1 n features l these are flat type ultra miniature (smt), 5.2 0.2mm height (through hole) relays for telecommunication and data networking equipments, made of high heat resistant material, which can support irs and vps methods. l ultra slim and light weight with a 5.25 0.2 mm height and approximately 0.8 g weight, and an 87mm 2 mounting area. most suitable for decreasing size and weight, space saving and high density packaging of equipment. l contact spring has superb high frequency characteristics. l high insulation design conforming to the bellcore, fcc standard, with a minimum of 1.6 mm between coil and contacts insulation distance, an ac 1.5kv coil contact withstand voltage, and a 2.5kv coil-contact withstand surge voltage. l high efficieny polar electromagnet structure implements a140mw low coil power consumption. a power saving latch type is also available. l gold-plated silver alloy bifurcated contacts having high contact reliability. l ul, csa recognized. confirms to iec 60950, ul1950, en60950. spacing & high breakdown voltage (basic insulation, 150 working volts, pollution degree 2). l rohs compliant since date code: 0431b8 please see page 10 for more information ftr-b3 series miniature relay 2-contact 1a (for switching signals) rohs compliant
2 ftr-b3 series remarks: actual marking on relay would not carry code ftr and be as below: ordering code actual marking ftr-b3ga012z-b10 ? b3ga012z note: *: - only surface mount types (g and s) are applicable - all relays are packaged in tubes unles p/n ends with -b10 n ordering information ftr-b3 g b 012 z -b 10 [example] (a) (b) (c) (d) (e) (f ) (g) ) a (e m a n s e i r e ss e i r e s 3 b - r t f ) b (e p y t l a n i m r e t e l o h h g u o r h t : c t n u o m e c a f r u s : g t m s d e c u d e r , a e r a g n i t n u o m : s ) c (n o i t c n u f n o i t a r e p o e p y t d r a d n a t s : a ) l i o c 1 ( e p y t g n i h c t a l : b ) d (l i o c f o e g a t l o v d e t a r c d v 5 . 1 : 5 . 1c d v 5 . 4 : 5 . 4 0 c d v 3 : 3 0 0c d v 2 1 : 2 1 c d v 4 2 : 4 2 0 ) e (l a i r e t a m t c a t n o cy o l l a r e v l i s y a l r e v o d l o g : z ) f (* n o i t c e r i d g n i s o l c n e y a l e rn o i t c e r i d g n i s o l c n e d r a d n a t s : b ) g (* l e e r r e p s y a l e r f o r e b m u n) d r a d n a t s ( 0 0 0 , 1 : 0 1
3 ftr-b3 series l e d o m l i o c d e t a r e g a t l o v e c n a t s i s e r l i o c ) % 0 1 ( g n i t a r e p o e g a t l o v e s a e l e r * e g a t l o v r e w o p d e t a r n o i t p m u s n o c z 5 . 1 a ) ( 3 b - r t fc d v 5 . 11 . 6 1 w v 3 1 . 1 +v 5 1 . 0 +w m 0 4 1 z 3 0 0 a ) ( 3 b - r t fc d v 33 . 4 6 w v 5 2 . 2 +v 3 . 0 +w m 0 4 1 z 5 . 4 a ) ( 3 b - r t fc d v 5 . 45 4 1 w v 8 3 . 3 +v 5 4 . 0 +w m 0 4 1 z 2 1 0 a ) ( 3 b - r t fc d v 2 18 2 0 , 1 w v 0 . 9 +v 2 . 1 +w m 0 4 1 z 4 2 0 a ) ( 3 b - r t fc d v 4 24 0 5 , 2 w v 0 . 8 1 +v 4 . 2 +w m 0 3 2 n coil data chart standard type latching type (1 coil) * pulse driven note: all values in the table are measured at 20?c. * pulse driven note: all values in the table are measured at 20?c. n safety standard and file numbers ul508, 1950 (file no. e63615) c22.2 no. 14, no. 950 (file no. lr40304) please request when the approval markings are required on the cover. nominal voltage contact rating 0.5 a 125 vac 1.5 to 12 vdc 1 a 30 vdc resistive 0.3 a 110 vdc l i o c d e t a r e g a t l o v e c n a t s i s e r l i o c ) % 0 1 ( t e s e g a t l o v e s a e l e r * e g a t l o v r e w o p d e t a r n o i t p m u s n o c z 5 . 1 b ) ( 3 b - r t fc d v 5 . 15 . 2 2 w v 3 1 . 1 +v 3 1 . 1 -w m 0 0 1 z 3 0 0 b ) ( 3 b - r t fc d v 30 9 w v 5 2 . 2 +v 5 2 . 2 -w m 0 0 1 z 5 . 4 b ) ( 3 b - r t fc d v 5 . 43 0 2 w v 8 3 . 3 +v 8 3 . 3 -w m 0 0 1 z 2 1 0 b ) ( 3 b - r t fc d v 2 10 4 4 , 1 w v 0 . 9 +v 0 . 9 -w m 0 0 1 z 4 2 0 b ) ( 3 b - r t fc d v 4 20 0 8 , 4 w v 0 . 8 1 +v 0 . 8 1 -w m 0 2 1
4 ftr-b3 series n specifications continued * 1 minimum switching loads mentioned above are reference values. please perform the confirmation test with the actual load before production since reference values may vary according to switching frequencies, environmental conditions and expected reliability levels. m e t i e p y t d r a d n a t se p y t g n i h c t a l a ) ( 3 b - r t fb ) ( 3 b - r t f t c a t n o c t n e m e g n a r r ac m r o f 2 l a i r e t a m t c a t n o cy o l l a r e v l i s y a l r e v o d l o g e p y t t c a t n o c) r a b - s s o r c ( s t c a t n o c d e t a c r u f i b e c n a t s i s e r t c a t n o c) e u l a v l a i t i n i (m 5 7 w m u m i x a m ,a 1 c d v 6 t a g n i t a r t c a t n o c ) e v i t s i s e r ( a 3 . 0 c a v 5 2 1 , a 1 c d v 0 3 t n e r r u c g n i h c t i w s / g n i y r r a c m u m i x a ma 1 r e w o p g n i h c t i w s m u m i x a mw 0 3 / a v 5 . 2 6 e g a t l o v g n i h c t i w s m u m i x a mc d v 0 2 2 , c a v 0 5 2 1 * d a o l g n i h c t i w s m u m i n i m* a m 1 0 . 0 , c d v m 0 1 1 e c n a t i c a p a c ) s t c a t n o c n e p o n e e w t e b ( f p 4 . 0 y l e t a m i x o r p p a ) s t c a t n o c t n e c a j d a ( f p 5 . 0 y l e t a m i o r p p a * f p 0 . 1 y l e t a m i x o r p p a 1 ) s t c a t n o c d n a l i o c n e e w t e b ( l i o c ) c ? 0 2 t a ( r e w o p l a n i m o nw m 0 4 1w m 0 0 1 ) c ? 0 2 t a ( r e w o p e t a r e p ow m 0 8w m 7 5 ) t s o r f o n ( e r u t a r e p m e t g n i t a r e p oc ? 5 8 + o t c ? 0 4 - e m i t e u l a v e t a r e p o) e c n u o b t u o h t i w , e g a t l o v l a n i m o n t a (m u m i x a m s m 3 e s a e l e r) e c n u o b t u o h t i w , e g a t l o v l a n i m o n t a (m u m i x a m s m 3 n o i t a l u s n i ) c d v 0 0 5 t a ( e c n a t s i s e rm 0 0 0 , 1 m u m i n i m c c c i r t c e l e i d h t g n e r t s s t c a t n o c n e p o n e e w t e be t u n i m 1 c a v 0 0 0 , 1 t n e c a j d a n e e w t e b s t c a t n o c e t u n i m 1 c a v 0 0 0 , 1 s t c a t n o c d n a l i o c n e e w t e be t u n i m 1 c a v 0 0 5 , 1 e g r u s h t g n e r t s s t c a t n o c n e p o n e e w t e b] 8 6 t r a p c c f [ ) s 0 6 1 x 0 1 t a ( v 0 0 5 , 1 t n e c a j d a n e e w t e b s t c a t n o c ] 8 6 t r a p c c f [ ) s 0 6 1 x 0 1 t a ( v 0 0 5 , 1 s t c a t n o c d n a l i o c n e e w t e b ] 8 6 t r a p c c f [ ) s 0 6 1 x 0 1 t a ( v 0 0 5 , 1 ] e r o c l l e b [ ) s 0 1 x 2 t a ( v 0 0 5 , 2
5 ftr-b3 series n specifications continued n characteristic data � � � � � � 5 4 3 2 1 0 0.1 0.2 0.3 operation (return time characteristics) time (ms) release operation time coil power (w) 5 4 3 2 1 0 0.1 0.2 0.3 �� � � �� � � set, reset time characteristics time (ms) set time reset time coil power (w) 100 90 80 70 60 50 40 0.5 1 2 5 10 20 50 100 200 pulse characteristics nominal voltage multiplying factor (%) pulse width (ms) at set/reset 80 60 40 20 0 0 0.1 0.2 0.3 coil temperature rise coil temperature rise (?c) coil power (w) contact carrying current: 1a contact carrying current: 0 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0 20406080100 ambient temperature (maximum applied voltage, operating voltage characteristics) nominal voltage multiplying factor (%) ambient temperature (?c) standard type contact carrying current: 0 contact carrying current: 1a operating voltage (hot coil) operating voltage (cool coil) 2.4 2.2 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0 20406080100 ambient temperature (maximum applied voltage, operating voltage characteristics) nominal voltage multiplying factor ambient temperature (?c) contact carrying current: 1a contact carrying current: 1a latching type operating voltage (hot coil) operating voltage (cool coil) continued m e t i e p y t d r a d n a t se p y t g n i h c t a l a ) ( 3 b - r t fb ) ( 3 b - r t f e f i l l a c i n a h c e m0 1 x 0 5 6 . n i m s n o i t a r e p o) z h 3 t a (0 1 x 0 2 6 . n i m s n o i t a r e p o) z h 3 t a ( ) d a o l e v i t s i s e r ( l a c i r t c e l e 0 1 x 0 0 1 3 ) z h 5 . 0 t a ( c d v 0 3 a 1 t a . n i m s n o i t a r e p o 0 1 x 0 0 1 3 ) z h 5 . 0 t a ( c d v 5 2 1 a 3 . 0 t a . n i m s n o i t a r e p o r e h t o n o i t a r b i v e c n a t s i s e r n o i t c n u f l a mm m 3 . 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 c n a r u d n em m 5 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 k c o h s e c n a t s i s e r n o i t c n u f l a ms / m 0 5 7 . n i m 2 e c n a r u d n es / m 0 0 0 1 . n i m 2 t h g i e wg 8 . 0 y l e t a m i x o r p p a
6 ftr-b3 series continued n characteristic data 2 1 0.5 0.3 0.2 0.1 1 2 5 10 20 30 50 100 200 maximum switching power contact current (a) contact voltage (v) ac resistive dc resistive 100 70 50 40 30 20 10 0 0.2 0.4 0.6 0.8 1.0 1.2 life curve operation (x10 4 ) contact current (a) 30 vdc resistive 125 vdc resistive n reference data 100 80 60 40 20 0 1020304050607080 � ~ � � ~ ? � � ~ ? � � ~ ? � � | ~ � � z { distribution of operate and release voltage distribution (%) nominal voltage multiplying factor (%) ftr-b3ga4.5z n=100 operate release 100 80 60 40 20 0 1020304050607080 distribution of operate and release voltage distribution (%) nominal voltage multiplying factor (%) ftr-b3gb4.5z n=100 operate release 100 80 60 40 20 012345 � � ? ? � � � � � � y z | } ? � z distribution of operate and release time distribution (%) time (ms) ftr-b3ga4.5z n=100 operate release 100 80 60 40 20 012345 distribution of bounce time distribution (%) ftr-b3ga4.5z n=100 operate release time (ms) 100 80 60 40 20 0 20 40 60 80 100 distribution of contact resistance distribution (%) ftr-b3ga4.5z n=100 make break contact resistance (m?) 100 80 60 40 20 0 500 100 50 10 5 100 500 1000 2000 3000 5000 mechanical life test contact resistance (m?) operation (x10 4 ) operating voltage release voltage make break ftr-b3ga4.5z n=8 1200 operations/min. initial continued
7 ftr-b3 series 1 2 3 4 8 7 6 5 (+) ( - ) marking ( coil side indication ) 5 .0 8 0. 2 0. 2 + 0. 2 3 . 5 + 0. 3 - 0. 2 0. 5 0.0 5 0. 4 + 0. 2 3 . 2 0. 2 2 . 2 0. 2 2 . 2 0. 2 ( 1 . 5 ) 3 . 2 2 . 2 2 . 2 5 .0 8 8 - ? 0. 8 5 5 . 2 0.0 2 1 0. 6 0. 2 7 . 2 0. 2 n specifications continued 100 80 60 40 20 0 500 100 50 10 5 1 10 electrical life test contact resistance (m?) operation (x10 4 ) operating voltage release voltage make break ftr-b3ga4.5z n=8 30 operations/min. 126 vac 0.3 a (resistive load) initial nominal voltage multiplying factor (%) 100 80 60 40 20 0 500 100 50 10 5 1 10 electrical life test contact resistance (m?) operation (x10 4 ) operating voltage release voltage make break initial nominal voltage multiplying factor (%) ftr-b3ga4.5z n=8 30 operations/min. 30 vac 1a (resistive load) 20 10 0 -10 -20 20 10 0 -10 -20 0246810 magnetic interference distance between relays i (mm) operating voltage release voltage when coil is on when coil is off nominal voltage multiplying factor (%) ftr-b3ga4.5z n=4 nominal voltage multiplying factor (%) standard type 20 10 0 -10 -20 20 10 0 -10 -20 0246810 magnetic interference distance between relays i (mm) operating voltage release voltage when coil is on when coil is off nominal voltage multiplying factor (%) ftr-b3ga4.5z n=4 nominal voltage multiplying factor (%) standard type 150 100 50 0 1 3 5 7 10 30 50 70 100 300 500 700 1000 high frequency characteristics frequency (mhz) ftr-b3ga4.5z n=2 isolation (db) 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 11030 50 70 357 1000 100 300 500700 high frequency characteristics frequency (mhz) ftr-b3ga4.5z n=2 insertion loss (db) n dimensions l dimensions unit: mm l mounting pad (top view) l wiring diagram (top view) ftr-b3c( )( )( )
8 ftr-b3 series 1 2 3 4 8 7 6 5 (+) ( - ) marking ( coil side indication ) 5 .0 8 0. 2 8 . 2 + 0. 5 - 0. 3 1 .0 5 0. 4 + 0. 2 3 . 2 0. 2 2 . 2 0. 2 2 . 2 0. 2 ( 1 . 5 ) 3 . 2 2 . 2 2 . 2 5 . 2 5 0.0 2 0. 2 + 0. 2 2 . 5 6 2 . 5 6 6 . 6 4 0. 8 0. 8 0. 8 0. 8 1 0. 6 0. 2 7 . 2 0. 2 n dimensions l dimensions unit: mm l mounting pad (top view) l wiring diagram (top view) ftr-b3g( )( )( ) l dimensions unit: mm l mounting pad (top view) l wiring diagram (top view) ftr-b3s( )( )( ) 1 2 3 4 8 7 6 5 (+) ( - ) marking ( coil side indication ) 5 .0 8 0. 2 7 . 2 + 0. 5 - 0. 3 1 .0 5 0. 4 + 0. 2 3 . 2 0. 2 2 . 2 0. 2 2 . 2 0. 2 ( 1 . 5 ) 3 . 2 2 . 2 2 . 2 5 . 2 5 0.0 2 0. 2 + 0. 2 2 .0 8 2 .0 8 6 . 1 4 0. 8 0. 8 0. 8 0. 8 1 0. 6 0. 2 7 . 2 0. 2
9 ftr-b3 series n packaging specifications l packaging method - packaging standard: jis c 0806 - taping type: tb 1612 - reel type: r16d - quantity of 1reel: 1000 pieces l packaging orientation code:b orientation mark side feeding l (2) dimensions - reel dimensions top cover tape embossed carrier tape l tape dimensions note: relays are sold in packs of 1000 pieces, please order 1000 pieces as one unit. unit: mm n recommended soldering conditions (temperature profile) irs (infrared reflow soldering) t 3 t 2 t 1 t 3 = 245 c max. t 2 = 200 c max. t 1 = 165 c max. 0 temperature ( c) soldering preheating cooling 120 sec maximum 30 sec max. vps (vapor phase soldering) t 3 t 2 t 1 t 3 = 200 c maximum t 2 = 165 c maximum t 1 = 100 c maximum 0 temperature ( c) soldering preheating cooling 90 sec max. 60 sec max. 60 sec max. 215 c maximum note: 1.temperature profiles show the temperature of pc board surface. 2.please perform soldering test with your actual pc board before mass production, since the temperatures of pc board surfaces vary according to the size of pc board, status of parts mounting and heating method. n precautions - for details on general precautions, refer to the section on technical descriptions. - since this is a polar relay, follow the instructions of the internal wiring diagram for the +- connections of the coil. - note that the terminal array and internal wiring of the surface mount relay are a top view
10 ftr-b3 series 1. general information l relays produced after the specific date code that is indicated on each data sheet are lead-free now. most of our signal and power relays are lead-free. please refer to lead-free status info. (http://www.fcai.fujitsu.com/pdf/leadfreeletter.pdf) l lead free solder paste currently used in relays is sn-3.0ag-0.5cu. from february 2005 forward sn-3.0cu-ni will be used for ftrb3 and ftr-b4 series relays. l most signal and some power relays also comply with rohs. please refer to individual data sheets. relays that are rohs compliant do not contain the 6 hazardous materials that are restricted by rohs directive (lead, mercury, cadmium, chromium iv, pbb, pbde). l it has been verified that using lead-free relays in leaded assembly process will not cause any problems (compatible). l lf is marked on each outer and inner carton. (no marking on individual relays). l to avoid leaded relays (for lead-free sample, etc.) please consult with area sales office. we will ship leaded relays as long as the leaded relay inventory exists. 2. recommended lead free solder profile l recommended solder paste sn-3.0ag-0.5cu and sn-3.0 cu-ni (only ftr-b3 and ftr-b4 from february 2005) rohs compliance and lead free relay information reflow solder condtion 3. moisture sensitivity l moisture sensitivity level standard is not applicable to electromechanical realys. 4. tin whisker l snagcu solder is known as low riskof tin whisker. no considerable length whisker was found by our in-house test. 5. solid state relays l each lead terminal will be changed from solder plating to sn plating and nickel plating. a layer of nickel plating is between the terminal and the sn plating to avoid whisker. we highly recommend that you confirm your actual solder conditions flow solder condtion: pre-heating: maximum 120?c soldering: dip within 5 sec. at 260?c soler bath solder by soldering iron: soldering iron temperature: maximum 360?c duration: maximum 3 sec. max. 120 sec. 9 0 ~ 120 sec. 20 ~ 3 0 sec. (dur a tion) cooling pre-heat ing s ol d er ing p ea k t em p . : max. 2 5 0 ?c 2 5 0 220 1 3 0 1 7 0 t em p e r a tur e ( ?c )
11 ftr-b3 series ? 2005 fujitsu components america, inc. all company and product names are trademarks or registered trademarks of their respective owners. rev. 04/25/2005. japan fujitsu component limited gotanda-chuo building 3-5, higashigotanda 2-chome, shinagawa-ku tokyo 141, japan tel: (81-3) 5449-7010 fax: (81-3) 5449-2626 email: promothq@ft.ed.fujitsu.com web: www.fcl.fujitsu.com north and south america fujitsu components america, inc. 250 e. caribbean drive sunnyvale, ca 94089 u.s.a. tel: (1-408) 745-4900 fax: (1-408) 745-4970 email: marcom@fcai.fujitsu.com web: www.fcai.fujitsu.com europe fujitsu components europe b.v. diamantlaan 25 2132 wv hoofddorp netherlands tel: (31-23) 5560910 fax: (31-23) 5560950 email: info@fceu.fujitsu.com web: www.fceu.fujitsu.com asia pacific fujitsu components asia ltd. 102e pasir panjang road #04-01 citilink warehouse complex singapore 118529 tel: (65) 375-8560 fax: (65) 273-3021 email: fcal@fcal.fujitsu.com www.fcal.fujitsu.com fujitsu components international headquarter offices
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