h Chip Resist or Feat ures Small size and light weight Suit able for bot h flow and re-flow soldering Reduct ion of assembly cost s and mat ching wit h placement machines Applicat ion Aut omot ive indust ry (indicat ors) Medical and milit ary equipment , Radio and t ape recorders Telecommunicat ion equipment , TV t uners and video cameras Comput ers, Pocket Calculat ors Explanation of Part Number and Ordering Procedure: 1 2 3 1 2 0 Product Type 4 5 6 7 8 9 10 11 12 13 14 6 S 4 J 0 1 2 J T 5 0 Wattage Packing Qty. Resistance Value Fill in t hese 4 digit s wit h Fill in t hese 2 digit s t he Chip Resist or t ypes as wit h t he Codes as t he 2 & 3 digit s are for t he follows: follows: significant figures of t he 9 ~ 9,000 pcs E-24 series: t he 1st digit is " 0" , 1. nd rd 1 ~ 1,000 pcs : : 0402 Normal size resist ance and t he 4t h indicat e A ~ 10,000 pcs 0603 WG=1/ 16W t he numbering of t he zeros B ~ 20,000 pcs 0805 WA=1/ 10W following; 1206 W8=1/ 8W 1210 W4=1/ 4W are for t he significant figures of 2010 W2=1/ 2W t he resist ance and t he 4t h digit 2512 1W=1W indicat e t he numbers of zeros 08P4 Small size 10P8 SA=1/ 10W-S 16P8 S8=1/ 8W-S E-96 series: t he 1st t o 3rd digit s 2. following. Tolerance Packaging Type S3=1/ 3W-S F=1% T=T/ R packing 07=3/ 4W-S G=2% B=Bulk in Poly bag Special: J=5% C=Bulk in casset t e S4=1/ 4W-S Special Feature 0 = NIL WH=1/ 32W Not e: 1. Special resist ance t olerance requirement available on a case-t o-case basis. Please indicat e when ordering. 2. Special T.C.R. requirement s can be supplied on a case-t o-case basis. Please indicat e when ordering. 3. Ordering procedure (Example: 1206 1/ 4W-S 5%1.2o75-5000) 1 h Chip Resist or Construction Power Rat ing and Dimension Type Power Rating at 70 0402 1/ 16W 0603 1/ 10W (1/ 16W) 0805 1/ 8W (1/ 10W) 1206 1/ 4W (1/ 8W) 1210 1/ 3W (1/ 4W) 2010 3/ 4W (1/ 2W) 2512 1W Max. Working Voltage 25V 50V 150V 200V 200V 200V 200V Operating Max. Tolerance Temp. Overload % ( ) Voltage 50V 100V 300V 400V 400V 400V 400V Dimension (mm) Resistance Range Standard Series -55~+125 Jumper 1 2 5 50 m 100 -1M 2 -3.3M 2 -3.3M E-96 E-24 E-24 1.000.10 0.500.05 0.350.05 0.200.10 0.250.10 -55~+125 Jumper 1 2 5 50 m 10 -1M 10 -1M 1 -10M E-96 E-24 E-24 1.600.10 0.80 -55~+125 Jumper 1 2 5 50 m 10 -1M 10 -1M 1 -10M E-96 E-24 E-24 +0.15 2.000.15 1.25 -0.10 -55~+125 Jumper 1 2 5 50 m 10 -1M 10 -1M 1 -10M E-96 E-24 E-24 3.100.15 1.55 -55~+125 Jumper 1 2 5 50 m 10 -1M 1 -10M 1 -10M E-96 E-24 E-24 3.100.10 2.600.15 0.550.10 0.500.25 0.500.20 -55~+125 Jumper 1 2 5 50 m 10 -1M 1 -10M 1 -10M E-96 E-24 E-24 5.000.10 2.500.15 0.550.10 0.600.25 0.500.20 -55~+125 Jumper 1 2 5 50 m 10 -1M 1 -10M 1 -10M E-96 E-24 E-24 6.350.10 3.200.15 0.550.10 0.600.25 0.500.20 2 L W +0.15 -0.10 +0.15 -0.10 H 1 2 0.450.10 0.300.20 0.300.20 0.550.10 0.400.20 0.400.20 0.550.10 0.450.20 0.450.20 h Chip Resist or Performance Specificat ions Characteristics Temperature coefficient JIS - C - 5202 5.2 Short - time overload JIS - C - 5202 5.5 Insulation resistance JIS - C - 5202 5.6 Dielectric withstanding voltage JIS - C - 5202 5.7 Terminal bending JIS - C - 5202 6.1.4 Soldering Heat JIS - C - 5202 6.4 Solderability JIS - C - 5202 6.5 Temperature cycling JIS - C - 5202 7.4 Load life in humidity JIS - C - 5202 7.9 Load Life JIS - C - 5202 7.10 Test Methods Limits Natural resistance change per temp. degree centigrade R2 - R1 x 106 (PPM / ) R1(t 2-t 1) R1 : Resistance value at room temperature (t 1) R2 : Resistance value at room temp. plus 100 (t 2) Permanent resistance change after the application of a potential of 2.5 times RCWV for 5 seconds. Apply 500V DC between protective coating and termination for 1 min, then measure. 5% 1 --- 10 400PPM/ 11 --- 10M 200PPM/ 1% 10 --- 100 200PPM/ 101 --- 1M 100PPM/ 5%Tolerance ( 2.0%+ 0.1 ) 1%Tolerance ( 1.0%+ 0.1 ) 1,000 Mega ohm or more Apply 500V AC between protective coating and termination for 1 minute. No evidence of flashover mechanical damage, arcing or insulation break down Twist of Test Board: Y / X = 5 / 90mm for 10 seconds. ( 1.0%+ 0.05 ) Dip the resistor into a solder bath having a temperature of 260 5 and hold it for 10 1 seconds. Test temperature of solder 235 5 . Dipping them in solder: 3 0.5 seconds. Resistance change after continuous five cycles for duty cycle specified below: Step Temperature Time -55 3 1 30 mins. 2 Room temp. 10 - 15 mins. +125 2 3 30 mins. 4 Room temp. 10 - 15 mins. Resistance change after 1,000 hours (1.5 hours " on" , 0.5 hour " off" ) at RCWV in a humidity chamber controlled at 40 2 and 90 to 95%relative humidity. Permanent resistance change after 1,000 hours operating at RCWV, with duty cycle (1.5 hours " on" , 0.5 hour " off" ) at 70 2 ambient Resistance change rate is ( 1.0%+0.05 ) * RCWV = Rat ed Cont inuous Working Volt age = Rat ed Power x Resist ance Value Derating Curve 3 95%coverage Min. 5%Tolerance ( 1.0%+ 0.05 ) 1%Tolerance ( 0.5%+ 0.05 ) 5%Tolerance ( 3.0%+ 0.1 ) 1%Tolerance ( 1.0%+ 0.1 ) 5%Tolerance ( 3.0%+ 0.1 ) 1%Tolerance ( 1.0%+ 0.1 ) h Chip Resist or RMC 0603 E - 96 Mult iplier Code Code A Multiplier 10 B 0 10 C 1 10 D 2 10 E 3 10 F 4 G 5 10 10 Coding Formula XX Example: 10.2K X H 6 7 Y -1 10 Z -2 10 = 102 102 02 10 -3 10 = 02C C = 332 10-1 33.2 Multiplier Code X 51 Resistance Code X St andard E - 96 Values and 0603 Resist ance Code Value Code Value Code Value Code Value Code Value Code 100 01 162 21 261 41 422 61 681 81 102 02 165 22 267 42 432 62 698 82 105 03 169 23 274 43 442 63 715 83 107 04 174 24 280 44 453 64 732 84 110 05 178 25 287 45 464 65 750 85 113 06 182 26 294 46 475 66 768 86 115 07 187 27 301 47 487 67 787 87 118 08 191 28 309 48 499 68 806 88 121 09 196 29 316 49 511 69 825 89 124 10 200 30 324 50 523 70 845 90 127 11 205 31 332 51 536 71 866 91 130 12 210 32 340 52 549 72 887 92 133 13 215 33 348 53 562 73 909 93 137 14 221 34 357 54 576 74 931 94 140 15 226 35 365 55 590 75 953 95 143 16 232 36 374 56 604 76 976 96 147 17 237 37 383 57 619 77 150 18 243 38 392 58 634 78 154 19 249 39 402 59 649 79 158 20 255 40 412 60 665 80 4