% ± 20% ± 15% ± 20% ± 15% ± 15% ± 15% ± 15% ± 20% ± 15% ± 20% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 0.005 0.006 0.007 0.008 0.009 0.010 0.010 0.011 0.012 0.013 0.014 0.015 0.016 0.018 0.019 0.020 0.022 0.024 0.026 0.027 0.030 0.033 0.036 0.040 0.046 0.051 0.053 0.060 0.066 0.090 0.101 0.136 0.152 0.174 16.0 16.0 16.0 16.0 16.0 16.0 15.5 14.9 14.4 13.5 13.0 12.8 12.2 11.6 11.2 10.8 10.5 10.0 9.6 9.2 8.9 8.6 8.5 8.4 8.3 8.2 7.9 7.5 7.2 5.9 5.6 4.7 4.4 4.2 1.30 2.03 2.92 3.97 5.18 6.56 8.10 9.80 11.66 15.88 18.23 20.74 26.24 32.40 39.20 46.66 54.76 68.12 82.94 99.23 116.96 149.77 178.93 219.02 272.48 331.78 385.64 467.86 558.01 685.58 826.28 998.00 1205.60 1498.18 21.41 0.99 1.55 17.13 2.23 14.28 3.04 12.24 3.97 10.71 5.02 9.52 6.20 8.57 7.50 7.79 8.92 7.14 12.15 6.12 13.94 5.71 15.86 5.35 20.08 4.76 24.79 4.28 29.99 3.89 35.69 3.57 41.89 3.29 52.11 2.95 63.45 2.68 75.91 2.45 89.48 2.25 114.57 1.99 136.88 1.82 167.55 1.65 208.45 1.48 253.81 1.34 295.02 1.24 357.91 1.13 426.88 1.03 524.47 0.93 632.10 0.85 763.47 0.77 922.29 0.70 0.63 1146.10 40% CUR- MIN. RENT IND. (Amps) (μH) 0.66 1.03 1.49 2.02 2.64 3.35 4.13 5.00 5.95 8.10 9.29 10.58 13.38 16.52 19.99 23.79 27.93 34.74 42.30 50.60 59.65 76.38 91.25 111.70 138.97 169.21 196.68 238.61 284.58 349.65 421.40 508.98 614.86 764.07 LEAD DIAMETER "A" 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.045 [1.14] 0.040 [1.02] 0.040 [1.02] 0.036 [0.914] 0.036 [0.914] 0.036 [0.914] *The DC current values listed are typical values that drop the nominal inductance by the percent listed. Document Number 34079 Revision 08-Jan-02 For technical questions, contact [email protected] www.vishay.com 53 TJ Vishay Dale Inductors Toroid, High Current STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] MODEL IND. (μH) TOL. NOM. RATED IND. 10% DCR CUR- @ 0 DC CURMAX. RENT AMPS RENT (Ohms) (Amps (μH) (Amps) INDUCTANCE SHIFT WITH DC CURRENT* MIN. IND. (μH) 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 40% CURRENT (Amps) MIN. IND. (μH) LEAD DIAMETER "A" TJ7-XX 1800.0 ± 15% TJ7-XX 2200.0 ± 15% TJ7-XX 2700.0 ± 15% 0.233 0.263 0.359 3.5 3.3 2.7 1798.28 2205.23 2712.61 0.57 0.52 0.47 1375.68 1687.00 2075.15 0.93 0.84 0.76 1222.83 1499.55 1844.57 1.33 1.20 1.08 1069.98 1312.11 1614.00 1.72 1.56 1.40 917.12 0.032 [0.813] 1124.66 0.032 [0.813] 1383.43 0.029 [0.737] TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX TJ8-XX 1.5 2.7 3.9 4.7 6.8 8.2 10.0 12.0 15.0 18.0 22.0 27.0 33.0 39.0 47.0 56.0 68.0 82.0 100.0 120.0 150.0 180.0 220.0 270.0 330.0 390.0 470.0 560.0 680.0 820.0 1000.0 1200.0 1500.0 1800.0 2200.0 2700.0 3300.0 3900.0 ± 20% ± 20% ± 20% ± 15% ± 20% ± 15% ± 15% ± 15% ± 20% ± 20% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 0.005 0.006 0.007 0.008 0.009 0.010 0.011 0.012 0.013 0.014 0.015 0.016 0.017 0.019 0.021 0.022 0.024 0.025 0.027 0.029 0.032 0.034 0.036 0.040 0.044 0.047 0.053 0.058 0.064 0.071 0.077 0.104 0.118 0.159 0.179 0.203 0.277 0.304 18.5 18.5 18.5 18.5 18.5 18.5 18.5 18.0 17.3 16.6 15.5 15.0 14.1 13.4 12.8 12.2 11.7 11.1 10.6 10.1 9.6 9.2 8.7 8.3 7.9 7.6 7.2 6.9 6.6 6.2 6.0 5.1 4.9 4.2 4.0 3.9 3.3 3.2 1.60 2.50 3.60 4.90 6.40 8.10 10.00 12.10 14.40 16.90 22.50 25.60 32.40 40.00 48.40 57.60 67.60 84.10 102.40 122.50 152.10 176.40 220.90 270.40 324.90 384.40 476.10 562.50 672.40 828.10 1000.0 1210.00 1488.40 1795.60 2190.40 2689.60 3312.40 3880.90 26.12 20.90 17.41 14.93 13.06 11.61 10.45 9.50 8.71 8.04 6.97 6.53 5.80 5.22 4.75 4.35 4.02 3.60 3.27 2.99 2.68 2.49 2.22 2.01 1.83 1.69 1.51 1.39 1.27 1.15 1.04 0.95 0.86 0.78 0.71 0.64 0.57 0.53 1.22 1.91 2.75 3.75 4.90 6.20 7.65 9.26 11.02 12.93 17.21 19.58 24.79 30.60 37.03 44.06 51.71 64.34 78.34 93.71 116.36 134.95 168.99 206.86 248.55 294.07 364.22 430.31 514.39 633.50 765.00 925.65 1138.63 1373.63 1675.66 2057.54 2533.99 2968.89 42.20 33.76 28.13 24.11 21.10 18.75 16.88 15.34 14.07 12.98 11.25 10.55 9.38 8.44 7.67 7.03 6.49 5.82 5.27 4.82 4.33 4.02 3.59 3.25 2.96 2.72 2.45 2.25 2.06 1.85 1.69 1.53 1.38 1.26 1.14 1.03 0.93 0.86 1.09 1.70 2.45 3.33 4.35 5.51 6.80 8.23 9.79 11.49 15.30 17.41 22.03 27.20 32.91 39.17 45.97 57.19 69.63 83.30 103.43 119.95 150.21 183.87 220.93 261.39 323.75 382.50 457.23 563.11 680.00 822.80 1012.11 1221.01 1489.47 1828.93 2252.43 2639.01 60.28 48.22 40.19 34.45 30.14 26.79 24.11 21.92 20.09 18.55 16.07 15.07 13.40 12.06 10.96 10.05 9.27 8.31 7.53 6.89 6.18 5.74 5.13 4.64 4.23 3.89 3.49 3.21 2.94 2.65 2.41 2.19 1.98 1.80 1.63 1.47 1.32 1.22 0.95 1.49 2.14 2.92 3.81 4.82 5.95 7.20 8.57 10.06 13.39 15.23 19.28 23.80 28.80 34.27 40.22 50.04 60.93 72.89 90.50 104.96 131.44 160.89 193.32 228.72 283.28 334.69 400.08 492.72 595.00 719.95 885.60 1068.38 1303.29 1600.31 1970.88 2309.14 78.36 62.69 52.24 44.78 39.18 34.83 31.35 28.50 26.12 24.11 20.90 19.59 17.41 15.67 14.25 13.06 12.06 10.81 9.80 8.96 8.04 7.46 6.67 6.03 5.50 5.06 4.54 4.18 3.82 3.44 3.13 2.85 2.57 2.34 2.12 1.91 1.72 1.59 0.82 1.28 1.84 2.50 3.26 4.13 5.10 6.17 7.34 8.62 11.48 13.06 16.52 20.40 24.68 29.38 34.48 42.89 52.22 62.48 77.57 89.96 112.66 137.90 165.70 196.04 242.81 286.88 342.92 422.33 510.00 617.10 759.08 915.76 1117.10 1371.70 1689.32 1979.26 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.051 [1.30] 0.045 [1.14] 0.045 [1.14] 0.040 [1.02] 0.040 [1.02] 0.040 [1.02] 0.036 [0.914] 0.036 [0.914] TJ9-XX TJ9-XX TJ9-XX TJ9-XX TJ9-XX TJ9-XX 1.5 2.7 3.9 5.6 8.2 10.0 ± 15% ± 15% ± 15% ± 15% ± 15% ± 15% 0.004 0.005 0.006 0.007 0.008 0.009 20.0 20.0 20.0 20.0 20.0 20.0 1.44 2.56 4.00 5.76 7.84 10.24 50.35 37.76 30.21 25.17 21.58 18.88 1.10 1.96 3.06 4.41 6.00 7.83 81.33 61.00 48.80 40.66 34.85 30.50 0.98 1.74 2.72 3.92 5.33 6.96 116.18 87.14 69.71 58.09 49.79 43.57 0.86 1.52 2.38 3.43 4.66 6.09 151.04 113.28 90.62 75.52 64.73 56.64 0.73 1.31 2.04 2.94 4.00 5.22 0.064 [1.63] 0.064 [1.63] 0.064 [1.63] 0.064 [1.63] 0.064 [1.63] 0.064 [1.63] *The DC current values listed are typical values that drop the nominal inductance by the percent listed. www.vishay.com 54 For technical questions, contact [email protected] Document Number 34079 Revision 08-Jan-02 TJ Vishay Dale Inductors Toroid, High Current STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters] INDUCTANCE SHIFT WITH DC CURRENT* MODEL IND. (μH) NOM. RATED IND. 10% CUR- @ 0 DC CURDCR AMPS RENT MAX. RENT (μH) (Amps) TOL. (Ohms) (Amps) TJ9-XX 12.0 ± 20% 0.010 20.0 12.96 16.78 9.91 27.11 8.81 38.73 7.71 50.35 6.61 0.064 [1.63] TJ9-XX 15.0 ± 20% 0.011 20.0 16.00 15.10 12.24 24.40 10.88 34.85 9.52 45.31 8.16 0.064 [1.63] TJ9-XX 18.0 ± 20% 0.012 20.0 19.36 13.73 14.81 22.18 13.16 31.69 11.52 41.19 9.87 0.064 [1.63] TJ9-XX 22.0 ± 20% 0.013 20.0 23.04 12.59 17.63 20.33 15.67 29.05 13.71 37.76 11.75 0.064 [1.63] TJ9-XX 27.0 ± 15% 0.014 20.0 27.04 11.62 20.69 18.77 18.39 26.81 16.09 34.85 13.79 0.064 [1.63] TJ9-XX 33.0 ± 15% 0.015 20.0 31.36 10.79 23.99 17.43 21.32 24.90 18.66 32.37 15.99 0.064 [1.63] TJ9-XX 39.0 ± 20% 0.016 20.0 40.96 9.44 31.33 15.25 27.85 21.78 24.37 28.32 20.89 0.064 [1.63] TJ9-XX 47.0 ± 15% 0.017 20.0 46.24 8.88 35.37 14.35 31.44 20.50 27.51 26.65 23.58 0.064 [1.63] TJ9-XX 56.0 ± 15% 0.018 19.9 57.76 7.95 44.19 12.84 39.28 18.34 34.37 23.85 29.46 0.064 [1.63] TJ9-XX 68.0 ± 15% 0.019 19.0 70.56 7.19 53.98 11.62 47.98 16.60 41.98 21.58 35.99 0.064 [1.63] TJ9-XX 82.0 ± 15% 0.020 18.3 84.64 6.57 64.75 10.61 57.56 15.15 50.36 19.70 43.17 0.064 [1.63] TJ9-XX 100.0 ± 15% 0.021 17.6 100.00 6.04 76.50 9.76 68.00 13.94 59.50 18.12 51.00 0.064 [1.63] TJ9-XX 120.0 ± 15% 0.022 17.0 116.64 5.59 89.23 9.04 79.32 12.91 69.40 16.78 59.49 0.064 [1.63] TJ9-XX 150.0 ± 15% 0.025 15.9 153.76 4.87 117.63 7.87 104.56 11.24 91.49 14.62 78.42 0.064 [1.63] TJ9-XX 180.0 ± 15% 0.028 15.3 184.96 4.44 141.49 7.18 125.77 10.25 110.05 13.33 94.33 0.064 [1.63] TJ9-XX 220.0 ± 15% 0.030 14.7 219.04 4.08 167.57 6.59 148.95 9.42 130.33 12.25 111.71 0.064 [1.63] TJ9-XX 270.0 ± 15% 0.033 14.0 268.96 3.68 205.75 5.95 182.89 8.50 160.03 11.05 137.17 0.064 [1.63] TJ9-XX 330.0 ± 15% 0.036 13.4 324.00 3.36 247.86 5.42 220.32 7.75 192.78 10.07 165.24 0.064 [1.63] TJ9-XX 390.0 ± 15% 0.038 12.9 384.16 3.08 293.88 4.98 261.23 7.11 228.58 9.25 195.92 0.064 [1.63] TJ9-XX 470.0 ± 15% 0.042 12.4 466.56 2.80 356.92 4.52 317.26 6.45 277.60 8.39 237.95 0.064 [1.63] TJ9-XX 560.0 ± 15% 0.043 11.9 556.96 2.56 426.07 4.14 378.73 5.91 331.39 7.68 284.05 0.064 [1.63] TJ9-XX 680.0 ± 15% 0.048 11.3 676.00 2.32 517.14 3.75 459.68 5.36 402.22 6.97 344.76 0.064 [1.63] TJ9-XX 820.0 ± 15% 0.054 10.7 829.44 2.10 634.52 3.39 564.02 4.84 493.52 6.29 423.01 0.064 [1.63] TJ9-XX 1000.0 ± 15% 0.059 10.3 998.56 1.91 763.90 3.09 679.02 4.41 594.14 5.74 509.27 0.064 [1.63] TJ9-XX 1200.0 ± 15% 0.082 9.8 1211.04 1.74 926.45 2.80 823.51 4.01 720.57 5.21 617.63 0.057 [1.45] TJ9-XX 1500.0 ± 15% 0.091 9.3 1505.44 1.56 1151.66 2.52 1023.70 3.59 895.74 4.67 767.77 0.057 [1.45] TJ9-XX 1800.0 ± 15% 0.118 8.9 1797.76 1.42 1375.29 2.30 1222.48 3.29 1069.67 4.27 916.86 0.051 [1.30] TJ9-XX 2200.0 ± 15% 0.131 8.4 2190.24 1.29 1675.53 2.09 1489.36 2.98 1303.19 3.87 1117.02 0.051 [1.30] TJ9-XX 2700.0 ± 15% 0.147 8.0 2704.00 1.16 2068.56 1.88 1838.72 2.68 1608.88 3.49 1379.04 0.051 [1.30] TJ9-XX 3300.0 ± 15% 0.165 7.6 3317.76 1.05 2538.09 1.69 2256.08 2.42 1974.07 3.15 1692.06 0.051 [1.30] TJ9-XX 3900.0 ± 15% 0.181 5.2 3893.76 0.97 2978.73 1.56 2647.76 2.23 2316.79 2.90 1985.82 0.051 [1.30] TJ9-XX 4700.0 ± 15% 0.201 5.1 4678.56 0.88 3579.10 1.43 3181.42 2.04 2783.74 2.65 2386.07 0.051 [1.30] TJ9-XX 5600.0 ± 15% 0.224 5.0 5595.04 0.81 4280.21 1.30 3804.63 1.86 3329.05 2.42 2853.47 0.051 [1.30] MIN. IND. (μH) 20% CURRENT (Amps) MIN. IND. (μH) 30% CURRENT (Amps) MIN. IND. (μH) 40% CURRENT (Amps) MIN. IND. (μH) LEAD DIAMETER "A" *The DC current values listed are typical values that drop the nominal inductance by the percent listed. MARKING ORDERING INFORMATION TJ5 MODEL — Vishay Dale 1U MOUNTING/COATING CODE 330μH INDUCTANCE VALUE 15% TOLERANCE — Model number — Date code Document Number 34079 Revision 08-Jan-02 1U = Unmounted vertical/uncoated (may not be self supporting). 2U = Unmounted horizontal/uncoated. For technical questions, contact [email protected] www.vishay.com 55 TE and TD Vishay Dale Filter Inductors Toroid FEATURES x Choice of encapsulated (TE) or dipped (TD) styles x TD style combines low cost with excellent performance in commercial applications x High Q and wide selection of Q versus frequency ranges in one small package. Large number of standard inductance values RoHS COMPLIANT STANDARD ELECTRICAL SPECIFICATIONS (Applies to Core Only) MODEL TE-3 TD-3 TE-4 TD-4 TC CODE TE-5 TD-5 TEMPERATURE COEFFICIENT TC AVAILABILITY TEMPERATURE RANGE Q0 Q3 Q4 X X X X TA 0 ± 1% - 55 °C to + 125 °C X X X X TD 0 ± 0.1% 0 °C to + 55 °C X X X X TL* + 40 to + 110 ppm/°C + 85 to + 185 ppm/°C - 55 °C to + 25 °C + 25 °C to + 85 °C X X X TM 0 ± 0.25 % - 6 5°C to + 125 °C X X X TR 50 ppm/°C (Typical) - 65 °C to + 125 °C X X X TW 0 ± 0.25 % - 55 °C to + 85 °C X X X X X X X * Inverse of typical Temperature Coefficient of polystyrene capacitor. ELECTRICAL SPECIFICATIONS INDUCTANCE RANGE Tolerance: TC CODE TE-3 TD-3 TE-4 TD-4 TE-5 TD-5 Q0 50 µH to 15 mH 150 µH to 20 mH 1 mH to 100 mH Q3 500 µH to 1 H 1 mH to 2 H 5 mH to 2 H TE-3, TD-3 = ± 1 % > 2 mH, ± 2 % 154 µH to 2 mH, ± 5 % < 150 µH TE-4, TD-4 = ± 1 % > 2 mH, ± 2 % < 2 mH TE-5, TD-5 = ± 1% > 2mH, ± 2% < 2mH Q4 1 mH to 4 H 2 mH to 5 H 10 mH to 5 H Insulation Resistance: 1000 Megohm minimum Dielectric Strength: 1000 V minimum (TE) 500 V minimum (TD) DIMENSIONS in inches [millimeters] TE TD MECHANICAL SPECIFICATIONS A Dia. Max. D C Min. B F Dia. Max. C Min. A Dia. Max. D Weight: TE-3 = 5.1 grams, TD-3 = 4.9 grams typical TE-4 = 20 grams, TD-4 = 17 grams typical TE-5 = 53 grams, TD-5 = 52 grams typical F Min. Dia. MODEL A B F G TE-3 0.685 [17.40] 0.385 [9.78] 1.0 0.025 0.500 [25.40] [0.635] [12.70] 0.093 [2.36] 0.250 [6.35] TD-3 0.685 [17.40] 0.320 [8.13] 3.0 [76.20] 0.125 [3.18] - TE-4 1.06 0.500 1.0 0.032 0.900 [26.92] [12.70] [25.40] [0.813] [22.86] 0.120 [3.05] 0.450 [11.43] TD-4 1.06 0.437 4.0 [26.92] [11.10] [101.60] 0.220 [5.59] - TE-5 1.33 0.735 1.0 0.032 1.0 [33.78] [18.67] [25.40] [0.813] [25.40] 0.144 [3.66] 0.500 [12.70] TD-5 1.32 0.688 6.0 [33.53] [17.48] [152.40] 0.220 [5.59] - www.vishay.com 56 C - - - Terminal Strength: 2 pounds pull test (TE) Vibration: Per MIL-T-27 (TE) Shock: Per MIL-T-27 (TE) B Max. G E 0.375 ± 0.125 [9.53 ± 3.18] E - - - MATERIAL SPECIFICATIONS Coating: Vinyl (TD), non-flammable, abrasion and moisture resistant. Resists most cleaning agents (Consult factory for chemicals which may be used) Standard Terminals: Tinned copper (TE) Stranded, tinned copper, Teflon insulated (TD) Encapsulant: Epoxy (TE) Gauge: TE-3 = 22 AWG, TD-3 = 26 AWG TE-4 = 20 AWG, TD-4 = 24 AWG TE-5 = 20 AWG, TD-5 = 24 AWG For technical questions contact [email protected] Document Number: 34078 Revision: 02-Jun-06 TE and TD Filter Inductors, Toroid Vishay Dale DESCRIPTION TE-3 Q0 TR 5 mH ±1% EB e2 MODEL Q TYPE TC CODE INDUCTANCE VALUE INDUCTANCE TOLERANCE PACKAGE CODE JEDEC LEAD (Pb)-FREE STANDARD T E GLOBAL PART NUMBER T E Q 3 MODEL O Q TYPE R 5 B 0 PACKAGE CODE TC CODE 0 F 1 INDUCTANCE VALUE INDUCTANCE TOLERANCE DC RESISTANCE AND SELF-RESONANT FREQUENCIES (Typical Values) MODEL INDUCTANCE TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-3, TD-3 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-4, TD-4 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 TE-5, TD-5 50.0 µH 100.0 µH 332.0 µH 1.0 mH 3.32 mH 10.0 mH 15.0 mH 33.2 mH 100.0 mH 332.0 mH 1.0 H 4.0 H 150.0 µH 1.0 mH 2.0 mH 10.0 mH 20.0 mH 100.0 mH 1.0 H 2.0 H 1.0 mH 3.32 mH 5.0 mH 10.0 mH 33.2 mH 100.0 mH 332.0 mH 1.0 H 2.0 H Q0 DCR (Ohms) Q3 Q4 SELF-RESONANT FREQUENCY (MHz) Q0 Q3 Q4 0.68 1.0 3.3 6.9 24.0 84.0 106.0 0.54 2.8 5.5 27.0 54.0 1.8 5.2 6.5 13.0 49.0 133.0 - 1.5 4.1 14.0 17.0 40.0 138.0 555.0 1500.0 0.7 1.4 4.9 9.6 56.0 570.0 1200.0 1.8 2.4 8.8 27.0 80.0 222.0 475.0 0.82 2.3 5.9 9.1 18.0 58.0 220.0 670.0 2700.0 0.78 2.5 5.0 23.0 260.0 520.0 1.7 3.9 11.0 44.0 121.0 217.0 7.6 5.1 2.9 1.4 0.79 0.40 0.34 2.6 1.0 0.64 0.24 0.18 0.80 0.44 0.33 0.21 0.12 0.061 - 1.1 0.57 0.29 0.24 0.14 0.08 0.04 0.021 0.75 0.54 0.21 0.15 0.059 0.016 0.013 0.32 0.20 0.11 0.057 0.032 0.016 0.012 1.0 0.55 0.25 0.21 0.12 0.077 0.038 0.019 0.009 0.45 0.18 0.13 0.051 0.014 0.011 0.15 0.086 0.044 0.024 0.012 0.008 STANDARD INDUCTANCE VALUE The following standardization chart is offered for your design and ordering convenience. Each value listed is within one percent of the preceding and succeeding values shown. All decade multiples of these values, within the range shown for each model in the chart, are Vishay Dale standard values. (Example: For a TE-3, 200 µH, 20 mH and 200 mH are all decade multiples of 2.00 and are all standard values.) Document Number: 34078 Revision: 02-Jun-06 1.00 1.02 1.05 1.07 1.10 1.13 1.15 1.18 1.21 1.24 1.27 1.30 1.33 1.37 1.40 1.43 1.47 1.50 1.54 1.58 1.62 1.65 1.69 1.74 1.78 1.82 1.87 1.91 1.96 2.00 2.05 2.10 2.15 2.21 2.26 2.32 2.37 2.43 2.49 2.55 2.61 2.67 2.74 2.80 2.87 2.94 3.00 3.01 3.09 3.16 3.24 3.32 3.40 3.48 3.57 3.65 For technical questions contact [email protected] 3.74 3.83 3.92 4.00 4.02 4.12 4.22 4.32 4.42 4.53 4.64 4.75 4.87 4.99 5.00 5.11 5.23 5.36 5.49 5.62 5.76 5.90 6.00 6.04 6.19 6.34 6.49 6.65 6.81 6.98 7.00 7.15 7.32 7.50 7.68 7.87 8.00 8.06 8.25 8.45 8.66 8.87 9.00 9.09 9.31 9.53 9.76 www.vishay.com 57 TE and TD Filter Inductors, Toroid Vishay Dale PERFORMANCE GRAPHS: INDUCTANCE VS DC BIAS, INDUCTANCE VS AC EXCITATION TE-3, TD-3 % INDUCTANCE CHANGE 0 DC EFFECT -5 Q3 - 10 Q4 AC EFFECT Q0 - 15 DC EFFECT - 20 - 25 Q3 Q4 1 10 100 1000 10,000 INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH TE-4, TD-4 Q0 DC EFFECT % INDUCTANCE CHANGE 0 -5 - 10 Q4 Q3 - 15 - 20 DC EFFECT - 25 Q4 1 10 100 AC EFFECT Q3 1000 10,000 INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH TE-5, TD-5 DC EFFECT % IN DU CT A NCE CHA N GE 0 Q0 -5 Q4 - 10 Q3 AC EFFECT - 15 DC EFFECT - 20 - 25 Q4 1 10 100 Q3 1000 10,000 INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH www.vishay.com 58 For technical questions contact [email protected] Document Number: 34078 Revision: 02-Jun-06 TE and TD Filter Inductors, Toroid Vishay Dale PERFORMANCE GRAPHS: TYPICAL Q VS FREQUENCY TE-3, TD-3 TE-4, TD-4 Q0 Q0 1000 “Q” “Q” 1000 100 3.3 mH 1 mH 330 µH 150 µH 100 50 µH 15 mH 20 mH 10 10 mH 100 1000 10,000 10 100 FREQUENCY - kHz 1000 10,000 FREQUENCY - kHz Q3 Q3 1000 “Q” 1000 “Q” 1 mH 10 10 100 1 H 100 100 mH 1 H 1 mH 10 mH 100 mH 10 10 mH 1 mH 10 1 10 100 1 1000 10 100 1000 FREQUENCY - kHz FREQUENCY - kHz Q4 Q4 100 1000 “Q” “Q” 3.3 mH 10 1 H 4 H 100 mH 10 mH 2 mH 100 1 mH 7.5 H 100 mH 1 H 10 mH 10 1 1 10 100 1000 0.1 FREQUENCY - kHz Document Number: 34078 Revision: 02-Jun-06 For technical questions contact [email protected] 1 10 100 FREQUENCY - kHz www.vishay.com 59 TE and TD Filter Inductors, Toroid Vishay Dale PERFORMANCE GRAPHS: TYPICAL Q VS FREQUENCY TE-5, TD-5 Q0 Q3 1000 1000 “Q” “Q” 5 mH 100 100 mH 10 mH 100 1 mH 2 H 10 330 mH 100 mH 10 1 10 100 0.1 1000 1 FREQUENCY - kHz 10 100 FREQUENCY - kHz Q4 “Q” 1000 100 20 H 100 mH 1 H 10 mH 10 0.1 1 10 100 FREQUENCY - kHz MARKING - Vishay Dale - Model - Q type - TC code - Inductance value - Inductance tolerance - Date code www.vishay.com 60 For technical questions contact [email protected] Document Number: 34078 Revision: 02-Jun-06 Custom Products Vishay Dale Magnetic Components Switch Mode Magnetics CUSTOM DESIGN AND PRODUCTION Vishay Dale has extensive facilities for custom design and production of custom magnetics. Design applications include: • PWM, PSM and FM Transformers • Pulse and Trigger Transformers • Test Measurement Transformers • Power Transformers • Power, Filter and Switchmode Inductors • Telecommunications/Audio Transformers Design Input forms for the above design applications follow: PACKAGE DESIGN AND MATERIALS If you have your own electrical design we can add value by assisting you with selection of the most economical materials and efficient packaging design. Vishay Dale can provide designs to meet UL, CSA, IEEE and VDE requirements. Air Core Inductors Produced to your specifications for a wide range of high frequency applications including: Television, Radio (2-way, scanners, AM/FM), Satellite Communication, Cable TV Systems, Microwave, Test Equipment. ELECTRICAL SPECIFICATIONS Frequency: To 500MHz. Current: 10 amp maximum. Temperature: To + 130°C. MECHANICAL SPECIFICATIONS Winding: 1 to 32 turns, clockwise or counter-clockwise with variable pitch. Wire Gauge: #18 to #32. Leads: Automatically tinned. Various configurations available. Coil Inside Diameter: 0.079" to 0.354" [2.01mm to 8.99mm]. Coil Length: Up to 1.26" [32.0mm]. Inductive Products Can't find it in the catalog? Vishay Dale has the custom capability to design and produce a wide range of magnetic components to your requirements. POWER TRANSFORMERS: 50 to 400 Hz, VA ratings to 100 VA. Specialty models in Low Profile and PC Mount. INDUCTORS: Inductance values to 20 H, current ratings to 60 amps. Capability of many styles including: Toroidal, Laminated, E Core, Pot Core, Slug Core, Air Core. AUDIO TRANSFORMERS: Coupling Transformers and Hybrid Transformers available in PC Mount, Leadset and Low Profile. TRANSFORMERS: Switching Magnetics, Converter Transformers, Pulse Transformers, High Voltage Transformers. Document Number 34003 Revision 23-Jan-02 For technical questions, contact [email protected] www.vishay.com 61 Custom Products Vishay Dale Power Transformer Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ ELECTRICAL REQUIREMENTS Approximate Output Power: __________ VA Duty Cycle: _______ % Minimum Line Frequency (Hz): 50 60 400 1K 100K 150K 250K Other _______ Primary Input Voltage: 90 100 115 120 200 230 240 115/230 Other: ______ Maximum Temperature Rise (°C) 10 20 30 40 50 Other _______ Protection (Resettable or Single Use): Thermal Fused Other _______ Efficiency: _______ % Regulation: _______ % Isolation Voltage: _______ Vac/Vdc Agency Requirements: UL VDE CSA IEC Interwinding Capacitance (Ciw): _______ pF Leakage Ind. (LI): _______ PH SCHEMATIC Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Budgetary/Target Price: _______@_________ pcs Screen or Shield Thick: _________ Material: _________ Pin Requirements Outer Shield Thick: _________ Material: _________ PHYSICAL REQUIREMENTS Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Yes Yes Yes Yes Yes No No No No No Mounting Style: Thru Hole Surface Mount Flying Leads Length (Max.): __________ Width (Max.): __________ Height (Max.): __________ Other Grid Units: _________ Temperature Class (°C): 105 130 155 180 200 PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ____________________________________________________________________________________________________________________________ __________ Size __________ Efficiency __________ Cost (Continue on separate sheet if necessary) www.vishay.com 62 For technical questions, contact [email protected] Document Number 34003 Revision 23-Jan-02 Custom Products Vishay Dale Power Transformer Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ ELECTRICAL REQUIREMENTS Approximate Output Power: __________ VA Duty Cycle: _______ % Minimum Line Frequency (Hz): 50 60 400 1K 100K 150K 250K Other _______ Primary Input Voltage: 90 100 115 120 200 230 240 115/230 Other: ______ Maximum Temperature Rise (°C) 10 20 30 40 50 Other _______ Protection (Resettable or Single Use): Thermal Fused Other _______ Efficiency: _______ % Regulation: _______ % Isolation Voltage: _______ Vac/Vdc Agency Requirements: UL VDE CSA IEC Interwinding Capacitance (Ciw): _______ pF Leakage Ind. (LI): _______ μH SCHEMATIC Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Budgetary/Target Price: _______@_________ pcs Screen or Shield Thick: _________ Material: _________ Pin Requirements Outer Shield Thick: _________ Material: _________ PHYSICAL REQUIREMENTS Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Yes Yes Yes Yes Yes No No No No No Mounting Style: Thru Hole Surface Mount Flying Leads Length (Max.): __________ Width (Max.): __________ Height (Max.): __________ Other Grid Units: _________ Temperature Class (°C): 105 130 155 180 200 OTHER REQUIREMENTS PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ____________________________________________________________________________________________________________________________ __________ Size __________ Efficiency __________ Cost (Continue on separate sheet if necessary) Document Number 34003 Revision 23-Jan-02 For technical questions, contact [email protected] www.vishay.com 63 Custom Products Vishay Dale PWM, PSM, & FM Transformer Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ Primary Voltage ________ Vac/Vdc Frequency: ________________Hz Secondary Voltage ________ Vac/Vdc Isolation Voltage: ________________Vac/Vdc Secondary Current ________ A(Max.) Duty Cycle: __________% Driver Current ________ A(Max.) Circuit Type: PWM PSM FM Other _____________ Size of Storage Capacitors ________ F Driver Type: SCR FET PWM Other______________ Maximum Temperature rise (°C) 10 20 30 40 50 Other________ Protection (Resettable or single use): Thermal Fused Other ___________ Build to Agency Requirements: UL VDE CSA IEC MIL-Spec _________________________________________ Certify to Agency Requirements: UL VDE CSA IEC MIL-Spec ___________________________________________ Leakage L: __________PH(Max.) Ciw: __________ pF(Max.) ET: __________V-Psec SCHEMATIC Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Other Requirements: ____________________ ____________________ Voltage: __________ Current: __________ L: __________ Voltage: __________ Current: __________ Rect: __________ AC or DC Rms or Peak HW FW FWB Budgetary/Target Price: _______@_________ pcs. Outer Shield Thick: Material: Screen or Shield Thick: __________ Material: __________ Pin Requirements PHYSICAL REQUIREMENTS Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Yes Yes Yes Yes Yes No No No No No Mounting Style: Thru Hole Surface Mount Flying Leads Length (Max.): __________ Width (Max.): __________ Height (Max.): __________ Other Temperature Class (°C): 105 130 155 180 200 Grid Units: _________ OTHER REQUIREMENTS PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ______________________________________________________________ (Continue on separate sheet if necessary) __________ Size __________ Efficiency __________ Cost www.vishay.com 64 For technical questions, contact [email protected] Document Number 34003 Revision 23-Jan-02 Custom Products Vishay Dale Power, Filter and Switchmode Inductor Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ Application: Power/Energy Storage or Filter/Frequency Selection ELECTRICAL REQUIREMENTS L: DC Bias: L @ DC Bias: Q Min. @ nominal L: % of Saturation (Max.): AC Current or Voltage Level: DC Current or Voltage Level: H Adc H % Aac or Vac Adc or Vdc Impedance: _________ Ohms @ ___________ Hz Frequency (range): SRF: ET: DCR (Max.): Dielectric Rating: Hz Hz V-Psec Ohms Vac/Vdc Operating Temperature Range: __________ to _______ Maximum Temperature Rise (°C): 10 20 30 40 50 ___ Buck and Boost Inductors SCHEMATIC Input Voltage Output Voltage Switching Frequency: Maximum DC Output Current: Minimum DC Output Current: Maximum Duty Cycle: Minimum Duty Cycle: AC Ripple: Voltage: __________ AC or DC Current: __________ Rms or Peak Other: __________ Voltage: __________ AC or DC Current: __________ Rms or Peak Other: __________ Voltage: __________ AC or DC Current: __________ Rms or Peak Other: __________ V V Hz A A % % % Budgetary/Target Price: _________@____ pcs. Voltage: __________ AC or DC Current: __________ Rms or Peak Other: __________ Outer Shield Thick: _________ Material: _________ Screen or Shield Thick: _________ Material: _________ Pin Requirements PHYSICAL REQUIREMENTS Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Yes Yes Yes Yes Yes No No No No No Mounting Style: Vertical or Horizontal Thru Hole Surface Mount Flying Leads Inside Diameter (Min.): Length (Max.): Width (Max.): Height (Max.): __________ __________ __________ __________ Other ______ Grid Units: _________ Temperature Class (°C): 105 130 155 180 200 OTHER REQUIREMENTS PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ______________________________________________________________ (Continue on separate sheet if necessary) __________ Size __________ Efficiency __________ Cost Document Number 34003 Revision 23-Jan-02 For technical questions, contact [email protected] www.vishay.com 65 Custom Products Vishay Dale Telecommunications/Audio Transformer Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ Application Type: Modem Audio xDSL ELECTRICAL REQUIREMENTS Frequency Range: _____Hz to _____Hz Power Rating: ________ Watts Frequency Response: ref_____Hz ±______db from_____Hz Primary Voltage:________ Vac/Vdc to_______Hz Primary Impedance: ________ Ohms Insertion/Transducer Loss: ±_____db(Max.) or ±_____db Secondary Impedance: ________ Ohms @______Hz Turns Ratio: ________ (if known) Longitudinal Transverse Balance: Isolation Voltage: ________ Vac/Vdc ______db(Min.) from_______Hz to _______Hz DC Loop Current: ________mA dc ______db(Min.) from_______Hz to _______Hz Maximum Drive Level: ________ dbm Vrms Crosstalk: ______db or better from_____Hz to_____Hz ref Resistance: ________ Ohms w/_______spacing. Distortion: ________% Maximum Return Loss: ________ db(Min.) Leakage L: __________μH(Max.) Ciw: __________ pF(Max.) DCR: __________Ohms SCHEMATIC Z: ________ L: ________ DC current: ________ Z: __________ L: __________ Output: Single Push-Pull Z: ________ L: ________ DC current: ________ Z: __________ L: __________ Output: Single Push-Pull Z: ________ L: ________ DC current: ________ Z: __________ L: __________ Output: Single Push-Pull Z: ________ L: ________ DC current: ________ Z: __________ L: __________ Output: Single Push-Pull Modem Specifications: V.22 V.29 V.32 V.34 V.90 Budgetary/Target Price: __________@_____ pcs. Pin Requirements Outer Shield Thick: Material: __________ Screen or Shield Thick: Material: Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Build or Certify to Agency Requirements: UL/CSA FCC BABT Other _______________________ Yes Yes Yes Yes Yes No No No No No Mounting Style: Thru Hole Surface Mount Flying Leads Inside Diameter (Min.): Length (Max.): Width (Max.): Height (Max.): Other Grid Units: _________ Temperature Class (°C): 105 130 155 180 200 OTHER REQUIREMENTS PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ______________________________________________________________ (Continue on separate sheet if necessary) __________ Size __________ Efficiency __________ Cost www.vishay.com 66 For technical questions, contact [email protected] Document Number 34003 Revision 23-Jan-02 Custom Products Vishay Dale Test & Measurement Transformer Design Information CONTACT INFORMATION Contact Person _________________________________ E-Mail __________________________________________ Phone # _____ - _____ - ______ Fax # _____ - _____ - ______ Company _________________________ General Application of this product: _____________________________________________________________________ ELECTRICAL REQUIREMENTS Frequency range: _____Hz to__ref_______Hz Primary Voltage: ________ Vac/Vdc Primary Current Range: ________Ohms Desired Secondary Voltage: ________Ohms Load/Burden Resistance: ____________Ohms Isolation Voltage: ________________Vac/Vdc DC Current: _______________mAdc Turns Ratio: ________(if known) Accuracy Required: ________ % Maximum Phase Error Angle: _______________@ 10% _______________@ 100% Ratio Error: ________@ 10% ________@ 100% Operating Temperature Range: __________to___________ Dielectric Rating: ________Vac/Vdc SCHEMATIC Voltage: __________ Current: __________ Other: __________ Voltage: __________ Current: __________ RL: __________ AC or DC Rms or Peak Ohms Voltage: __________ Current: __________ Other: __________ Voltage: __________ Current: __________ RL: __________ AC or DC Rms or Peak Ohms Voltage: __________ Current: __________ Other: __________ Voltage: __________ Current: __________ RL: __________ AC or DC Rms or Peak Ohms Voltage: __________ Current: __________ Other: __________ Voltage: __________ Current: __________ RL: __________ AC or DC Rms or Peak Ohms Screen or Shield Thick: _________ Material: _________ Outer Shield Thick: _________ Material: _________ Other Requirements: ____________________ ____________________ Other Requirements: ____________________ ____________________ Other Requirements: ____________________ ____________________ Budgetary/Target Price: _______@_________ pcs. Pin Requirements PHYSICAL REQUIREMENTS Flame Retardant: Standard Varnish: Encapsulated: Hermetically Sealed: Shielded: Yes Yes Yes Yes Yes No No No No No Mounting Style: Vertical or Horizontal Thru Hole Surface Mount Flying Leads Inside Diameter (Min.): ___________ Length (Max.): ___________ Width (Max.): ___________ Height (Max.): ___________ Other _____ Grid Units: _________ Temperature Class (°C): 105 130 155 180 200 OTHER REQUIREMENTS PRIORITIZATION (1-HIGHEST) ______________________________________________________________ ______________________________________________________________ ______________________________________________________________ (Continue on separate sheet if necessary) __________ Size __________ Efficiency __________ Cost Document Number 34003 Revision 23-Jan-02 For technical questions, contact [email protected] www.vishay.com 67 Custom Products Vishay Dale www.vishay.com 68 Custom Design Grid For technical questions, contact [email protected] Document Number 34003 Revision 23-Jan-02 Definitions Vishay Dale Inductor and Magnetic Product Terminology INTRODUCTION ILB IFC LPT IMC IHSM LPE IM TJ IRF LPC IHB The scope of this application note is to define the terminology associated with inductors and their applications. Some of these terms are listed in the component data sheets. Many terms go beyond the specification of inductors. These terms describe issues associated with inductor design and performance, magnetic materials and theory and applications. A thorough understanding of these terms and definitions will aid in the selling, procurement and application of inductor products. DEFINITIONS AIR CORE INDUCTORS (See Ceramic Core and Phenolic Core.) Bobbins AMBIENT TEMPERATURE The temperature of still air immediately surrounding a component or circuit. A typical method to measure ambient temperature is to record the temperature that is approximately 1/2 inch from the body of the component or circuit. Axial Leaded ATTENUATION The relative decrease in amplitude of a given parameter. Attenuation measurements are common for voltage, current and power. It is usually expressed in units of decibels (dB). For a power ratio, one dB = 10 Log10 (P1/P2). A dB is equal to 20 Log 10 (l 1 /l 2 ) for current and 20 Log10 (V1/V2) for voltage ratios. AXIAL INDUCTOR An inductor constructed on a core with concentric leads on opposite ends of the core. Axial inductors are available for both power applications and RF applications, and are available in many core materials including the basic phenolic, ferrite and powdered iron types. Both rod and bobbin shapes are utilized. Axial inductors are very suitable for tape and reel packaging for auto placement. (See Inductor.) Radial Leaded Leadless BOOST REGULATOR (DC-DC) A basic DC-DC switching converter topology that takes an unregulated input voltage, and produces a higher, regulated output voltage. This higher output voltage is achieved by storing energy in an input inductor and then transferring the energy to the output by turning a shunt switch (transistor) on and off. Simplified Boost Regulator Axial Leaded Inductor D L + + + BOBBIN CORE V in A core with the shape of a bobbin or spool which contains flanges. Bobbin cores are available with and without leads and in the axial and radial form. (See Axial Inductor and Radial Inductor.) Document Number 34053 Revision 06-Mar-02 Q C V out - For technical questions, contact [email protected] - www.vishay.com 69 Definitions Inductor and Magnetic Product Terminology Vishay Dale BUCK REGULATOR (DC-DC) COLOR CODE CHART A basic DC-DC switching converter topology that takes an unregulated input voltage, and produces a lower, regulated output voltage. This output voltage is achieved by chopping the input voltage with a series connected switch (transistor) which applies pulses to an averaging inductor and capacitor circuit. Simplified Buck Regulator L Q + + + V in D C - V out - COLOR SIGNIFICANT FIGURES OR DECIMAL POINT MULTIPLIER 0 1 2 3 4 5 6 7 8 9 — — 1 10 100 1000 10,000 — — — — — — — Black Brown Red Orange Yellow Green Blue Violet Gray White None Silver Gold INDUCTANCE TOLERANCE — ± 1% ± 2% ± 3% ± 4% — — — — — ± 20% ± 10% ± 5% CERAMIC CORES COMMON-MODE NOISE Ceramic is one of the common materials used for inductor cores. Its main purpose is to provide a form for the coil. In some designs it also provides the structure to hold the terminals in place. Ceramic has a very low thermal coefficient of expansion. This allows for relatively high inductance stability over the operating temperature ranges. Noise or electrical interference that is common to both electrical lines in relation to earth ground. Ceramic has no magnetic properties. Thus, there is no increase in permeability due to the core material. Ceramic core inductors are often referred to as “air core” inductors. Ceramic core inductors are most often used in high frequency applications where low inductance values, very low core losses and high Q values are required. CHOKE (See RF Choke.) CLOSED MAGNETIC PATH Magnetic core shapes designed to contain all of the magnetic flux generated from an excited winding(s). Inductors made with these core types are considered to be shielded inductors. Shielding, however, is a matter of degree. Common core shapes that are considered to have closed magnetic paths are toroids, E-cores and most pot cores. Shielded bobbins also offer a high degree of shielding and may be considered to have closed magnetic paths for most practical purposes. Common core shapes that are considered to have open magnetic flux paths are rod cores and unshielded bobbin cores. (See Shielded Inductor.) COPPER LOSS The power lost by current flowing through the winding. The power loss is equal to the square of the current multiplied by the resistance of the wire (I2R). This power loss is transferred into heat. CORE LOSSES Core losses are caused by an alternating magnetic field in the core material. The losses are a function of the operating frequency and the total magnetic flux swing. The total core losses are made up of three main components: Hysteresis, eddy current and residual losses. These losses vary considerably from one magnetic material to another. Applications such as higher power and higher frequency switching regulators and RF designs require careful core selection to yield the highest inductor performance by keeping the core losses to a minimum. CORE SATURATION (See Saturation Current.) CURIE TEMPERATURE The temperature above which a ferrite core loses its magnetic properties. The core's permeability typically increases dramatically as the core temperature approaches the curie temperature which causes the inductance to increase. The permeability drops to near unity at the curie temperature which causes the inductance to drop dramatically. The curie point is the temperature at which the initial permeability has dropped to 10% of its original value at room temperature. DC-DC CONVERTER COILS Another common name for inductors. (See Inductor.) COLOR CODES Inductor color codes have been standardized. The color marks or bands represent the inductor's value and tolerance. Following is a table that translates the colors and numbers: www.vishay.com 70 A circuit or device that converts a DC input voltage to a regulated output voltage. The output voltage may be lower, higher or the same as the input voltage. Switching regulator DC-DC circuits most often require an inductor or transformer to achieve the regulated output voltage. Switching regulator circuits can achieve a higher level of power efficiency when compared to non-switching techniques. (See Boost Regulator and Buck Regulator.) For technical questions, contact [email protected] Document Number 34053 Revision 06-Mar-02 Definitions Inductor and Magnetic Product Terminology DCR (DC RESISTANCE) The resistance of the inductor winding measured with no alternating current. The DCR is most often minimized in the design of an inductor. The unit of measure is ohms, and it is usually specified as a maximum rating. DC component of the impedance is simply the DC resistance of the winding. The AC component of the impedance includes the inductor reactance. The following formula calculates the inductive reactance of an ideal inductor (i.e., one with no losses) to a sinusoidal AC signal. Z = XL = 2Sf L DIFFERENTIAL-MODE NOISE Also known as normal-mode noise, it is electrical interference that is not common to both electrical lines but present between both electrical lines. DISTRIBUTED CAPACITANCE In the construction of an inductor, each turn of wire or conductor acts as a capacitor plate. The combined effects of each turn can be represented as a single capacitance known as the distributed capacitance. This capacitance is in parallel with the inductor. This parallel combination will resonate at some frequency which is called the self-resonant frequency (SRF). Lower distributed capacitances for a given inductance value will result in a higher SRF value for the inductor and vice versa. (See SRF.) EMI EMI is an acronym for Electromagnetic Interference. It is unwanted electrical energy in any form. EMI is often used interchangeably with “Noise”. EDDY CURRENT LOSSES Eddy current losses are present in both the magnetic core and winding of an inductor. Eddy currents in the winding (or conductor) contribute to two main types of losses: losses due to proximity effects and skin effects. As for the core losses, an electric field around the flux lines in the magnetic field is generated by alternating magnetic flux. This will result in eddy currents if the magnetic core material has electrical conductivity. Losses result from this phenomenon since the eddy currents flow in a plane that is perpendicular to the magnetic flux lines. EPOXY COATED INDUCTOR Inductors that have been coated with epoxy as opposed to having a molded case, shrink wrapped tubing or left with an open construction body. Epoxy coated inductors typically have smooth edges and surfaces. The epoxy coat acts as an insulation. Both radial and axial styles can be found with epoxy coated surfaces. FERRITE CORE Ferrite is a magnetic material which consists of a mixed oxide of iron and other elements that are made to have a crystalline molecular structure. The crystalline structure is created by firing the ferrite material at a very high temperature for a specified amount of time and profile. The general composition of ferrites is xxFe2O4 where xx represents one or several metals. The most popular metal combinations are manganese and zinc (MnZn) and nickel and zinc (NiZn). These metals can be easily magnetized. FILTER A circuit or device whose purpose is to control electrical energy at a given frequency or over a range of frequencies. Groups of passive components are commonly used to construct many types of filters. These passive components include resistors, capacitors and inductors. IMPEDANCE The impedance of an inductor is the total resistance to the flow of current, including the AC and DC component. The Document Number 34053 Revision 06-Mar-02 Vishay Dale L is in henries and f is in hertz. This equation indicates that higher impedance levels are achieved by higher inductance values or at higher frequencies. Skin effect and core losses also add to the impedance of an inductor. (See Skin Effect and Core Losses.) IMPEDANCE ANALYZER Test instrument capable of measuring a wide range of impedance parameters, gain and phase angle. In testing inductors, impedance analyzers can measure inductance, Q, SRF, insertion loss, impedance and capacitance. They operate in a much more automatic fashion in comparison to Q Meters. Some impedance analyzers have a wider test frequency range than a Q meter. INCREMENTAL CURRENT The DC bias current flowing through the inductor which causes an inductance drop of 5% from the initial zero DC bias inductance value. This current level indicates where the inductance can be expected to drop significantly if the DC bias current is increased further. This applies mostly to ferrite cores in lieu of powdered iron. Powdered iron cores exhibit “soft” saturation characteristics. This means their inductance drop from higher DC levels is much more gradual than ferrite cores. The rate at which the inductance will drop is also a function of the core shape. (See Saturation Current.) INDUCTANCE The property of a circuit element which tends to oppose any change in the current flowing through it. The inductance for a given inductor is influenced by the core material, core shape and size, the turns count and the shape of the coil. Inductors most often have their inductances expressed in microhenries (μH). The following table can be used to convert units of inductance to microhenries. Thus, 47mH would equal 47,000PH. 1 henry (H) = 106PH 1 millihenry (mH) = 103PH 1 microhenry (μH) = 1PH 1 nanohenry (nH) = 10-3PH INDUCTANCE TOLERANCE Standard inductance tolerances are typically designated by a tolerance letter. Standard inductance tolerance letters include: (See Color Codes.) LETTER F G H J K L M TOLERANCE ± 1% ± 2% ± 3% ± 5% ± 10% ± 15%* ± 20% *L = ± 20% for some Military Products. For technical questions, contact [email protected] www.vishay.com 71 Definitions Inductor and Magnetic Product Terminology Vishay Dale INDUCTOR A passive component designed to resist changes in current. Inductors are often referred to as “AC Resistors”. The ability to resist changes in current and the ability to store energy in its magnetic field, account for the bulk of the useful properties of inductors. Current passing through an inductor will produce a magnetic field. A changing magnetic field induces a voltage which opposes the field-producing current. This property of impeding changes of current is known as inductance. The voltage induced across an inductor by a change of current is defined as: V = L di/dt Thus, the induced voltage is proportional to the inductance value and the rate of current change. (See Inductance.) INPUT LINE FILTER A power filter placed on the input to a circuit or assembly that attenuates noise introduced from the power bus. The filter is designed to reject noise within a frequency band. Typically these filters are low-pass filters meaning they pass low frequency signals such as the DC power and attenuate higher frequency signals which consist of mainly noise. Band pass or low pass filters are commonly made up of inductor and capacitor combinations. (Also see Noise, Attenuation, EMI and Pi-Filter.) flux linkages and reactance of the individual strands. In other words, a Litz conductor has lower AC losses than comparable solid wire conductors which becomes important as the operating frequency increases. (See Skin Effect.) MAGNETIC WIRE Wire used to create a magnetic field such as those in magnetic components (inductors and transformers). Magnet wire is nearly 100% copper and must be made from virgin copper. It is offered with a number of different organic polymer film coatings. MATCHED IMPEDANCE The condition that exists when two coupled circuits are adjusted so that the output impedance of one circuit equals the input impedance of the other circuit connected to the first. There is a minimum power loss between two circuits when their connecting impedances are equal. MOLDED INDUCTOR An inductor whose case has been formed via a molding process. Common molding processes include injection and transfer molding. Molded inductors typically have well defined body dimensions which consist of smooth surfaces and sharper corners as compared to other case types such as epoxy coated and shrink wrap coatings. (See Inductor.) *KOOL MU® CORE MONOLITHIC INDUCTOR Kool Mu® is a magnetic material that has an inherent distributed air gap. The distributed air gap allows the core to store higher levels of magnetic flux when compared to other magnetic materials such as ferrites. This characteristic allows a higher DC current level to flow through the inductor before the inductor saturates. (See Multilayer Inductor.) Kool Mu® material is an alloy that is made up of basically nickel and iron powder (approx. 50% of each) and is available in several permeabilities. It has a higher permeability than powdered iron and also lower core losses. Kool Mu® is required to be pressed at a much higher pressure than powdered iron material. The manufacturing process includes an annealing step that relieves the pressure put onto the powdered metals which restores their desirable magnetic properties. Thus, the powdered particles require a high temperature insulation as compared to powdered iron. Kool Mu® performs well in power switching applications. The relative cost is significantly higher than powdered iron. LAMINATED CORES Cores constructed by stacking multiple laminations on top of each other. The laminations are offered in a variety of materials and thicknesses. Some laminations are made to have the grains oriented to minimize the core losses and give higher permeabilities. Each lamination has an insulated surface which is commonly an oxide finish. Laminated cores are used in some inductor designs but are more common in a wide variety of transformer applications. LITZ WIRE Wire consisting of a number of separately insulated strands that are woven or bunched together such that each strand tends to take all possible positions in the cross section of the wire as a whole. The current through each individual strand is divided equally since this wire design equalizes the *Kool Mu® is a registered trademark of Magnetics, Inc. www.vishay.com 72 MPP CORE MPP is an acronym for molypermalloy powder. It is a magnetic material that has an inherent distributed air gap. The distributed air gap allows the core to store higher levels of magnetic flux when compared to other magnetic materials such as ferrites. This characteristic allows a higher DC current level to flow through the inductor before the inductor saturates. The basic raw materials are nickel, iron and molybdenum. The ratios are: approximately 80% nickel, 2% - 3% molybdenum, and the remaining is iron. The manufacturing process includes an annealing step as discussed in the Kool Mu® definition. MPP stores higher amounts of energy and has a higher permeability than Kool Mu®. Cores are offered in 10 or more permeability selections. The core characteristics allow inductors to perform very well in switching power applications. Since higher energy can be stored by the core, more DC current can be passed through the inductor before the core saturates. The cost of MPP is significantly higher than Kool Mu®, powdered irons and most ferrite cores with similar sizes. (See Saturation Current.) MULTILAYER INDUCTOR An inductor constructed by layering the coil between layers of core material. The coil typically consists of a bare metal material (no insulation). This technology is sometimes referred to as “non-wirewound”. The inductance value can be made larger by adding additional layers for a given spiral pattern. NOISE Unwanted electrical energy in a circuit that is unrelated to the desired signal. Sources of noise are most often generated by some type of switching circuit. Common sources include switching voltage regulators and clocked signals such as digital circuits. For technical questions, contact [email protected] Document Number 34053 Revision 06-Mar-02 Definitions Inductor and Magnetic Product Terminology Vishay Dale OHM POLYOLEFIN TUBING The unit of measurement for resistance and impedance. Resistance is calculated by Ohm's Law: A common shrink wrap (tubing) used in the electronic industry. It is often used to provide insulation or protect wire insulation such as coil windings. Polyolefin tubing is a polymer which can be provided to meet various degrees of flammability requirements. R = V/l V = voltage l = current. where R = resistance POWDERED IRON CORE OPERATING TEMPERATURE RANGE Range of ambient temperatures over which a component can be operated safely. The operating temperature is different from the storage temperature in that it accounts for the component's self temperature rise caused by the winding loss from a given DC bias current. This power loss is referred to as the “copper” loss and is equal to: Power Loss = (DCR) (l2dc). This power loss results in an increase to the component temperature above the given ambient temperature. Thus, the maximum operating temperature will be less than the maximum storage temperature: Maximum Operating Temperature = Storage Temperature - Self Temperature Rise (See Core Losses.) Powdered iron is a magnetic material that has an inherent distributed air gap. The distributed air gap allows the core to store higher levels of magnetic flux when compared to other magnetic materials such as ferrites. This characteristic allows a higher DC current level to flow through the inductor before the inductor saturates. Powdered iron cores are made of nearly 100% iron. The iron particles are insulated from each other, mixed with a binder (such as phenolic or epoxy) and pressed into the final core shape. The cores are cured via a baking process. Other characteristics of powdered iron cores include: they are typically the lowest cost alternative and their permeabilities typically have a more stable temperature coefficient than ferrites. (See Saturation Current.) Q PERMEABILITY (CORE) The permeability of a magnetic core is the characteristic that gives the core the ability to concentrate lines of magnetic flux. The core material, as well as the core geometry, affect the core's “effective permeability”. For a given core shape, size and material, and a given winding, higher permeability magnetic materials result in higher inductance values as opposed to lower permeability materials. PHENOLIC CORE Phenolic is a common material used for inductor cores. Many are made of a polyester base that have high temperature characteristics. It is also common for phenolic cores to have high flammability ratings such as UL94V-0. Phenolic cores also provide high strength and are more economical than ceramic cores. Phenolic has no magnetic properties. Thus, there is no increase in permeability due to the core material. Phenolic core inductors are often referred to as “air core” inductors and are most often used in high frequency applications where low inductance values, very low core losses and high Q values are required. PI-FILTER The Q value of an inductor is a measure of the relative losses in an inductor. The Q is also known as the “quality factor” and is technically defined as the ratio of inductive reactance to effective resistance and is represented by: Q= XL Re = 2SfL Re Since XL and Re are functions of frequency, the test frequency must be given when specifying Q. XL typically increases with frequency at a faster rate than Re at lower frequencies, and vice versa at higher frequencies. This results in a bell shaped curve for Q vs frequency. Re is mainly comprised of the DC resistance of the wire, the core losses and skin effect of the wire. Based on the above formula, it can be shown that the Q is zero at the self resonant frequency since the inductance is zero at this point. Q METER A standard instrument used to measure the inductance and Q of small RF inductors. The Q meter is based on a stable, continuously variable oscillator and a resonant circuit which is connected to the part to be tested. A filter consisting of two capacitors connected in parallel with a series inductor. These filters are commonly found near DC-DC converters to filter ripple current and voltage. The Q is proportional to the voltage across the internal calibrated variable capacitor. The voltage is measured by an internal RF voltmeter. The capable test frequency range is near 22kHz to 70MHz. Basic Pi-Filter RF CHOKE Another name for a radio frequency inductor which is intended to filter or choke out signals. (See Inductor.) + V in + C1 - Document Number 34053 Revision 06-Mar-02 L C2 V out - RFI RFI is an acronym for Radio-Frequency Interference. It is an older and more restrictive term that is used interchangeably with “EMI”. (See EMI.) For technical questions, contact [email protected] www.vishay.com 73 Definitions Vishay Dale Inductor and Magnetic Product Terminology RADIAL INDUCTOR SRF (SELF-RESONANT FREQUENCY) An inductor constructed on a core with leads exiting from the same side of the inductor body as to be mounted in the same plane. Radial inductors most often refer to two leaded devices but technically include devices with more than two leads as well. Some common core shapes include rod cores, bobbins and toroids. (See Inductor.) The frequency at which the inductor's distributed capacitance resonates with the inductance. It is at this frequency that the inductance is equal to the capacitance and they cancel each other. The inductor will act purely resistive with a high impedance at the SRF point. Radial Inductor Styles The distributed capacitance is caused by the turns of wire layered on top of each other and around the core. This capacitance is in parallel to the inductance. At frequencies above the SRF, the capacitive reactance of the parallel combination will become the dominant component. Also, the Q of the inductor is equal to zero at the SRF point since the inductive reactance is zero. The SRF is specified in MHz and is listed as a minimum value on product data sheets. (Also see Distributed Capacitance.) SHIELDED INDUCTOR RATED CURRENT The level of continuous DC current that can be passed through the inductor. This DC current level is based on a maximum temperature rise of the inductor at the maximum rated ambient temperature. The rated current is related to the inductor's ability to minimize the power losses in the winding by having a low DC resistance. It is also related to the inductor's ability to dissipate this power lost in the windings. Thus, the rated current can be increased by reducing the DC resistance or increasing the inductor size. For low frequency current waveforms, the RMS current can be substituted for the DC rated current. The rated current is not related to the magnetic properties of the inductor. (See Incremental Current and Saturation Current.) REACTANCE The imaginary part of the impedance. (See Impedance.) RIPPLE VOLTAGE The periodic alternating voltage imposed on the voltage output of a switching voltage converter. The ripple voltage is normally specified as a peak-to-peak value. SATURATION CURRENT The DC bias current flowing through the inductor which causes the inductance to drop by a specified amount from the initial zero DC bias inductance value. Common specified inductance drop percentages include 10% and 20%. It is useful to use the 10% inductance drop value for ferrite cores and 20% for powdered iron cores in energy storage applications. An inductor designed for its core to contain a majority of its magnetic field. Some inductor designs are self shielding. Examples of these are magnetic core shapes which include toroids, pot cores and E-cores. Magnetic core shapes such as slug cores and bobbins require the application of a magnetic sleeve or similar method to yield a shielded inductor. It should be noted that magnetic shielding is a matter of degree. A certain percentage of the magnetic field will escape the core material. This is even applicable for toroidal cores as lower core permeabilities will have higher fringing fields than will high permeability toroidal cores. (See Closed Magnetic Path.) SKIN EFFECT Skin effect is the tendency for alternating current to flow near the surface of the conductor in lieu of flowing in a manner as to utilize the entire cross-sectional area of the conductor. This phenomenon causes the resistance of the conductor to increase. The magnetic field associated with the current in the conductor causes eddy currents near the center of the conductor which opposes the flow of the main current near the center of the conductor. The main current flow is forced further to the surface as the frequency of the alternating current increases. (See Litz Wire.) SLUG CORE A core with the shape of a cylindrical rod. Slug cores typically refer to cores with no leads. Axial leaded slug cores are also very common. Non-leaded slug cores are typically used in power filtering applications. They exhibit higher flux density characteristics than other core shapes as most of the magnetic energy is stored in the air around the core. (See Axial Inductors and Radial Inductors.) Slug Cores The cause of the inductance to drop due to the DC bias current is related to the magnetic properties of the core. The core, and some of the space around the core, can only store a given amount of magnetic flux density. Beyond the maximum flux density point, the permeability of the core is reduced. Thus, the inductance is caused to drop. Core saturation does not apply to “air-core” inductors. (See Incremental Current and Permeability.) www.vishay.com 74 For technical questions, contact [email protected] Non-Leaded Leaded Document Number 34053 Revision 06-Mar-02 Definitions Inductor and Magnetic Product Terminology Vishay Dale STORAGE TEMPERATURE RANGE TEST FREQUENCY Range of ambient temperatures over which a component can be stored safely. (See Operating Temperature Range.) The frequency at which inductors are tested for either inductance or Q or both. Some test frequencies used widely in the industry include: SWITCHING FREQUENCY COMMON TEST FREQUENCIES The operating frequency of a switching regulator. TEST FREQUENCY INDUCTOR/VALUE MEASURED SWITCHING REGULATOR A circuit that is designed to regulate the output voltage, from a given input voltage, by using a closed control loop design. The most common switching regulator types involve a magnetic component, such as an inductor or transformer, that is used to store and transfer energy to the output by having the current switched on and off. (See Boost Regulator and Buck Regulator.) 1kHz Power Inductors (Wide Value Range) 0.079MHz RF Inductors (above 10,000PH to 100,000PH) 0.250MHz RF Inductors (above 1,000PH to 10,000PH) 0.790MHz RF Inductors (above 100PH to 1,000PH) 2.5MHz RF Inductors (above 10PH to 100PH) 7.9MHz RF Inductors (above 1PH to 10PH) TAPE WOUND CORES 25MHz RF Inductors (above .10PH to 1PH) Cores made by rolling strips of alloy iron into a toroidal shape. The metal strips have a precisely controlled thickness which are coated with a very thin insulation material to prevent the metal in the layers to make contact with each other. The finished cores have an outside coating to protect the metal layers and they are offered in a variety of material mixes. Tape wound cores are capable of storing high amounts of energy and contain a high permeability. Their major disadvantage is that they are relatively expensive when compared to other core types. (See Toroidal Inductor.) 50MHz RF Inductors (.01PH to 0.1PH) Most of these test frequencies have been designated by military specifications. However, there are some conflicting frequency assignments among the military specifications. There is a present trend to assign test frequencies that match the user frequencies. This is particularly true for very low values. These user frequencies do not match those listed above. VOLT MICROSECOND CONSTANT TEMPERATURE RISE The increase in surface temperature of a component in air due to the power dissipation in the component. The power dissipation for an inductor includes both copper and core losses. TOROIDAL INDUCTOR An inductor constructed by placing a winding(s) on a core that has a donut shaped surface. Toroidal cores are available in many magnetic core materials within the four basic types: Ferrite, Powdered Iron, Alloy and High Flux and Tape Wound. Characteristics of toroidal inductors include: self shielding (closed magnetic path), efficient energy transfer, high coupling between windings and early saturation. The product of the voltage applied across the winding and the time for the magnetizing current to reach 1.5 times the linear extrapolation of the current waveform. This constant is a measure of the energy handling capability of a transformer or inductor. It is dependent upon the core area, core material (including the saturation flux density of the core), the number of turns of the winding and the duty cycle of the applied pulse. VOLUME RESISTIVITY (CORE) The ability of a core to resist the flow of electrical current either through the bulk of the material or on its surface. The unit of the volume resistivity is Ohm - cm. Core volume resistivity becomes an issue in inductor designs where the leads/terminals come in contact with the core material. This type includes axial and radial inductors that have leads epoxied into the core. As for core materials, high permeability ferrites present the most concern as their volume resistivity is typically the lowest. Toroidal Inductors Under certain conditions, a low resistive path can be realized between two inductor terminals if they are in contact with a low resistivity core. The inductor, under these conditions, will lose its higher impedance characteristics. Surface Mount Through Hole Document Number 34053 Revision 06-Mar-02 For technical questions, contact [email protected] www.vishay.com 75 Engineering Note Vishay Dale Frequency Dependance of Inductor Testing and Correlation of Results Between Q Meters and Impedance Meters This engineering note is in response to questions raised regarding differences of inductance testing results between Vishay Dale products tested using a “Q” meter as the standard and similar inductor products produced by other manufacturers that use an impedance meter as the standard. It will also discuss the frequency dependance of inductance and Q (Quality Factor) when testing. The primary values used to specify an inductor or coil are inductance, Q, Self-Resonant Frequency (SRF), and Direct Current Resistance (DCR). The first two parameters, inductance and Q, are very dependant on the testing frequency and the instrument used for testing. Inductance is specified in Henries, usually with a tolerance. Q, being an indication of relative losses within an inductor, is unitless, and is based on the ratio of inductive reactance (XL) and effective resistance (Re) at frequency (XL/Re). As can be seen from this formula, Q is very dependent on frequency. At lower frequencies, the inductive reactance (XL) changes faster than effective resistance (Re); at higher frequencies, the reverse is true. SRF is specified in Hertz and DCR in Ohms. Many Vishay Dale leaded and surface mount inductors are referenced from what has been the industry standard test instrument: the HP4342A Q meter (it is important to note that using the Q meter as the standard does not mean that the product is necessarily tested on that meter, but only that values are referenced back to what a Q meter would read if it was testing the part). This common industry test method/instrument has historical ties back to military specifications and standards and is still in wide use throughout the industry as the standard by which values are determined. Recently, the impedance analyzer has been gaining preference as the new standard for inductance measurements of radio frequency coils (especially commercial surface mount products). The following is a brief description of the reasons for this trend. The Q meter is made up of a variable frequency signal generator, a calibrated variable capacitor, and a high impedance RF voltmeter. There are several sources of error when testing with a Q meter. The first is Residual Inductance which is defined as the sum of the internal inductance of the Q meter as well as the inductance of any test leads or fixtures. It is determined by using a shorting bar with a known inductance value. This value is then subtracted from any Measured Inductance to give the Effective Inductance. The next error is called Distributed Capacitance which is defined as the total distributed capacitance of the inductor under test. Distributed Capacitance is only a concern with inductors with large inductance values (typically above 1mH). The fundamental difficulty with measuring inductance and Q is that coil inductance, parasitics1 of the coil and test fixture, and Q are highly dependant on the test frequency and the configuration of the test instrument and fixture. Q meters require the use of a test fixture that has parasitics that can vary from one test fixture to another. This variance requires compensation before testing to get accurate and repeatable results. It is also important to understand that the Q meter operates by resonating the coil under test with a variable capacitor. At resonance, the meter indicates the capacitance value on a dial that the test operator must judge by reading the dial. The resolution of the analog dial often introduces parallax errors that add to the inaccuracy in the measurement. 1 Unwanted stray inductance and capacitance inherent in the product's construction. www.vishay.com 76 For technical questions, contact [email protected] Document Number 34093 Revision 28-Feb-02 Engineering Note Vishay Dale Commercially available Q meters have inductance measurement accuracies of no better than 3%. The accuracy can be improved by the use of setup standards called correlation pieces or samples. The correlation samples are used as the standard for a specific component value and are then used to “calibrate” the meter every time testing of components is performed. The use of correlation samples has been the traditional industry test method used to improve accuracy of Q meters, and results in little error and provides consistent readings. However, this correlation process has significant disadvantages. For the best accuracy, correlation sample standards must be established and shared between the manufacturer and the customer. Also, each Q meter must be “calibrated” with the correlation standard before each test. Because of the inherent difficulties in using a Q meter accurately, the use of impedance analyzers as the standard has become much more common. Impedance analyzers (i.e., HP4191, HP4194) have accuracies that can be better than ± 1% for impedances near 50 ohms and a machine to machine repeatability of approximately 1%. Overall session-to-session test repeatability on the same instrument is also 1%. The use of impedance analyzers also eliminates the need for correlation samples. In addition, the analyzers have digital readouts which remove the potential for problems associated with dial reading/parallax errors. Selection of a test instrument will influence test results. Different instruments have different capabilities and accuracies. As stated, the frequency used during testing will also cause a variation in test results. Even the tolerance of a coil will change with frequency because of the variances in parasitics within the coil (i.e., a 5% tolerance coil tested at one frequency may only be a 10% tolerance coil at another frequency). Below is a table that shows the typical variations that can be expected for the same coil tested on different instruments and at different frequencies. TYPICAL VARIATIONS I N ST RU ME N T FR EQ U E NCY IN DUC TA NCE HP4342A Q meter 25MHz 682.3nH HP4192A 0.130MHz 607.0nH 592.7nH HP4192A 10MHz Booton 62AD 1MHz 594.0nH Tektronix LC130 0.130MHz 1300.0nH HP4191A 100MHz 1065.0nH As can be seen in the table above, it is difficult to get similar results between two different meters or by testing at two different frequencies. This difference is more pronounced when using meters with different test methods (Q meter versus impedance analyzer). If the testing instrument and or method is different between the manufacturer and the customer, it is possible to establish a correlation between the two readings by testing a controlled set of parts on both machines and averaging the difference to establish a correlation factor. This is only recommended when the test instruments are different and should not be used when different testing frequencies are involved. Following the trend toward the use of impedance analyzers as the standardized industry test method, and to eliminate correlation issues, Vishay Dale offers testing (at customer request) using the impedance analyzer as the standard in lieu of the Q meter. However, because reliable Q measurements can be made on the Q meter, and because of the number of existing customer designs that are based on this standard, the HP4342A Q meter will remain the reference instrument for all Q measurements. If the alternate test method is desired, then we can accommodate customer needs by designating the product with a special part number or by linking the special testing requirements to the customer part number. The IMC-1812-91, IMC-1210-91, ISC-181291, and ISC-1210-91 are among several parts that reflect this test method and should be considered for future use if the customer requires value testing based on the impedance analyzer standard. It should be noted that changing from standard product to the special “-” series of products like the -91 will, in most cases, have little or no impact on price or delivery. Vishay Dale will continue to monitor testing trends and will make changes as required to meet overall customer needs. If you have further questions regarding this issue, please contact the factory at (605) 665-9301. Document Number 34093 Revision 28-Feb-02 For technical questions, contact [email protected] www.vishay.com 77 Packaging Methods Vishay Dale Leaded Magnetics Packaging Methods TAPE AND REEL in inches [millimeters] Reel Pack 11 3/32 [281.78] 9/16 to 5/8 [14.29 to 15.88] Hole IM-1 PACKAGE CODE R36 IM-2 RJ1 RJ4 R36 IM-4 RJ1 RJ4 R36 IM-6 RJ1 RJ4 R16 MODEL IM-6-38 RJ2 RJ5 R16 RJ2 RJ5 R16 RJ2 RJ5 R16 RJ2 R16 IM-6RFCS-40 RJ2 RJ5 R36 IM-10-22 IM-10-28 IM-10-31 IM-10-37 IM-10-46 IM-10RFCL-12 IMS-2WWD-40 RJ1 RJ4 R16 R07 N/A R16 N/A RB5 R36 IMS-2 RJ1 RJ4 R36 IM-8 IM-9 IM-10 REEL SIZE 7.5 12 7.5 7.5 7.5 12 7.5 7.5 7.5 12 7.5 7.5 7.5 12 7.5 12 12 7.5 12 12 7.5 12 12 7.5 7.5 12 7.5 12 7.5 12 7.5 12 12 12 12 12 7.5 12 7.5 7.5 7.5 12 7.5 7.5 RJ1 RJ4 CARRIER TAPE WIDTH (W) 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.88[73.15] 2.06[52.39] 2.19[55.63] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] COMPONENT PITCH (P) 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.4[10.16] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] UNITS/ REEL 1500 4000 400 1000 1500 4000 400 1000 1000 2500 400 1000 500 1000 400 1000 1000 400 1000 800 400 1000 800 400 500 1000 400 1000 500 1000 400 1000 500 250 500 250 1500 4000 400 1000 1500 4000 400 1000 PACKAGE CODE B08 UNITS/ BULK 200 B08 200 B08 200 B08 200 B08 100 B08 80 B08 70 B08 200 B08 200 B08 B08 B08 B08 B08 B08 B08 100 70 50 40 25 50 200 B08 200 NOTE: Shaded area indicates bulk packaging. www.vishay.com 78 For technical questions, contact: [email protected] Document Number: 34148 Revision: 23-Jan-02 Packaging Methods Leaded Magnetics Packaging Methods Vishay Dale TAPE AND REEL in inches [millimeters] MODEL IMS-5 PACKAGE CODE R36 IMS-5WD-40 RJ1 RJ4 RB6 IR-2 R36 IR-4 RJ2 RJ5 R36 IRF-1 RJ1 RJ4 R36 IRF-3 RJ1 RJ4 R36 IRF-24 IRF-36 IRF-46 IHD-1 RJ1 RJ4 R36 R36 R36 R16 IHD-3 IHA-10x IHA-20x IHA-30x IHA-50x IH-3 IH-5 IH-10 IH-15 IHM-2 IHB-1 IHB-2 IHB-3 IHB-4 IHB-5 IHB-6 IHV PC WVL TJ RA3 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A TE-3 TE-4 TE-5 TD-3 TD-4 TD-5 N/A N/A N/A N/A N/A N/A REEL SIZE 7.5 12 7.5 7.5 7.5 12 7.5 12 7.5 12 7.5 12 7.5 7.5 7.5 12 7.5 7.5 7.5 12 7.5 7.5 12 12 12 7.5 12 12 - CARRIER TAPE WIDTH (W) 2.50[63.50] 2.50[63.50] 2.50[63.50] 2.50[63.50] 2.50[63.50] 2.50[63.50] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.06[52.39] 2.87[72.90] - COMPONENT PITCH (P) 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.2[5.08] 0.4[10.16] 0.4[10.16] 0.6[15.24] - UNITS/ REEL 1000 2500 400 1000 1000 2500 1500 4000 400 1000 1000 2500 400 1000 1500 4000 400 1000 1000 2500 400 1000 5000 5000 5000 200 800 200 - PACKAGE CODE B08 UNITS/ BULK 200 B08 200 B08 200 B08 200 B08 200 B08 200 N/A N/A N/A B08 50 B08 B01 B01 B01 B01 B15 B15 B15 B15 P12 B40 B40 B40 B40 B40 B40 B48 F09 F09 B09 T07 T07 T07 T07 P09 P09 P09 various various various various various various various various various 20 various various various 16 16 16 various 120 120 various various 35 42 36 5 2 2 NOTE: Shaded area indicates bulk packaging. Document Number: 34148 Revision: 23-Jan-02 For technical questions, contact: [email protected] www.vishay.com 79 Packaging Methods Leaded Magnetics Packaging Methods Vishay Dale MILITARY PART ORDERING EXAMPLES TRANSFORMERS AND INDUCTORS 1. Military Specification 2. Specification Sheet Number 3. Specification Sheet Dash Number Indicating Value and Electrical Ratings MIL-T-27E (Basic [TF]) (Established Reliability - None) M27 215 05 Dale TE1.0 2 % = 1 2 3 Type 3Q0TR mH MIL-C-15305E (Basic [LT]) (Established Reliability MIL-C-39010) LT 4 K Dale IM-2 (0.10 µH to 1.00 µH) 10 % = 1 2 3 Type NOTE: Parts will be color banded. Value per Military Standard dash numer. 1. Style 2. Grade and Class 3. Family K = Coil, Radio Frequency, Fixed 1. Specification Sheet 2. Temperature Class: A = 105, B = 125 3. Value: R = Decimal Point 4. Tolerance: J = 5, K = 10, L = 20 5. Failure Rate Level MIL-C-39010D (Established Reliability) NOTE: Parts will be M39010/01 A 1R0 J R = Dale IMS-5A-ER 1.0µH 5% printed as shown. 1 2 3 4 5 Type MILITARY COLOR CODES - RF COILS BAND B & C BAND D BAND E COLOR SIGNIFICANT FIGURES or DECIMAL POINT MULTIPLIER* or SIGNIFICANT FIGURE INDUCTANCE TOLERANCE Black 0 1 - Brown 1 10 ±1% Red 2 100 ±2% Orange 3 1000 ±3% Yellow 4 10 000 ±4% Green 5 - - Blue 6 - - Violet 7 - - Gray 8 - - White 9 - - None** - - ± 20 % Silver - - ± 10 % Gold Decimal Point - ±5% Significant Figures or Decimal Point Multiplier or Significant Figure Inductor Identifier (Silver) Tolerance Radio Frequency Coils A B C D E Twice the Width of Other Bands Band “A” is twice the width of the other bands and is silver in color to identify part as an inductor. *** For Inductance Values Less Than 10 either Band “B” or Band “C” will be gold and will represent the decimal point. The other two bands (“B” and “D” or “C” and “D”) will represent significant figures. For Inductance Values of 10 or More Band “B” and Band “C” represent significant figures and Band “D” is the Multiplier. For small units, dots may be used in place of bands. * The multiplier is the factor by which two significant figures are multiplied to yield the nominal inductance value. ** Indicates body color. *** Coated inductors are marked with four color bands, the first being a double wide significant figure or decimal point in lieu of the double wide silver inductor identifier. www.vishay.com 80 For technical questions, contact: [email protected] Document Number: 34148 Revision: 23-Jan-02 Notes Vishay Dale For technical questions, contact [email protected] www.vishay.com 81 Notes Vishay Dale www.vishay.com 82 For technical questions, contact [email protected] WORLDWIDE SALES CONTACTS DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS THE AMERICAS VISHAY AMERICAS ONE GREENWICH PLACE SHELTON, CT 06484 UNITED STATES PH: +1-402-563-6866 FAX: +1-402-563-6296 ASIA VISHAY INTERTECHNOLOGY ASIA PTE LTD. 25 TAMPINES STREET 92 KEPPEL BUILDING #02-00 SINGAPORE 528877 PH: +65-6788-6668 FAX: +65-6788-0988 JAPAN VISHAY JAPAN CO., LTD. SHIBUYA 3F, GE EDISON BUILDING 3-5-16 SHIBUYA SHIBUYA-KU TOKYO 150-0002 JAPAN PH: +81-3-5464-6411 FAX: +81-3-5464-6433 EUROPE VISHAY ELECTRONIC GMBH GEHEIMRAT-ROSENTHAL-STR. 100 95100 SELB GERMANY PH: +49-9287-71-0 FAX: +49-9287-70435 VISHAY S.A. 4, RUE DE SALONIQUE 95101 ARGENTEUIL FRANCE PH: +33-1-39-98-22-00 FAX: +33-1-39-98-22-05 VISHAY LTD. PALLION INDUSTRIAL ESTATE SUNDERLAND, SR4 6SU GREAT BRITAIN PH: +44-191-514-4155 FAX: +44-191-567-8262 ONLINE INFORMATION For product information and a current list of sales reps and distributors, visit our website: www.vishay.com ONE OF THE WORLD'S LARGEST MANUFACTURERS OF DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS V I S H A Y I N T E R T E C H N O L O G Y, I N C . World Headquarters 63 Lincoln Highway Malvern, PA 19355-2143 USA w w w. v i s h a y. c o m © C o p y r i g h t V i s h a y I n t e r t e c h n o l o g y, I n c. R e g i s t e r e d Tr a d e m a r k s o f V i s h a y I n t e r t e c h n o l o g y, I n c. All rights reserved. Printed in the USA. Specifications subject to change without notice. Databook VSD-DB0058-0112