� ftr-p3 series (a) series name ftr-p3 series (b) contact arrangement c : � form c (c) contact gap n : 0.3mm gap p : 0.6mm gap (d) nominal coil voltage 009 : 09vdc 0� 0 : � 0vdc 0� 2 : �2vdc (e) contact material w� : silver-tin oxide-indium (f) custom designation nil : standard (85?c) -01 : high temperature (125?c) -05 : high temperature (125?c) and refowable n features l compact for high density packaging. (65% volume of previous generation fbr 5�/52 series). l high contact capacity with proven contact material. (100,000 operations, 14 v, 25 a achieved, even with reduced size). l 125?c version is available. l surface mount compatible version (refowable) is available. l coil power savings (600mw nominal achieved with state-of-the-art magnetic analysis/ design). l ease of pcb layout (all terminals on perimeter, coil and contact terminals separated). l optional over-voltage circuit breaking capability (0.6mm gap, contact our representative). l packaging for auto-insertion (tube packing, 30 relays/tube). l rohs compliant since date code: 0630 please see page 8 for more information ftr-p3 series compact power relay 1 pole25 a for automotive applications note: the part number stamped on the relay cover does not include "ftr". example: ordering part number: ftr-p3cn0�2w� stamped on part number: p3cn0�2w� n typical applications power window power seat tilt steering door lock wiper/iww retractable antenna sun roof ftr-p3 c n 0�2 w� *** [example] (a) (b) (c) (d) (e) (f) n ordering information rohs compliant
2 ftr-p3 series n specifications *1 values when switching a resistive load at normal room temperature and humidity and in a clean environment. the minimum switching load varies with the switching frequency and operating environment. m e t i n o i t a c i f i c e p s d r a d n a t s n o i s r e v e r u t a r e p m e t h g i h ) 5 0 - , 1 0 - ( t c a t n o c t n e m e g n a r r a ) t d p s ( c m r o f 1 l a i r e t a m m u i d n i - e d i x o n i t - r e v l i s ) l a i t i n i ( p o r d e g a t l o v h t a p t c a t n o c ) c d v 2 1 a 2 t a ( m 0 0 1 m u m i x a m g n i t a r ) d a o l r o t o m d e k c o l ( c d v 4 1 t a a 5 2 t n e r r u c y r r a c m u m i x a m ) e g a t l o v l i o c d e t a r % 0 0 1 , c 5 2 ( r u o h 1 / a 5 2 ) e c n e r e f e r ( t n e r r u c h s u r n i m u m i x a m a 5 3 ) e c n e r e f e r ( t n e r r u c g n i h c t i w s m u m i x a m c d v 6 1 t a a 5 3 d a o l g n i h c t i w s m u m i n i m 1 * ) e c n e r e f e r ( c d v 6 , a 1 l i o c e g n a r e r u t a r e p m e t t n e i b m a g n i t a r e p o ) t s o r f o n ( c 5 8 + o t c 0 4 - ) t s o r f o n ( c 5 2 1 + o t c 0 4 - e g n a r e r u t a r e p m e t e g a r o t s ) t s o r f o n ( c 0 0 1 + o t c 0 4 - ) t s o r f o n ( c 5 2 1 + o t c 0 4 - g n i m i t s e u l a v ) e g a t l o v l a n i m o n t a ( e t a r e p o ) e c n u o b g n i d u l c n i t o n ( s m 0 1 m u m i x a m ) e g a t l o v l a n i m o n t a ( e s a e l e r ) e d o i d o n , e c n u o b g n i d u l c n i t o n ( s m 5 m u m i x a m ) e d o i d h t i w , e c n u o b g n i d u l c n i t o n ( s m 5 1 m u m i x a m e f i l l a c i n a h c e m 0 1 x 0 1 6 m u m i n i m s n o i t a r e p o l a c i r t c e l e 0 1 x 0 0 1 3 d e k c o l ( a 5 2 , c d v 4 1 , m u m i n i m s n o i t a r e p o ) d a o l r o t o m ) e s r e v e r 1 d n a d r a w r o f 1 = n o i t a r e p o 1 ( r e h t o n o i t a r b i v e c n a t s i s e r l a n o i t a r e p o ) z h 5 5 @ g 3 1 . 9 = ( e d u t i l p m a e l b u o d m m 5 . 1 , z h 5 5 - 0 1 k c o h s e c n a t s i s e r l a n o i t a r e p o s / m 0 0 1 2 ) g 0 1 ( m u m i n i m e g a m a d o n , d n a t s h t i w s / m 0 0 0 , 1 2 ) g 0 0 1 ( m u m i n i m ) l a i t i n i ( e c n a t s i s e r n o i t a l u s n i c a v 0 0 5 @ s m h o m 0 0 1 ) l a i t i n i ( e g a t l o v g n i d n a t s h t i w c i r t c e l e i d c a v 0 0 5 t h g i e w g 5 y l e t a m i x o r p p a
3 ftr-p3 series n coil data chart ftr-p3 series ? ? ? note: ( ) is "nil", "-0�", or "-05" l e d o m l a n i m o n l i o i c g a t l o v e ) ( 1 w 9 0 0 n c 3 p - r t f c d v 9 5 3 1 ) c 0 2 t a ( c d v 5 . 5 ) c 5 8 t a ( c d v 9 . 6 c d v 5 7 . 0 w 6 . 0 w / c 3 7 ) ( 1 w 0 1 0 n c 3 p - r t f c d v 0 1 7 6 1 ) c 0 2 t a ( c d v 3 . 6 ) c 5 8 t a ( c d v 9 . 7 c d v 9 . 0 w 6 . 0 w / c 3 7 ) ( 1 w 2 1 0 n c 3 p - r t f c d v 2 1 0 4 2 ) c 0 2 t a ( c d v 3 . 7 ) c 5 8 t a ( c d v 2 . 9 c d v 0 . 1 w 6 . 0 w / c 3 7 coil resistance (10% at 20oc) must release voltage (at 20oc) coil power at nominal voltage thermal resistance (approx.) must operate voltage
� ftr-p3 series n characteristic data 1. life test (examples) 0 1000 100 500 20 50 20 40 60 80 100 (rl-1) 10 sec 25 a 0 a 25 a 0 a (rl-2) 0.25 sec 5 sec 0.25 sec 1000 100 500 50 20 1000 100 10 1 m rl-1 rl-2 n.o. n.c. n.o. n.c. initial number of operations* (x 10 3 times) initial number of operations* (x 10 3 times) operate release (measured at 6 vdc, 1a wet) * 1 operation = 1 forward and 1 reverse m n.o. rl n.c. 0 a 1.5 a 17 a 12 a 0 1000 100 500 20 50 20 40 60 80 100 1000 100 500 50 20 1000 100 10 1 initial number of operations (x 10 3 times) initial number of operations (x 10 3 times) operate release (measured at 6 vdc, 1a wet) ? test item �� v dc-25 a locked motor �00k operations* minimim 0.25 seconds on, 9.75 seconds off ? current wave form ? test item �� v dc, inrush current: �7a motor free 300k operations minimum 0.25 seconds on, 9.75 seconds off ? current wave form ? change of operate and release voltage ? change in contact resistance percent of nominal coil voltage (%) contact resistance (m?) percent of nominal coil voltage (%) contact resistance (m?) ? change in contact resistance ? change of operate and release voltage
5 ftr-p3 series 2. maximum break capacity 3. coil temperature rise 0 0 10 20 30 20 40 60 80 120 100 0.6 w 0.6 w 0.6 w ambient temperature: 20c coil temperature rise (degrees c) contact carry current: 20a contact carry current: 10a applied time (minutes) contact carry current: 0.0a 4. operating coil voltage range -40 -20 0 20 40 60 80 100 40 60 80 100 120 140 must-operate voltage ambient temperature c ratio of coil voltage to nominal voltage (%) continuous operating range at 10a carry current
6 ftr-p3 series 5. vibration resistance characteristic ftr-p3 y z x 10 50 100 10 50 100 500 1000 2000 5 1 0.5 0.1 0.01 44 m/s 2 frequency : 10~2000 hz acceleration : 100 m/s 2 maximum vibration axis : see drawing below detection level : generation of 1 ms acceleration (m/s 2 ) dual amplitude (mm) frequency (hz) range where chattering occurs break contact coil deenergized on x-axis or longer contact opening on-vehicle electronic equipment standard 0 200 400 600 800 1,000 x1 x2 y1 y2 z1 z2 z2 z1 y1 y2 x2 x1 ftr-p3 shock level (m/s 2 ) impact direction : break contact (coil de-energized) shock duration : 111 ms, half-sine wave test condition: coil, energized and de-energized impact direction: see drawing below detection level : generation of 1ms or longer : make contact (coil energized) contact opening 6. shock resistance characteristic n reference data 0 10 20 30 40 50 60 70 80 0 20 40 60 80 100 0 20 40 60 100 80 0 20 40 60 100 80 0 0.5 1 1.5 2 2.5 3.5 3 4.5 4 5.5 5 6.5 6 7 0 10 20 30 40 50 60 70 80 data: ftr-p3 units: n = 100 operating/release voltage distribution ratio to rated voltage (%) distribution (%) contact resistance (m) data: ftr-p3 units: n = 100 distribution (%) data: ftr-p3 units: n = 100 distribution (%) operate and release time distribution time (ms) contact resistance distribution operate release operate release with diode
7 ftr-p3 series n dimensions and schematics pcb mounting hole layout and schematic (bottom view) units: mm dimensions n precautions please refer to the engineering reference in our relay databook for general precautions. 13.5 +0.5 -0.5 3.5 +0.5 -0.5 0.4 +0.5 -0.5 17.4 +0.5 -0.5 5 +0.2 -0.2 5 +0.2 -0.2 5 +0.2 -0.2 1.2 +0.2 -0.2 5.5 +0.2 -0.2 7.2 +0.5 -0.5 2.5 +1.3 0 soldering 0.85 5 +0.1 -0.1 5 +0.1 -0.1 5 +0.1 -0.1 5.5 +0.1 -0.1 1.2 +0.1 -0.1 ?1.5 +0.1 0 0.4 +0.15 -0.10 1 +0.15 -0.10 0.2 +0.15 -0.10 0.8 +0.15 -0.10 0.8 +0.15 -0.10 0.32 +0.15 -0.10 0.4 +0.15 -0.10 1 +0.15 -0.10 0.8 +0.15 -0.10
8 ftr-p3 series 1. general information l relays produced after the specifc 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.fujitsu.com/us/downloads/micro/fcai/relays/lead-free-letter.pdf) l lead free solder paste currently used in relays is sn-3.0ag-0.5cu. l all signal and most power relays also comply with rohs. please refer to individual data sheets. relays that are rohs compliant do not contain the 5 hazardous materials that are restricted by rohs directive (lead, mercury, chromium iv, pbb, pbde). l it has been verifed 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 offce. l we will ship leaded relays as long as the leaded relay inventory exists. note: cadmium was exempted from rohs on october 21, 2005. (amendment to directive 2002/95/ec) 2. recommended lead free solder profle l recommended solder paste sn-3.0ag-0.5cu. rohs compliance and lead free relay information refow solder condtion 3. moisture sensitivity l moisture sensitivity level standard is not applicable to electromechanical realys. 4. tin whisker l dipped snagcu solder is known as low risk tin whisker. no considerable length whisker was found by our in house test. we highly recommend that you confrm 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.
9 ftr-p3 series japan fujitsu component limited gotanda-chuo building 3-5, higashigotanda 2-chome, shinagawa-ku tokyo ��� 8630, japan tel: (8�-3) 5��9-70�0 fax: (8�-3) 5��9-2626 email: promothq@fcl.fujitsu.com web: www.fcl.fujitsu.com north and south america fujitsu components america, inc. 250 e. caribbean drive sunnyvale, ca 9�089 u.s.a. tel: (�-�08) 7�5-�900 fax: (�-�08) 7�5-�970 email: components@us.fujitsu.com web: http://www.fujitsu.com/us/services/edevices/components/ europe fujitsu components europe b.v. diamantlaan 25 2�32 wv hoofddorp netherlands tel: (3�-23) 55609�0 fax: (3�-23) 5560950 email: info@fceu.fujitsu.com web: emea.fujitsu.com/components/ asia pacifc fujitsu components asia ltd. 102e pasir panjang road #0�-0� citilink warehouse complex singapore ��8529 tel: (65) 6375-8560 fax: (65) 6273-302� email: fcal@fcal.fujitsu.com web: http://www.fujitsu.com/sg/services/micro/components/ fujitsu components international headquarter offces ?2006 fujitsu components america, inc. all rights reserved. all trademarks or registered trademarks are the property of their respective owners. fujitsu components america or its affliates do not warrant that the content of datasheet is error free. in a continuing effort to improve our products fujitsu components america, inc. or its affliates reserve the right to change specifcations/datasheets without prior notice. rev. july 26/2006
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