temperature sensitive precision wirewound resistors tcr?s from +80 to +6000 ppm rcd ptb series offer the same reliability and precision performance as the atb series except in a radial lead design. ptb series 175c rating ats series 350c rating rcd ats s eries of fer p recision wirewound resistor performance at economical pricing. ceramic core and silicone coating provide high operating temperature. the coating ensures maximum protection from environmental and mechanical damage (envir. performance per mil-prf-26). table 1. series atb, ats, atb resistance range rcd atb series are typically multi-layer bobbin-wound enabling higher resistance values. encapsulated in moisture-proof epoxy, series atb meets the environmental requirements of mil-r-93. operating temperature range is -55c to +175c. standard tolerances are 0.1%, 0.25%, 0.5%, 1%. atb series 175c rating atb series - axial lead, epoxy ats series - axial lead, silicone ptb series - radial lead, epoxy industry?s widest range of positive tcr resistors! available on exclusive swift tm delivery program! additional sizes available--most popular shown below choice of 15 standard temperature coefficients per table 1 d c r e p y t y d o b h t g n e l ] 8 . [ 1 3 0 . y d o b r e t e m a i d ] 4 . [ 5 1 0 . d a e l r e t e m a i d ) p y t ( e g a t t a w c 5 2 @ m p p 0 0 5 4 . s i s e r e g n a r 0 1 1 s t a] 5 3 . 6 [ 0 5 2 .] 6 3 . 2 [ 3 9 0 .] 1 5 . [ 0 2 0 .5 .1 ? 0 0 3 - ? 5 2 1 s t a] 3 . 0 1 [ 6 0 4 .] 6 3 . 2 [ 3 9 0 .] 1 5 . [ 0 2 0 .0 . 11 ? k 1 - ? 5 3 1 s t a] 7 . 2 1 [ 0 0 5 .] 8 7 . 4 [ 8 8 1 .] 1 8 . [ 2 3 0 .0 . 31 ? k 5 . 1 - 5 4 1 s t a] 6 . 0 2 [ 2 1 8 .] 8 7 . 4 [ 8 8 1 .] 1 8 . [ 2 3 0 .5 . 31 ? k 3 - 0 5 1 s t a] 7 . 2 1 [ 0 0 5 .] 4 5 . 5 [ 8 1 2 .] 2 0 . 1 [ 0 4 0 .5 . 31 ? k 2 - 5 5 1 s t a] 9 . 5 1 [ 5 2 6 .] 5 3 . 6 [ 0 5 2 .] 2 0 . 1 [ 0 4 0 .0 . 41 ? k 3 - 0 6 1 s t a] 2 . 2 2 [ 5 7 8 .] 2 9 . 7 [ 2 1 3 .] 2 0 . 1 [ 0 4 0 .0 . 51 ? k 4 - 0 7 1 s t a] 0 . 1 3 [ 0 2 2 . 1] 2 9 . 7 [ 2 1 3 .] 2 0 . 1 [ 0 4 0 .0 . 71 ? k 5 - 5 7 1 s t a] 2 . 5 4 [ 0 8 7 . 1] 3 5 . 9 [ 5 7 3 .] 2 0 . 1 [ 0 4 0 .0 . 0 11 ? k 0 1 - d c r e p y t y d o b h t g n e l ] 8 . [ 1 3 0 . y d o b r e t e m a i d ] 4 . [ 5 1 0 . d a e l r e t e m a i d ) p y t ( e g a t t a w c 5 2 @ m p p 0 0 5 4 . s i s e r e g n a r 0 0 2 b t a] 5 3 . 6 [ 0 5 2 .] 4 5 . 2 [ 0 0 1 .] 1 5 . [ 0 2 0 .5 0 .1 ? k 3 - 2 0 2 b t a] 5 3 . 6 [ 0 5 2 .] 8 1 . 3 [ 5 2 1 .] 5 3 6 . [ 5 2 0 .0 1 .1 ? k 5 - 4 0 2 b t a] 3 5 . 9 [ 5 7 3 .] 0 6 . 3 [ 2 4 1 .] 5 3 6 . [ 5 2 0 .2 1 .1 ? k 8 - 6 0 2 b t a] 3 5 . 9 [ 5 7 3 .] 5 7 . 4 [ 7 8 1 .] 5 3 6 . [ 5 2 0 .5 1 .1 ? k 5 1 - 0 0 1 b t a] 9 8 . 8 [ 0 5 3 .] 5 3 . 6 [ 0 5 2 .] 1 8 . [ 2 3 0 .5 2 .1 ? k 0 2 - 1 0 1 b t a] 7 . 2 1 [ 0 0 5 .] 5 3 . 6 [ 0 5 2 .] 1 8 . [ 2 3 0 .3 3 .1 ? k 0 3 - 2 0 1 b t a] 1 . 9 1 [ 0 5 7 .] 5 3 . 6 [ 0 5 2 .] 1 8 . [ 2 3 0 .0 5 .1 ? k 6 7 - 4 0 1 b t a] 1 . 9 1 [ 0 5 7 .] 3 5 . 9 [ 5 7 3 .] 1 8 . [ 2 3 0 .0 6 .1 ? k 4 1 1 - d c r e p y t y d o b h t g n e l ] 8 . [ 1 3 0 . . a i d y d o b ] 4 . [ 5 1 0 . d a e l r e t e m a i d ) . p y t ( d a e l g n i c a p s ] 4 . [ 5 1 0 . s t t a w c 5 2 @ m p p 0 0 5 4 . s i s e r e g n a r 1 0 4 b t p] 2 9 . 7 [ 2 1 3 .] 5 3 . 6 [ 0 5 2 .] 4 6 . [ 5 2 0 .] 8 0 . 5 [ 0 0 2 .5 2 .1 ? k 5 1 - 6 0 4 b t p] 7 . 2 1 [ 0 0 5 .] 3 5 . 9 [ 5 7 3 .] 1 8 . [ 2 3 0 .] 8 0 . 5 [ 0 0 2 .3 3 .1 ? k 0 4 - . p m e t . f e o c ) c / m p p ( . c . t e c n a r e l o t ) c / m p p ( r e i l p i t l u m e g n a r . s i s e r ) e g n a r . s e r m p p 0 0 5 4 x ( 0 8 +0 2 3 . 5 e h t e n i m r e t e d o t r e d r o n i e g n a r e c n a t s i s e r e l b a l i a v a e h t e s u , c t h c a e r o f 0 0 5 4 e h t s e m i t r e i l p i t l u m . e g n a r e c n a t s i s e r m p p e l p m a x e a h t i w r o t s i s e r a : e b n a c m p p 0 0 2 3 + f o c t a h t i w d e r u t c a f u n a m s a e c i w t e u l a v e c n a t s i s e r r o t s i s e r e m a s e h t s a h g i h . m p p 0 0 5 4 f o c t a h t i w f o c t a h t i w r o t s i s e r a h c a e r y l n o n a c m p p 0 0 0 6 + e c n a t s i s e r e h t f o d r i h t a 0 0 5 4 h t i w e l b a l i a v a e u l a v . e r i w m p p 0 0 1 +0 2 3 . 5 0 4 1 +0 4 0 . 5 0 8 1 +0 4 0 . 2 0 0 4 +0 4 5 . 4 0 5 6 +0 5 0 . 2 0 0 0 1 +0 0 1 0 . 3 0 0 4 1 +0 0 2 2 . 3 0 0 6 2 +0 0 2 3 . 3 0 0 2 3 +0 0 2 0 . 2 0 0 5 3 +0 0 3 7 . 2 ) t p ( 0 5 8 3 +0 8 4 . ) u c ( 0 0 9 3 +0 0 3 3 8 0 . ) e f i n ( 0 0 5 4 +0 0 3 0 0 . 1 ) i n ( 0 0 0 6 +0 0 4 3 3 . resistors capacitor s c oils delay lines rohs term.w is rohs compliant & 260 c compatible fa079 sale of this product is in accordance with gf-061. specifications subject to change without notice. p/n designation: a ts135 - 1000 - f b 452 w rcd type tolerance @ 25 c: j=5%, h=3%, g=2%, f=1%, d=0.5%, c=0.25%, b=0.1% temperature coefficient: 80 = 80ppm; 100ppm and higher, use 3 digit code: 101 =100ppm, 452 =4500 ppm, etc. packaging : b = bulk, t = tape & reel (axial lead only) resis.code 1%: 3 signif. figures & multiplier, (1r00=1 ? ,10r0=10 ?, 1000=100 ?, 1001=1k, etc.) resis.code 2 %-10%: 2 signif. figures & multiplier, (1r0=1 ? , 100=10 ?, 101=100 ?, 102=1k, etc.) termination w= lead-free, q= tin/lead (leave blank if either is acceptable, in which case rcd will select based on lowest price and quickest delivery rcd ? s at and pt series resistors offer inherent wirewound reliability and precision performance in all types of temperature sensing or compensating circuits. sensors are wound with various alloys to achieve wide range of temperature sensitivity. 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 85
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