az10ep16vs az100ep16vs ecl/pecl differential receiv er with variable output swing 1630 s. stapley dr., suite 127 ? mesa, arizona 85204 ? usa ? (480) 962-5881 ? fax (480) 890-2541 www.azmicrotek.com arizona microtek, inc. features ? silicon-germanium for high speed operation ? 150ps typical propagation delay ? az100ep16vs functionally equivalent to on semiconductor mc100ep16vs at 3.3v ? available in a 3x3mm mlp package ? s-parameter (.s2p) and ibis model files available on arizona microtek website description the az10/100ep16vs is a silicon?germanium (sige) differe ntial receiver with vari able output swing. the ep16vs has functionality and output transition times similar to the ep16, with an input that controls the amplitude of the q/q outputs. connecting the boost pin to v ee increases the output swing by about 15% above standard ecl/pecl levels. the boost pin is internally tied to v ee for the soic 8 and tssop 8 packages, and is under external user control for the mlp 16 package. when both the boost pin and the v ctrl pin are not connected, the part operates with the standard ecl/pecl output and v bb levels of the az10/100ep16 device. to ensure best performance, the boost pin should be tied to v ee when the variable swing feature is used. the operational range of the ep16vs control input, v ctrl , is from v ref (full swing) to v cc (min. swing). maximum swing is achieved by leaving the v ctrl pin open or tied to v ee . simple control of the output swing can be obtained by a variable resistor between the v ref and v cc pins, with the wiper driving v ctrl . typical application circuits and results are described in this data sheet. the ep16vs provides a v ref (v bb /v ref ) output for a dc bias when ac coupling to the device. the v ref pin should be used only as a bias for the ep16vs as its cu rrent sink/source capability is limited. whenever used, the v ref pin should be bypassed to ground via a 0.01 f capacitor. under open input conditions for d/d , the q/q outputs are not guaranteed. note: specifications in ecl/pecl tables are valid when thermal equilibrium is established. package availability package part number marking notes soic 8 az10ep16vsd azm10 ep16vs 1,2,3 soic 8 az100ep16vsd azm100 ep16vs 1,2,3 tssop 8 az10ep16vst aztp ep16vs 1,2,3 tssop 8 az100ep16vst azhp ep16vs 1,2,3 mlp 16 (3x3) az10/100ep16vsl azm 16s 1,2 mlp 16 (3x3) rohs compliant / lead(pb) free az10/100ep16vsl+ azm+ 16s 1,2 1 add r1 at end of part number for 7 inch (1k parts), r2 for 13 inch (2.5k parts) tape & reel. 2 date code format: ?y? or ?yy? fo r year followed by ?ww? for week. 3 date code ?yww? or ? yyww? on underside of part.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 2 *boost should be tied to v ee for best performance when using the variable swing feature. logic diagram and pinout assignment pin description pin function d, d data inputs v ctrl output swing control q, q data outputs v ref , v bb /v ref reference voltage output boost increases output swing when tied to v ee * v cc positive supply v ee negative supply nc no connect soic 8 & tssop 8 8 5 6 7 4 3 2 1 v cc d v ee q q v ref d v ctrl d nc v ee q q v cc 4 3 2 58 7 6 10 9 12 11 v bb / v ref d 100k 13 14 15 16 nc v ctrl boost nc 10k mlp 16, 3x3 mm nc nc 1 mlp 16 package: 10k/100k selection connect pin 10k to v ee and float (nc) pin 100k to select 10k operation. connect pin 100k to v ee and float (nc) pin 10k to select 100k operation. variable swing selection connect pin boost to v ee to support variable swing operation. float (nc) pins boost and v ctrl to disable variable swing operation. all v ee connections must be less than 1 . bottom center pad may be left open or tied to v ee top view
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 3 absolute maximum ratings are those values beyond which device life may be impaired. symbol characteristic rating unit v cc pecl power supply (v ee = 0v) 0 to +4.5 vdc v i pecl input voltage (v ee = 0v) 0 to +4.5 vdc v ee ecl power supply (v cc = 0v) -4.5 to 0 vdc v i ecl input voltage (v cc = 0v) -4.5 to 0 vdc i out output current --- continuous --- surge 50 100 ma t a operating temperature range -40 to +85 c t stg storage temperature range -65 to +150 c 10k ecl dc characteristics (v ee = -3.0v to -3.6v, v cc = gnd) -40 c 0 c 25 c 85 c symbol characteristic min typ max min typ max min typ max min typ max unit v oh output high voltage 1 -1095 -845 -1055 -805 -1030 -780 -970 -720 mv v ol output low voltage 1,2 v ctrl = v ref boost = v ee -2000 -1700 -2000 -1690 -2000 -1690 -2000 -1655 mv v ol output low voltage 1,2 v ctrl = v cc boost = v ee -1285 -1035 -1270 -1020 -1265 -1015 -1255 -1005 mv v ol output low voltage 1,3 v ctrl = nc boost = nc -1950 -1650 -1950 -1630 -1950 -1630 -1950 -1595 mv v ref v bb /v ref reference voltage 2 boost = v ee -1700 -1500 -1670 -1470 -1650 -1450 -1600 -1400 mv v bb /v ref reference voltage 3 boost = nc -1430 -1300 -1380 -1270 -1350 -1250 -1310 -1190 mv i ih input high current d,d v ctrl 80 400 80 400 80 400 80 400 a i il input low current 0.5 0.5 0.5 0.5 a i ee power supply current 21 27 36 22 28 37 22 29 38 24 30 40 ma 1. each output is terminated through a 50 resistor to v cc ? 2v. 2. boost is internally bonded to v ee for both the soic 8 and tssop 8 packages. 3. supported in mlp 16 package only. 10k lvpecl dc characteristics (v ee = gnd, v cc = +3.3v) -40 c 0 c 25 c 85 c symbol characteristic min t yp max min t yp max min t yp max min t yp max unit v oh output high voltage 1,2 2205 2455 2245 2495 2270 2520 2330 2580 mv v ol output low voltage 1,2,3 v ctrl = v ref boost = v ee 1300 1600 1300 1610 1300 1610 1300 1645 mv v ol output low voltage 1,2,3 v ctrl = v cc boost = v ee 2015 2265 2030 2280 2035 2285 2045 2295 mv v ol output low voltage 1,3,4 v ctrl = nc boost = nc 1350 1650 1350 1670 1350 1670 1350 1670 mv v ref v bb /v ref reference voltage 3 boost = v ee 1600 1800 1630 1830 1650 1850 1700 1900 mv v bb /v ref reference voltage 4 boost = nc 1870 2000 1920 2030 1950 2050 1990 2110 mv i ih input high current d,d v ctrl 80 400 80 400 80 400 80 400 a i il input low current 0.5 0.5 0.5 0.5 a i ee power supply current 21 27 36 22 28 37 22 29 38 24 30 40 ma 1. for supply voltages other that 3.3v, use the ec l table values and add supply voltage value. 2. each output is terminated through a 50 resistor to v cc ? 2v. 3. boost is internally bonded to v ee for both the soic 8 and tssop 8 packages. 4. supported in mlp 16 package only.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 4 100k ecl dc characteristics (v ee = -3.0v to -3.6v, v cc = gnd) -40 c 0 c 25 c 85 c symbol characteristic min typ max min typ max min typ max min typ max unit v oh output high voltage 1 -1130 -840 -1090 -840 -1090 -840 -1090 -840 mv v ol output low voltage 1,2 v ctrl = v ref boost = v ee -1950 -1700 -1950 -1700 -1950 -1700 -1950 -1700 mv v ol output low voltage 1,2 v ctrl = v cc boost = v ee -1200 -940 -1190 -940 -1190 -940 -1190 -940 mv v ol output low voltage 1,3 v ctrl = nc boost = nc -1900 -1640 -1890 -1640 -1890 -1640 -1890 -1640 mv v ref v bb /v ref reference voltage 2 boost = v ee -1650 -1450 -1650 -1450 -1650 -1550 -1450 -1650 -1450 mv v bb /v ref reference voltage 3 boost = nc -1440 -1320 -1380 -1260 -1380 -1260 -1380 -1260 mv i ih input high current d,d v ctrl 80 400 80 400 80 400 80 400 a i il input low current 0.5 0.5 0.5 0.5 a i ee power supply current 20 26 35 21 27 36 22 28 38 25 31 41 ma 1. each output is terminated through a 50 resistor to v cc ? 2v. 2. boost is internally bonded to v ee for both the soic 8 and tssop 8 packages. 3. supported in mlp 16 package only. 100k lvpecl dc characteristics (v ee = gnd, v cc = +3.3v) -40 c 0 c 25 c 85 c symbol characteristic min t yp max min t yp max min t yp max min t yp max unit v oh output high voltage 1,2 2170 2460 2210 2460 2210 2460 2210 2460 mv v ol output low voltage 1,2,3 v ctrl = v ref boost = v ee 1350 1600 1350 1600 1350 1600 1350 1600 mv v ol output low voltage 1,2,3 v ctrl = v cc boost = v ee 2100 2360 2110 2360 2110 2360 2110 2360 mv v ol output low voltage 1,3,4 v ctrl = nc boost = nc 1410 1660 1410 1660 1410 1660 1410 1660 mv v ref v bb /v ref reference voltage 3 boost = v ee 1650 1850 1650 1850 1650 1850 1650 1850 mv v bb /v ref reference voltage 4 boost = nc 1860 1980 1920 2040 1920 2040 1920 2040 mv i ih input high current d,d v ctrl 80 400 80 400 80 400 80 400 a i il input low current 0.5 0.5 0.5 0.5 a i ee power supply current 20 26 35 21 27 36 22 28 38 25 31 41 ma 1. for supply voltages other that 3.3v, use the ec l table values and add supply voltage value. 2. each output is terminated through a 50 resistor to v cc ? 2v. 3. boost is internally bonded to v ee for both the soic 8 and tssop 8 packages. 4. supported in mlp 16 package only.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 5 ac characteristics (v ee = -3.0 to -3.6v, v cc = gnd, v ctrl =v ref or v ee = gnd, v cc = +3.0v to 3.6v, v ctrl = v ref ) -40 c 0 c 25 c 85 c symbol characteristic min typ max min typ max min typ max min typ max unit f max maximum toggle frequency 5 >4 >4 >4 >4 ghz t plh / t phl input to output delay (diff) (se) 100 150 155 240 100 150 155 240 100 150 155 240 120 170 175 280 ps t skew duty cycle skew 1 (diff) 4 20 4 15 4 15 4 15 ps v pp minimum input swing 2 150 150 150 150 mv v cmr common mode range 3 v ee + 2.0 v cc v ee + 2.0 v cc v ee + 2.0 v cc v ee + 2.0 v cc v a v small signal gain 4 28 db t r / t f output rise/fall times q (20% - 80%) 120 170 120 180 120 180 120 200 ps 1. duty cycle skew is the difference between a t plh and t phl propagation delay through a device. 2. v pp is the minimum peak-to-peak differential input swing for which ac parameters are guaranteed. 3. the v cmr range is referenced to the most positive side of the differential input signal. no rmal operation is obtained if the high leve l falls within the specified range and the peak -to-peak voltage lies between v pp (min) and 1v. 4. differential input, differential output. 240 to v ee on q/q outputs, v ctrl = nc and boost = v ee (for mlp 16 package). 5. see graph below. typical large signal performance, az100ep16vs* 0 100 200 300 400 500 600 700 800 900 1000 0 1000 2000 3000 4000 5000 6000 frequency (mhz) v outpp (mv) v ctrl =v cc v ctrl =v cc -2.0v v ctrl =v cc -1.5v v ctrl =v cc -1.0v v ctrl =v cc -0.5v *measured using a 750mv differential input source at 50% duty cycle. valid for soic 8, tssop 8, or mlp 16 with boost = v ee .
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 6 typical az100ep16vs voltage output swing at +25c, nominal supply (see figure 1 and figure 2) 1.240 v (100k ecl) 0 25 50 75 100 0.0 0.4 0.8 1.2 1.6 v ctrl (v) (boost tied to v ee formlp 16, or soic 8/tssop 8 package) v swing (% pk-pk differential) %out 100k ecl figure 2: alternative implementation v cc d q q d v ctrl 50 -2v 50 figure 1: voltage source implementation v cc d v ee q q d + 3.3v 1k v swing (pk-pk) 240 240 v ctrl v ref v swing (pk-pk) v ee - 3.3v
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 7 millimeters inches dim min max min max a 1.75 0.069 a 1 0.10 0.25 0.004 0.010 a 2 1.25 1.45 0.049 0.057 a 3 0.25 0.01 b p 0.36 0.49 0.014 0.019 c 0.19 0.25 0.0075 0.0100 d 4.8 5.0 0.19 0.20 e 3.8 4.0 0.15 0.16 e 1.27 0.050 h e 5.80 6.20 0.228 0.244 l 1.05 0.041 l p 0.40 1.00 0.016 0.039 q 0.60 0.70 0.024 0.028 v 0.25 0.01 w 0.25 0.01 y 0.10 0.004 z 0.30 0.70 0.012 0.028 0 o 8 o 0 o 8 o package diagram soic 8 notes: 1. dimensions d and e do not include mold protrusion. 2. maximum mold protrusion for d is 0.15mm. 3. maximum mold protrusion for e is 0.25mm.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 8 package diagram tssop 8 millimeters dim min max a 1.10 a 1 0.05 0.15 a 2 0.80 0.95 a 3 0.25 b p 0.25 0.45 c 0.15 0.28 d 2.90 3.10 e 2.90 3.10 e 0.65 h e 4.70 5.10 l 0.94 l p 0.40 0.70 v 0.10 w 0.10 y 0.10 z 0.35 0.70 0 o 6 o notes: 1. dimensions d and e do not include mold protrusion. 2. maximum mold protrusion for d is 0.15mm. 3. maximum mold protrusion for e is 0.25mm.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 9 package diagram mlp 16 3x3mm dimensioning and tolerancing conform to asme t14-1994. the terminal #1 and pad numbering convention shall conform to jesd 95-1 spp-012. dimension b applies to metallized pad and is measured between 0.25 and 0.30 mm from pad tip. coplanarity applies to the exposed pads as well as the terminals. notes: 1. 2. 3. 4. d e aaa 2 x c d 2 e 2 b a aaa top view index area (d/2 x e/2) 2 x c 2. d2 d2/2 e2/2 e2 l e 3 x e 3 x bbb bottom view c a b 3. e 1 2 m 5. inside corners of metallized pad may be square or rounded 5. 16 x b dim min max a a1 a3 b d d2 e e2 e l aaa bbb ccc 0.80 0.00 0.18 2.90 0.25 2.90 0.25 0.30 1.00 0.30 0.50 0.25 ref 0.50 bsc 0.25 0.10 0.10 millimeters 0.05 3.10 1.95 3.10 1.95 a a1 a3 side view c seating plane 0.08 c ccc c 4.
az10ep16vs az100ep16vs july 2007 * rev - 10 www.azmicrotek.com 10 arizona microtek, inc. reserves the right to change circuitry a nd specifications at any time without prior notice. arizona mic rotek, inc. makes no warranty, representation or guarant ee regarding the suitability of its products for any particular purpose, nor does a rizona microtek, inc. assume any liability arising out of the applica tion or use of any product or ci rcuit and specifically disclaims any and all liability, including without limitation special, consequential or inci dental damages. arizona microtek, inc. does not convey a ny license rights nor the rights of others. arizona microtek, inc. products are not designed, intended or authorized for use as component s in systems intended to support or sustain life, or for any other applicati on in which the failure of the arizona microtek, inc. product co uld create a situation where personal injury or death may occur. should buye r purchase or use arizona microtek, inc. products for any such unintended or unauthorized application, buyer shall indemnify a nd hold arizona microtek, inc. a nd its officers, employees, subs idiaries, affiliates, and distributor s harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising ou t of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that arizona microtek, inc. was negligent regarding the design or manufacture of the part.
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