� dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change differential co nnect or FCN-260(d) series microgigacn tm stacking connector n f eature s ? high speed matched impedance (100?) differential signal connector ? low cross talk ? 2-step sequential mating of contacts ? self alignment feature ? hot plugable ? rohs compliant n specific ations n material s fujitsu's FCN-260(d) differential signal connector as network speeds increase, designers are moving to differential interconnects for network switches and hubs, as well as for connections between components in high-speed computer clusters, video systems, test equipment, and real-time medical equipment (mri, etc.). conventional connectors do not support the speed and signal integrity requirements of these applications. by implementing a connector specifcally for high-speed, high-density, board-to- board differential applications, designers can take advantage of a differential interconnect instead of more costly fber optic or coax alternatives. differential signals use two conductors to carry signals that are compliments of one another. this arrangement reduces noise effects because any noise introduced by interference or crosstalk appears in both signals (common-mode noise) and is ignored by differential m e t i s n o i t a c i f i c e p s e r u t a r e p m e t g n i t a r e p o e g n a r c ? 5 0 1 + o t c ? 5 5 - g n i t a r t n e r r u c ) l a n g i s ( a 1 . 0 c a ) d n u o r g ( a 0.5 c a g n i t a r e g a t l o v v 0 3 c a e c n a t s i s e r t c a t n o c ) l a n g i s ( . x a m s m h o m 0 8 ) d n u o r g ( max. s m h o m 0 4 e c n a t s i s e r n o i t a l u s n i m u m i n i m s m h o m 0 0 0 1 g n i d n a t s h t i w c i r t c e l e i d e g a t l o v e t u n i m 1 r o f v 0 0 5 c a y t i l i b a r u d s e l c y c 0 0 1 e c r o f n o i t r e s n i ) r i a p 4 2 ( m u m i x a m n 0 5 e c r o f l w a r d h t i w ) r i a p 4 2 ( m u m i n i m n 5 m e t i s l a i r e t a m r o t a l u s n i ) 0 - v 4 9 l u ( n i s e r p c l r o t c u d n o c y o l l a r e p p o c g n i t a l p ) s o g a p ( g n i t a l p u a : t c a t n o c g n i t a l p i n - d p r e v o u a rohs compliant
microgigacn tm fcn -260 (d) series 2 dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change networking hubs incorporate many boards that must be interconnected via short-run cables. these internal cables often have to transfer data at speeds signifcantly higher than those of the actual network, so even today's 10/100-mbit networks need high-speed internal interconnects with excellent signal integrity. in addition, any system that uses an external fber optic connector probably requires an internal, board-to-board connector system that works at the highest possible speeds. fiber optic and coax interconnect systems obviously meet the internal performance requirements, but the cost is high. differential interconnects meet both the performance and cost goals but until recently, no connectors were available that provided high-density connections at gigabit speeds. in addition, connector test methodologies from the past cannot give reliable and repeatable results of the differential connector's performance in high-speed systems. therefore, new test methodologies must be developed based on the unique characteristics of these emerging high-speed applications. high-speed differential interconnect characterization in the past, connector manufacturers "de- imbedded" the connector from the test pcb's to show just the electrical characteristics of the connector and did not include any parasitic effects associated with solder joints on a through hole contact lead, or the effects of the contact post (compliant or non-compliant pin) in a plated through hole. while this test methodology was acceptable for slower system speeds, today's differential interconnects demand much more focused attention on system and board effects. the requirements for testing today's high-speed differential interconnects are demanding with good reason. connectors and other traditionally "electrically small" components are no longer small when considering presently available signaling technologies with 100ps risetimes and multi-gigabit data rates. among these requirements are very well-designed test boards needed for accurate measurement and characterization. this data is receivers. with noise voltages less of a problem, differential signals can use a small voltage swing that switches between low and high values extremely quickly --hence the appeal of differential signals for high-speed networking and clustering. differential connector characteristics can exceed the requirements of upcoming 1-gbit applications and extend to next-generation applications at speeds upwards of 4.4 gbps. as a result, system and board vendors who adopt such a connector can look forward to legacy usage that spans multiple product generations. the signal transmission path of connectors has not always been a critical issue when choosing an interconnect method because the connector's electrical signal path is short compared to cables or printed circuit board assemblies. in applications utilizing high-frequency signals, however, connectors can have a signifcant effect on signal integrity. connectors for high-speed applications must be designed to achieve optimal performance through the minimization of crosstalk and susceptibility to noise infuences. differential signal applications the shift from mainframe environments to networked client/server enterprises has made networks a critical bottleneck for improving system performance. emerging technologies such as high-speed server farms, video conferencing, and greater use of graphical interfaces is pushing networks toward performance of 1 gbit/sec and higher. the ieee 802 committee is releasing 1.028- gbit ethernet standards to meet this requirement. one of the key challenges for switch, hub, video equipment, and server manufacturers is to fnd a board-to-board connector system that allows signals to transfer at gigabit speeds over an affordable interconnect system that furnishes specifc matched-impedance characteristics. applications such as servers are now moving to extremely high-speed interfaces (often based on fibre channel) between computer backplanes and disk subsystems that require advance interconnects between boards. similarly,
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change used to develop spice or other models and to provide detailed data to the design community. typical high-frequency test boards designed by fujitsu include: l well-controlled impedance, matched-iength test traces (with "real-world" widths and spacings) l calibration/reference lines that mimic the test traces l connector region entities (pads, pins, vias) that refect actual system board implementations l low discontinuity test connectors (these give access to the measurement equipment) of suffcient bandwidth to meet the testing needs (e.g. sma, 55mb, etc.) differential pairs must be well-matched in order to minimize skew and maintain the proper impedance. calibration lines of lengths "l" (where l is the length of the test traces between the article under test and the test connectors) and 2l provide the opportunity to calibrate out the board effects (if necessary) as well as to make "reference" measurements to test the goodness of an interconnect. these reference measurements are especially important when determining transmission fdelity. fujitsu components attempts to use standard, commonly available fr-4 type board materials (better performers than some believe) whenever possible; however, there are times when so-called "low loss" board materials may be required, such as for long paths running at gigabit speeds. in addition to very good test articles, test equipment must be selected that will provide for the measurements required at the bandwidths needed. measurements may be completed for differential interconnects running at 100 mbps, 625 mbps, 1 gbps, 2.5 gbps or beyond depending on the system being designed. fujitsu components typically measures for single-ended and differential impedance (using a "tdr"), transmission fdelity, crosstalk, and eye pattern performance among other measures of quality. typical transmission parameters quantifed include signal edge and amplitude losses, skews, propagation delays, and interconnect bandwidth. at times, frequency domain data (such as s-parameters) adds insight into these measurements and may be preferred by some customers. however, differential measurements in the frequency domain must be approached with caution and specialized knowledge.
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change figure 1 figure 2 + - + - 1.27 mm + - 0.75 mm 1.5 mm patent pending ground/power contact dif ferential pair contact vi rtual ground plane sectional v iew (connection area) basic concept for dif ferential t ransfer edge coupled dif ferential pairs sma connector footprints drive pairs measurement pair s1+ s1- s2+ s2- s3+ s3- pcb routing -t est card sma connector foot print drive pairs measurement pair s1+ s1- s2+ s2- s3+ s3- adapter card socket foot printcard 6 test pattern 3 test pattern edge coupled dif ferential pairs pcb routing - te st card
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change single pair cross talk @ 50 ps t rise a ggressor dif ferential signal components (t r=46.4 ps, 3 inches pcb calibration line) adjacent connector pair near end cross talk (~6.0 mv /500mv=1.2% ) adjacent connector pair far end crosstalk (~3.5 mv /500mv=0.7% ) aggresssor line - aggresssor line + data includes test sm a connector and test boards vi ctim line + vi ctim line - dif ferential near end cross talk cross talk data includes connector footprint and test board dif ferential far end cross talk vi ctim line + vi ctim line - tdr results (impedance tr 50ps) (t est card + stacking connector) (area of connector) te st card tdr data includes connector footprint and test board 92.3 to 109.8 ohm s area of connecto r te st card
microgigacn tm fcn -260 (d) series 6 dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change eye pattern@625 mbps pseudo-random bit stream (prbs) excitation from hp8133a-02 3ghz pulse generator t est card + stacking connecto r measurement input : 250mv 6 inches test card 800ps(50% bit time) 1584ps jitter: 20ps(pk-pk) height: 238 mv all data includes connector footprint and test board jitter: 16ps(pk-pk) height: 241 mv 1580ps 800ps(50% bit time) attenuation(s21) network analyzer balun balun 6 inches card (a)calibration (b) measurement (b) (a) balunis picosecond pulse labs 5315. network analyzer balun balun 3 inches card stacking analyzer eye pattern@1.25 gbps pseudo-random bit stream (prbs) excitation from hp813 3a -02 3ghz pulse generator t est card + stacking connector measurement input : 250mv 6 inches test card 400ps (50% bit time) 784ps jitter: 18ps(pk-pk) height : 230mv all data includes connector footprint and test board jitter: 16ps(pk-pk) height: 227 mv 782ps 400ps(50% bit time)
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change eye pattern@2.5 gbps pseudo-random bit stream (prbs) excitation from hp8133a-02 3ghz pulse generator t est card + stacking connector measurement input : 250mv 6 inches test card 200ps (50% bit time) 368ps jitter: 36ps(pk-pk) height: 203 mv all data includes connector footprint and test board jitter: 32ps(pk-pk) height: 193 m v 364ps 200ps (50% bit time) t est card + stacking connector 6 inches test card 160ps (50% bit time) 274ps jitter: 47ps(pk-pk) height: 183 m v all data includes connector footprint and test board jitter: 46ps(pk-pk) height: 181m v 273ps 160ps (50% bit time) eye pattern @ 3.125 gbps pseudo-random bit stream (prbs) exitation from hp8133a-02 3 ghz pulse generator measurement input: 250m v
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change �� fcn-268mxxx-g/3d �0 fcn-268mxxx-g/1d �2 fcn-268mxxx-g/2d n sta cking specific ations board interval (mm) mounting dimensions part number � fcn-268mxxx-g/0d 8 mm (0.315) socket plug fcn-268f0xx-g/0d note: this socket is used for all dimensions. n sta cking specific ations fcn-268f***-g/bd fcn-268m***-g/*d fcn-268f***-g/bd fcn-268m***-g/bd fcn-268f***-g/bd fcn-268m***-g/bd fcn-268f***-g/0d fcn-268m***-g/*d fcn-268m***-g/*d fcn-268f***-g/0d fcn-268f***-g/0d fcn-268m***-g/bd 10 mm (0.394) 12 mm (0.472) 14 mm (0.551)
microgigacn tm fcn -260 (d) series � dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, socket n d imensions n p art numbers and dimensions unit: mm (in.) n re commended p .w.b. d imension unit: mm (in.) s(mx2-1) g(n) s(mx2) a c b 4.2 (.165) 3.35 (.132) x y x y s2 s1 g1 7.5 (.30) ground contact signal contact 1.5x(n-1)-0.75 [.060x(n-1)-.026] 1.5x(m-1) [.060x(m-1)] dif ferential signal contacts insulator ground contact 5 (.197) 0.05 (.002) section y- y section x-x 0.05 (.002) 1 (.040) 7 (.276) 2 1 (.040) 7 (.276) 2 5.5(.217) 6.55(.258) s(mx2) g(n) s(mx2-1) b0.05 (b.002) 0.25 +0.05 0 0.25 +0.05 0 (.001 +.002 ) 0 (.001 +.002 ) 0 4.20.05 (.165.002) (.134 0 ) -.004 g1 s1 s2 0.50.05 (.020-.002) 8.6 +0.1 0 (.339 +.004 ) 0 2-?1.40.1 (2-?.055.004) p. t .h. da tum ground contact signal contact 1.5x(n-1)-0.750.03 [.060x(n-1)-.026.001] 1.5x(m-1)0.03 [.060x(m-1).001] 2 2 f o r e b m u n l a i t n e r e f f i d s l a n g i s r i a p s t c a t n o c f o r e b m u n r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n a b c 2 1 d n u o r g 3 1 l a n g i s 4 2 d 0 / g - 2 1 0 f 8 6 2 - n c f 2 1 - 1 3 1 - 1 0 . 4 2 ) 4 4 9 . ( 7 . 0 2 ) 4 1 8 . ( 5 . 1 3 ) 0 4 2 . 1 ( 4 2 d n u o r g 5 2 l a n g i s 8 4 d 0 / g - 4 2 0 f 8 6 2 - n c f 4 2 - 1 5 2 - 1 0 . 2 4 ) 3 5 6 . 1 ( 7 . 8 3 ) 3 2 5 . 1 ( 5 . 9 4 ) 8 4 9 . 1 ( 6 3 d n u o r g 7 3 l a n g i s 2 7 d 0 / g - 6 3 0 f 8 6 2 - n c f 6 3 - 1 7 3 - 1 0 . 0 6 ) 2 6 3 . 2 ( 7 . 6 5 ) 2 3 2 . 2 ( 5 . 7 6 ) 7 5 6 . 2 (
microgigacn tm fcn -260 (d) series �0 dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change right angle, socket n dimensions 7.5 (0.295) (b) a 1.5 x (n-1) -0.75 (0.059 x (n-1) -0.030) 1.5 x (m-1) [0.059 x (m-1)] 4.1 (0.161) 1.8 (0.070) 5 (0.197) 7.4 (0.291) 9.5 (0.374) 1 (0.039) 2.9 (0.1 14 ) d c 0.5 x (p-1) +1.6 (0.039 x (p-1)+0.063) 0.5 (0.039) te rminal pitch 5.3 (0.209) 2.5 (0.098) 1.275(0.050) 1.275(0.050) 2.575 (0.101) 5.375(0.212) 2.875 (0.1 13 ) n recommended p .w.b. d imension c 0.05 (0.002) d 0.05 (0.002) 2.90.03 (0.1 140.001) 4.50.03 (0.1770.001) 6.90.05 (0.2720.002) 5.6 0 -0.05 (0.220 0 ) -0.002 2 -1.40.1 (0.0550.004) (0.072 +0.002 ) 0 1.82 +0.05 0 (t .h.) (0.072 +0.002 ) 0 1.82 +0.05 0 (t .h.) 2.60.1 (0.1020.004) (t .h.) 0.3050.025 (0.0120.001) 0.50.03 (0.020) (0.1022 +0.002 ) 0 2.6 +0.05 0 0.5 x (p-1)+1.60.05 (0.020 x (p-1)+0.0630.002) n p art numbers and dimensions unit: mm (in.) unit: mm (in.) l a i t n e r e f f i d f o r e b m u n s l a n g i s r i a p r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n p a ) b ( c d 2 1 d b / g - 2 1 0 f 8 6 2 - n c f 2 1 - 1 3 1 - 1 7 3 - 1 0 . 4 2 ) 1 4 9 . 0 ( 5 . 1 3 ) 0 4 2 . 1 ( 1 . 4 2 ) 9 4 9 . 0 ( 2 . 1 2 ) 5 3 8 . 0 ( 4 2 d b / g - 4 2 0 f 8 6 2 - n c f 4 2 - 1 5 2 - 1 3 7 - 1 0 . 2 4 ) 4 5 6 . 1 ( 5 . 9 4 ) 9 4 9 . 1 ( 1 . 2 4 ) 7 5 6 . 1 ( 2 . 9 3 ) 3 4 5 . 1 ( 6 3 d b / g - 6 3 0 f 8 6 2 - n c f 6 3 - 1 7 3 - 1 9 0 1 - 1 0 . 0 6 ) 2 6 3 . 2 ( 5 . 7 6 ) 7 5 6 . 2 ( 1 . 0 6 ) 6 6 3 . 2 ( 2 . 7 5 ) 2 5 2 . 2 (
microgigacn tm fcn -260 (d) series �� dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, plug, s tacking height � mm n dimensions n p art numbers and dimensions n recommended p .w.b. d imension s(mx2-1) g(n) s(mx2) c0.05 (c.002) 0.3 +0.05 0 0.3 +0.05 0 (.012 +.002 ) 0 (.012 +.002 ) 0 4.20.05 (.165.002) 3.4 0 -0.1 (.134 0 ) -.004 g1 s1 s2 1.30.05 (.051-.002) 2 8.6 +0.1 0 (.339 +.004 ) 0 2-?1.40.1 (2-?.055.004) p. t .h. da tum ground contact signal contact 1.5x(n-1)-0.750.03 [.060x(n-1)-.026.001] 1.5x(m-1)0.03 [.060x(m-1).001] f o r e b m u n l a i t n e r e f f i d r i a p s l a n g i s f o r e b m u n s t c a t n o c r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n a b c d 2 1 l a n g i s 4 2 d n u o r g 3 1 d 0 / g - 2 1 0 m 8 6 2 - n c f 2 1 - 1 3 1 - 1 9 8 . 9 1 ) 3 8 7 . ( 0 . 3 2 ) 6 0 9 . ( 7 . 0 2 ) 4 1 8 . ( 5 . 9 2 1 6 1 . 1 ( 4 2 l a n g i s 8 4 d n u o r g 5 2 d 0 / g - 4 2 0 m 8 6 2 - n c f 4 2 - 1 5 2 - 1 9 8 . 7 3 ) 1 9 4 . 1 ( 0 . 1 4 ) 4 1 6 . 1 ( 7 . 8 3 ) 3 2 5 . 1 ( 5 . 7 4 ) 0 7 8 . 1 ( 6 3 l a n g i s 2 7 d n u o r g 7 3 d 0 / g - 6 3 0 m 8 6 2 - n c f 6 3 - 1 7 3 - 1 9 8 . 5 5 ) 0 0 2 . 2 ( 0 . 9 5 ) 2 2 3 . 2 ( 7 . 6 5 ) 2 3 2 . 2 ( 5 . 5 6 ) 8 7 5 . 2 ( unit: mm (in.) unit: mm (in.) a b s(mx2-1) s(mx2) g(n) x y s1 3.39(.133) 6.5 (.256) g1 s2 2 x y signal pitch 1.5(.060) x (m-1) 1.5(.060) x (n-1) -0.75 (.030) da tum ground pitch 3.25 (.128) 4.2 (.165) d dif ferential signal contacts insulator ground contact 5 (.197) 0.05 (.002) 1 (.040) 7 (.276) section y- y section x-x 0.05 (.002) 1 (.040) 7 (.276) h 5.45 (2.146)
microgigacn tm fcn -260 (d) series �2 dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, plug, s tacking height �0mm n d imensions n p art numbers and dimensions unit: mm (in.) n re commended p .w.b. d imension unit: mm (in.) s(mx2-1) s(mx2) g(n) x y s1 3.39 (.133) 6.5 (.256) g1 s2 x y signal pitch 1.5(.060) x (m-1) 1.5(.060) x (n-1) -0.75 (.030) da tu m 3.25 (.128) 4.2 (.165) dif ferential signal contacts insulator ground contact 5 (.197) 0.05 (.002) 1 (.040) 7 (.276) section y- y section x-x ground pitch 1 (.040) 7 (.276) 0.05 (.002) 7.45 (0.293) a (55.89) [2.200] b (59) [2.323] c (56.7) [2.232] d (65.5) [2.579] s(mx2) g(n) s(mx2-1) c0.05 (56.70.05) [c.002 (2.2320.002)] 0.3 +0.05 0 0.3 +0.05 0 (.012 +.002 ) 0 (.012 +.002 ) 0 4.20.05 (.165.002) 8.6 +0.1 0 (.339 +.004 ) 0 2-?1.40.1 (2-?.055.004) p. t .h. da tu m ground contact signal contact 1.5x(n-1)-0.750.03 [.060x(n-1)-.026.001] 1.5x(m-1)0.03 [.060x(m-1).001] 1.30.05 (0.051.002) recommended p .w .b. dimension s2 3.4 0 -0.1 (0.134 0 ) -0.004 f o r e b m u n l a i t n e r e f f i d r i a p s l a n g i s f o r e b m u n s t c a t n o c r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n a b c d 2 1 l a n g i s 4 2 d n u o r g 3 1 d 1 / g - 2 1 0 m 8 6 2 - n c f 2 1 - 1 3 1 - 1 9 8 . 9 1 ) 3 8 7 . ( 0 . 3 2 ) 6 0 9 . ( 7 . 0 2 ) 4 1 8 . ( 5 . 9 2 1 6 1 . 1 ( 4 2 l a n g i s 8 4 d n u o r g 5 2 d 1 / g - 4 2 0 m 8 6 2 - n c f 4 2 - 1 5 2 - 1 9 8 . 7 3 ) 1 9 4 . 1 ( 0 . 1 4 ) 4 1 6 . 1 ( 7 . 8 3 ) 3 2 5 . 1 ( 5 . 7 4 ) 0 7 8 . 1 ( 6 3 l a n g i s 2 7 d n u o r g 7 3 d 1 / g - 6 3 0 m 8 6 2 - n c f 6 3 - 1 7 3 - 1 9 8 . 5 5 ) 0 0 2 . 2 ( 0 . 9 5 ) 2 2 3 . 2 ( 7 . 6 5 ) 2 3 2 . 2 ( 5 . 5 6 ) 8 7 5 . 2 (
microgigacn tm fcn -260 (d) series �� dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, plug, s tacking height �2mm n p art numbers and dimensions unit: mm (in.) unit: mm (in.) n d imensions n re commended p .w.b. d imension s(mx2) g(n) s(mx2-1) c0.05 (56.70.05) [c.002 (2.2320.002)] 0.3 +0.05 0 0.3 +0.05 0 (.012 +.002 ) 0 4.20.05 (.165.002) 8.6 +0. 1 0 (.339 +.004 ) 0 2-?1.40.1 (2-?.055.004) p. t. h. da tu m ground contact signal contact 1.5x(n-1)-0.750.03 [.060x(n-1)-.026.001] 1.5x(m-1)0.03 [.060x(m-1).001] 1.30.05 (0.051.002) recommended p .w .b. dimension s2 (.012 +.002 ) 0 3.4 0 -0. 1 (0.134 0 ) -0.004 s(mx2-1) s(mx2) g(n) x y s1 3.39 (.133) 6.5 (.256) g1 s2 x y signal pitch 1.5(.060) x (m-1) 1.5(.060) x (n-1) -0.75 (.030) da tu m 3.25 (.128) 4.2 (.165) dif ferential signal contacts insulator ground contact 5 (.197) 0.05 (.002) 1 (.040) 7 (.276) section y- y section x-x ground pitch 1 (.040) 7 (.276) 0.05 (.002) 9.45 (0.372) a (55.89) [2.200] b (59) [2.323] c (56.7) [2.232] d (65.5) [2.579] f o r e b m u n l a i t n e r e f f i d r i a p s l a n g i s f o r e b m u n s t c a t n o c r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n a b c d 2 1 l a n g i s 4 2 d n u o r g 3 1 d 2 / g - 2 1 0 m 8 6 2 - n c f 2 1 - 1 3 1 - 1 9 8 . 9 1 ) 3 8 7 . ( 0 . 3 2 ) 6 0 9 . ( 7 . 0 2 ) 4 1 8 . ( 5 . 9 2 1 6 1 . 1 ( 4 2 l a n g i s 8 4 d n u o r g 5 2 d 2 / g - 4 2 0 m 8 6 2 - n c f 4 2 - 1 5 2 - 1 9 8 . 7 3 ) 1 9 4 . 1 ( 0 . 1 4 ) 4 1 6 . 1 ( 7 . 8 3 ) 3 2 5 . 1 ( 5 . 7 4 ) 0 7 8 . 1 ( 6 3 l a n g i s 2 7 d n u o r g 7 3 d 2 / g - 6 3 0 m 8 6 2 - n c f 6 3 - 1 7 3 - 1 9 8 . 5 5 ) 0 0 2 . 2 ( 0 . 9 5 ) 2 2 3 . 2 ( 7 . 6 5 ) 2 3 2 . 2 ( 5 . 5 6 ) 8 7 5 . 2 (
microgigacn tm fcn -260 (d) series �� dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, plug, s tacking height ��mm n p art numbers and dimensions unit: mm (in.) unit: mm (in.) n d imensions n re commended p .w.b. d imension s(mx2) g(n) s(mx2-1) c0.05 (56.70.05) [b.002 (2.2320.002)] 0.3 +0.05 0 0.3 +0.05 0 (.012 +.002 ) 0 (.012 +.002 ) 0 4.20.05 (.165.002) 8.6 +0. 1 0 (.339 +.004 ) 0 2-?1.40.1 (2-?.055.004) p. t. h. da tu m ground contact signal contact 1.5x(n-1)-0.750.03 [.060x(n-1)-.026.001] 1.5x(m-1)0.03 [.060x(m-1).001] recommended p .w .b. dimension 1.30.05 (0.051.002) 3.4 0 -0.1 (0.134 0 ) -0.004 s(mx2-1) s(mx2) g(n) x y s1 3.39 (.133) 6.5 (.256) g1 s2 x y signal pitch 1.5(.060) x (m-1) 1.5(.060) x (n-1) -0.75 (.030) da tu m 3.25 (.128) 4.2 (.165) dif ferential signal contacts insulator ground contact 5 (.197) 0.05 (.002) 1 (.040) 7 (.276) section y- y section x-x ground pitch 1 (.040) 7 (.276) 0.05 (.002) 11 .45 (0.451) a (55.89) [2.200] b (59) [2.323] c (56.7) [2.232] d (65.5) [2.579] f o r e b m u n l a i t n e r e f f i d r i a p s l a n g i s f o r e b m u n s t c a t n o c r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n a b c d 2 1 l a n g i s 4 2 d n u o r g 3 1 d 3 / g - 2 1 0 m 8 6 2 - n c f 2 1 - 1 3 1 - 1 9 8 . 9 1 ) 3 8 7 . ( 0 . 3 2 ) 6 0 9 . ( 7 . 0 2 ) 4 1 8 . ( 5 . 9 2 1 6 1 . 1 ( 4 2 l a n g i s 8 4 d n u o r g 5 2 d 3 / g - 4 2 0 m 8 6 2 - n c f 4 2 - 1 5 2 - 1 9 8 . 7 3 ) 1 9 4 . 1 ( 0 . 1 4 ) 4 1 6 . 1 ( 7 . 8 3 ) 3 2 5 . 1 ( 5 . 7 4 ) 0 7 8 . 1 ( 6 3 l a n g i s 2 7 d n u o r g 7 3 d 3 / g - 6 3 0 m 8 6 2 - n c f 6 3 - 1 7 3 - 1 9 8 . 5 5 ) 0 0 2 . 2 ( 0 . 9 5 ) 2 2 3 . 2 ( 7 . 6 5 ) 2 3 2 . 2 ( 5 . 5 6 ) 8 7 5 . 2 (
microgigacn tm fcn -260 (d) series �� dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change board t o board, plug, right angle n p art numbers and dimensions unit: mm (in.) unit: mm (in.) n d imensions n re commended p .w.b. d imension 1.325 (0.052) 2.575 (0.101) 2.875 (0.1 13 ) 5.375 (0.212) 2.35 (0.093) 2.15 (0.085) 2.5 (0.098) 8.25 (0.325) 4.9 (0.193) 0.50.05 (0.0120.002) 0.3050.025 (0.0120.0001) 2.6 +0.05 0 (0.102 +0.002 ) 0 0.50.03 (0.0120.001) 0.5x(p-1)+1.60.05 (0.0630.002) 2.150.05 (0.0850.002) 21.40.1 (0.0550.004) d05 (0.020) [23.35 (0.919)] c05 (0.020) [21.2 (0.835)] 1.82 +0.05 0 (0.071 +0.002 ) 0 2.60.1 (0.1020.004) 1.82 +0.05 0 (0.071 +0.002 ) 0 5.90.05 (0.1 140.002) 2.50.05 (0.0980.002) 4.6 0 -0.05 (0.181 0 ) -0.02 f o r e b m u n l a i t n e r e f f i d r i a p s l a n g i s f o r e b m u n s t c a t n o c r e b m u n t r a p ) . n i ( m m : s n o i s n e m i d m n p a ) b ( c d 2 1 l a n g i s 4 2 d n u o r g 3 1 d b / g - 2 1 0 m 8 6 2 - n c f 2 1 - 1 3 1 - 1 7 3 - 1 9 8 . 9 1 ) 3 8 7 . ( 5 . 9 2 ) 1 6 1 . 1 ( 2 . 1 2 ) 5 3 8 . 0 ( 5 3 . 3 2 ) 9 1 9 . 0 ( 4 2 l a n g i s 8 4 d n u o r g 5 2 d b / g - 4 2 0 m 8 6 2 - n c f 4 2 - 1 5 2 - 1 3 7 - 1 9 8 . 7 3 ) 1 9 4 . 1 ( 5 . 7 4 ) 0 7 8 . 1 ( 2 . 9 3 ) 3 4 5 . 1 ( 5 3 . 1 4 ) 8 2 6 . 1 ( 6 3 l a n g i s 2 7 d n u o r g 7 3 d b / g - 6 3 0 m 8 6 2 - n c f 6 3 - 1 7 3 - 1 - 1 - 1 - 0 9 8 . 5 5 ) 0 0 2 . 2 ( 5 . 5 6 ) 9 7 5 . 2 ( 2 . 7 5 ) 2 5 2 . 2 ( 5 3 . 9 5 ) 7 3 2 . 2 (
microgigacn tm fcn -260 (d) series �6 dimensions are in millimeters (inches) http://us.fujitsu.com/components specifcations subject to change 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: components@us.fujitsu.com web: http://www.fujitsu.com/us/services/edevices/components/ 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: emea.fujitsu.com/components/ asia pacifc fujitsu components asia ltd. 102e pasir panjang road #01-01 citilink warehouse complex singapore 118529 tel: (65) 6375-8560 fax: (65) 6273-3021 email: fcal@fcal.fujitsu.com web: http://www.fujitsu.com/sg/services/micro/components/ fujitsu components international headquarter offces ?2008 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. september 24, 2008
|
