motorola semiconductor technical data order number: MC100ES6014 rev 2, 5/2004 ? motorola, inc. 2004 2.5v / 3.3v 1:5 differential ecl/pecl/hstl/lvds clock driver the MC100ES6014 is a low skew 1-to-5 differential driver, designed with clock distribution in mind, accepting two clock sources into an input multiplexer. the ecl/pecl input signals can be either differential or single- ended (if the v bb output is used). hstl and lvds inputs can be used when the es6014 is operating under pecl conditions. the es6014 specifically guarantees low output-to-output skew. optimal design, layout, and processing minimize skew within a device and from device to device. to ensure that the tight skew specific ation is realized, both sides of any differential output need to be terminated identically into 50 ? even if only one output is being used. if an output pair is unused, both outputs may be left open (unterminated) without affecting skew. the common enable (en ) is synchronous, outputs are enabled/disabled in the low state. this avoids a runt cl ock pulse when the device is enabled/ disabled as can happen with an asynchronous control. the internal flip flop is clocked on the falling edge of the input clock; therefore, all associated specification limits are referenced to the negative edge of the clock input. the MC100ES6014, as with most other ecl devices, can be operated from a positive v cc supply in pecl mode. this allows the es6014 to be used for high performance clock distribution in +3.3 v or +2.5 v systems. single ended clk input pin operation is limited to a v cc 3.0 v in pecl mode, or v ee ?3.0 v in ecl mode. designers can take advantage of the es6014's performance to distribute low skew clocks across the backplane or the board. features ? 25 ps within device skew ? 400 ps typical propagation delay ? maximum frequency > 2 ghz typical ? the 100 series contains temperature compensation ? pecl and hstl mode: v cc = 2.375 v to 3.8 v with v ee = 0 v ? ecl mode: v cc = 0 v with v ee = ?2.375 v to ?3.8 v ? lvds and hstl input compatible ? open input default state MC100ES6014 scale 2:1 dt suffix 20 lead tssop package case 948e ordering information device package MC100ES6014dt tssop-20 MC100ES6014dtr2 tssop-20 f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 motorola 2 timing solutions figure 1. 20-lead pinout (top view) and logic diagram * pins will default low when left open. ** pins will default to v cc /2 when left open. * on next negative transition of clk0 or clk1 4 3 56789 10 2 1 q0 q0 q1 q1 q2 q2 q3 q3 q4 q4 warning: all v cc and v ee pins must be externally connected to power supply to guarantee proper operation. 17 18 16 15 14 13 12 11 19 20 10 d q v cc en v cc clk1 clk1 v bb clk0 clk0 clk_sel v ee table 1. pin description pin function clk0*, clk0 ** ecl/pecl/hstl clk input clk1*, clk1 ** ecl/pecl/hstl clk input q0:4, q0:4 ecl/pecl outputs clk_sel* ecl/pecl active clock select input en * ecl sync enable v bb reference voltage output v cc positive supply v ee negative supply table 2. function table clk0 clk1 clk_sel en q l h x x x x x l h x l l h h x l l l l h l h l h l* table 3. general specifications characteristics value internal input pulldown resistor 75 k ? internal input pullup resistor 75 k ? esd protection human body model machine model charged device model > 2000 v > 200 v > 1500 v thermal resistance (junction-to-ambient) 0 lfpm, 20 tssop 500 lfpm, 20 tssop 140 c/w 100 c/w meets or exceeds jedec spec eia/jesd78 ic latchup test f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 timing solutions 3 motorola table 4. absolute maximum ratings 1 symbol characteristic conditions rating units v supply power supply voltage difference between v cc & v ee 3.9 v v in input voltage v cc ? v ee 3.6 v v cc + 0.3 v ee ? 0.3 v i out output current continuous surge 50 100 ma ma i bb v bb sink/source current 0.5 c t a operating temperature range ?40 to +85 c t stg storage temperature range ?65 to +150 c 1. absolute maximum continuous ratings are those maximum values beyond which damage to the device may occur. exposure to these c onditions or conditions beyond those indicated may adv ersely affect device reliability. functi onal operation at absolute-maximum-rated co nditions is not implied. table 5. dc characteristics (v cc = 0 v, v ee = ?2.5 v5% or v cc = 2.5 v5%, v ee = 0 v) symbol characteristics ?40c 0c to 85c unit min typ max min typ max i ee power supply current 30 60 30 60 ma v oh output high voltage 1 1. output termination voltage v tt = 0v for v cc = 2.5v operation is supported but the power consumption of the device will increase. v cc ?1250 v cc ?990 v cc ?800 v cc ?1200 v cc ?960 v cc ?750 mv v ol output low voltage 1 v cc ?2000 v cc ?1550 v cc ?1150 v cc ?1925 v cc ?1630 v cc ?1200 mv v outpp output peak-to-peak voltage 200 200 mv v ih input high voltage v cc ?1165 v cc ?880 v cc ?1165 v cc ?880 mv v il input low voltage v cc ?1810 v cc ?1475 v cc ?1810 v cc ?1475 mv v bb output reference voltage i bb = 200 a v cc ?1400 v cc ?1200 v cc ?1400 v cc ?1200 mv v pp differential input voltage 2 2. v pp (dc) is the minimum differential input voltage swing required to maintain device functionality. 0.12 1.3 0.12 1.3 mv v cmr differential cross point voltage 3 3. v cmr (dc) is the crosspoint of the differential input signal. functi onal operation is obtained when the crosspoint is within the v cmr (dc) range and the input swing lies within the v pp (dc) specification. v ee +0.2 v cc ?1.0 v ee +0.2 v cc ?1.0 mv i in input current 150 150 a table 6. dc characteristics (v cc = 0 v, v ee = ?3.8 v to ?3.135 v or v cc = 3.135 v to 3.8 v, v ee = 0 v) symbol characteristics ?40c 0c to 85c unit min typ max min typ max i ee power supply current 30 60 30 60 ma v oh output high voltage 1 1. output termination voltage v tt = 0v for v cc = 2.5v operation is supported but the power consumption of the device will increase. v cc ?1150 v cc ?1020 v cc ?800 v cc ?1200 v cc ?970 v cc ?750 mv v ol output low voltage 1 v cc ?1950 v cc ?1620 v cc ?1250 v cc ?2000 v cc ?1680 v cc ?1300 mv v outpp output peak-to-peak voltage 200 200 mv v ih input high voltage v cc ?1165 v cc ?880 v cc ?1165 v cc ?880 mv v il input low voltage v cc ?1810 v cc ?1475 v cc ?1810 v cc ?1475 mv v bb output reference voltage i bb = 200 a v cc ?1400 v cc ?1200 v cc ?1400 v cc ?1200 mv v pp differential input voltage 2 2. v pp (dc) is the minimum differential input voltage swing required to maintain device functionality. 0.12 1.3 0.12 1.3 v v cmr differential cross point voltage 3 3. v cmr (dc) is the crosspoint of the differential input signal. functi onal operation is obtained when the crosspoint is within the v cmr (dc) range and the input swing lies within the v pp (dc) specification. v ee +0.2 v cc ?1.1 v ee +0.2 v cc ?1.1 v i in input current 150 150 a f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 motorola 4 timing solutions figure 2. typical termination for output driver and device evaluation table 7. ac characteristics (v cc = 0 v, v ee = ?3.8 v to ?3.135 v or v cc = 3.135 v to 3.8 v, v ee = 0 v) 1 1. measured using a 750 mv source, 50% duty cycl e clock source. all l oading with 50 ohms to v cc ?2.0 v. symbol characteristics ?40c 25c 85c unit min typ max min typ max min typ max f max maximum output frequency 2 2 2 ghz t plh t phl propagation delay (differential) clk to q, q 300 355 425 300 375 475 300 400 525 ps t skew within device skew 2 q, q device-to-device skew 2 2. skew is measured between output s under identical transitions. 23 45 125 23 45 175 23 45 225 ps ps t jitter cycle-to-cycle jitter rms (1 ) 1 1 1 ps v pp input peak-to-peak voltage swing (differential) 200 1200 200 1200 200 1200 mv v cmr differential cross point voltage v ee +0.2 v cc ?1.2 v ee +0.2 v cc ?1.2 v ee +0.2 v cc ?1.2 v t r /t f output rise/fall time (20%?80%) 70 225 70 250 70 275 ps driver device receiver device qd d q 50 ? 50 ? v tt v tt = v cc ? 2.0 v f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 timing solutions 5 motorola marking notes : trace code identification for 20 tssop : alyw ?a? ? the first character indicates the assembly location. ?l? ? the second character indicates the source wafer lot tracking code. ?y? ? the third character indicates the ?alp ha code? of the year device was assembled. ?w? ? the fourth character indicates the ?alpha code? of the work week device was assembled. device nomenclature 20-lead tssop marking MC100ES6014dt 6014 the ?y? year alpha codes the ?w? work week alpha codes year month work week code 1st 6 months (ww01 ? ww26) 2nd 6 months (ww27 ? ww52) a = 2003 first 6 months ww01 ? ww26 a = ww01 a = ww27 b = 2003 second 6 months ww27 ? ww52 b = ww02 b = ww28 c = 2004 first 6 months ww01 ? ww26 c = ww03 c = ww29 d = 2004 second 6 months ww27 ? ww52 d = ww04 d = ww30 e = 2005 first 6 months ww01 ? ww26 e = ww05 e = ww31 f = 2005 second 6 months ww27 ? ww52 f = ww06 f = ww32 g = 2006 first 6 months ww01 ? ww26 g = ww07 g = ww33 h = 2006 second 6 months ww27 ? ww52 h = ww08 h = ww34 i = 2007 first 6 months ww01 ? ww26 i = ww09 i = ww35 j = 2007 second 6 months ww27 ? ww52 j = ww10 j = ww36 k = 2008 first 6 months ww01 ? ww26 k = ww11 k = ww37 l = 2008 second 6 months ww27 ? ww52 l = ww12 l = ww38 m = 2009 first 6 months ww01 ? ww26 m = ww13 m = ww39 n = 2009 second 6 months ww27 ? ww52 n = ww14 n = ww40 o = 2010 first 6 months ww01 ? ww26 o = ww15 o = ww41 p = 2010 second 6 months ww27 ? ww52 p = ww16 p = ww42 q = 2011 first 6 months ww01 ? ww26 q = ww17 q = ww43 r = 2011 second 6 months ww27 ? ww52 r = ww18 r = ww44 s = 2012 first 6 months ww01 ? ww26 s = ww19 s = ww45 t = 2012 second 6 months ww27 ? ww52 t = ww20 t = ww46 u = 2013 first 6 months ww01 ? ww26 u = ww21 u = ww47 v = 2013 second 6 months ww27 ? ww52 v = ww22 v = ww48 w = 2014 first 6 months ww01 ? ww26 w = ww23 w = ww49 x = 2014 second 6 months ww27 ? ww52 x = ww24 x = ww50 y = 2015 first 6 months ww01 ? ww26 y = ww25 y = ww51 z = 2015 second 6 months ww27 ? ww52 z = ww26 z = ww52 = assembly location 20 tssop tracecode marking example: 5abr 5 = first lot assembled of this device in the designated work week a = 2003 second 6 months, ww27 ? ww52 b = ww44 of 2003 r f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 motorola 6 timing solutions package dimensions 10 11 20 pin 1 ident a b -v- -u- s u m 0.10 (0.004) v s t 20x ref k l l/2 2x s u 0.15 (0.006) t s u 0.15 (0.006) t c d g h seating plane -w- detail e n n m f 0.25 (0.010) detail e section n-n k k1 jj1 0.100 (0.004) ?t? pin 1 ident a b -v- -u- s u m 0.10 (0.004) v t 20x ref k l l/2 2x s u 0.15 (0.006) t s u 0.15 (0.006) t inches millimeters 0.65 bsc 0.026 bsc 6.40 bsc 0.252 bsc dim a b c d f g h j j1 k k1 l m max 6.60 4.50 1.20 0.15 0.75 0.37 0.20 0.16 0.30 0.25 8? max 0.260 0.177 0.047 0.006 0.030 0.015 0.008 0.006 0.012 0.010 8? min 4.30 0.05 0.50 0.27 0.09 0.09 0.19 0.19 0? 6.40 --- min 0.169 0.002 0.020 0.011 0.004 0.004 0.007 0.007 0? 0.252 --- notes: 1. 2. 3. 4. 5. 6. 7. dimensioning and tolerancing per ansi y14.5m, 1982. controlling dimension: millimeter. dimension a does not include mold flash, protrusions or gate burrs. mold flash or gate burrs shall not exceed 0.15 (0.006) per side. dimension b does not include interlead flash or protrusion. interlead flash or protrusion shall not exceed 0.25 (0.010) per side. dimension k does not include dambar protrusion. allowable dambar protrusion shall be 0.08 (0.003) total in excess of the k dimension at maximum material condition. terminal numbers are shown for reference only. dimension a and be are to be determined at datum plane -w-. dt suffix 20 lead tssop package case 948e-02 issue a f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
MC100ES6014 timing solutions 7 motorola notes f r e e s c a l e s e m i c o n d u c t o r , i freescale semiconductor, inc. f o r m o r e i n f o r m a t i o n o n t h i s p r o d u c t , g o t o : w w w . f r e e s c a l e . c o m n c . . .
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