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135E-R0075 Datasheet(PDF) 1 Page - RCD COMPONENTS INC. |
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135E-R0075 Datasheet(HTML) 1 Page - RCD COMPONENTS INC. |
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1 / 1 page Series 100 resistors offer exceptional performance at an economical cost. Superior stability results from welded construction and windings of premium grade resistance wire on thermally conductive ceramic cores. Hi-temp coating provides excellent environmental protection and solvent resistance. Tin (or SnPb) coated copper or copperweld leads offer excellent solderabilty and extended shelf life. PULSE CAPABILITY: Excellent pulse capability results from wirewound construction. The pulse/overload capability can often be economically enhanced by a factor of 50% or more via special Option P processing. Pulse capability is highly dependent on size and resistance value, consult factory (available up to 500 joules). 100 SERIES PRECISION POWER WIREWOUND RESISTORS SILICONE COATED 1/2 WATT TO 50 WATT World’s widest range of axial lead WW resistors! 0.005 Ω to 2MΩ, tolerances to ±0.005%, 1/2W to 50W, numerous design options Low cost! Available on exclusive SWIFTTM delivery program TYPICAL PERFORMANCE10 FA039G Sale of this product is in accordance with GF-061. Specifications subject to change without notice. 1 Working voltage= (PR)1/2, not to exceed max rating (multiply by 0.7 for Opt.X). 2 Allow .032” additional for Opt X or values <1 Ω 3Coating overflow onto each lead ≤2xD 4Until existing inventory is depleted, type 175 may be .397” [10mm] dia.x 1.81 [46] long with 1.3”[33] lead length 5 Military p/n’s are given for reference only and do not imply qualification or exact interchangeability. 6 Increased range avail. 7 Resis. value measured at 3/8” ±1/16” from each end of body 8 Heavier lead gauge option is recommended on low values to enable lower leadwire resis., increased current, and improved TC 9 Lead length applies to bulk packaged units (taped parts may be shorter, refer to taping spec.) 10 Dependent on value, options, etc INDUCTANCE: small sizes have inductance of 1- 50uH typ. Larger sizes and higher values typically have greater levels. For non-inductive design, specify Opt. X. The max. series inductance for Opt.X resistors at 0.5MHz is listed in table (per MIL-R-39007). Specialty constructions are available for even lower inductance levels (Opt.75 inductance = 50% of Opt.X, Opt.76 = 33% of Opt.X). OPTIONS Option X: Low Inductance Option P: Increased Pulse Capability Option F: Flameproof Coating Option ER: 100-Hour Burn-In Option B: Increased Power Radial leads (opt.R), low thermal emf (opt.E), matched sets, special marking, cut &formed leads, hi-rel screening, non-standard values, high voltage, etc. Customized components are RCD’s speciality! C2 1.375” Min9 Type 102 is 1.1” ↑ A3 D ↓ D C R e p y T L I M e p y T 5 e g a t t a W . d t S s g n i t a R e g a t t a W B . t p O s g n i t a R e c n a t s i s e R e g n a R 7 , 6 m u m i x a M e g a t l o V g n i t a R 6 , 1 ] m m e r a s t e k c a r b n i s r e b m u N [ S N O I S N E M I D A 3 C2 D8 ] 8 0 . [ 3 0 0 . ± V . r a h C U . r a h CV . r a h C U . r a h C] 8 5 . 1 [ 2 6 0 . ±] 1 8 . [ 2 3 0 . ±. d t Sl a n o i t p O 2 0 1- 8 . 0 5 . 00 . 1 8 . 01 0 . Ω K 2 -V 0 36 1 .0 . ±. 4 [ 38 . ±] 7 0 .0 . ±8 . 1 [ 2± ] 5 .0 2 0 .- 0 1 1) B 0 1 1 ( 1 8 W R0 . 1 8 . 00 . 2 5 . 11 0 . Ω K 8 -V 0 42 .] 8 . ± . 6 [ 3 0 . ± 4] 6 1 . 2 [ 5 8 0 .0 2 0 .) 2 2 . t p o ( 4 2 0 . 5 1 1- 2 . 1 0 . 10 . 2 5 . 11 0 . Ω K 2 1 -V 5 4] 2 9 . 7 [ 2 1 3 .] 6 1 . 2 [ 5 8 0 .0 2 0 .) 2 2 . t p o ( 4 2 0 . 0 2 1- 2 . 1 0 . 1- -1 0 . Ω K 5 1 -V 0 5] 4 7 . 8 [ 4 4 3 .] 6 3 . 2 [ 3 9 0 .0 2 0 .) 2 2 . t p o ( 4 2 0 . 5 2 1 ) 0 8 W R B 5 2 1 ( 0 7 W R 8 . 1 5 . 1 5 . 2 0 . 2 1 0 . Ω K 0 2 - V 5 5 ] 3 . 0 1 [ 6 0 4 . ] 6 3 . 2 [ 3 9 0 . 0 2 0 . ) 2 2 . t p o ( 4 2 0 . 0 3 1- 0 . 2 6 . 1- -1 0 . Ω K 2 2 -V 5 6] 5 . 3 1 [ 0 3 5 .] 6 3 . 2 [ 3 9 0 .0 2 0 .) 2 2 . t p o ( 4 2 0 . 3 3 1- 0 . 3 0 . 20 . 4 0 . 35 0 0 . Ω K 0 2 -V 0 8] 0 0 . 9 [ 5 5 3 .] 6 9 . 3 [ 6 5 1 .2 3 0 .) 2 2 . t p o ( 4 2 0 . 5 3 1 9 6 W R 0 . 4 0 . 3 0 . 5 0 . 4 5 0 0 . Ω K 0 4 - V 0 4 1 ] 7 . 2 1 [ 0 0 5 . ] 8 7 . 4 [ 8 8 1 . 2 3 0 . ) 8 1 ( 0 4 0 . , ) 2 2 ( 4 2 0 . 0 4 19 7 W R0 . 4 0 . 30 . 5 0 . 45 0 0 . Ω K 0 5 -V 0 4 1] 2 . 4 1 [ 0 5 5 .] 8 7 . 4 [ 8 8 1 .2 3 0 .) 8 1 . t p o ( 0 4 0 . 5 4 1- 5 . 4 5 . 35 . 6 5 . 45 0 0 . Ω K 0 6 -V 0 8 1] 6 . 9 1 [ 0 7 7 .] 8 7 . 4 [ 8 8 1 .2 3 0 .) 8 1 . t p o ( 0 4 0 . 0 5 1- 5 . 4 5 . 30 . 7 0 . 55 0 0 . Ω K 0 6 -V 0 5 1] 7 . 2 1 [ 0 0 5 .] 2 7 . 5 [ 5 2 2 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 5 5 1- 0 . 5 0 . 40 . 8 0 . 65 0 0 . Ω K 0 0 1 -V 0 1 2] 9 . 5 1 [ 5 2 6 .] 2 7 . 5 [ 5 2 2 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 6 5 1- 0 . 6 0 . 5- -5 0 0 . Ω K 0 5 1 -V 0 0 3] 3 . 0 2 [ 0 0 8 .] 5 3 . 6 [ 0 5 2 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 0 6 1 4 7 W R 0 . 7 0 . 5 0 1 0 . 7 5 0 0 . Ω K 0 0 2 - V 0 0 4 ] 2 . 2 2 [ 5 7 8 . ] 2 9 . 7 [ 2 1 3 . 0 4 0 . ) 0 2 . t p o ( 2 3 0 . 5 6 17 6 W R5 . 7 0 . 6- -5 0 0 . Ω K 0 2 2 -V 0 5 4] 4 . 5 2 [ 0 0 0 . 1] 2 9 . 7 [ 2 1 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 0 7 1- 0 . 9 0 . 72 1 0 15 0 0 . Ω K 0 0 3 -V 0 5 5] 9 . 0 3 [ 0 0 2 . 1] 2 9 . 7 [ 2 1 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 1 7 1- 5 . 8 0 . 7- -5 0 0 . Ω K 0 5 2 -V 0 0 7] 2 . 2 4 [ 0 6 6 . 1] 8 2 . 5 [ 8 0 2 .2 3 0 .) 8 1 . t p o ( 0 4 0 . 2 7 1- 0 1 5 . 8- -5 0 0 . Ω K 0 0 4 -V 0 0 9] 3 . 3 5 [ 0 0 1 . 2] 2 7 . 5 [ 5 2 2 .2 3 0 .) 8 1 . t p o ( 0 4 0 . 3 7 1- 1 1 0 . 94 1 2 15 0 0 . Ω K 0 0 4 -V 0 5 6] 4 . 9 3 [ 0 5 5 . 1] 2 6 . 7 [ 0 0 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 5 7 1 4 8 7 , 8 6 W R 3 1 0 1 8 1 5 1 5 0 0 . Ω K 0 0 5 - V 0 0 9 0 2 7 . 1 4 ] 7 . 3 4 [ 0 5 3 . 4 ] 9 8 . 8 [ 0 4 0 . ) 0 2 . t p o ( 2 3 0 . 6 7 1- 2 1 0 1- -5 0 0 . Ω K 0 0 5 -V 0 0 8] 6 . 7 4 [ 5 7 8 . 1] 2 6 . 7 [ 0 0 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 8 7 1- 5 1 3 1- -1 0 . Ω K 0 5 7 -V 0 5 1 1] 2 . 1 6 [ 0 1 4 . 2] 9 8 . 8 [ 0 5 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 0 8 16 5 W R6 1 4 10 2 6 11 0 . Ω K 0 0 8 -V 0 0 0 1] 3 . 3 5 [ 0 0 1 . 2] 7 . 2 1 [ 0 0 5 .0 4 0 .- 5 8 1- 5 2 0 2- -5 1 0 . Ω M 1 -V 0 5 3 1] 1 . 1 7 [ 0 0 8 . 2] 7 . 2 1 [ 0 0 5 .0 4 0 .- 6 8 1- 0 3 5 20 1 0 . Ω M 1 -V 0 0 4 1] 3 0 1 [ 0 6 0 . 4] 9 8 . 8 [ 0 5 3 .0 4 0 .) 0 2 . t p o ( 2 3 0 . 0 9 1- 0 5 0 4- -5 2 0 . Ω -M 2V 0 0 5 1] 7 2 1 [ 0 0 0 . 5] 7 . 2 1 [ 0 0 5 .0 4 0 .- ) U . r a h C ( e f i L d a o L) W 0 1 > s e z i s n o % 1 ± ( % 5 . 0 ± k c o h S l a m r e h T% 2 . 0 ± e c n a t s i s e R e r u t s i o M% 2 . 0 ± n o i t a r b i V d n a k c o h S% 1 . 0 ± c e S 5 , d a o l r e v O0 9 1 - 0 6 1 W x 0 1 , 6 5 1 - 2 0 1 W d e t a r x 5 h t g n e r t S c i r t c e l e i D) 3 3 . t p o y f i c e p s V K 1 r o f ( V 0 0 5 d e e c x e o t t o n ( t n e r r u C . x a M ) g n i t a r e g a t l o v r o e g a t t a w , A 1 1 = s d a e l a i d " 0 2 0 . h t i w s r o t s i s e R A 0 3 = " 0 4 0 . , A 2 2 = " 2 3 0 . , A 5 1 = " 4 2 0 . ) C ° / m p p ( C T ≥ 0 1 Ω 1 Ω 9 . 9 - Ω 1 . 0 Ω 9 9 . - Ω 5 0 . Ω .-9 9 0 Ω 1 0 . Ω .-9 4 0 Ω ) . l i a v a m p p 0 1 & 5 ( m p p 0 2 ) . l i a v a m p p 0 3 , 0 2 , 0 1 ( m p p 0 5 ) . l i a v a m p p 0 5 , 0 3 , 0 2 ( m p p 0 9 ) . l i a v a m p p 0 0 2 , 0 0 1 , 0 5 ( m p p 0 0 3 ) . l i a v a m p p 0 0 3 , 0 0 2 , 0 0 1 ( m p p 0 0 6 e p y T D C R ≤ 0 5 Ω 0 5 > Ω X 0 4 1 - X 2 0 1H µ 2 . 0H µ 7 3 . 0 X 0 6 1 - X 5 4 1H µ 3 . 0H µ 6 . 0 X 8 7 1 - X 5 6 1H µ 5 6 . 0H µ 2 . 1 RESISTORS CAPACITORS COILS DELAY LINES Stock Stock Stock Stock DERATING (derate W/V/A ratings when ambient temp. exceeds 25°C): Char. U is the max. power for ±0.5% typ. load life stability & 275°C hotspot, Char. V is max. power for ±3% stability & 350°C hotspot P/N DESIGNATION: 135 - 102 - J B W Resis. Code 1% & tighter tols: 3 signif. digits & multiplier, e.g. R100= 0.1 Ω, 1R00= 1Ω,1000= 100Ω, 1001= 1KΩ. 2%-10%: 2digits & multiplier (R10= .1 Ω, 1R0=1Ω,100=10Ω,102=1K) Use extra digits as needed: R005, R0075, R012, etc. Optional TC: 5= 5ppm, 10= 10ppm, 20= 20ppm, 30= 30ppm, 50= 50ppm, 101= 100ppm, 201=200ppm (leave blank if std) RCD Type Options: X, R, V, P, F, ER, E, B, 76, 75, 22, 20, 18 (leave blank if standard) Tolerance: K=10%, J=5%, H=3%, G=2%, F=1%, D=0.5%, C=0.25%, B=0.1%, A=0.05%, Q=0.02%, T=0.01%, V=.005% Packaging: B= Bulk, T= T&R (avail. on type 102 to 176) Termination: W= Lead-free, Q= Tin/Lead (leave blank if either is acceptable) AMBIENT TEMPERATURE ( °C ) -65 25 50 75 100 125 150 175 200 225 250 275 300 325 350 100 75 50 25 0 CHAR. V CHAR. U Tol <0.1% RCD Components Inc, 520 E.Industrial Park Dr, Manchester, NH, USA 03109 rcdcomponents.com Tel: 603-669-0054 Fax: 603-669-5455 Email:sales@rcdcomponents.com 43 RoHS Term.W is RoHS compliant & 260°C compatible |
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