mga-31716 0.1 w high linearity driver ampli?er data sheet description avago technologies mga-31716 is a high linearity driver mmic ampli?er housed in a standard qfn 3x3 16 lead plastic package. it features high gain, low operating current, low noise ?gure with good input and output return loss. power consumption can be further reduced by reducing the quiescent bias current using two external bias resistors. the device can be easily matched at di?erent frequencies to obtain optimal linearity performance at those frequencies. mga-31716 is especially ideal for 50 � wireless infrastruc- ture application operating from dc to 2 ghz frequency range. with the high linearity, excellent gain ?atness and low noise ?gure the mga-31716 may be utilized as a driver ampli?er in the transmit chain and as a second stage lna in the receiver chain. this device uses avago technologies proprietary 0.25 � m gaas enhancement mode phemt process. pin connections and package marking notes: package marking provides orientation and identi?cation 31716 = device part number yyww = work week and year of manufacturing xxxx = last 4 digit of lot number features �� very high linearity at low dc bias power [1] �� high gain with good gain ?atness �� rohs compliant �� good noise figure �� halogen free �� advanced enhancement-mode phemt technology �� qfn 3x3 16-lead standard package �� lead-free msl1 speci?cations at 900 mhz, vd = 5 v, id = 58 ma (typ) @ 25 c �� oip3 = 41.0 dbm �� noise figure = 1.9 db �� gain = 20.2 db �� p1db = 21.2 dbm �� irl = 16.7db, orl = 15.9 db note: 1. the mga-31716 has a superior lfom of 16.5 db. linearity-figure-of- merit (lfom) is the ratio of oip3 to total dc bias power. attention: observe precautions for handling electrostatic sensitive devices. esd machine model = 60 v esd human body model = 300 v refer to avago application note a004r: electrostatic discharge, damage and control. figure 1. simpli?ed application circuit 3 1 7 1 6 yyww xxxx n c 1 2 rf o ut 1 0 n c 9 rf o ut 11 1 n c 3 rf i n 4 n c n c - n o t co nn ec t ed 2 n c v bias 1 6 n c 14 v d 1 3 v c t r l 1 5 5 n c 7 n c 8 n c 6 n c g n d t op view b o tt om view
2 table 1. mga-31716 absolute maximum r ating [1] t a = 25 c symbol parameter units absolute maximum v d, max drain voltage v 5.5 v bias, max bias voltage v 5.5 v ctrl, max control voltage v 5.5 p d power dissipation [2] mw 605 p in cw rf input power dbm 24 t j junction temperature c 150 t stg storage temperature c -65 to 150 t amb ambient temperature c -40 to 85 thermal r esistance thermal r esistance [3] (v d = 5.0 v, t c = 85 c) � jc = 67.0c/w notes: 1. operation of this device in excess of any of these limits may cause permanent damage 2. source lead temperature is 25 c. derate 14.9 mw/c for t l > 130.0 c. 3. thermal resistance measured using 150 c infra-red microscopy technique. table 2. mga-31716 electrical speci?cation [1] t c = 25 c, v d = 5.0 v, unless otherwise noted symbol parameter and test condition frequency units min. typ. max. i ds quiescent current 450 mhz 900 mhz 1500 mhz ma 37 63 58 54 83 nf noise figure 450 mhz 900 mhz 1500 mhz db C 1.8 1.9 1.8 2.7 gain gain 450 mhz 900 mhz 1500 mhz db 18.5 21.0 20.2 19.6 21.5 oip3 [2, 4] output third order intercept point 450 mhz 900 mhz 1500 mhz dbm 37 40.5 41.0 41.0 C lfom [3] linearity figure of merit 450 mhz 900 mhz 1500 mhz dbm 15.5 16.5 16.8 p1db output power at 1db gain compression 450 mhz 900 mhz 1500 mhz dbm 19.5 22.1 21.2 21.1 C pae power added e?ciency at p1db 450 mhz 900 mhz 1500 mhz % 45.3 43.9 42.5 irl input return loss 450 mhz 900 mhz 1500 mhz db 15.3 16.7 18.7 orl output return loss 450 mhz 900 mhz 1500 mhz db 13.8 15.9 12.0 isol isolation 450 mhz 900 mhz 1500 mhz db 25.2 25.7 26.7 notes: 1. measurements obtained from test circuit and demoboard detailed in figures 46 and 47 and table 3. 2. oip3 test condition: f1 C f2 = 1 mhz, with input power of -12 dbm per tone measured at worst case side band. 3. lfom is de?ned as lfom = oip3 (in dbm) C p dc (in dbm). it is a measure of the linearity of an ampli?er per unit of dc power consumed. 4. demoboard tuned to best oip3 with minimum over-temperature drift.
3 mga-31716 consistency distribution chart [1, 2] figure 2. id @ 900 mhz; lsl = 37 ma, n ominal = 58 ma, usl = 83 ma figure 4 . gain @ 900 mhz; lsl = 18.5 d b , n ominal = 20.2 d b , usl = 21.5 d b figure 5. oip3 @ 900 mhz; n ominal = 4 1 d b m, lsl = 37 d b m figure 3. n f @ 900 mhz; n ominal = 1.9 d b , usl = 2.7 d b figure 6. p1d b @ 900 mhz; n ominal = 21.2 d b m, lsl = 19.5 d b m notes: 1. data sample size is 4000 samples taken from 4 di?erent wafers and 2 di?erent lots. future wafers allocated to this product m ay have nominal values anywhere between the upper and lower limits. 2. measurements are made on production test board which represents a trade-o? between optimal gain, nf, oip3 and p1db. circuit losses have been de-embedded from actual measurements. 4 050607080 1 .6 1 .8 2 2.2 2. 4 2.6 36 38 4 0 4 2 44 4 6 4 850525 4 56 1 9202 1 l s l us l us l l s l us l l s l 20 2 1 22 23 2 4 l s l
4 mga-31716 typical performance data for 4 50 mhz t c = 25 c, v d = 5.0 v, i d = 63 ma (based on bom for 450 mhz optimal linearity tuning in table 3) figure 7. oip3 vs pin and temperature figure 8. oip3 vs frequency and temperature figure 9. gain vs frequency and temperature figure 10. i r l vs frequency and temperature figure 11. o r l vs frequency and temperature figure 12. isolation vs frequency and temperature 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 28 30 32 3 4 36 38 4 0 4 2 - 20 -1 9 -1 8 -1 7 -1 6 -1 5 -14 -1 3 -1 2 -11 -1 0 - 9 - 8 - 7 pi n ( d b m ) o i p3 ( d b m ) 2 4 26 28 30 32 3 4 36 38 4 0 4 2 44 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) o i p3 ( d b m ) 1 5 1 6 1 7 1 8 1 9 20 2 1 22 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) gai n ( d b) - 20 -1 8 -1 6 -14 -1 2 -1 0 - 8 - 6 -4 - 2 0 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) in p ut r e tu r n l oss ( d b) - 35 - 30 - 25 - 20 -1 5 -1 0 - 5 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) o ut p ut r e tu r n l oss ( d b) - 3 1 - 30 - 29 - 28 - 27 - 26 - 25 - 2 4 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) i so l a t io n ( d b) 0 25 c -4 0 c 85 c
5 mga-31716 typical performance data for 4 50 mhz t c = 25 c, v d = 5.0 v, i d = 63 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 13. p1d b vs frequency and temperature figure 1 4 . n oise figure vs frequency and temperature figure 15. current vs voltage and temperatur e figure 16. oip3 and quiescent current with di?erent r 1 [1] figure 17. oip3 and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). 25 c -4 0 c 85 c 25 c -4 0 c 85 c o i p3 a t r 2 = 560 �� c u rre nt a t r 2 = 560 � o i p3 a t r1 = 1 .2 k �� c u rre nt a t r1 = 1 .2 k � 1 6 1 7 1 8 1 9 20 2 1 22 23 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) p 1 d b ( d b m ) 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 1 50 250 350 4 50 550 650 750 f req u e n cy ( m hz) n oise f ig u re ( d b) 0 1 0 20 30 4 0 50 60 70 80 90 1 00 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 3.5 4 .0 4 .5 5.0 5.5 v d (v o lt) i d ( ma ) 38.5 39.0 39.5 4 0.0 4 0.5 41 .0 r1 ( o h m ) o i p3 ( d b m ) 57 58 59 60 6 1 62 63 6 4 65 i d ( ma ) 1 000 11 00 1 200 1 300 14 00 1 500 38.0 38.5 39.0 39.5 4 0.0 4 0.5 41 .0 41 .5 4 70 500 530 560 590 620 650 680 r 2 ( o h m ) o i p3 ( d b m ) 58 59 60 6 1 62 63 6 4 65 66 67 i d ( ma ) 25 c -4 0 c 85 c
6 mga-31716 typical performance data for 4 50 mhz t c = 25 c, v d = 5.0 v, i d = 63 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 18. p1d b and quiescent current with di?erent r 1 [1] figure 19. p1d b and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). p 1 d b a t r 2 = 560 �� c u rre nt a t r 2 = 560 � p 1 d b a t r1 = 1 .2 k �� c u rre nt a t r1 = 1 .2 k � 2 1 .9 22.0 22. 1 22.2 1 000 11 00 1 200 1 300 14 00 1 500 r1 ( o h m ) p 1 d b ( d b m ) 68 69 70 7 1 72 i d ( ma ) 2 1 .7 2 1 .8 2 1 .9 22.0 22. 1 22.2 22.3 4 70 500 530 560 590 620 650 680 r 2 ( o h m ) p 1 d b ( d b m ) 68 69 70 7 1 72 i d ( ma )
7 mga-31716 typical performance data for 900 mhz t c = 25 c, v d = 5.0 v, i d = 58 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 20. oip3 vs pin and temperature figure 21. oip3 vs frequency and temperature figure 22. gain vs frequency and temperature figure 23. i r l vs frequency and temperature figure 2 4 . o r l vs frequency and temperature figure 25. isolation vs frequency and temperature - 22 - 20 -1 8 -1 6 -14 -1 2 -1 0 - 8 - 6 -4 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) in p ut r e tu r n l oss ( d b) - 30 - 29 - 28 - 27 - 26 - 25 - 2 4 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) i so l a t io n ( d b) 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) o ut p ut r e tu r n l oss ( d b) 30 32 3 4 36 38 4 0 4 2 - 20 -1 9 -1 8 -1 7 -1 6 -1 5 -14 -1 3 -1 2 -11 -1 0 - 9 - 8 - 7 pi n ( d b m ) o i p3 ( d b m ) 33 3 4 35 36 37 38 39 4 0 41 4 2 4 3 44 4 5 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) o i p3 ( d b m ) 1 6 1 7 1 8 1 9 20 2 1 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) gai n ( d b) 0 - 25 - 20 -1 5 -1 0 - 5 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c
8 mga-31716 typical performance data for 900 mhz t c = 25 c, v d = 5.0 v, i d = 58 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 26. p1d b vs frequency and temperature figure 27. n oise figure vs frequency and temperature figure 28. current vs voltage and temperature f igure 29. oip3 and quiescent current with di?erent r 1 [1] figure 30. oip3 and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). 1 8.0 1 8.5 1 9.0 1 9.5 20.0 20.5 2 1 .0 2 1 .5 22.0 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) p 1 d b ( d b m ) 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 600 700 800 900 1 000 11 00 1 200 f req u e n cy ( m hz) n oise f ig u re ( d b) 38.0 38.5 39.0 39.5 4 0.0 4 0.5 41 .0 41 .5 1 200 1 300 14 00 1 500 1 600 1 700 1 800 r1 ( o h m ) o i p3 ( d b m ) 5 1 53 55 57 59 6 1 63 65 i d ( ma ) 0 1 0 20 30 4 0 50 60 70 80 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 3.5 4 .0 4 .5 5.0 5.5 v d (v o lt) i d ( ma ) 38.0 38.5 39.0 39.5 4 0.0 4 0.5 41 .0 41 .5 4 2.0 4 2.5 4 70 500 530 560 590 620 650 680 r 2 ( o h m ) o i p3 ( d b m ) 53 5 4 55 56 57 58 59 60 6 1 62 i d ( ma ) 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c o i p3 a t r 2 = 560 �� c u rre nt a t r 2 = 560 � o i p3 a t r1 = 1 .5 k �� c u rre nt a t r1 = 1 .5 k �
9 mga-31716 typical performance data for 900 mhz t c = 25 c, v d = 5.0 v, i d = 58 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 31. p1d b and quiescent current with di?erent r 1 [1] figure 32. p1d b and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). 2 1 .0 2 1 . 1 2 1 .2 2 1 .3 1 200 1 300 14 00 1 500 1 600 1 700 1 800 r1 ( o h m ) p 1 d b ( d b m ) 63 6 4 65 66 67 68 i d ( ma ) 20.9 2 1 .0 2 1 . 1 2 1 .2 2 1 .3 41 0 44 0 4 70 500 530 560 590 620 650 680 r 2 ( o h m ) p 1 d b ( d b m ) 63 6 4 65 66 67 i d ( ma ) p 1 d b a t r 2 = 560 �� c u rre nt a t r 2 = 560 � p 1 d b a t r1 = 1 .5 k �� c u rre nt a t r1 = 1 .5 k �
10 mga-31716 typical performance data for 1500 mhz t c = 25 c, v d = 5.0 v, i d = 54 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 33. oip3 vs pin and temperature figure 3 4 . oip3 vs frequency and temperature figure 35. gain vs frequency and temperature figure 36. i r l vs frequency and temperature figure 37. o r l vs frequency and temperature figure 38. isolation vs frequency and temperature - 28.5 - 28.0 - 27.5 - 27.0 - 26.5 - 26.0 - 25.5 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) i so l a t io n ( d b) - 20 -1 5 -1 0 - 5 0 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) o ut p ut r e tu r n l oss ( d b) - 23 - 2 1 -1 9 -1 7 -1 5 -1 3 -11 - 9 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) in p ut r e tu r n l oss ( d b) 1 7.0 1 7.5 1 8.0 1 8.5 1 9.0 1 9.5 20.0 20.5 2 1 .0 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) gai n ( d b) 30 32 3 4 36 38 4 0 4 2 44 4 6 - 20 -1 9 -1 8 -1 7 -1 6 -1 5 -14 -1 3 -1 2 -11 -1 0 - 9 - 8 - 7 pi n ( d b m ) o i p3 ( d b m ) 32 33 3 4 35 36 37 38 39 4 0 41 4 2 4 3 44 4 5 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) o i p3 ( d b m ) 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c
11 mga-31716 typical performance data for 1500 mhz t c = 25 c, v d = 5.0 v, i d = 54 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 39. p1d b vs frequency and temperature figure 4 0. n oise figure vs frequency and temperature figure 4 1. current vs voltage and temperature figure 4 2. oip3 and quiescent current with di?erent r 1 [1] figure 4 3. oip3 and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). 1 9.0 1 9.5 20.0 20.5 2 1 .0 2 1 .5 22.0 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) p 1 d b ( d b m ) 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 1 200 1 300 14 00 1 500 1 600 1 700 1 800 f req u e n cy ( m hz) n oise f ig u re ( d b) 0 1 0 20 30 4 0 50 60 70 80 0.0 0.5 1 .0 1 .5 2.0 2.5 3.0 3.5 4 .0 4 .5 5.0 5.5 v d (v o lt) i d ( ma ) 39.0 39.5 4 0.0 4 0.5 41 .0 41 .5 4 2.0 4 2.5 4 3.0 1 300 14 00 1 500 1 600 1 700 1 800 1 900 2000 r1 ( o h m ) o i p3 ( d b m ) 4 6 4 7 4 8 4 9 50 5 1 52 53 5 4 55 56 i d ( ma ) 39.0 4 0.0 41 .0 4 2.0 4 3.0 44 .0 4 5.0 5 1 0 560 6 1 0 660 7 1 0 760 8 1 0 r 2 ( o h m ) o i p3 ( d b m ) 4 9 50 5 1 52 53 5 4 55 i d ( ma ) 25 c -4 0 c 85 c 25 c -4 0 c 85 c 25 c -4 0 c 85 c o i p3 a t r 2 = 620 �� c u rre nt a t r 2 = 620 � o i p3 a t r1 = 1 .6 k �� c u rre nt a t r1 = 1 .6 k �
12 mga-31716 typical performance data for 1500 mhz t c = 25 c, v d = 5.0 v, i d = 54 ma (based on bom in table 3, tuned for optimal linearity with over temperature) figure 44 . p1d b and quiescent current with di?erent r 1 [1] figure 4 5. p1d b and quiescent current with di?erent r 2 [1] note: 1. vbias and vctrl can be externally controlled by change external biasing resistors r1 = rbias and r2 = rctrl (as shown in fig . 46). 20.9 2 1 .0 2 1 . 1 2 1 .2 2 1 .3 1 300 14 00 1 500 1 600 1 700 1 800 1 900 2000 r1 ( o h m ) p 1 d b ( d b m ) 56 57 58 59 60 6 1 i d ( ma ) 20.9 2 1 .0 2 1 . 1 2 1 .2 2 1 .3 5 1 0 560 6 1 0 660 7 1 0 760 8 1 0 r 2 ( o h m ) p 1 d b ( d b m ) 57 58 59 60 6 1 i d ( ma ) p 1 d b a t r 2 = 620 �� c u rre nt a t r 2 = 620 � p 1 d b a t r1 = 1 .6 k �� c u rre nt a t r1 = 1 .6 k �
13 application circuit description and layout figure 4 6. application circuit diagram figure 4 7. demoboard table 3. b ill of materials C tuned for optimal linearity performance at di?erent frequencies circuit symbol size description optimum linearity at 4 50 mhz optimum linearity at 900 mhz optimum linearity at 1500 mhz manufacturer value value value c2 0402 5 pf 5 pf 1 pf murata c3 0603 2.2 � f 2.2 � f 2.2 � f murata c11 0402 100 pf 100 pf 100 pf murata c13 0402 12 pf 3.3 pf 1.8 pf murata l1 0402 33 nh 8.2 nh 2.4 nh murata l2 [2] 0402 nr 2.4 pf 1 pf murata r1 [1] 0402 1.2 k � 1.5 k � 1.6 k � koa r2 [1] 0402 560 � 560 � 620 � koa notes: nr C not required in actual pcb design 1. r1 and r2 can be varied to bias vbias and vctrl which will provide ?exibility to have the product operates at desirable id, lfom, and oip3 drift across temperature also p1db. 2. capacitor is used at l2. figure 4 8. circuit to measure de-embedded s-parameters and n oise parameter in table 4 and 5. note: 1. measurements are conducted on 0.010 inch think roger 4350. the input reference plane is at the end of the rfin pin and the output reference plane is at the end of the rfout pin as shown in figure 48. v dd rk_v 3.0 ou t c3 c 1 c2 r 2 l1 c 14 c 1 3 oc t 20 1 0 q fn 3 x 3 r1 c 11 in l 2 c 1 2 a v ago t ec hn o l ogies g n d c 1 5 50 � b ias t b iasi n g n e t wor k rf o ut rf i n v bias v c t r l 50 � 50 � v d b ias t b ias t
14 table 4 . mga-31716 typical scattering parameters t c = 25 c, v d = 5.0 v, i d = 58 ma, z o = 50 � (data is de-embedded to the rfin & rfout pins on package. measurements were made with bias-tees at vd, vctrl and vbias in figure 48) freq ghz s11 s11 s11 s21 s21 s21 s12 s12 s12 s22 s22 s22 k factor mag. d b ang. mag. d b ang. mag. d b ang. mag. d b ang. 0.10 0.160 -15.9 177.0 12.600 22.0 158.0 0.057 -25.0 -12.8 0.156 -16.1 177.0 1.046 0.20 0.152 -16.4 163.0 12.300 21.8 143.0 0.057 -24.9 -29.7 0.153 -16.3 149.0 1.056 0.30 0.150 -16.5 152.0 12.100 21.7 127.0 0.056 -25.1 -43.3 0.145 -16.8 125.0 1.068 0.40 0.149 -16.5 142.0 12.000 21.6 111.0 0.056 -25.1 -58.6 0.139 -17.2 105.0 1.072 0.50 0.155 -16.2 133.0 11.900 21.5 94.0 0.055 -25.2 -73.0 0.132 -17.6 83.8 1.080 0.60 0.157 -16.1 120.0 11.700 21.4 77.5 0.054 -25.3 -87.4 0.123 -18.2 62.3 1.091 0.70 0.162 -15.8 110.0 11.600 21.3 60.9 0.053 -25.4 -102.0 0.117 -18.6 40.3 1.103 0.80 0.167 -15.5 96.3 11.500 21.2 44.4 0.053 -25.6 -116.0 0.110 -19.2 17.6 1.114 0.90 0.169 -15.4 83.1 11.300 21.1 27.7 0.052 -25.6 -131.0 0.106 -19.5 -6.7 1.124 1.00 0.173 -15.2 68.8 11.200 21.0 11.0 0.052 -25.7 -145.0 0.102 -19.8 -30.1 1.138 1.10 0.177 -15.0 53.4 11.000 20.9 -5.6 0.051 -25.8 -159.0 0.101 -19.9 -52.4 1.150 1.20 0.177 -15.0 37.1 10.900 20.7 -22.2 0.050 -26.0 -174.0 0.100 -20.0 -76.0 1.170 1.30 0.179 -14.9 19.6 10.700 20.6 -39.0 0.049 -26.2 171.0 0.101 -19.9 -97.3 1.186 1.40 0.181 -14.9 0.5 10.600 20.5 -55.7 0.048 -26.3 156.0 0.103 -19.8 -117.0 1.205 1.50 0.181 -14.9 -19.2 10.400 20.4 -72.5 0.047 -26.5 142.0 0.105 -19.6 -136.0 1.227 1.60 0.182 -14.8 -40.2 10.200 20.2 -89.4 0.046 -26.7 127.0 0.107 -19.4 -154.0 1.255 1.70 0.186 -14.6 -63.3 10.100 20.1 -106.0 0.045 -26.9 112.0 0.109 -19.2 -169.0 1.280 1.80 0.190 -14.4 -87.6 9.920 19.9 -124.0 0.045 -27.0 97.0 0.113 -18.9 174.0 1.306 1.90 0.199 -14.0 -113.0 9.720 19.8 -141.0 0.044 -27.2 82.1 0.113 -18.9 160.0 1.338 2.00 0.215 -13.3 -138.0 9.510 19.6 -158.0 0.042 -27.5 66.8 0.117 -18.6 147.0 1.378 2.10 0.235 -12.6 -163.0 9.290 19.4 -176.0 0.041 -27.7 51.4 0.120 -18.4 135.0 1.416 2.20 0.260 -11.7 172.0 9.030 19.1 166.0 0.040 -28.0 35.4 0.124 -18.2 122.0 1.462 2.30 0.293 -10.7 147.0 8.740 18.8 149.0 0.038 -28.4 19.9 0.128 -17.8 112.0 1.518 2.40 0.329 -9.7 123.0 8.430 18.5 131.0 0.036 -28.8 3.6 0.137 -17.3 99.7 1.581 2.50 0.369 -8.7 99.9 8.090 18.2 113.0 0.035 -29.2 -12.9 0.143 -16.9 88.0 1.645 3.00 0.602 -4.4 -5.8 5.990 15.5 22.4 0.026 -31.9 -92.1 0.212 -13.5 24.4 2.073 3.50 0.779 -2.2 -96.4 3.830 11.7 -63.3 0.017 -35.4 -168.0 0.302 -10.4 -45.9 2.787 4.00 0.863 -1.3 -174.0 2.290 7.2 -141.0 0.011 -38.8 124.0 0.381 -8.4 -114.0 4.181 5.00 0.887 -1.1 52.5 0.838 -1.5 80.8 0.007 -42.6 -3.9 0.476 -6.4 121.0 13.380 6.00 0.887 -1.0 -69.8 0.353 -9.1 -45.3 0.007 -42.8 -129.0 0.500 -6.0 3.2 31.411 7.00 0.900 -0.9 173.0 0.159 -16.0 -168.0 0.008 -42.0 111.0 0.526 -5.6 -115.0 54.716 8.00 0.902 -0.9 61.0 0.075 -22.5 72.4 0.008 -41.5 -2.2 0.566 -5.0 131.0 99.527 9.00 0.888 -1.0 -47.5 0.038 -28.3 -49.7 0.009 -40.5 -117.0 0.585 -4.7 22.3 192.476 10.00 0.873 -1.2 -155.0 0.021 -33.5 -175.0 0.010 -40.0 128.0 0.584 -4.7 -88.3 375.167 11.00 0.870 -1.2 95.6 0.014 -37.3 54.6 0.010 -39.8 15.9 0.590 -4.6 159.0 572.555 12.00 0.878 -1.1 -13.8 0.009 -40.5 -75.5 0.009 -40.8 -99.3 0.619 -4.2 44.2 821.109 13.00 0.881 -1.1 -117.0 0.004 -48.3 143.0 0.005 -45.7 130.0 0.684 -3.3 -71.2 2981.617 14.00 0.877 -1.1 146.0 0.011 -39.5 103.0 0.009 -41.1 92.2 0.744 -2.6 180.0 557.304 15.00 0.860 -1.3 45.8 0.006 -44.6 -26.7 0.005 -45.5 -34.7 0.795 -2.0 68.4 1534.771 16.00 0.840 -1.5 -67.3 0.007 -42.8 -46.8 0.007 -43.0 -58.6 0.711 -3.0 -71.0 1428.991 17.00 0.849 -1.4 -178.0 0.013 -38.0 173.0 0.012 -38.3 161.0 0.560 -5.0 165.0 624.270 18.00 0.863 -1.3 86.1 0.013 -37.9 59.9 0.012 -38.2 46.2 0.528 -5.6 75.7 583.097 19.00 0.862 -1.3 -7.0 0.014 -37.0 -48.0 0.014 -37.3 -60.8 0.516 -5.8 -12.9 486.734 20.00 0.839 -1.5 -105.0 0.013 -37.8 -177.0 0.016 -36.0 165.0 0.463 -6.7 -117.0 574.400
15 mga-31716 stability t c = 25 c, v d = 5.0 v, i d = 58 ma, z o = 50 � (data is de-embedded to the rfin & rfout pins. measurements were made with bias-t at vd, vctrl and vbias in figure 48) figure 4 9. k-factor vs frequency 0 1 2 3 4 5 6 7 8 9 1 0 02 4 68 1 0 1 2 14 1 6 1 820 f req u e n cy ( g hz) k f ac t or k f ac t or table 5. mga-31716 typical n oise parameters t c = 25 c, v d = 5.0 v, i d = 58 ma, z o = 50 � (data is de-embedded to the rfin & rfout pins on package. measurements were made with bias-tees at vd, vctrl and vbias in figure 48) freq (ghz) f min (d b ) � opt mag � opt ang r n /z 0 ga (d b ) 0.5 1.46 0.159 -146.4 0.1272 21.43 0.8 1.55 0.120 -132.4 0.1384 21.22 0.9 1.60 0.105 -129.3 0.1440 21.13 1.0 1.63 0.097 -124.0 0.1546 21.10 1.5 1.74 0.043 -47.2 0.1972 20.43 2.0 1.92 0.168 36.3 0.2498 19.74 2.5 2.24 0.327 78.4 0.2862 18.89 3.0 2.52 0.544 109.3 0.3296 17.89 3.5 2.87 0.672 138.0 0.4130 18.56 4.0 3.38 0.781 159.6 0.5284 15.33 4.5 4.23 0.85 175.2 0.9124 13.18 5.0 5.12 0.881 -163.3 1.4458 11.13 5.5 6.54 0.919 -148.4 2.9438 7.73 6.0 7.84 0.916 -141.4 4.2160 5.92
16 pc b layout and stencil design notes: 1 . a ll dimensions are in mi l imeters 2. 4 mi l stenci l thickness recommended pc b l a n d pa ttern (t op view) s ten c il ou tline com bine d pc b & s ten c il l a y ou t s c h amfer 0.2 4 1 .55 0.23 0.32 0.50 1 .55 0.50 ? 0.26 0.56 c h amfer 0.06 1 .2 4 1 .2 4 0. 4 9 0.35 0.2 1 c h amfer 0. 1 92 0.50 0.32 1 .55 1 .2 4 1 .2 4 1 .55 0.23 0.2 1 0.36 0.50 3.20 2.92 0.50 3.20
17 package dimensions part n umber ordering information part n umber n o. of devices container MGA-31716-BLKG 100 antistatic bag mga-31716-tr1g 3000 13 tape/reel notes: 1. all dimensions are in milimeters. 2. dimensions are inclusive of plating. 3. dimensions are exclusive of mold ?ash and metal burr. t op view s i d e view b o tt om view 3 1 7 1 6 yyww xxxx 3.00 0. 1 0 3.00 0. 1 0 pi n 1 do t b y mar k i n g 0.20 r ef. 0.00 0.05 0. 4 0 0.05 1 .55 0.05 ex p.dap 1 .55 0.05 ex p.dap 0.50 b sc 0.23 0.05 1 .50 r ef. pi n #1 ide nt i fi ca t io n c h amfer 0.30 x 4 5 0.85 0.05
18 device orientation tape dimensions us er fee d d ire c ti o n t op view en d view us er fee d d ire c ti o n co ver t ap e ca rrier t ap e reel 3 1 7 1 6 yyww xxxx 3 1 7 1 6 yyww xxxx 3 1 7 1 6 yyww xxxx no t es: 1 . measured from cen t er l ine of sprocke t ho l e t o cen t er l ine of pocke t 2. cumu l a t ive t o l erance of 1 0 sprocke t ho l es is 0.20 3. o t her ma t eria l avai l ab l e 4. a ll dimensions in mi ll ime t er un l ess o t herwise s t a t ed c l 0.3 0.05 3.3 0. 1 1 .55 0. 1 1 .6 0. 1 r 0.3 t ypica l 1 .55 0.05 2.0 0. 1 [ 1 ] 4.0 0. 1 [2] 1 .75 0. 1 5.5 0. 1 [ 1 ] 1 2.0 0.3 3.3 0. 1 8.0 0. 1
for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2011 avago technologies. all rights reserved. av02-3264en - december 8, 2011 r eel dimension C 13 r eel 12 mm width ps 6 2 1 12 11 10 9 8 7 2 0 3 5 4 6 6 ps ps 6 cp n 12mm mp n detail "x" r ecycle logo see detail "x" r 19.00.5 ?12.30.5(3x) ?100.00.5 ?329.01.0 11.9-15. 4 ** 18. 4 max.* slot 5.00.5 (3x) 12. 4 +2.0* -0.0 em b ossed lette r i n g 16.0 mm height x mi n . 0. 4 mm thick. em b ossed li n e (2x) 89.0 mm le n gth li n es 1 4 7.0 mm away f r om ce n te r poi n t em b ossed lette r i n g 7.5 mm height date code esd logo ?16.0 em b ossed lette r i n g 7.5 mm height hu b ?100.00.5 ?329.01.0 20.2 (mi n .) 1.5 (mi n .) ?13.0 +0.5 -0.2 b ack view f r o n t view 2 0 12 10 8 7 11 9 1 3 4 6 5 2
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