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| 1 ds04-23509-1e fujitsu semiconductor data sheet assp for telephone bipolar quadrature modulator ic (with 1.0 ghz up-converter) mb54609 n description the mb54609 is an intermediate-frequency (if) quadrature modulator ic incorporating a 1.0-ghz up-converter optimized for use in digital mobile telecommunication systems such as gsm and pdc (personal digital cellular). the mb54609 incorporates a quadrature modulator for if modulation, a transmission up-convert mixer, and a f/f type phase shifter as well, capable of handing ifs in a broad band. in addition, the mb54609 operates at a low power supply voltage of 3.0 v and a low power supply current of 18 ma (both as typical values), contributing to saving the power consumption of the device. n features ? incorporating a high-performance transmission mixer covering the entire frequency band of up to 800 mhz used for pdc services (maximum output frequency of 1.1 ghz) maximum output frequency: 1.1 ghz, output level: C9 dbm (typical) ? externally connecting the quadrature modulator with the transmission mixer, allowing a bandpass filter (bpf) to be inserted in between the quadrature modulator output can drive a 50 w load. ? flip-flop phase shifter capable of handling intermediate frequencies in the broad band (100 to 800 mhz) ? operation at low voltage: 2.7 to 3.0 to 3.3 v ? low current consumption during operating: 18.0 ma (typical) in power save mode: 0.6 ma (typical) ? operating temperature range: ta = C20 to +85c n pac k ag e 20-pin plastic ssop (fpt-20p-m03)
2 mb54609 n pin assignment rfout gnd lo2 gnd xif if lo1 xlo1 gnd v cc v cc gnd i xi qmod xqmod xq q gnd ps 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 (fpt-20p-m03) (top view) 3 mb54609 n pin description pin no. pin name function 1 rfout up-converter output pin 2 gnd gnd pin 3 lo2 lo input pin for mixer 4 gnd gnd pin 5 xif if input complementary pin for mixer 6 if if input pin for mixer 7 lo1 lo input pin for quadrature modulator 8 xlo1 lo input complementary pin for quadrature modulator 9 gnd gnd pin 10 v cc power supply pin power supply voltage must be applied to both pins. 11 v cc power supply pin 12 gnd gnd pin 13 i baseband input (i) pin 14 xi baseband input (i) complementary pin 15 qmod quadrature modulator if output pin 16 xqmod quadrature modulator if output complementary pin 17 xq baseband input (q) complementary pin 18 q baseband input (q) pin 19 gnd gnd pin 20 ps power save mode control pin 4 mb54609 n block diagram n absolute maximum ragings (see warning) warning: exceeding any of the above absolute maximum ratings may cause permanent damage to the lsi. for normal operation, the device should be used under the recommended operating conditions. exceeding any of the recommended conditions may adversely affect lsi reliability. note: although the mb54609 contains an antistatic element to prevent electrostatic breakdown and the circuitry has been improved in electrostatic protection, observe the following precautions when handling the device: ? when storing or carrying the device, put it in a conductive case. ? before handling the device, check that the jigs and tools to be used have been uncharged (grounded) as well as yourself. use a conductive sheet on the working bench. ? before fitting the device into or removing it from the socket, turn the power supply off. ? when handling (such as transporting) the mb54609 mounted board, protect the leads with a conductive sheet. parameter symbol rating unit remarks power supply voltage v cc C0.5 to 5.0 v output voltage v o C0.5 to v cc + 0.5 v input voltage v i C0.5 to v cc + 0.5 v open collector applied voltage v oc v cc 0.3 (C0.5 to 5.0) v rfout pin do not leave this pin open. output current i o 10 ma storage temperature tstg C55 to +125 c rfout gnd lo2 xif if xlo1 lo1 v cc i xi qmod xqmod xq q ps 90?shifter 5 mb54609 n recommended operating conditions n electric characteristics (v cc = 3.0 v, ta = +25 c) parameter symbol value unit remarks min. typ. max. power supply voltage v cc 2.7 3.0 3.3 v input voltage v i gnd v cc v open collector applied voltage v oc v cc C 0.2 v cc + 0.2 v rfout pin. do not leave this pin open. operating temperature t a C20 +85 c parameter symbol value unit remarks min. typ. max. power supply current i cc 18.0 23.5 ma dc current (input with no ac signal) power supply current in power save mode i cc ps 0.6 0.9 ma dc current (input with no ac signal) shifter input lo1 operating band f lo1 100 400 800 mhz input level p lo1 C15 C5 dbm baseband input operating band f bb dc 10 mhz input amplitude v bb 1.2vpp offset voltage v os 1.5 1.6 1.7 v external offset voltage value offset current i os 3.0 m a input imp. converted value = 533 k w mixer input lo2 operating band f lo2 750 1100 mhz input level p lo2 0dbm mixer output rfout operating band f rf 950 1100 mhz f rf = f lo2 f lo1 /2 output level p rf C9dbmf lo1 = 400 mhz (C15 dbm) f lo2 = 750 mhz (C5 dbm) f rf = 950 mhz output qmod/mix direct connection v bb = 1 vpp modulation precision amplitude deviation a err 1.3 % rms value phase deviation p err 0.82 deg. rms value vector error v err 1.9 % rms value carrier suppression cs C40 C30 dbc with external offset unadjusted 6 mb54609 n evaluation board (reference example) ? material: bt resin bt-hl870 (dielectric constant [1 mhz] = 3.4 to 3.6) ? thickness: 4 layers, 1.6 mm (copper thickness: external layer = 18 m m, internal layer = 70 m m) ? plating: electroless gold plating (continued) 1 ? layer 1 (front surface) ? layer 2 7 mb54609 (continued) ? layer 3 ? layer 4 (rear surface) 8 mb54609 n measurement data (reference values) * : application-common characteristics (continued) 0 0.4 0.6 0.8 1.0 10 20 30 40 ?0 0 20 40 60 80 i cc i cc ps v cc = 3.3 v v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v v cc = 3.0 v v cc = 2.7 v power save mode power supply current i cc ps (ma) power supply current i cc (ma) temperature ta (?) ? dc characteristics (test circuit 1) @ input with no ac signal 9 mb54609 (continued) 1 2 3 4 2: 3: 4: 28.039 w ?55.4 w 300 mhz 100.000 000 mhz 2.0774 pf 1: ?2709 db 1: 195.75 w 10 db/ref 0 db ?66.13 w 1 u fs log mag ch1 s c2 16.055 w ?45.7 w 500 mhz 12.668 w ?7.559 w 800 mhz 2: 3: 4: 14.877 w ?0.018 w 900 mhz 800.200 000 mhz 3.2268 pf 13.725 w ?9.764 w 1 ghz 14.746 w 4.8403 w 1.6 ghz 1: 16.354 w 10 db/ref 0 db ?1.639 w 11 ch2 s c2 start 100.000 000 mhz stop 2 100.000 000 mhz 1: ?.2095 db stop 2 100.000 000 mhz 11 4 1 u fs log mag ch1 s c2 11 ch2 s c2 start 100.000 000 mhz 11 1 1 2 3 4 100.000 000 mhz 1 2 3 ?.5448 db 900 mhz ?.8953 db 1 ghz ?.2236 db 1.6 ghz 800.200 000 mhz 23 4 � .3559 db 300 mhz � .5822 db 500 mhz � 1.2776 db 800 mhz 2 : 3 : 4 : 2: 3: 4: 2: 3: 4: 9.8984 w ?06.21 w 900 mhz 800.000 000 mhz 1.5961 pf 1: ?4733 db 1: 9.8633 w 10 db/ref 0 db ?24.64 w 1 u fs log mag ch1 s c2 11.055 w ?2.508 w 1 g hz 12.137 w ?0.846 w 1.4 g hz ch2 s c2 start 100.000 000 mhz stop 2 100.000 000 mhz 22 2 3 4 4 1 22 ?6207 db 900 mhz ?8619 db 1 ghz ?.0524 db 1.4 ghz 800.000 000 mhz 3 1 2 2: 3: 4: ? input impedance (only ic: test circuit 4) @ impedance from ic pin end ?lo1 ?lo2 ? rfout ? output impedance (only ic: test circuit 4) @ impedance from ic pin end 10 mb54609 n 800-mhz pdc application measurement data (reference values) (continued) parameter symbol measurement result unit condition test circuit baseband input signal f bb 42 kbps p /4dqpsk, root-nyquist filter ( a = 0.5) v bb 1.0 vpp single-end input shifter input signal lo1 f lo1 400 mhz p lo1 C15 dbm mixer input signal lo2 f lo2 750 mhz p lo2 C5 dbm mixer output signal rfout f rf 950 mhz f rf = f lo2 + f lo1 /2 p rf C8.4 dbm ssb value 1 return loss rl lo1 C17 db f lo1 = 400 mhz 3 rl lo2 C2 db f lo2 = 750 mhz rl rf C12 db f rf = 950 mhz modulation precision a err 1.3 % rms magnitude error 2 p err 0.82 deg. rms phase error v err 1.9 % rms vector error carrier suppression cs C34.5 dbc 2 v cc rfout lo2 lo1 gnd 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 v cc 0.1 � 6.8 n 1.5 p 100 p from a from b 510 p 510 p 1000 p 1000 p 51 v cc 0.1 � v cc 0.1 � 100 � 100 � 1 k 1 k to a to b 100 � 1 k 1 k 100 � v cc operation power save mode q offset offset offset offset i rfout gnd lo2 gnd xif if lo1 xlo1 gnd v cc ps gnd q xq xqmod qmod xi i gnd v cc mb54609 +� +� + � + � ? external circuit constants (with the ic mounted on the evaluation board) 11 mb54609 (continued) (continued) 190 rms vector peak vector rms magnitude peak magnitude rms phase peak phase carrier freq carrier phase carrier leak bias vector gravity center error error error error error error offset offset = ( 2.305, 0.634)% = (?.635, 10.356)% = 1.927% = 4.234% = 1.290% = 3.364% = 0.821 degs = ?.240 degs = 8.561e+03 hz = 157.455 degs = ?2.429 db vg: 5.000e-01 v / div baseband filter: rtnyq (0.5000) rectangle len = 64 osr = 4.761905 center = 950 mhz span = 200 khz rbw = 3 khz vbw = 100 hz swp = 3 s att = 10 db ref = 0 dbm 10 db / div. center = 750 mhz span = 700 mhz rbw = 1 mhz vbw = 3 khz swp = 1.1 s att = 10 db ref = 10 dbm 10 db / div. center = 950 mhz span = 26.2 khz rbw = 300 hz vbw = 300 hz swp = 1.3 s att = 10 db ref = 0 dbm 10 db / div. lo2 (750 mhz) ?7.1 dbm ?8.8 dbc ?4.5 dbc image (550 mhz) ?6.9 dbm t x (950 mhz) ?0.1 dbm ? spectrum (test circuit 2) @ baseband signal: p /4 dqpsk, 42 kbps, 1.0 vpp, 0000, root-nyquist filter a = 0.5 input signals: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signal: rfout = 950 mhz ? modulation precision and output spectrum (test circuit 2) @ baseband signal: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signal: rfout = 950 mhz ? modulation precision ? output spectrum ? span = 240 khz ? span = 700 mhz 12 mb54609 (continued) (continued) ?0 ?0 ?0 ?0 0 0.1 110 0 2 4 6 rf output level p rf (dbm) baseband amplitude v bb (vpp) modulation precision rms vector error v err (%) p rf v err ?0 ?0 ?0 ?0 ?0 0 ?5 ?0 ? 0 ?0 ?0 0 2 4 6 0 2 4 6 ?0 ?0 ?0 0 ?5 ?0 ? 0 55 rf output level p rf (dbm) rf output level p rf (dbm) shifter output level p lo1 (dbm) mixer input level p lo2 (dbm) modulation precision rms vector error v err (%) modulation precision rms vector error v err (%) p rf p rf v err v err ? rf output level dependent on lo1 and lo2 input levels (p rf : test circuit 1, modulation precision: test circuit 2) @ baseband signal of test circuit 2: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals of test circuits 1 and 2: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signals of test circuits 1 and 2: rfout = 950 mhz ? rf output level dependent on baseband amplitude (p rf : test circuit 1, modulation precision: test circuit 2) @ baseband signal of test circuit 2: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals of test circuits 1 and 2: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signal: rfout = 950 mhz ? rf output level dependent on lo1 input level (@p lo2 = C5 dbm) ? rf output level dependent on lo2 input level (@p lo1 = C15 dbm) 13 mb54609 (continued) (continued) 0 ?0 ?0 ?0 ?0 ?0 0 20 40 60 80 0 1 2 3 p rf v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v temperature ta (?) rf output p rf (dbm) modulation precision rms vector error v err (%) v cc = 3.0 v v cc = 2.7 v v cc = 3.3 v v err v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v ?0 0 20 40 60 80 temperature ta (?) ?0 ?0 ?0 ?0 ?0 carrier suppression cs (dbc) ? carrier suppression dependent on temperature (test circuit 2) @ baseband signal: p /4 dqpsk, 42 kbps, 1.0 vpp, 0000, root-nyquist filter a = 0.5 input signals: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signal: rfout = 950 mhz ? rf output level dependent on temperature (prf: test circuit 1, modulation precision: test circuit 2) @ baseband signal of test circuit 2: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals of test circuits 1 and 2: lo1 = 400 mhz, C15 dbm; lo2 = 750 mhz, C5 dbm output signals of test circuits 1 and 2: rfout = 950 mhz 14 mb54609 (continued) 4 2: 3: 4: 41.787 w ?.8965 w 300 mhz 100.000 000 mhz 570.64 pf 1: ?0.473 db 1: 48.992 w 10 db/ref 0 db ?.7891 w 1 u fs log mag ch1 s cor 35.598 w 1.75 w 500 mhz 36.002 w 22.75 w 800 mhz 2: 3: 4: 7.6133 w 9.4209 w 800 mhz 750.000 000 mhz 699.98 ph 10.451 w 22.735 w 900 mhz 27.307 w 58.09 w 1.1 ghz 1: 6.7764 w 10 db/ref 0 db 3.2986 w 11 ch2 s cor start 100.000 000 mhz stop 1 100.000 000 mhz 1: ?.3584 db stop 1 100.000 000 mhz 11 1 1 u fs log mag ch1 s cor 11 ch2 s cor start 100.000 000 mhz 11 1 1 2 3 4 2 3 2 4 1 ?9.659 db 300 mhz ?5.42 db 500 mhz ?0.449 db 800 mhz 100.000 000 mhz 3 2 3 4 750.00 000 mhz ?.5713 db 800 mhz ?.0204 db 900 mhz ?.8098 db 1.1 ghz 3: 4: 2: 2: 3: 4: 1: 3: 4: 40.609 w 41.357 w 900 mhz 950.000 000 mhz 9.9949 pf 2: ?1.792 db 2: 78.953 w 10 db/ref 0 db ?6.762 w 1 u fs log mag ch1 s cor 28.776 w ?8.809 w 1 g hz 12.979 w ?.8784 w 1.1 g hz ch2 s cor start 100.000 000 mhz stop 1 100.000 000 mhz 11 1 2 3 11 4 ?.4163 db 900 mhz ?.4 db 1 ghz ?.5661 db 1.1 ghz 950.000 000 mhz 4 3 1 2 3: 1: 4: ? output impedance (with components mounted: test circuit 3) @ impedance including external components and evaluation board ? input impedance (with components mounted: test circuit 3) @ impedance including external components and evaluation board ?lo1 ?lo2 ? rfout 15 mb54609 n 1.5-ghz pdc application measurement data (reference values) ? measurement result (continued) parameter symbol measure- ment result unit condition test circuit baseband input signal f bb 42 kbps p /4 dqpsk, root-nyquist filter ( a = 0.5) v bb 1.0 vpp single-end input shifter input signal lo1 f lo1 356 mhz p lo1 C5 dbm mixer input signal lo2 f lo2 1619 mhz p lo2 C5 dbm mixer output signal rfout f rf 1441 mhz f rf = f lo2 + f lo1 /2 p rf C13.4 dbm ssb value 1 return loss rl lo1 C18 db f lo1 = 356 mhz 3 rl lo2 C6 db f lo2 = 1619 mhz rl rf C14 db f rf = 1441 mhz modulation precision a err 1.6 % rms magnitude error 2 p err 0.90 deg. rms phase error v err 2.2 % rms vector error carrier suppression cs C39.0 dbc 2 v cc rfout lo2 lo1 gnd 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 v cc 0.1 � 1.8 n 1.5 p 100 p from a from b 510 p 510 p 1000 p 1000 p 51 v cc 0.1 � v cc 0.1 � 100 � 100 � 1 k 1 k to a to b 100 � 1 k 1 k 100 � v cc operation power save mode q offset offset offset offset i rfout gnd lo2 gnd xif if lo1 xlo1 gnd v cc ps gnd q xq xqmod qmod xi i gnd v cc mb54609 +� +� + � + � ? external circuit constants (with the ic mounted on the evaluation board) 16 mb54609 (continued) (continued) center = 1441 mhz span = 200 khz rbw = 3 khz vbw = 3 khz swp = 100 ms avg = 128 att = 10 db ref = ?0 dbm 10 db / div. 148 rms vector peak vector rms magnitude peak magnitude rms phase peak phase carrier freq carrier phase carrier leak bias vector gravity center error error error error error error offset offset = ( 1.839, 1.275) % = ( ?.295, 0.833) % = 2.243% = 4.552% = 1.597% = 3.756% = 0.902 degs = ?.977 degs = ?.454e+03 hz = 7.417 degs = ?3.001 db vg : 7.000e-02 v / div baseband filter: rtnyq (0.500) rectangle len = 64 osr = 4.761905 center = 1619 mhz span = 500 mhz rbw = 1 mhz vbw = 1 khz swp = 3 s att = 10 db ref = ?0 dbm 10 db/div. center = 1441 mhz span = 26.2 khz rbw = 300 hz vbw = 100 hz swp = 4 s att = 10 db ref = ?0 dbm 10 db/div. lo2 (1619 mhz) ?7.4 dbm image (1797 mhz) ?0.6 dbm t x (1441 mhz) ?5.6 dbm ?8.4 dbc ?9.0 dbc ? spectrum (test circuit 2) @ baseband signal: p /4 dqpsk, 42 kbps, 1.0 vpp, 0000, root-nyquist filter a = 0.5 input signals: lo1 = 356 mhz, C5 dbm; lo2 = 1619 mhz, C5 dbm output signal: rfout = 1441 mhz ? modulation precision and output spectrum (test circuit 2) @ baseband signal: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals: lo1 = 356 mhz, C5 dbm; lo2 = 1619 mhz, C5 dbm output signal: rfout = 1441 mhz ? modulation precision ? output spectrum ? span = 26.2 khz ? span = 500 mhz 17 mb54609 (continued) (continued) ?0 ?0 ?0 ?0 0 0.1 110 0 2 4 6 rf output level p rf (dbm) base band amplitude v bb (vpp) modulation precision rms vector error v err (%) p rf v err ?0 ?0 ?0 ?0 ?0 0 ?5 ?0 ? 0 ?0 ?0 0 2 4 6 0 2 4 6 ?0 ?0 ?0 0 ?5 ?0 ? 0 55 rf output level p rf (dbm) rf output level p rf (dbm) shifter output level p lo1 (dbm) mixer input level p lo2 (dbm) modulation precision rms vector error v err (%) modulation precision rms vector error v err (%) p rf p rf v err v err ? rf output level dependent on lo1 and lo2 input levels (p rf : test circuit 1, modulation precision: test circuit 2) @ baseband signal of test circuit 2: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals of test circuits 1 and 2: lo1 = 356 mhz, C5 dbm; lo2 = 1619 mhz, C5 dbm output signals of test circuits 1 and 2: rfout = 1441 mhz ? rf output level dependent on baseband amplitude (p rf : test circuit 1, modulation precision: test circuit 2) @ baseband signal of test circuit 2: p /4 dqpsk, 42 kbps, 1.0 vpp, pn 15, root-nyquist filter a = 0.5 input signals of test circuits 1 and 2: lo1 = 356 mhz, C5 dbm; lo2 = 1619 mhz, C5 dbm output signals of test circuits 1 and 2: rfout = 1441 mhz ? rf output level dependent on lo1 input level (@p lo2 = C5 dbm) ? rf output level dependent on lo2 input level (@p lo1 = C5 dbm) 18 mb54609 (continued) 1 2 3 4 1 : 2 : 3 : 15.662 w 38.445 w 1 g hz 1 600.000 000 mhz 1.9287 pf 4 : ?.5383 db 4 : 36.615 w 10 db / ref 0 db ?1.574 w 1 u fs log mag ch1 s cor 60.707 w 87.941 w 1.2 g hz 174.97 w ?00.9 w 1.4 g hz 11 ch2 s cor start 100.000 000 mhz stop 2 100.000 000 mhz 11 2 1 3 4 1 : ?.3828 db 1 ghz 2 : ?.0604 db 1.2 ghz 3 : ?.7229 db 1.4 ghz 1 600.000 000 mhz 1: 3: 4: 22.76 w 56.336 w 1.2 g hz 1 441.000 000 mhz 21.884 pf 2: ?3.853 db 2: 74.918 w 10 db/ref 0 db ?.0469 w 1 u fs log mag ch1 s cor 58.35 w 5.0293 w 1.48 g hz 58.844 w 42.438 w 1.6 g hz ch2 s cor start 100.000 000 mhz stop 2 100.000 000 mhz 11 2 1 3 1 11 ?.35 db 1.2 ghz ?0.927 db 1.48 ghz ?.6101 db 1.6 ghz 1 441.000 000 mhz 4 3 4 2 1: 3: 4: 4 2: 3: 4: 41.787 w ?.8965 w 300 mhz 100.000 000 mhz 570.64 pf 1: ?0.473 db 1: 48.992 w 10 db/ref 0 db ?.7891 w 1 u fs log mag ch1 s cor 35.598 w 1.75 w 500 mhz 36.002 w 22.75 w 800 mhz 11 ch2 s cor start 100.000 000 mhz stop 1 100.000 000 mhz 11 1 2 3 2 4 1 ?9.659 db 300 mhz ?5.42 db 500 mhz ?0.449 db 800 mhz 100.000 000 mhz 3 2: 3: 4: ? output impedance (with components mounted: test circuit 3) @ impedance including external components and evaluation board ? input impedance (with components mounted: test circuit 3) @ impedance including external components and evaluation board ?lo1 ?lo2 ? rfout 19 mb54609 n test circuits (reference examples) (continued) sg (50 w ) v cc = 3.0 v lo1 lo2 v cc i q rfout spectrum analyzer (50 w ) d.u.t offset offset offset offset gnd v os v os v os v os v os = 1.6 v sg (50 w ) synchronized v bb *sin (2 p ft) v bb = 1.0 vpp f = 600 khz v bb *cos (2 p ft) sg (50 w ) v cc = 3.0 v lo1 lo2 v cc i q rfout modulation precision analyzer (50 w ) d.u.t offset offset offset offset gnd v os v os v os v os v os = 1.6 v sg (50 w ) baseband signal generator ? test circuit 2 (for modulation precision measurement) ? test circuit 1 (for ssb measurement) 20 mb54609 (continued) network analyzer (50 w ) v cc = 3.0 v lo1 lo2 v cc i q rfout network analyzer (50 w ) n.c. n.c. d.u.t offset offset offset offset gnd v os v os v os v os v os = 1.6 v network analyzer port-1 port-2 v cc = 3.0 v (applied to port-2 internal bias tee) v cc operation power save mode 1 k 1 k 1 k 1 k v os = 1.6 v v cc 0.1 m 0.1 m v cc 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 rfout gnd lo2 gnd xif if l o1 xl01 gnd v cc ps gnd q xq xqmod qmod xi i gnd v cc mb54609 ? test circuit 4 (for measurement of impedance of only ic) ? test circuit 3 (for impedance measurement with components mounted) 21 mb54609 n ordering information part number package remarks MB54609PFV 20-pin plastic ssop (fpt-20p-m03) 22 mb54609 n package dimension 20-pin plastic ssop (fpt-20p-m03) *: these dimensions do not include resin protrusion. +0.20 C0.10 +.008 C.004 +0.10 C0.05 +.004 C.002 +0.05 C0.02 +.002 C.001 index "a" 0.10(.004) 1.25 .049 0.22 .009 0.15 .006 (.0256.0047) * (.173.004) (.252.008) nom 6.400.20 4.400.10 5.40(.213) 0.650.12 * 6.500.10(.256.004) 5.85(.230)ref details of "a" part 0 10 (stand off) 0.100.10(.004.004) (.020.008) 0.500.20 1994 fujitsu limited f20012s-2c-4 c dimensions in mm (inches) (mounting height) 24 mb54609 fujitsu limited for further information please contact: japan fujitsu limited corporate global business support division electronic devices kawasaki plant, 4-1-1, kamikodanaka nakahara-ku, kawasaki-shi kanagawa 211-88, japan tel: (044) 754-3763 fax: (044) 754-3329 north and south america fujitsu microelectronics, inc. semiconductor division 3545 north first street san jose, ca 95134-1804, u.s.a. tel: (408) 922-9000 fax: (408) 432-9044/9045 europe fujitsu mikroelektronik gmbh am siebenstein 6-10 63303 dreieich-buchschlag germany tel: (06103) 690-0 fax: (06103) 690-122 asia pacific fujitsu microelectronics asia pte. limited #05-08, 151 lorong chuan new tech park singapore 556741 tel: (65) 281-0770 fax: (65) 281-0220 f9702 ? fujitsu limited printed in japan all rights reserved. circuit diagrams utilizing fujitsu products are included as a means of illustrating typical semiconductor applications. com- plete information sufficient for construction purposes is not nec- essarily given. the information contained in this document has been carefully checked and is believed to be reliable. however, fujitsu as- sumes no responsibility for inaccuracies. the information contained in this document does not convey any license under the copyrights, patent rights or trademarks claimed and owned by fujitsu. fujitsu reserves the right to change products or specifications without notice. no part of this publication may be copied or reproduced in any form or by any means, or transferred to any third party without prior written consent of fujitsu. the information contained in this document are not intended for use with equipments which require extremely high reliability such as aerospace equipments, undersea repeaters, nuclear con- trol systems or medical equipments for life support. |
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