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| caution electro-static sensitive devices the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. not all devices/types available in every country. please check with local nec representative for availability and additional information. 3 v, super minimold silicon mmic medium output power amplifier for mobile communications document no. p12710ej2v0ds00 (2nd edition) date published june 1999 n cp(k) printed in japan data sheet bipolar analog integrated circuits m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb 1997, 1999 � the mark shows major revised points. description the m pc2762tb, m pc2763tb and m pc2771tb are silicon monolithic integrated circuits designed as amplifier for mobile communications. each of the ics is packaged in super minimold package which is smaller than conventional minimold. the m pc2762tb, m pc2763tb and m pc2771tb have compatible pin connections and performance to m pc2762t, m pc2763t and m pc2771t of conventional minimold version. so, in the case of reducing your system size, m pc2762tb, m pc2763tb and m pc2771tb are suitable to replace from m pc2762t, m pc2763t and m pc2771t. these ic is manufactured using necs 20 ghz f t nesat?iii silicon bipolar process. this process uses silicon nitride passivation film and gold electrodes. these materials can protect chip surface from external pollution and prevent corrosion/migration. thus, this ic has excellent performance, uniformity and reliability. features ? high-density surface mounting : 6-pin super minimold package (2.0 1.25 0.9 mm) ? supply voltage : v cc = 2.7 to 3.3 v ? medium output power : m pc2762tb: p o(1 db) = +8.0 dbm typ. @ 0.9 ghz m pc2763tb: p o(1 db) = +9.5 dbm typ. @ 0.9 ghz m pc2771tb: p o(1 db) = +11.5 dbm typ. @ 0.9 ghz ? power gain : m pc2762tb: g p = 13 db typ. @ 0.9 ghz m pc2763tb: g p = 20 db typ. @ 0.9 ghz m pc2771tb: g p = 21 db typ. @ 0.9 ghz applications ? buffer amplifiers for mobile telephones : m pc2762tb, m pc2763tb ? pa driver for pdc800m : m pc2771tb ordering information part number package marking supplying form m pc2762tb-e3 c1z m pc2763tb-e3 6-pin super minimold c2a m pc2771tb-e3 c2h embossed tape 8 mm wide. 1, 2, 3 pins face to perforation side of the tape. qty 3 kp/reel. remark to order evaluation samples, please contact your local nec sales office. (part number for sample order: m pc2762tb, m pb2763tb, m pc2771tb)
data sheet p12710ej2v0ds00 2 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb pin connections marking is an example of m pc2762tb product line-up (t a = +25 c, v cc = v out = 3.0 v, z l = z s = 50 w w w w ) part no. f u (ghz) p o (1 db) (dbm) p o (sat) (dbm) g p (db) i cc (ma) package marking m pc2762t 2.9 +8.0 +9.0 13 26.5 6-pin minimold m pc2762tb 6-pin super minimold m pc2763t 2.7 +9.5 +11.0 20 27.0 6-pin minimold m pc2763tb 6-pin super minimold m pc2771t 2.2 +11.5 +12.5 21 36.0 6-pin minimold m pc2771tb 6-pin super minimold remark typical performance. please refer to electrical characteristics in detail. notice the package size distinguishes between minimold and super minimold. c2h pin no. pin name 1 input 2gnd 3gnd 4output 5gnd 6v cc 4 5 6 3 2 1 (top view) c1z 3 2 1 4 5 6 (bottom view) c1z c2a data sheet p12710ej2v0ds00 3 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb system application example digital cellular telephone demo pll phase shifter 0 90 i q i q pa sw tx rx pll n m pc2762tb or pc2763tb pc2771tb m m note the insertion point is different due to the specifications of conjunct devices. for conjunction with your devices, refer to the data sheets to confirm their conbination. data sheet p12710ej2v0ds00 4 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb pin explanation pin no. pin name applied voltage (v) pin voltage (v) note function and applications internal equivalent circuit 1 input C 1.31 1.01 0.97 signal input pin. a internal matching circuit, configured with resistors, enables 50 w connection over a wide band. a multi-feedback circuit is designed to cancel the deviations of h fe and resistance. this pin must be coupled to signal source with capacitor for dc cut. 4 output voltage as same as v cc through external inductor C signal output pin. the inductor must be attached between v cc and output pins to supply current to the internal output transistors. 6v cc 2.7 to 3.3 C power supply pin, which biases the internal input transistor. this pin should be externally equipped with bypass capacitor to minimize its impedance. 2 3 5 gnd 0 C ground pin. this pin should be connected to system gr ound with minimum inductance. ground pattern on the board should be formed as wide as possible. all the ground pins must be connected together with wide ground pattern to decrease impedance difference. 6 4 1 5 * * pc2762tb does not have this capacitance. m 2 3 gnd gnd note pin voltage is measured at v cc = 3.0 v. above: m pc2762tb, center: m pc2763tb, below: m pc2771tb. data sheet p12710ej2v0ds00 5 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb absolute maximum ratings ratings parameter symbol conditions m pc2762tb m pc2763tb m pc2771tb unit supply voltage v cc t a = +25 c, pin 4 and 6 3.6 v total circuit current i cc t a = +25 c 70 77.7 ma power dissipation p d mounted on double copper clad 50 50 1.6 mm epoxy glass pwb t a = +85 c 200 mw operating ambient temperature t a - 40 to +85 c storage temperature t stg - 55 to +150 c input power p in t a = +25 c+10+13dbm recommended operating conditions parameter symbol min. typ. max. unit remark supply voltage v cc 2.7 3.0 3.3 v same voltage should be applied to pin 4 and 6. operating ambient temperature t a - 40 +25 +85 c - operating frequency f opt 0.8 - 1.9 ghz only for m pc2771tb data sheet p12710ej2v0ds00 6 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb electrical characteristics (t a = +25 c, v cc = v out = 3.0 v, z l = z s = 50 w w w w ) m m m m pc2762tb, m m m m pc2763tb m pc2762tb m pc2763tb parameter symbol test conditions min. typ. max. min. typ. max. unit circuit current i cc no signal - 26.5 35.0 - 27.0 35.0 ma power gain g p f = 0.9 ghz f = 1.9 ghz 11 11.5 13 15.5 16 17.5 18 18 20 21 23 24 db noise figure nf f = 0.9 ghz f = 1.9 ghz - - 6.5 7.0 8.0 9.0 - - 5.5 5.5 7.0 7.5 db upper limit operating frequency f u 3 db down below from gain at f = 0.1 ghz 2.7 2.9 - 2.3 2.7 - ghz isolation isl f = 0.9 ghz f = 1.9 ghz 22 20 27 25 - - 25 24 30 29 - - db input return loss rl in f = 0.9 ghz f = 1.9 ghz 6.0 5.5 9.0 8.5 - - 8.0 8.0 11.0 11.0 - - db output return loss rl out f = 0.9 ghz f = 1.9 ghz 8.0 9.0 11.0 12.0 - - 5.0 6.0 7.0 9.0 - - db 1 db gain compres- sion output level p o (1 db) f = 0.9 ghz f = 1.9 ghz +5.5 +4.5 +8.0 +7.0 - - +7.0 +4.0 +9.5 +6.5 - - dbm m m m m pc2771tb m pc2771tb parameter symbol test conditions min. typ. max. unit circuit current i cc no signal - 36.0 45.0 ma power gain g p f = 0.9 ghz f = 1.5 ghz 19 18 21 21 24 24 db noise figure nf f = 0.9 ghz f = 1.5 ghz - - 6.0 6.0 7.5 7.5 db upper limit operating frequency f u 3 db down below from gain at f = 0.1 ghz 1.8 2.2 - ghz isolation isl f = 0.9 ghz f = 1.5 ghz 25 25 30 30 - - db input return loss rl in f = 0.9 ghz f = 1.5 ghz 10 10 14 14 - - db output return loss rl out f = 0.9 ghz f = 1.5 ghz 6.5 5.5 9.0 8.5 - - db 1 db gain compres- sion output level p o (1 db) f = 0.9 ghz f = 1.5 ghz +9.0 +7.0 +11.5 +9.5 - - dbm saturated output power level p o (sat) f = 0.9 ghz f = 1.5 ghz - - +12.5 +11 - - dbm data sheet p12710ej2v0ds00 7 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb standard characteristics for reference (t a = +25 c, v cc = v out = 3.0 v, z l = z s = 50 w w w w ) m m m m pc2762tb, m m m m pc2763tb reference m pc2762tb m pc2763tb parameter symbol test conditions min. typ. max. min. typ. max. unit saturated output power level p o (sat) f = 0.9 ghz f = 1.9 ghz - - +9.0 +8.5 - - - - +11.0 +8.0 - - dbm adjacent channel power p adj f = 0.9 ghz p /4 qpsk wave note p o = +4 dbm d f = 50 khz d f = 100 khz - - - 64 - 64 - - - - - 61 - 62 - - dbc third order intermodulation im 3 2 sine wave input. output of each tone f 1 = 0.900 ghz f 2 = 0.902 ghz -- 16 --- 27 - dbc distortion p o (each) = +4 dbm f 1 = 1.900 ghz f 2 = 1.902 ghz -- 10 --- 14 - dbc m m m m pc2771tb reference m pc2771tb parameter symbol test conditions min. typ. max. unit adjacent channel power 1 p adj 1 f = 0.9 ghz p /4 qpsk wave note p o = +7 dbm d f = 50 khz d f = 100 khz - - - 61 - 72 - - dbc adjacent channel power 2 p adj 2 f = 1.5 ghz p /4 qpsk wave note p o = +7 dbm d f = 50 khz d f = 100 khz - - - 59 - 71 - - dbc third order intermodulation im 3 2 sine wave input. output of each tone f 1 = 0.900 ghz f 2 = 0.902 ghz -- 18 - dbc distortion p o (each) = +7 dbm f 1 = 1.500 ghz f 2 = 1.502 ghz -- 12 - dbc note p /4 dqpsk modulated wave input, data rate 42 kbps, filter roll off a = 0.5, pn 9 data sheet p12710ej2v0ds00 8 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb test circuit v cc 1 000 pf 1 000 pf 1 000 pf c 1 c 2 l 4 6 1 2, 3, 5 50 w 50 w out in c 3 components of test circuit example of actual application components for measuring electrical characteristics type value type value operating frequency c 1 , c 2 bias tee 1 000 pf c 1 to c 3 chip capacitor 1 000 pf 100 mhz or higher c 3 capacitor 1 000 pf l chip inductor 100 nh 100 mhz or higher l bias tee 1 000 nh 10 nh 2.0 ghz or higher inductor for the output pin the internal output transistor of this ic consumes 20 ma, to output medium power. to supply current for output transistor, connect an inductor between the vcc pin (pin 6) and output pin (pin 4). select large value inductance, as listed above. the inductor has both dc and ac effects. in terms of dc, the inductor biases the output transistor with minimum voltage drop to output enable high level. in terms of ac, the inductor make output-port-impedance higher to get enough gain. in this case, large inductance and q is suitable. for above reason, select an inductance of 100 w or over impedance in the operating frequency. the gain is a peak in the operating frequency band, and suppressed at lower frequencies. the recommendable inductance can be chosen from example of actual application components list as shown above. capacitors for the v cc , input, and output pins capacitors of 1 000 pf are recommendable as the bypass capacitor for the vcc pin and the coupling capacitors for the input and output pins. the bypass capacitor connected to the vcc pin is used to minimize ground impedance of vcc pin. so, stable bias can be supplied against vcc fluctuation. the coupling capacitors, connected to the input and output pins, are used to cut the dc and minimize rf serial impedance. their capacitance are therefore selected as lower impedance against a 50 w load. the capacitors thus perform as high pass filters, suppressing low frequencies to dc. to obtain a flat gain from 100 mhz upwards, 1 000 pf capacitors are used in the test circuit. in the case of under 10 mhz operation, increase the value of coupling capacitor such as 10 000 pf. because the coupling capacitors are determined by equation, c = 1/(2 p rfc). data sheet p12710ej2v0ds00 9 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb illustration of the test circuit assembled on evaluation board c1z 3 2 1 4 5 6 ? top view in out c v cc amp-2 cc l mounting direction (marking is an example for pc2762tb) notes 1. 2. 3. 4. 30 30 0.4 mm double sided copper clad polyimide board. back side: gnd pattern solder plated on pattern : through holes for more information on the use of this ic, refer to the following application note: usage and application of silicon medium-power high-frequency amplifier mmic (p12152e). component list value c 1 000 pf l example: 10 nh data sheet p12710ej2v0ds00 10 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical characteristics (unless otherwise specified, t a = +25 c) - m pc2762tb - circuit current vs. supply voltage circuit current vs. operating ambient temperature circuit current i cc (ma) supply voltage v cc (v) operating ambient temperature t a ( c) frequency f (ghz) isolation vs. frequency input return loss, output return loss vs. frequency isolation isl (db) frequency f (ghz) frequency f (ghz) frequency f (ghz) 0 ?0 10 20 30 40 50 ?0 ?0 0 +20 +40 +60 +80 +100 no signal v cc = 3.0 v noise figure and insertion power gain vs. frequency insertion power gain vs. frequency circuit current i cc (ma) insertion power gain g p (db) no signal 0 10 20 30 40 50 1234 ?0 ?0 ?0 0 ?0 1.0 3.0 0.1 0.3 v cc = 3.0 v input return loss rl in (db) output return loss rl out (db) ?0 ?0 ?0 0 1.0 3.0 ?0 0.3 0.1 rl in rl out v cc = 3.0 v noise figure nf (db) insertion power gain g p (db) 1.0 3.0 0.3 0.1 4 6 12 16 20 8 10 14 18 2 g p nf v cc = 3.0 v v cc = 3.3 v v cc = 2.7 v v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v 4 6 8 10 2 8 0.1 10 12 14 16 18 t a = +85 c t a = ?0 c t a = +25 c 1.0 3.0 0.3 v cc = 3.0 v data sheet p12710ej2v0ds00 11 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2762tb - output power vs. input power output power vs. input power output power p out (dbm) output power p out (dbm) output power p out (dbm) input power p in (dbm) input power p in (dbm) input power p in (dbm) saturated output power vs. frequency saturated output power vs. frequency saturated output power p o (sat) (dbm) saturated output power p o (sat) (dbm) frequency f (ghz) input power p in (dbm) ?0 ?0 ?5 +5 ? +15 0 +5 +10 ?0 ? 0 ?0 ?0 ? 0 +5 +10 +15 ?5 ?0 ? 0 +5 output power vs. input power output power vs. input power output power p out (dbm) f = 0.9 ghz v cc = 3.0 v v cc = 3.3 v v cc = 2.7 v ?0 ?0 ?5 +5 ? +15 t a = +85 c t a = +25 c t a = ?0 c 0 +5 +10 ?0 ? 0 f = 0.9 ghz v cc = 3.0 v f = 1.9 ghz frequency f (ghz) ?0 ?0 ?5 +5 ? +15 0 +5 +10 ?0 ? 0 f = 1.9 ghz v cc = 3.0 v +3 0.1 +9 +11 +13 +5 +7 1.0 3.0 v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v 0.3 +3 0.3 +5 +7 +9 +13 1.0 3.0 +11 p in = +3 dbm p in = +3 dbm 0.1 t a = +85 c t a = +25 c t a = ?0 c v cc = 3.0 v v cc = 3.3 v v cc = 2.7 v t a = +85 c t a = +25 c t a = ?0 c data sheet p12710ej2v0ds00 12 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2762tb - third order intermodulation distortion vs. output power of each tone third order intermodulation distortion vs. output power of each tone third order intermodulation distortion im 3 (dbc) output power of each tone p o (each) (dbm) output power of each tone p o (each) (dbm) 0 ?5 ?0 ?0 ?0 ?0 ?0 ?0 ? 0 +5 +10 third order intermodulation distortion im 3 (dbc) v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v ?0 0 ?5 ?0 ?0 ?0 ?0 ?0 ?0 ? 0 +5 +10 ?0 v cc = 3.0 v v cc = 2.7 v f 1 = 0.900 ghz f 2 = 0.902 ghz f 1 = 1.900 ghz f 2 = 1.902 ghz v cc = 3.3 v data sheet p12710ej2v0ds00 13 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb s-parameter (t a = +25 c, v cc = v out = 3.0 v) - m pc2762tb - s 11 -frequency 0.1 g 2.0 g 3.0 g s 22 -frequency 0.1g 3.0 g 1.0 g 2.0 g data sheet p12710ej2v0ds00 14 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical s-parameter values (t a = +25 c) m pc2762tb v cc = v out = 3.0 v, i cc = 29 ma frequency s 11 s 21 s 12 s 22 k mhz mag. ang. mag. ang. mag. ang. mag. ang. 100.0000 0.338 - 1.3 4.560 - 3.4 0.039 1.0 0.310 - 5.5 2.23 200.0000 0.346 - 2.0 4.581 - 7.6 0.039 2.7 0.311 - 9.5 2.20 300.0000 0.348 - 1.2 4.616 - 11.3 0.039 6.8 0.302 - 12.3 2.20 400.0000 0.340 - 1.9 4.661 - 15.8 0.040 8.1 0.296 - 16.2 2.18 500.0000 0.329 - 3.1 4.689 - 19.5 0.040 11.6 0.290 - 20.2 2.20 600.0000 0.324 - 6.2 4.726 - 23.6 0.041 13.7 0.292 - 24.1 2.12 700.0000 0.341 - 8.1 4.844 - 27.4 0.042 15.8 0.291 - 26.2 2.01 800.0000 0.359 - 7.6 4.927 - 31.5 0.043 18.1 0.292 - 28.3 1.90 900.0000 0.378 - 6.5 5.057 - 35.8 0.044 19.3 0.284 - 30.9 1.77 1000.0000 0.375 - 5.1 5.179 - 41.0 0.045 20.3 0.280 - 35.3 1.72 1100.0000 0.363 - 5.2 5.306 - 45.9 0.047 22.1 0.285 - 40.0 1.64 1200.0000 0.353 - 6.7 5.400 - 51.0 0.047 23.7 0.288 - 43.4 1.62 1300.0000 0.357 - 8.8 5.567 - 56.5 0.048 26.1 0.288 - 45.7 1.54 1400.0000 0.377 - 11.7 5.706 - 61.7 0.049 24.5 0.285 - 47.9 1.44 1500.0000 0.402 - 12.7 5.820 - 68.0 0.052 26.7 0.282 - 52.8 1.32 1600.0000 0.414 - 13.2 5.987 - 73.7 0.052 26.8 0.285 - 58.1 1.27 1700.0000 0.426 - 13.6 6.081 - 80.1 0.055 29.0 0.288 - 62.0 1.18 1800.0000 0.434 - 16.1 6.182 - 86.7 0.056 28.2 0.291 - 66.1 1.14 1900.0000 0.448 - 19.0 6.229 - 93.2 0.057 28.5 0.286 - 70.4 1.09 2000.0000 0.463 - 21.7 6.328 - 99.7 0.057 28.0 0.282 - 76.2 1.07 2100.0000 0.483 - 23.9 6.382 - 106.7 0.058 28.5 0.282 - 81.5 1.01 2200.0000 0.492 - 25.8 6.431 - 113.8 0.058 29.0 0.282 - 86.9 0.99 2300.0000 0.492 - 29.7 6.424 - 121.2 0.060 30.1 0.278 - 91.7 0.99 2400.0000 0.486 - 34.6 6.329 - 128.8 0.060 30.2 0.268 - 98.4 1.01 2500.0000 0.489 - 40.4 6.146 - 136.1 0.062 31.1 0.260 - 104.5 1.02 2600.0000 0.500 - 44.6 5.997 - 143.1 0.061 32.1 0.251 - 111.3 1.05 2700.0000 0.511 - 48.5 5.822 - 149.9 0.064 31.4 0.248 - 116.7 1.03 2800.0000 0.511 - 50.4 5.693 - 157.0 0.066 34.0 0.237 - 121.5 1.04 2900.0000 0.494 - 52.9 5.553 - 163.0 0.065 33.8 0.222 - 128.3 1.11 3000.0000 0.465 - 55.9 5.334 - 169.5 0.065 35.5 0.203 - 134.5 1.20 3100.0000 0.441 - 60.6 5.157 - 175.5 0.066 35.5 0.189 - 141.1 1.27 data sheet p12710ej2v0ds00 15 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical characteristics (unless otherwise specified, t a = +25 c) - m pc2763tb - circuit current vs. supply voltage circuit current vs. operating ambient temperature circuit current i cc (ma) supply voltage v cc (v) operating ambient temperature t a ( c) frequency f (ghz) isolation vs. frequency isolation isl (db) frequency f (ghz) frequency f (ghz) noise figure and insertion power gain vs. frequency insertion power gain vs. frequency circuit current i cc (ma) insertion power gain g p (db) frequency f (ghz) input return loss, output return loss vs. frequency 0 10 20 30 40 1234 10 ?0 30 50 ?0 ?0 0 5 ?0 0.1 ?0 ?0 ?0 0 ?0 ?0 0.1 ?0 ?0 ?0 0 0.3 1.0 3.0 rl in 3 7 50 0 20 40 noise figure nf (db) insertion power gain g p (db) input return loss rl in (db) output return loss rl out (db) 0.3 1.0 3.0 rlo 6 0.1 14 16 22 24 8 10 12 18 20 0.3 1.0 3.0 vcc = 3.3 nf g p ta = ?0 c ta = +85 c vcc = 2.7 vcc = 3.0 vcc = 3.3 6 0.1 14 16 22 24 8 10 12 18 20 0.3 1.0 3.0 vcc = 2.7 vcc = 3.0 ta = +85 c ta = +25 c ta = ?0 c ta = +25 c v cc = 3.0 v 0 10 20 30 40 1234 10 ?0 30 50 ?0 ?0 +20 +40 +100 0 +80 +60 5 ?0 0.1 ?0 ?0 ?0 0 ?0 ?0 0.1 ?0 ?0 ?0 0 0.3 1.0 3.0 3 7 50 no signal no signal v cc = 3.0 v 0 20 40 0.3 1.0 3.0 rl out v cc = 3.0 v 6 4 6 0.1 14 16 22 24 8 10 12 18 20 0.3 1.0 3.0 v cc = 3.3 v nf t a = ?0 c t a = +85 c v cc = 3.0 v v cc = 2.7 v v cc = 3.0 v v cc = 3.3 v 6 0.1 14 16 22 24 8 10 12 18 20 0.3 1.0 3.0 v cc = 2.7 v v cc = 3.0 v t a = +85 c t a = +25 c t a = ?0 c t a = +25 c data sheet p12710ej2v0ds00 16 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2763tb - output power vs. input power output power vs. input power output power p out (dbm) output power p out (dbm) input power p in (dbm) input power p in (dbm) input power p in (dbm) saturated output power vs. frequency saturated output power vs. frequency saturated output power p o (sat) (dbm) frequency f (ghz) input power p in (dbm) output power vs. input power output power vs. input power output power p out (dbm) output power p out (dbm) saturated output power p o (sat) (dbm) frequency f (ghz) ? +3 0.1 0 +5 +10 +15 ? 0 +5 +10 +15 +9 +11 +13 +15 ?0 ?5 0 +5 +10 +15 +5 +10 +15 ?0 ?5 ?0 ? 0 ? t a = +85 c t a = +25 c t a = ?0 c t a = +85 c t a = ?0 c v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v +5 +7 1.0 3.0 t a = +25 c t a = +85 c t a = ?0 c t a = ?0 c t a = +85 c t a = +25 c +3 0.1 +5 +9 +11 +13 +15 1.0 3.0 +7 ?5 ?0 ?5 ?0 ? 0 f = 0.9 ghz v cc = 3.0 v f = 0.9 ghz f = 1.9 ghz f = 1.9 ghz v cc = 3.0 v ?5 ?0 ?5 ?0 ? 0 ?0 ?5 ?0 ?5 ?0 ? 0 0.3 0.3 p in = ? dbm p in = ? dbm v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v ?0 0 ? ?0 v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v t a = ?0 c t a = +25 c t a = +85 c data sheet p12710ej2v0ds00 17 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2763tb - third order intermodulation distortion im 3 (dbc) output power of each tone p o (each) (dbm) output power of each tone p o (each) (dbm) third order intermodulation distortion im 3 (dbc) third order intermodulation distortion vs. output power of each tone third order intermodulation distortion vs. output power of each tone 0 ?5 ?0 ?0 ?0 ?0 ?0 ? 0 +5 +10 v cc = 3.3 v v cc = 2.7 v 0 ?0 ?0 ?0 ?0 ?0 ?0 ?0 v cc = 3.0 v v cc = 3.3 v v cc = 2.7 v v cc = 3.0 v ?0 ?5 ?0 ? 0 +5 +10 f 1 = 0.900 ghz f 2 = 0.902 ghz f 1 = 1.900 ghz f 2 = 1.902 ghz data sheet p12710ej2v0ds00 18 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb s-parameter (t a = +25 c, v cc = v out = 3.0 v) - m pc2763tb - s 11 -frequency 0.1 g 2.0 g 1.0 g 3.0 g s 22 -frequency 0.1 g 1.0 g 2.0 g 3.0 g data sheet p12710ej2v0ds00 19 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical s-parameter values (t a = +25 c) m pc2763tb v cc = v out = 3.0 v, i cc = 28 ma frequency s 11 s 21 s 12 s 22 k mhz mag. ang. mag. ang. mag. ang. mag. ang. 100.0000 0.231 - 1.4 10.210 - 3.8 0.023 2.4 0.406 - 4.1 1.68 200.0000 0.242 - 0.2 10.305 - 8.5 0.023 7.8 0.412 - 7.5 1.66 300.0000 0.250 2.7 10.464 - 12.9 0.024 9.3 0.407 - 9.9 1.58 400.0000 0.245 2.8 10.655 - 18.2 0.024 13.4 0.407 - 13.9 1.55 500.0000 0.242 2.0 10.863 - 22.8 0.026 16.1 0.405 - 17.6 1.44 600.0000 0.241 - 2.2 11.093 - 28.1 0.027 19.9 0.414 - 21.6 1.37 700.0000 0.263 - 5.3 11.544 - 33.2 0.028 22.3 0.419 - 24.6 1.25 800.0000 0.291 - 5.6 11.843 - 39.0 0.029 22.5 0.424 - 27.7 1.16 900.0000 0.316 - 5.1 12.291 - 45.1 0.029 23.9 0.424 - 31.9 1.09 1000.0000 0.322 - 4.0 12.676 - 52.4 0.030 25.6 0.425 - 37.1 1.02 1100.0000 0.318 - 5.4 13.066 - 59.8 0.031 24.1 0.438 - 42.5 0.96 1200.0000 0.309 - 9.0 13.311 - 67.3 0.031 27.0 0.442 - 47.8 0.96 1300.0000 0.322 - 14.2 13.661 - 75.8 0.033 28.8 0.441 - 51.2 0.90 1400.0000 0.344 - 20.6 13.845 - 83.9 0.033 28.5 0.434 - 56.0 0.87 1500.0000 0.371 - 23.7 13.824 - 93.0 0.035 30.1 0.435 - 62.2 0.82 1600.0000 0.380 - 27.5 13.890 - 101.5 0.035 28.1 0.439 - 68.9 0.80 1700.0000 0.388 - 30.6 13.634 - 110.5 0.036 29.2 0.439 - 74.6 0.78 1800.0000 0.378 - 36.4 13.236 - 119.6 0.035 29.9 0.428 - 81.3 0.84 1900.0000 0.378 - 42.1 12.724 - 127.9 0.035 30.9 0.411 - 87.0 0.89 2000.0000 0.375 - 46.6 12.290 - 136.1 0.035 32.9 0.393 - 93.4 0.94 2100.0000 0.369 - 50.5 11.707 - 144.0 0.035 33.0 0.385 - 99.6 0.99 2200.0000 0.351 - 53.8 11.130 - 151.7 0.036 35.7 0.373 - 104.9 1.06 2300.0000 0.331 - 59.8 10.524 - 159.1 0.036 36.8 0.359 - 110.3 1.13 2400.0000 0.306 - 66.4 9.824 - 165.9 0.034 38.7 0.336 - 117.5 1.31 2500.0000 0.300 - 73.1 9.152 - 172.3 0.035 40.1 0.321 - 123.3 1.41 2600.0000 0.294 - 75.8 8.583 - 178.2 0.034 43.8 0.306 - 129.4 1.55 2700.0000 0.290 - 77.1 8.029 176.2 0.035 46.3 0.299 - 133.9 1.58 2800.0000 0.270 - 77.7 7.610 170.6 0.037 47.7 0.288 - 138.6 1.63 2900.0000 0.248 - 78.7 7.240 166.1 0.039 51.1 0.270 - 143.6 1.67 3000.0000 0.219 - 82.3 6.827 161.2 0.039 53.6 0.253 - 150.1 1.79 3100.0000 0.198 - 88.7 6.516 156.9 0.040 55.1 0.244 - 156.2 1.88 data sheet p12710ej2v0ds00 20 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical characteristics (unless otherwise specified, t a = +25 c) - m pc2771tb - circuit current vs. operating ambient temperature circuit current i cc (ma) supply voltage v cc (v) operating ambient temperature t a ( c) frequency f (ghz) isolation vs. frequency isolation isl (db) frequency f (ghz) frequency f (ghz) noise figure and insertion power gain vs. frequency insertion power gain vs. frequency circuit current i cc (ma) insertion power gain g p (db) frequency f (ghz) input return loss, output return loss vs. frequency circuit current vs. supply voltage 14 0.1 24 0.1 22 20 18 16 0.3 1.0 3.0 22 24 0.3 1.0 3.0 insertion power gain g p (db) 50 50 20 0 123 40 30 20 10 0 +100 18 0.1 0 0.1 0.3 1.0 3.0 ?0 ?0 ?0 ?0 1.0 3.0 4 10 30 40 0 ?0 ?0 ?0 +20 +40 +60 +80 14 no signal no signal v cc = 3.0 v v cc = 2.7 v v cc = 3.0 v v cc = 3.3 v v cc = 2.7 v v cc = 3.0 v v cc = 3.3 v 20 16 t a = ?0 c t a = +25 c t a = +85 c 0.3 input return loss rl in (db) outpur return loss rl out (db) rl out rl in v cc = 3.0 v v cc = 2.7 v v cc = 3.3 v 12 10 8 6 5 6 7 4 3 noise figure nf (db) g p nf v cc = 3.0 v 0 ?0 ?0 ?0 ?0 v cc = 3.0 v v cc = 3.0 v data sheet p12710ej2v0ds00 21 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2771tb - output power vs. input power output power p out (dbm) output power p out (dbm) input power p in (dbm) input power p in (dbm) input power p in (dbm) output power vs. input power output power p out (dbm) input power p in (dbm) input power p in (dbm) output power vs. input power output power vs. input power output power p out (dbm) output power p out (dbm) output power p out (dbm) input power p in (dbm) output power vs. input power output power vs. input power 0 ? ?0 +15 0 ?0 ?5 ?0 0 ? +15 0 0 ? +5 +10 +15 +5 +10 +15 +5 +10 +15 +5 +10 v cc = 3.3 v +10 +5 ? ?0 ?5 ? f = 0.9 ghz v cc = 3.0 v v cc = 2.7 v ?0 ?5 ?0 0 ?5 ? f = 0.9 ghz v cc = 3.0 v t a = +85 c t a = +25 c t a = ?0 c ?0 ?5 ?0 0 ?5 ? f = 1.5 ghz 0 ? ?0 ?5 ?0 0 ?5 ? f = 1.5 ghz v cc = 3.0 v t a = +85 c t a = ?0 c t a = +25 c t a = +85 c t a = ?0 c t a = +25 c t a = ?0 c t a = +85 c t a = +25 c f = 1.9 ghz f = 1.9 ghz v cc = 3.0 v ?0 ?5 ?0 0 ?5 ? v cc = 2.7 v v cc = 3.0 v v cc = 3.3 v +15 +10 ? ?0 ?0 ?5 ?0 0 ?5 ? +5 0 t a = ?0 ?c t a = +85 ?c t a = +25 ?c v cc = 2.7 v v cc = 3.0 v v cc = 3.3 v data sheet p12710ej2v0ds00 22 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb - m pc2771tb - saturated output power p o (sat) (dbm) third order intermodulation distortion im 3 (dbc) frequency f (ghz) frequency f (ghz) output power of each tone p o (each) (dbm) output power of each tone p o (each) (dbm) third order intermodulation distortion vs. output power of each tone third order intermodulation distortion vs. output power of each tone saturated output power p o (sat) (dbm) third order intermodulation distortion im 3 (dbc) saturated output power vs. frequency saturated output power vs. frequency +17 +9 1.0 ?0 ?0 ? +10 +7 +13 +15 ?0 ?0 ?0 ?0 +11 +5 0.1 v cc = 3.0 v v cc = 2.7 v p in = ? dbm +17 +9 +7 +13 +15 +11 +5 p in = ? dbm t a = +85 c t a = +25 c t a = ?0 c 0 0 ?0 ?0 ?0 ?5 +10 ?0 ?0 ?0 ?0 0 ? 0 ?0 f 1 = 0.900 ghz f 2 = 0.902 ghz f 1 = 1.500 ghz f 2 = 1.502 ghz v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v +5 ?5 +5 0.3 3.0 1.0 0.1 0.3 3.0 v cc = 3.3 v v cc = 3.0 v v cc = 2.7 v v cc = 3.3 v data sheet p12710ej2v0ds00 23 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb s-parameter (t a = +25 c, v cc = v out = 3.0 v) - m pc2771tb - s 11 -frequency 0.1 g 3.0 g 2.0 g s 22 -frequency 0.1g 3.0 g 2.0 g data sheet p12710ej2v0ds00 24 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb typical s-parameter values (t a = +25 c) m pc2771tb v cc = v out = 3.0 v, i cc = 35 ma frequency s 11 s 21 s 12 s 22 k mhz mag. ang. mag. ang. mag. ang. mag. ang. 100.0000 0.045 19.7 10.570 - 4.7 0.028 0.8 0.327 - 6.2 1.65 200.0000 0.057 37.0 10.638 - 9.5 0.028 5.0 0.325 - 11.5 1.63 300.0000 0.075 41.3 10.775 - 14.1 0.029 8.6 0.323 - 16.2 1.58 400.0000 0.090 43.3 11.004 - 19.4 0.030 11.1 0.326 - 20.9 1.49 500.0000 0.105 42.2 11.275 - 24.4 0.030 14.9 0.331 - 26.4 1.45 600.0000 0.118 40.2 11.586 - 30.0 0.031 15.8 0.342 - 32.0 1.37 700.0000 0.138 34.9 12.041 - 35.9 0.031 19.8 0.350 - 37.3 1.29 800.0000 0.163 32.5 12.367 - 42.1 0.032 20.1 0.359 - 42.8 1.20 900.0000 0.186 29.4 12.844 - 48.8 0.032 23.2 0.361 - 49.4 1.15 1000.0000 0.202 26.3 13.300 - 56.6 0.032 23.9 0.371 - 56.1 1.11 1100.0000 0.219 21.7 13.771 - 64.6 0.033 24.9 0.389 - 62.5 1.03 1200.0000 0.233 15.4 14.082 - 73.5 0.033 26.6 0.400 - 69.3 0.99 1300.0000 0.252 8.4 14.365 - 83.2 0.036 28.8 0.405 - 75.4 0.92 1400.0000 0.267 - 0.1 14.336 - 92.6 0.036 30.0 0.402 - 83.6 0.91 1500.0000 0.285 - 6.8 14.142 - 102.4 0.036 32.0 0.406 - 91.6 0.90 1600.0000 0.293 - 13.9 13.929 - 112.0 0.037 31.6 0.413 - 99.3 0.89 1700.0000 0.304 - 20.9 13.428 - 121.6 0.039 32.5 0.414 - 105.8 0.88 1800.0000 0.290 - 28.1 12.722 - 131.0 0.038 34.7 0.401 - 113.7 0.96 1900.0000 0.285 - 35.3 11.966 - 139.6 0.038 36.1 0.387 - 120.8 1.03 2000.0000 0.273 - 41.8 11.232 - 147.5 0.038 37.4 0.378 - 127.6 1.09 2100.0000 0.267 - 47.4 10.500 - 154.8 0.039 39.1 0.366 - 133.1 1.14 2200.0000 0.254 - 51.6 9.815 - 161.7 0.040 41.4 0.356 - 138.0 1.20 2300.0000 0.237 - 57.1 9.168 - 168.0 0.041 43.7 0.342 - 142.8 1.28 2400.0000 0.221 - 61.1 8.570 - 173.7 0.041 48.3 0.325 - 148.3 1.37 2500.0000 0.212 - 68.8 7.967 - 179.7 0.042 48.3 0.322 - 152.6 1.44 2600.0000 0.208 - 72.2 7.507 174.9 0.043 50.8 0.314 - 156.7 1.49 2700.0000 0.202 - 74.1 7.004 170.0 0.045 53.7 0.309 - 160.1 1.53 2800.0000 0.190 - 76.3 6.667 164.7 0.047 54.2 0.303 - 164.0 1.56 2900.0000 0.178 - 76.7 6.336 160.7 0.051 57.7 0.292 - 167.8 1.55 3000.0000 0.154 - 82.3 6.003 155.6 0.051 56.5 0.287 - 172.8 1.62 3100.0000 0.147 - 88.0 5.772 151.3 0.054 59.3 0.279 - 176.4 1.61 data sheet p12710ej2v0ds00 25 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb package dimensions 6 pin super minimold (unit: mm) 1.25 0.1 2.1 0.1 0.65 0.65 1.3 2.0 0.2 0.1 min. 0.7 0.9 0.1 0 to 0.1 0.2 +0.1 ? 0.15 +0.1 ? data sheet p12710ej2v0ds00 26 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb notes on correct use (1) observe precautions for handling because of electro-static sensitive devices. (2) form a ground pattern as wide as possible to minimize ground impedance (to prevent undesired oscillation). all the ground pins must be connected together with wide ground pattern to decrease impedance difference. (3) the bypass capacitor should be attached to the v cc pin. (4) the inductor must be attached between v cc and output pins. the inductance value should be determined in accordance with desired frequency. (5) the dc cut capacitor must be attached to input pin. recommended soldering conditions this product should be soldered under the following recommended conditions. for soldering methods and conditions other than those recommended below, contact your nec sales representative. soldering method soldering conditions recommended condition symbol infrared reflow package peak temperature: 235 c or below time: 30 seconds or less (at 210 c) count: 3, exposure limit: none note ir35-00-3 vps package peak temperature: 215 c or below time: 40 seconds or less (at 200 c) count: 3, exposure limit: none note vp15-00-3 wave soldering soldering bath temperature: 260 c or below time: 10 seconds or less count: 1, exposure limit: none note ws60-00-1 partial heating pin temperature: 300 c time: 3 seconds or less (per side of device) exposure limit: none note C note after opening the dry pack, keep it in a place below 25 c and 65 % rh for the allowable storage period. caution do not use different soldering methods together (except for partial heating). for details of recommended soldering conditions for surface mounting, refer to information document semiconductor device mounting technology manual (c10535e). data sheet p12710ej2v0ds00 27 m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb [memo] m m m m pc2762tb, m m m m pc2763tb, m m m m pc2771tb attention observe precautions for handling electrostatic sensitive devices nesat (nec silicon advanced technology) is a trademark of nec corporation. the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec corporation. nec corporation assumes no responsibility for any errors which may appear in this document. ? nec corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. no license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec corporation or others. ? descriptions of circuits, software, and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. the incorporation of these circuits, software, and information in the design of the customer's equipment shall be done under the full responsibility of the customer. nec corporation assumes no responsibility for any losses incurred by the customer or third parties arising from the use of these circuits, software, and information. ? while nec corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. to minimize risks of damage or injury to persons or property arising from a defect in an nec semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. ? nec devices are classified into the following three quality grades: "standard", "special", and "specific". the specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. the recommended applications of a device depend on its quality grade, as indicated below. customers must check the quality grade of each device before using it in a particular application. standard: computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots special: transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) specific: aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. the quality grade of nec devices is "standard" unless otherwise specified in nec's data sheets or data books. if customers intend to use nec devices for applications other than those specified for standard quality grade, they should contact an nec sales representative in advance. m7 98. 8 |
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