ds-p ordering inform a tion 8 a mini a ture p o wer rel a y in ds rel a y series ds-p rel a y s fe a tures 1 . compact with high contact rating e v en with small 10 mm .394 inch (h) x 11 mm .433 inch (w) x 20 mm .787 inch (l) (dimension s , high capacity s witching is pr o vided : 1a, 8 a 250 v a c ; 2a and 1a1 b , 5 a 250 v ac . 2 . high s wit c hing capability high contact pressur e , l o w contact bounc e , and wiping ope r ation impr o v e resistance to w eld bonding . resistant against lamp load and dielect r ic loading : 1a achi e v es maxi m um s witching capacity of 2,000 v a (8a 250 v a c). rohs compatibility information: http://panasonic - denko.co.jp/ac/e/service/environment/index.jsp 3 . high sensitivity using the same type of high- per f o r mance polar magnetic circuits as ds rel a y s , b y matching the sp r ing load to the magnetic f orce of att r action, g reater sensitivity has been achi e v ed . the resultant pi c k up sensitivity of about 190 mw ma k es possi b le direct d r iving of t r ansistors and chip s . 4 . high breakd o wn v olt a g e breakd o wn v oltage has been r aised b y k eeping the coil and contacts sepa r at e . con f o r ms with fcc p a r t 68 5 . lat c hing types a v aila b le 6 . wide v ariation three types of contact ar r angement are of f ered : 1a, 2a, and 1a1 b . in addition, each is a v aila b le in standard and r e v ersed pola r ity type s . 7 . sealed construction all o ws automatic washing. 8 . complies with sa f ety standa r ds complies with j apan elect r ical appliance and mate r ial sa f ety l a w requirements f or ope r ating 200 v p o w er supply circuit s , and complies with ul, csa, and tv sa f ety standard s . typical applic a tions 1 . of?ce and industrial elect r onic d e vices 2 . t erminal d e vices of in f ormation p r ocessing equipment , su c h as printe r , data reco r de r . 3 . of?ce equipment (copie r , facsimile) 4 . measuring instruments 5 . nc ma c hines , temperature cont r olle r s and p r ogramma b le logic cont r olle r s. about cd-free contacts w e h a v e introduced cadmium free type products to reduce e n vironmental hazardous substance s . (the suf?x ?f ? should be added to the pa r t n umber) (note : the suf?x ?f ? is required only f or 1 f o r m a 1 f o r m b contact typ e . the 1 f o r m a and 2 f o r m a contact type is o r iginally cadmium fre e , the suf?x ?f ? is not required.) please replace pa r ts containing cadmium with cadmium-free products and e v aluate them with y our actual application be f ore use because the li f e of a rel a y depends on the contact mate r ial and load. bet w een contact and coil bet w een contacts 3,000 v r ms f or 1 min. 5,000 v surge breakd o wn v oltage 1,000 v r ms f or 1 min. 1,500 v surge breakd o wn v oltage dsp coil voltage dc 3, 5, 6, 9, 12, 24 v contact arrangement 1a: 1: 2a: 1 form a 1 form a 1 form b 2 form a operating function nil: l2: single side stable 2 coil latching polarity nil: r: standard polarity reverse polarity contact material ? agsno 2 type f: nil: 1 form a 1 form b 1 form a, 2 form a notes : 1. reverse polarity types available (add suffix-r) 2. ul/csa, tv approved type is standard. all rights rese r v ed ? c opyright panasonic electric works, ltd.
ds-p types standard pa c king : t ube : 50 pc s . ; case : 500 pc s . note : r e v erse pola r ity type are ma n u f actured b y lot upon receipt of orde r . self-clinching types are also a v aila b l e , please consult u s . r a ting 1 . coil data 1) single side sta b le 2) 2 coil latching contact ar r angement nominal coil v oltage g n i h c t a l l i o c 2 e l b a t s e d i s e l g n i s p a r t . o n t r a p . o n 1 f o r m a v 3 c d - 2 l - a 1 p s d v 3 c d - a 1 p s d c d v 3 v 5 c d - 2 l - a 1 p s d v 5 c d - a 1 p s d c d v 5 v 6 c d - 2 l - a 1 p s d v 6 c d - a 1 p s d c d v 6 v 9 c d - 2 l - a 1 p s d v 9 c d - a 1 p s d c d v 9 v 2 1 c d - 2 l - a 1 p s d v 2 1 c d - a 1 p s d c d v 2 1 v 4 2 c d - 2 l - a 1 p s d v 4 2 c d - a 1 p s d c d v 4 2 1 f o r m a 1 f o r m b f - v 3 c d - 2 l - 1 p s d f - v 3 c d - 1 p s d c d v 3 f - v 5 c d - 2 l - 1 p s d f - v 5 c d - 1 p s d c d v 5 f - v 6 c d - 2 l - 1 p s d f - v 6 c d - 1 p s d c d v 6 f - v 9 c d - 2 l - 1 p s d f - v 9 c d - 1 p s d c d v 9 f - v 2 1 c d - 2 l - 1 p s d f - v 2 1 c d - 1 p s d c d v 2 1 f - v 4 2 c d - 2 l - 1 p s d f - v 4 2 c d - 1 p s d c d v 4 2 2 f o r m a v 3 c d - 2 l - a 2 p s d v 3 c d - a 2 p s d c d v 3 v 5 c d - 2 l - a 2 p s d v 5 c d - a 2 p s d c d v 5 v 6 c d - 2 l - a 2 p s d v 6 c d - a 2 p s d c d v 6 v 9 c d - 2 l - a 2 p s d v 9 c d - a 2 p s d c d v 9 v 2 1 c d - 2 l - a 2 p s d v 2 1 c d - a 2 p s d c d v 2 1 v 4 2 c d - 2 l - a 2 p s d v 4 2 c d - a 2 p s d c d v 4 2 nominal coil v oltage pi c k-up v oltage (at 20 c 68 f ) drop-out v oltage (at 20 c 68 f ) nominal ope r ating current [ 10%] (at 20 c 68 f ) coil resistance [ 10%] (at 20 c 68 f ) nominal ope r ating p o w er max . all ow a b le v oltage (at 20 c 68 f ) 3v dc 80%v or less of nominal v oltage (initial) 10%v or more of nominal v oltage (initial) 100m a 30 300mw 130%v of nominal v oltage 3 8 a m 0 6 c d v 5 0 2 1 a m 0 5 c d v 6 0 7 2 a m 3 . 3 3 c d v 9 0 8 4 a m 5 2 c d v 2 1 0 2 9 , 1 a m 5 . 2 1 c d v 4 2 nominal coil v oltage set v oltage (at 20 c 68 f ) reset v oltage (at 20 c 68 f ) nominal ope r ating current [ 10%] (at 20 c 68 f ) coil resistance [ 10%] (at 20 c 68 f ) nominal ope r ating p o w er max . all ow a b le v oltage (at 20 c 68 f ) set coi l reset coi l set coi l reset coi l set coi l reset coil 3v dc 80%v or less of nominal v oltage (initial) 80%v or less of nominal v oltage (initial) 100m a 100m a 30 30 300m w 300mw 130%v of nominal v oltage 3 8 a m 0 6 a m 0 6 c d v 5 83 0 2 1 a m 0 5 a m 0 5 c d v 6 120 0 7 2 a m 3 . 3 3 a m 3 . 3 3 c d v 9 270 0 8 4 a m 5 2 a m 5 2 c d v 2 1 480 0 2 9 , 1 a m 5 . 2 1 a m 5 . 2 1 c d v 4 2 1,920 all rights rese r v ed ? c opyright panasonic electric works, ltd.
ds-p 2 . speci?cations notes : * 1 this v alue can change due to the s witching frequenc y , e n vironmental condition s , and desired reliability l e v el, there f ore it is recommended to che c k this with the actual load. * 2 w a v e is standard sho c k v oltage of 1.2 50 s according to jec-212-1981 *3 re f er to 6. conditions f or ope r ation, t r anspo r t and sto r age mentioned in ambient envi r onment. reference d at a s n o i t a c ? i c e p s m e t i s c i t s i r e t c a r a h c contact a m r o f 2 b m r o f 1 a m r o f 1 a m r o f 1 t n e m e g n a r r a m 0 3 . x a m . x a m , e c n a t s i s e r t c a t n o c l a i t i n i (by v oltage drop 6 v dc 1a) o n s g a d e h s a ? - u a l a i r e t a m t c a t n o c 2 type rating nominal s witching capacity (resisti v e load ) 8 a 250 v ac , 5a 30v d c 5 a 250 v ac , 5 a 30 v dc w 0 5 1 , a v 0 5 2 , 1 w 0 5 1 , a v 0 0 0 , 2 ) d a o l e v i t s i s e r ( r e w o p g n i h c t i w s . x a m c d v 5 2 1 , c a v 0 8 3 e g a t l o v g n i h c t i w s . x a m c d , c a a 5 c d a 5 , c a a 8 t n e r r u c g n i h c t i w s . x a m w m 0 0 3 r e w o p g n i t a r e p o l a n i m o n min . s witching capacity (re f erence v alue)* 1 10m a 5 v dc elect r ical cha r acte r istics insulation resistance (initial) min . 1,000m (at 500v dc) measurement at same location as ?initial breakd o wn v oltage ? section. breakd o wn v oltage (initial) ) . a m 0 1 : t n e r r u c n o i t c e t e d ( . n i m 1 r o f s m r v 0 0 0 , 1 s t c a t n o c n e p o n e e w t e b bet w een contact set s 2,000 v r ms (1 f o r m a 1 f o r m b , 2 f o r m a) (detection current : 10ma.) ) . a m 0 1 : t n e r r u c n o i t c e t e d ( . n i m 1 r o f s m r v 0 0 0 , 3 l i o c d n a t c a t n o c n e e w t e b surge breakd o wn v oltage* 2 v 0 0 0 , 5 l i o c d n a s t c a t n o c n e e w t e b t empe r ature r ise (at 65 c 149 f ) max . 55 c max . 40 c max . 55 c ope r ate time [set time] (at 20 c 68 f ) max . 10 ms [10 ms] (nominal v oltage applied to the coil, e xcluding contact bounce tim e .) release time [reset time] (at 20 c 68 f ) max . 5 ms [10 ms] (nominal v oltage applied to the coil, e xcluding contact bounce tim e .) (without diode) mechanical cha r acte r istics sho c k resistance s / m 6 9 1 . n i m l a n o i t c n u f 2 (half- w a v e pulse of sine w a v e : 11 ms ; detection time : 10 s .) s / m 0 8 9 . n i m e v i t c u r t s e d 2 (half- w a v e pulse of sine w a v e : 6 m s .) vib r ation resistance 0 1 : e m i t n o i t c e t e d ( m m 2 f o e d u t i l p m a e l b u o d t a z h 5 5 o t 0 1 l a n o i t c n u f s .) m m 5 . 3 f o e d u t i l p m a e l b u o d t a z h 5 5 o t 0 1 e v i t c u r t s e d expected li f e mechanical min . 5 10 7 (at 180 cpm) elect r ical min . 10 5 (resisti v e load) conditions conditions f or ope r ation, t r anspo r t and sto r age* 3 (not freezing and condensing at l o w tempe r ature) ambient tempe r ature : ?40 c to +60 c ?40 f to +140 f ambient tempe r ature : ?40 c to +65 c ?40 f to +149 f ambient tempe r ature : ?40 c to +60 c ?40 f to +140 f solder heating 250 c 482 f (10s), 300 c 572 f (5s), 350 c 662 f (3s) (solde r ing depth : 2/3 te r minal pitch) max . ope r ating speed 3 cps unit w eight appr o x . 4.5 g .16 oz ) b m r o f 1 a m r o f 1 ( e v r u c e f i l ) 2 ( - . 2 ) b m r o f 1 a m r o f 1 ( e v r u c e f i l ) 1 ( - . 2 y t i c a p a c g n i h c t i w s . x a m . 1 10 0.1 10 0 1000 contact voltage, v contact current, v 1 10 dc resistive load (1a) dc resistive load (1a1b,2a) ac resistive load (1a) ac resistive load (1a1b,2a) 100 10 0 1 2 4 7 3 6 5 switching capacity, a no. of operations, 10 4 265 v130 v ac cos ? = 1 265 v130 v ac cos ? = 0.4 100 50 10 5 0 1 1 5 . 0 switching capacity, a no. of operations, 10 4 30 v dc l/r = 7 ms 30 v dc resistive 3.-(1) coil tempe r ature r ise (1 f o r m a) t ested sample : dsp1a-dc12 v , 5 pc s . 3.-(2) coil tempe r ature r ise (1 f o r m a 1 f o r m b) t ested sample : dsp1-dc12 v , 5 pc s . 3.-(3) coil tempe r ature r ise (2 f o r m a) t ested sample : dsp2a-dc12 v , 5 pc s . 50 60 40 10 20 30 0 8 0 10 0 120 8a 0a coil applied voltage, %v coil temperature rise, c 50 60 40 10 20 30 0 8 0 10 0 120 5a 0a coil applied voltage, %v coil temperature rise, c 50 60 40 10 20 30 0 8 0 10 0 120 5a 0a coil applied voltage, %v coil temperature rise, c all rights rese r v ed ? c opyright panasonic electric works, ltd.
ds-p 4.-(1) ope r ate & release time (without diod e , 1 f o r m a) t ested sample : dsp1a-dc12 v , 5 pc s . 4.-(2) ope r ate & release time (without diod e , 1 f o r m a 1 f o r m b) t ested sample : dsp1-dc12 v , 5 pc s . 4.-(3) ope r ate & release time (without diod e , 2 f o r m a) t ested sample : dsp2a-dc12 v , 5 pc s .) 8 0 10 0 120 4 3 2 1 0 5 6 7 max. x max. min. coil applied voltage, %v operate & release time, ms x min. operate time release time 8 0 10 0 110 0 1 2 3 4 5 6 7 8 9 max. min. x x max. min. coil applied voltage, %v operate & release time, ms operate time release time 8 0 10 0 120 0 1 2 3 4 5 6 7 8 9 max. min. x x max. min. coil applied voltage, %v operate & release time, ms operate time release time 4.-(4) ope r ate & release time (with diod e , 1 f o r m a) t ested sample : dsp1a-dc12 v , 5 pc s . 4.-(5) ope r ate & release time (with diod e , 1 f o r m a 1 f o r m b) t ested sample : dsp1-dc12 v , 5 pc s . 4.-(6) ope r ate & release time (with diod e , 2 f o r m a) t ested sample : dsp2a-dc12 v , 5 pc s . 8 0 10 0 120 0 1 2 3 4 5 6 7 8 9 x min. max. min. coil applied voltage, %v operate & release time, ms operate time release time max. x 8 0 10 0 110 0 1 2 3 4 5 6 7 8 9 min. max. min. max. x coil applied voltage, %v operate & release time, ms operate time release time x 8 0 10 0 120 0 1 2 3 4 5 6 7 8 9 max. x min. coil applied voltage, %v operate & release time, ms operate time release time max. min. x 5.-(1) change of pi c k-up and drop-out v oltage (1 f o r m a) t ested sample : dsp1a-dc12 v , 5 pc s . 5.-(2) change of pi c k-up and drop-out v oltage (1 f o r m a 1 f o r m b) t ested sample : dsp1-dc12 v , 5 pc s . 5.-(3) change of pi c k-up and drop-out v oltage (2 f o r m a) t ested sample : dsp2a-dc12 v , 5 pc s . ?40 ?20 0 20 40 60 80 50 ?50 ambient temperature, c pick-up voltage drop-out voltage (%) rate of change ?40 ?20 0 20 40 6 0 80 50 ?50 ambient temperature, c pick-up voltage drop-out voltage (%) rate of change ?40 ?20 0 20 40 50 ?50 ambient temperature, c pick-up voltage drop-out voltage (%) rate of change 60 80 6.-(1) in?uence of adjacent mounting (1 f o r m a) t ested sample : dsp1a-dc12 v , 5 pc s . 6.-(2) in?uence of adjacent mounting (1 f o r m a 1 f o r m b) t ested sample : dsp1-dc12 v , 5 pc s . 6.-(3) in?uence of adjacent mounting (2 f o r m a) t ested sample : dsp2a-dc12 v , 5 pc s . 0 5 0 1 5 10 15 5 10 15 rate of change, % a, c relays are not energized a, c relays are energized a b c pick-up voltage drop-out voltage inter-relay distance ( ), mm 1 2 3 4 5 6 ?8 ?10 ?6 ?4 ?2 0 0 2 4 6 8 10 rate of change, % a, c relays are not energized a, c relays are energized a b c pick-up voltage drop-out voltage inter-relay distance ( ), mm 0 5 0 1 5 10 15 5 10 15 rate of change, % a, c relays are not energized a, c relays are energized a b c pick-up voltage drop-out voltage inter-relay distance ( ), mm all rights rese r v ed ? c opyright panasonic electric works,, ltd.
ds-p dimensions (unit : mm inch ) 1 . 1 form a type exte r nal dimensions single side sta b le 2 coil latching gene r al tole r ance : 0.3 .012 0.8 0.8 0.3 10.0 10.5 3.5 1.0 20.2 7.62 7.2 1.21 10.16 0.8 0.8 0.3 10.0 10.5 3.5 1.0 1.0 20.2 7.6 2 7.62 7.2 1.21 2.54 0.3 11.0 7.62 .031 .012 .394 .413 .138 .039 .795 .300 .283 .048 .400 .031 .012 .394 .413 .138 .039 .039 .795 .30 0 .300 .283 .048 .012 .433 .300 1 3 0 . 1 3 0 . .100 pc board patte r n (bottom vi e w) single side sta b l e 2 coil latching t ole r ance : 0.1 .004 2.54 4-1.2 dia. 2.54 4-.047 dia. .100 .100 2.54 6-1.2 dia. 2.54 6-.047 dia. .100 .100 schematic (bottom vi e w) single side sta b le (deenergi z ed condition) 2 coil latching (reset condition) 8 1 + ? 16 5 8 1 + ? 16 5 2 + ? 15 2 . 1 form a 1 form b type exte r nal dimensions single side sta b le 2 coil latching gene r al tole r ance : 0.3 .012 0.8 0.8 0.3 10.0 10.5 3.5 1.0 20.2 7.62 7.2 1.21 10.16 0.8 0.8 0.3 10.0 10.5 3.5 1.0 1.0 20.2 7.6 2 7.62 7.2 1.21 2.54 0.3 11.0 7.62 1 3 0 . 1 3 0 . .100 .031 .012 .394 .413 .138 .039 .795 .300 .283 .048 .400 .031 .012 .394 .413 .138 .039 .039 .795 .30 0 .300 .283 .048 .012 .433 .300 pc board patte r n (bottom vi e w) single side sta b l e 2 coil latching t ole r ance : 0.1 .004 6-1.2 dia. 2.54 3 2.54 3 2.54 4 6-.047 dia. .100 3 .100 4 .100 3 8-1.2 dia. 2.54 3 2.54 3 2.54 3 2.54 8-.047 dia. .100 3 .100 3 .100 3 .100 schematic (bottom vi e w) single side sta b le (deenergi z ed condition) 2 coil latching (reset condition) 8 1 + ? 16 5 9 12 1 + ? 16 2 + ? 15 8 5 9 12 3 . 2 form a type exte r nal dimensions single side sta b le 2 coil latching gene r al tole r ance : 0.3 .012 0.8 0.8 0.3 10.0 10.5 3.5 1.0 20.2 7.62 7.2 1.21 10.16 0.8 0.8 0.3 10.0 10.5 3.5 1.0 1.0 20.2 7.6 2 7.62 7.2 1.21 2.54 0.3 11.0 7.62 1 3 0 . 1 3 0 . .100 .031 .012 .394 .413 .138 .039 .795 .300 .283 .048 .400 .031 .012 .394 .413 .138 .039 .039 .795 .30 0 .300 .283 .048 .012 .433 .300 pc board patte r n (bottom vi e w) single side sta b l e 2 coil latching t ole r ance : 0.1 .004 6-1.2 dia. 2.54 3 2.54 3 2.54 4 6-.047 dia. .100 3 .100 4 .100 3 8-1.2 dia. 2.54 3 2.54 3 2.54 3 2.54 8-.047 dia. .100 3 .100 3 .100 3 .100 schematic (bottom vi e w) single side sta b le (deenergi z ed condition) 2 coil latching (reset condition) 8 1 + ? 16 5 9 12 1 + ? 16 2 + ? 15 8 5 9 12 all rights rese r v ed ? c opyright panasonic electric works, ltd.
ds-p n o tes for cautions f or us e , see rel a y t e c hnical in f ormation 1 . soldering should be done under the f oll o wing conditions: 250 c 482 f within 10 s 300 c 572 f within 5 s 350 c 662 f within 3 s 2 . cleaning f or automatic cleaning, the boiling method is recommended . a v oid ult r asonic cleaning which subjects the rel a ys to high frequency vib r ation s , which m a y cause the contacts to sti c k. it is recommended that a ?uo r inated h ydrocarbon or other alcoholic sol v ents be used. 3 . external m a gnetic ?eld since d y rel a ys are highly sensiti v e pola r i z ed rel a y s , their cha r acte r istics will be af f ected b y a strong e xte r nal magnetic ?eld . a v oid using the rel a y under that condition. 4 . coil operating p o wer pure dc current should be applied to the coil . the w a v e f o r m should be rectangula r . if it includes r ippl e , the r ipple f actor should be less than 5%. h o w e v e r , che c k it with the actual circuit since the cha r acte r istics m a y be slightly dif f erent. 5 . when using , please be a ware that the a contact and b contact sides of 1 form a and 1 form b types m a y go on si m ultaneous l y at operate time and release tim e . all rights rese r v ed ? c opyright panasonic electric works, ltd.
ds-p dimensions (unit : mm inch ) fixing and rem o v al method a ccessories s o cke t s f o r ds-p re l a y s roh s d ir e c ti v e c o m p a ti b il i t y i n fo r m a ti o n h tt p:/ / www .me w . co .jp/a c / e /e nv i r on m en t / types and applicable rel a ys specific a tions t ype n o . applica b le rel a ys f or dsp1 a f or dsp1a, dsp1, dsp2a dsp1a-p s dsp1a-psl 2 dsp2a-p s dsp2a-psl2 k o k o k o k o s y a l e r a 1 p s d k o k o s y a l e r 2 l - a 1 p s d k o k o s y a l e r 1 p s d dsp1-l2 rel a ys ok k o k o s y a l e r a 2 p s d dsp2a-l2 rel a ys ok s n o i t a c ? i c e p s m e t i breakd o wn v oltage 3,000 v r ms bet w een te r minals (except f or the po r tion bet w een coil te r minals) insulation resistanc e 1,000 m bet w een te r minals at 500 v heat resistanc e 150 c f or 1 hour max . conti n uous curren t 8 a exte r nal dimensions 5.7 0.3 17 0.6 11 0.6 23 0.6 0.3 0.1 7.62 0. 3 10.16 0.3 0.8 0.1 0.65 0.1 7.62 0.3 2.54 0.3 3.7 2.61 .224 .012 .669 .024 .433 .024 .906 .024 .012 .004 .300 .01 2 .400 .012 .031 .004 .026 .004 .300 .012 .100 .012 .146 .103 pc board patte r n (bottom vi e w) dsp1a-p s , dsp1a-psl2 t er minal n o .2 and 15 are f or dsp1a-psl2 onl y . dsp2a-p s , dsp2a-psl2 t er minal n o .2 and 15 are f or dsp2a-psl2 onl y . 1 2 1 5 1 6 5 8 2.54 2.54 1.2 dia. 047 dia. .100 .100 1 2 1 5 1 6 5 8 1 2 9 2.54 2.54 1.2 dia. 047 dia. .100 .100 1 . match the direction of rel a y and so c k et. 2 . both ends of rel a ys are ? x ed so tightly that the so ck et hooks on the top sur f ace of rel a y s . 3 . rem o v e the rel a y , applying f orce in the direction sh o wn bel o w . 4 . in case there is not enough space f or ?nger to pi c k rel a y u p , use scr e w d r i v ers in the w a y sh o wn bel o w . notes : 1 . e x ercise care when rem o ving rel a y s . if g reater than necessa r y f orce is applied at the so c k et hook s , de f o r mation m a y alter the dimensions so that the hook will no longer catch, and other damage m a y also occu r . 2 . it is hazardous to use ic chip so ck et s . goo d no good all rights rese r v ed ? c opyright panasonic electric works, ltd.
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