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| 1 of 14 functional block diagram rf micro devices?, rfmd?, optimum technology matchi ng?, enabling wireless connectivity?, powerstar?, p olaris? total radio? and ultimateblue? are trademar ks of rfmd, llc. bluetooth is a trade- mark owned by bluetooth sig, inc., u.s.a. and licens ed for use by rfmd. all other trade names, trademar ks and registered trademarks are the property of the ir respective owners. ?2012, rf micro devices, inc. product description 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . ordering information package gnd 32 31 30 29 28 27 26 25 1 2 3 4 5 6 7 8 24 23 22 21 20 19 18 17 9 10 11 12 13 14 15 16 90 0 n/c gnd lo in gnd n/c n/c n/c n/c v loa 1 v loa 2 n/c n/c vc1 vc2 v g2 v mpa n/c gnd i n/c gnd q n/c v g1 v lpa 12 n/c n/c n/c gnd rf out gnd n/c x2 rfuv1703 21ghz to 26.5ghz gaas mmic iq upconverter rfmd's rfuv1703 is a 21ghz to 26.5ghz gaas phemt upc onverter, incorporating an integrated doubler, lo buffer amplifier, a balan ced single sideband (image rejec- tion) mixer followed by variable gain amplifier, dc decoupling capacitors. the com- bination of high performance part and low-cost packagin g makes the rfuv1703 a cost effective solution, ideally suited to both cur rent and next generation point-to- point and vsat applications. rfuv1703 is packaged in a 5 mm x 5mm qfn to sim- plify both system level board design and volume ass embly. features �? rf frequency: 21ghz to 26.5ghz �? lo frequency (lsb): 10.5ghz to 15.2ghz �? lo frequency (usb): 8.5ghz to 13.25ghz �? if frequency: dc to 4ghz �? conversion gain (max): 21db �? conversion gain (min): -10db �? nf (max. gain): 12db �? oip3 (max. gain): +27dbm �? image rejection: 15dbc applications �? point-to-point �? vsat ds130313 package: qfn, 32-pin, 5mm x 5mm x 0.95mm rfuv1703 rfuv1703s2 2-piece sample bag rfuv1703sb 5-piece bag RFUV1703SQ 25-piece bag rfuv1703sr 100 pieces on 7 reel rfuv1703tr7 750 pieces on 7 reel rfuv1703pcba-410 evaluation board
2 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . nominal operating parameters absolute maximum ratings parameter rating unit lpa drain voltage v d 6 v loa drain voltage 6 v if input power 15 dbm lo input power 15 dbm t oper -55 to +85 �r c t stor -65 to +150 �r c esd human body model class 1a parameter specification unit condition min. typ. max. rf frequency 21 26.5 ghz lo frequency (lsb) 10.5 15.25 ghz lo frequency (usb) 8.5 13.25 ghz if frequency dc 4.0 ghz lo input drive 0 dbm conversion gain (max.) 21 db conversion gain (min.) -10 db nf (max. gain) 12 db oip3 (max. gain) 27 dbm image rejection 15 dbc lo leakage at rf-port (max. gain) -5 dbm with iq bias lo return loss 10 db rf return loss 10 db v loa 4 v v lpa 3.5 v v mpa 4.5 v i loa 205 ma i lpa12 120 ma i mpa 120 ma i total 445 ma v c1 ,v c2 -4 0 v c a u t i o n ! esd sensitive device. exceeding any one or a combination of the absolute maxim um rating conditions may cause permanent damage to the device. extended appl ication of absolute maximum rating conditions to the device may reduce device reliab ility. specified typical perfor- mance or functional operation of the device under a bsolute maximum rating condi- tions is not implied. the information in this publication is believed to b e accurate and reliable. however, no responsibility is assumed by rf micro devices, inc. ("rfmd") for its use, nor for any infringement of patents, or other rights of third p arties, resulting from its use. no license is granted by implication or otherwise under any p atent or patent rights of rfmd. rfmd reserves the right to change component c ircuitry, recommended appli- cation circuitry and specifications at any time wit hout prior notice. rfmd green: rohs compliant per eu directive 2002/95 /ec, halogen free per iec 61249-2-21, < 1000ppm each of antimony trio xide in polymeric materials and red phosphorus as a flame retardant, and <2% antimony in solder. 3 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . test conditions and bias sequence measurements performed with i and q (if) ports conn ected to an external 90 hybrid, lo power = 0dbm an d if = 2.5ghz, -10dbm, unless otherwise stated. v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v typical electrical performance measurements performed with i and q (if) ports conn ected to an external 90 hybrid, lo power = 0dbm an d if = 2.5ghz, -10dbm, unless otherwise stated. usb conversion gain, image rejection and oip3 v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v typical bias sequence g max g min v c1 (v) -4 -2 -1 0 0 0 0 v c2 (v) -4 -4 -4 -4 -2 -1 0 more dynamic range can be achieved using v g2 over (-0.4 to -1v) and v g1 over (-0.4 to -1v) 0 5 10 15 20 25 30 21 22 23 24 25 26 27 conversiongain(db) rffrequency(ghz) usbconversiongainversusrffrequency 0 5 10 15 20 25 30 35 21 22 23 24 25 26 27 oip3atgmax(dbm) rffrequency(ghz) usboip3atgmaxversusrffrequency 0 5 10 15 20 25 30 35 40 21 22 23 24 25 26 27 imagerejection(dbc) rffrequency(ghz) usbimagerejectionversusrffrequency 4 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . usb oip3 versus conversion gain v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v typical bias sequence g max g min v c1 (v) -4 -2 -1 0 0 0 0 v c2 (v) -4 -4 -4 -4 -2 -1 0 more dynamic range can be achieved using v g2 over (-0.4 to -1v) 0 5 10 15 20 25 30 35 10 5 0 5 10 15 20 25 oip3(dbm) conversiongain(db) oip3versusconversiongainat25c (usb26ghzband) 26.5ghz 25.5ghz 24.5ghz 0 5 10 15 20 25 30 35 10 5 0 5 10 15 20 25 oip3(dbm) conversiongain(db) oip3versusconversiongainat25c (usb23ghzband) 23.6ghz 22.4ghz 21.2ghz 5 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . usb lo leakage v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v 15 10 5 0 22 22.5 23 23.5 24 x2loleakageatgmax(dbm) x2lofrequency(ghz) usbx2loatgmaxversusx2lofrequency (26ghzband) 15 10 5 0 18.5 19 19.5 20 20.5 21 21.5 x2loleakageatgmax(dbm) x2lofrequency(ghz) usbx2loatgmaxversusx2lofrequency (23ghzband) 6 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . over temperature performance (usb) v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma 0 5 10 15 20 25 30 21 22 23 24 25 26 27 conversiongain(db) rffrequency(ghz) maxconversiongainversusrffrequency overtemperature(usb) 25c 40c 85c vc1=4v vc2=4v 0 5 10 15 20 25 30 35 21 22 23 24 25 26 27 oip3(dbm) rffrequency(ghz) oip3atgmaxversusrffrequency overtemperature(usb) 25c 40c 85c vc1=4v vc2=4v 10 8 6 4 2 0 2 4 6 8 10 21 22 23 24 25 26 27 conversiongain(db) rffrequency(ghz) 25c 40c 85c vc1=0v vc2=0v conversiongainversusrffrequency overtemperatureat5dbcgsetpoint(usb) 0 5 10 15 20 25 30 35 21 22 23 24 25 26 27 oip3(dbm) rffrequency(ghz) oip3at5dbcgversusrffrequency overtemperature(usb) 25c 40c 85c vc1=0v vc2=0v 7 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . lsb conversion gain, image rejection, and oip3 v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v 0 5 10 15 20 25 30 21 22 23 24 25 26 27 conversiongain(db) rffrequency(ghz) lsbconversiongainversusrffrequency 0 5 10 15 20 25 30 35 21 22 23 24 25 26 27 oip3atgmax(dbm) rffrequency(ghz) lsboip3atgmaxversusrffrequency 0 5 10 15 20 25 30 35 40 21 22 23 24 25 26 27 imagerejection(dbc) rffrequency(ghz) lsbimagerejectionversusrffrequency 8 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . lsb lo leakage v loa1 = v loa2 = 4v, i loa1, 2 = 205ma; v lpa12 = 3.5v, adjust v g1 around -0.4v to get i lpa12 = 120ma; v mpa = 4.5v, adjust v g2 to get i mpa = 120ma; i total = 445ma, v c1 = v c2 = -4v i bias = -42mv q bias = 0mv i bias = -56mv q bias = 0mv 25 20 15 10 5 0 27 27.5 28 28.5 29 x2loleakageatgmax(dbm) x2lofrequency(ghz) lsbx2loatgmaxversusx2lofrequency (26ghzband) 25 20 15 10 5 0 23.5 24 24.5 25 25.5 26 26.5 x2loleakageatgmax(dbm) x2lofrequency(ghz) lsbx2loatgmaxversusx2lofrequency (23ghzband) 9 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . performance using single control line (without iq b ias)_1 v mpa = 4.5v, v lpa12 = 3.5v, v loa1 = v loa2 = 4v, i total = 445ma, v g1 = v g2 = -0.4v v c1 and v c2 are connected together off chip and changes over ( -4v to 0v) performance using double control line (without iq b ias)_2 v mpa = 4.5v, v lpa12 = 3.5v, v loa1 = v loa2 = 4v, i total = 445ma, v g1 = v g2 = -0.4v v c1 and v c2 are separately controlled and changes over (-4v to 0v) 5 0 5 10 15 20 25 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27.0 44 33 2.52.5 22 1.51.5 11 0.80.8 0.60.6 0.40.4 0.20.2 00 conversiongain(db) rffrequency(ghz) usbconversiongainversusfrequency vc1vc2(v) 0 5 10 15 20 25 30 35 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27.0 44 33 2.52.5 22 1.51.5 11 0.80.8 0.60.6 0.40.4 0.20.2 00 rffrequency(ghz) oip3(dbm) usboip3versusfrequency vc1vc2(v) 5.0 0.0 5.0 10.0 15.0 20.0 25.0 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27.0 44 34 24 14 13 12 11 10.3 10 04 03 02 01 00 usbconversiongainversusfrequency conversiongain(db) rffrequency(ghz) vc1 , vc2(v) 0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27.0 44 34 24 14 13 12 11 10.3 10 04 03 02 01 00 oip3(dbm) rffrequency(ghz) usboip3versusfrequency vc1 , vc2(v) 10 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . performance using single control on v g1 = v g2 (without iq bias)_3 v mpa = 4.5v, v lpa12 = 3.5v, v loa1 = v loa2 = 4v, v c1 = v c2 = -4v v g1 and v g2 are connected together off chip and changes over ( -0.3v to -1v) 20.0 15.0 10.0 5.0 0.0 5.0 10.0 15.0 20.0 25.0 30.0 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27 218 226 239 253 270 290 309 331 352 375 399 424 448 473 499 rffrequency(ghz) conversiongain(db) usbconversiongainversusrf frequency with(v g1 +v g2 )variation i_total(ma) 15.0 10.0 5.0 0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 21.2 21.8 22.5 23.1 23.8 24.4 25.1 25.7 26.4 27 218 226 239 253 270 290 309 331 352 375 399 424 448 473 499 rffrequency(ghz) oip3(dbm) usboip3versusrf frequency with(v g1 +v g2 )variation i_total(ma) 40 35 30 25 20 15 10 5 0 5 18.7 19.3 20 20.6 21.3 21.9 22.6 23.2 23.9 24.5 218 226 239 253 270 290 309 331 352 375 399 424 448 473 499 x2 lo frequency(ghz) loleakage(dbm) usbx2lo leakage versusx2 lofrequency with(v g1 +v g2 )variationnoiqbias i_total(ma) 11 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . package outline drawing qfn, 32-pin, 5mm x 5mm x 0.95mm 5.0000.150 3.5000.100 4.4000.100 0.3200.100 0.3000.100 0.500.050 0.130 3.5000.100 4.4000.100 5.0000.150 0.9500.100 12 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . pin names and description pin name description 1 n/c not connected 2 gnd ground 3 lo local oscillator input. ac coupled and matched to 5 0 �: 4 gnd ground 5 n/c not connected 6 n/c not connected 7 n/c not connected 8 n/c not connected 9 vloa1 loa stage1 drain bias 10 vloa2 loa stage2 drain bias 11 n/c not connected 12 n/c not connected 13 vc1 control line number 1 (see bias sequence descriptio n) 14 vc2 control line number 2 (see bias sequence descriptio n) 15 vg2 mpa gate bias 16 vmpa mpa drain bias 17 n/c not connected 18 gnd ground 19 rfout rf output. ac coupled and matched to 50 �: 20 gnd ground 21 n/c not connected 22 n/c not connected 23 n/c not connected 24 vlpa1, vlpa2 lpa stage 1, 2 drain bias 25 vg1 lpa stage 1, 2 gate bias 26 n/c not connected 27 q if q input 28 gnd ground 29 n/c not connected 30 i if i input 31 gnd ground 32 n/c not connected 13 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . application circuit block diagram 2*lo - if = rf (lsb), lo = 10.5 to 15.25ghz 2*lo + if = rf (usb), lo = 8.5ghz to 13.25ghz notes: 1. external components for iq biases are required. 2. external hybrid coupler is required. package gnd 32 31 30 29 28 27 26 25 1 2 3 4 5 6 7 8 24 23 22 21 20 19 18 17 9 10 11 12 13 14 15 16 90 0 x2 if in 200pf q bias 200pf i bias 100 nh 100 nh 100pf 100nf vg1 1uf rf out 100pf 100nf 1uf 100pf 100nf 1uf 100pf 100nf 1uf v loa2 100pf 100nf 1uf 100pf 100nf 1uf 100pf 100nf 1uf v c1 v c2 vg2 lo in 100pf 100nf 1uf v loa1 14 of 14 rfuv1703 ds130313 7628 thorndike road, greensboro, nc 27409-9421 for sales or technical support, contact rfmd at ( + 1 ) 3 3 6 - 6 7 8 - 5 5 7 0 or c u s t o m e r s e r v i c e @ r f m d . c o m . evaluation board layout s u b - b a n d f r e q u e n c y r a n g e s band frequency range 23ghz 21.2ghz to 23.6ghz 26ghz 24.5ghz to 26.5ghz vloa1 vloa2 vc1 vc2 vg2 vmpa nc gnd gnd gnd vg1 vlpa2 |
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