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| r09ds0026ej0100 rev.1.00 page 1 of 15 oct 04, 2011 data sheet pd5756t6n sige bicmos integrated circuit wide band lna ic with through function description the pd5756t6n is a low noise wideband amplifier ic with the through function mainly designed for the digital tv application. this ic exhibits low noise figure and low distortion characteristics. this ic is manufactured using our latest sige bicmos process that shows superior high frequency characteristics. features ? low voltage operation : v cc = 3.1 to 3.5 v (3.3 v typ.) ? low current consumption : i cc 1 = 25 ma typ. @v cc = 3.3 v (lna-mode) : i cc 2 = 1 a max. @v cc = 3.3 v (bypass-mode) ? operation frequency : f = 40 to 1 000 mhz ? low noise : nf = 3.2 db typ. @f = 1 000 mhz (lna-mode) ? low distortion : iip 3 = +9 dbm typ. @f1 = 500 mhz, f2 = 505 mhz (lna-mode) ? low insertion loss : l ins = 1.7 db typ. @f = 1 000 mhz (bypass-mode) ? high-density surface mounting : 6-pin plastic tson (t6n) package (1.5 1.5 0.37 mm) applications ? low noise amplifier for the digital tv system, etc. ordering information part number order number package marking supplying form pd5756t6n-e2 pd5756t6n-e2-a 6-pin plastic tson (t6n) (pb-free) c4c ? embossed tape 8 mm wide ? pin 1, 6 face the perforation side of the tape ? qty 3 kpcs/reel remark to order evaluation samples, please contact your nearby sales office. part number for sample order: pd5756t6n caution observe precautions when handling because these devi ces are sensitive to electrostatic discharge. r09ds0026ej0100 rev.1.00 oct 04, 2011
pd5756t6n r09ds0026ej0100 rev.1.00 page 2 of 15 oct 04, 2011 pin connections, marking and internal block diagram (top view) (top view) 6 5 4 1 2 3 c4c 1 2 3 6 5 4 (bottom view) 1 2 3 6 5 4 bias control remark exposed pad : gnd pin no pin name 1 v cont 2 gnd 3 input 4 output 5 load 6 v cc absolute maximum ratings parameter symbol conditions ratings unit supply voltage v cc t a = +25 c 4.0 v mode control voltage v cont t a = +25 c 4.0 v total power dissipation p tot t a = +85 c note 300 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, z s = z l = 75 +15 dbm note: mounted on double-sided copper-clad 50 50 1.6 mm epoxy glass pwb recommended operating range parameter symbol min. typ. max. unit supply voltage v cc 3.1 3.3 3.5 v mode control voltage (h) v cont (h) 1.0 v cc v mode control voltage (l) v cont (l) ? 0.1 0.4 v operating frequency f 40 1 000 mhz operating ambient temperature t a ? 40 +25 +85 c input power (lna-mode) note p in 0 dbm input power (bypass-mode) note p in +10 dbm note: t a = +25 c, z s = z l = 75 electrical characteristics 1 (dc characteristics) (t a = +25 c, v cc = 3.3 v, unless otherwise specified) parameter symbol test conditi ons min. typ. max. unit circuit current 1 i cc 1 v cont = 3.3 v, no signal (lna-mode) 16 25 34 ma circuit current 2 i cc 2 v cont = 0 v, no signal (bypass-mode) ? 0.01 1 a mode control current 1 i cont 1 v cont = 3.3 v, no signal (lna-mode) ? 50 100 a mode control current 2 i cont 2 v cont = 0 v, no signal (bypass-mode) ? 0.01 1 a pd5756t6n r09ds0026ej0100 rev.1.00 page 3 of 15 oct 04, 2011 electrical characteristics 2 (lna-mode) (t a = +25 c, v cc = v cont = 3.3 v, z s = z l = 75 , unless otherwise specified) parameter symbol test conditi ons min. typ. max. unit power gain 1 g p 1 f = 40 mhz, p in = ?20 dbm 10.5 13 15.5 db power gain 2 g p 2 f = 1 000 mhz, p in = ?20 dbm 10.5 13 15.5 db noise figure 1 nf1 f = 40 mhz, z s = z l = 50 , excluded pcb and connector losses note ? 3.2 4.2 db noise figure 2 nf2 f = 1 000 mhz, z s = z l = 50 , excluded pcb and connector losses note ? 3.2 4.2 db input return loss 1 rl in 1 f = 40 mhz, p in = ?20 dbm 7 9 ? db input return loss 2 rl in 2 f = 1 000 mhz, p in = ?20 dbm 7 10 ? db output return loss 1 rl out 1 f = 40 mhz, p in = ?20 dbm 7 10 ? db output return loss 2 rl out 2 f = 1 000 mhz, p in = ?20 dbm 7 12 ? db input 3rd order intercept point iip 3 f1 = 500 mhz, f2 = 505 mhz, p in = ?20 dbm +5 +9 ? dbm note: input pcb and connector losses : 0.03 db (at 40 mhz), 0.10 db (at 1 000 mhz) electrical characteristics 3 (bypass-mode) (t a = +25 c, v cc = 3.3 v, v cont = 0 v, z s = z l = 75 , unless otherwise specified) parameter symbol test conditi ons min. typ. max. unit insertion loss 1 l ins 1 f = 40 mhz, p in = ?10 dbm, excluded pcb and connector losses note ? 0.5 1.5 db insertion loss 2 l ins 2 f = 1 000 mhz, p in = ?10 dbm, excluded pcb and connector losses note ? 1.7 2.5 db input return loss 1 rl in 1 f = 40 mhz, p in = ?10 dbm 10 26 ? db input return loss 2 rl in 2 f = 1 000 mhz, p in = ?10 dbm 7 8 ? db output return loss 1 rl out 1 f = 40 mhz, p in = ?10 dbm 10 25 ? db output return loss 2 rl out 2 f = 1 000 mhz, p in = ?10 dbm 7 8 ? db input 3rd order intercept point iip 3 f1 = 500 mhz, f2 = 505 mhz, p in = ?5 dbm +20 +29 ? dbm note: input-output pcb and connector losses : 0. 06 db (at 40 mhz), 0.20 db (at 1 000 mhz) standard characteristics for reference 1 (lna-mode) (t a = +25 c, v cc = v cont = 3.3 v, z s = z l = 75 , unless otherwise specified) parameter symbol test conditions reference value unit isolation 1 isl1 f = 40 mhz, p in = ?20 dbm 20 db isolation 2 isl2 f = 1 000 mhz, p in = ?20 dbm 20 db gain 1 db compression output power p o (1 db) f = 500 mhz +10 dbm standard characteristics fo r reference 2 (bypass-mode) (t a = +25 c, v cc = 3.3 v, v cont = 0 v, z s = z l = 75 , unless otherwise specified) parameter symbol test conditions reference value unit gain 1 db compression output power p o (1 db) f = 500 mhz note dbm note: the input-output power characteristic is not saturated up to +15 dbm of input power. pd5756t6n r09ds0026ej0100 rev.1.00 page 4 of 15 oct 04, 2011 test circuit 10 000 pf input output 10 000 pf 10 000 pf v cont v cc 6 5 4 1 2 3 0.1 f 270 nh pd5756t6n r09ds0026ej0100 rev.1.00 page 5 of 15 oct 04, 2011 typical characteristics 1 (dc characteristics) (t a = +25 c, unless otherwise specified) circuit current vs. supply voltage circuit current i cc (ma) supply voltage v cc (v) v cc = v cont rf = off 0 1234 40 30 20 10 0 +25 c ?40 c t a = +85 c circuit current vs. operating ambient temperature circuit current i cc (ma) operating ambient temperature t a ( c) v cc = v cont rf = off 3.1 v v cc = 3.5 v ?50 25 100 ?25 75 050 40 30 20 10 0 3.3 v circuit current i cc (ma) circuit current vs. mode control voltage mode control voltage v cont (v) 0 1.0 2.0 3.0 4.0 v cc = 3.3 v rf = off ?40 c 40 30 20 10 0 t a = +85 c +25 c 0 1.0 2.0 3.0 4.0 v cc = 3.3 v rf = off 100 80 60 40 20 0 mode control current i cont ( a) mode control current vs. mode control voltage mode control voltage v cont (v) +25 c ?40 c t a = +85 c remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 6 of 15 oct 04, 2011 typical characterist ics 2 (lna-mode) (t a = +25 c, z s = z l = 75 , unless otherwise specified) 0 200 400 600 800 1 000 1 200 v cc = v cont z s = z l = 50 5 4 3 2 1 0 noise figure nf (db) noise figure vs. frequency frequency f (mhz) 2.8 3.0 3.2 3.4 3.6 3.8 v cc = v cont z s = z l = 50 5 4 3 2 1 0 noise figure nf (db) noise figure vs. supply voltage supply voltage v cc (v) ? 50 ? 25 0 25 50 75 100 v cc = v cont = 3.3 v z s = z l = 50 5 4 3 2 1 0 noise figure nf (db) noise figure vs. operating ambient temperature operating ambient temperature t a ( c) 1 000 mhz f = 500 mhz 40 mhz 1 000 mhz 40 mhz f = 500 mhz v cc = 3.5 v 3.1 v 3.3 v 0 200 400 600 800 1 000 1 200 v cc = v cont = 3.3 v z s = z l = 50 5 4 3 2 1 0 noise figure nf (db) noise figure vs. frequency frequency f (mhz) +25 c t a = +85 c ?40 c v cc = v cont 18 16 14 12 10 8 power gain g p (db) power gain vs. supply voltage 1 000 mhz 40 mhz f = 500 mhz 2.8 3.0 3.2 3.4 3.6 3.8 supply voltage v cc (v) v cc = v cont = 3.3 v power gain vs. operating ambient temperature 18 16 14 12 10 8 power gain g p (db) ? 50 ? 25 0 25 50 75 100 operating ambient temperature t a ( c) 500 mhz 40 mhz f = 1 000 mhz remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 7 of 15 oct 04, 2011 input return loss rl in (db) input return loss vs. frequency frequency f (mhz) v cc = v cont = 3.3 v input return loss rl in (db) input return loss vs. frequency frequency f (mhz) output return loss rl out (db) output return loss vs. frequency frequency f (mhz) v cc = v cont 18 16 14 12 10 8 power gain g p (db) power gain vs. frequency 0 500 1 000 1 500 frequency f (mhz) v cc = 3.5 v 3.3 v 3.1 v v cc = v cont = 3.3 v 18 16 14 12 10 8 power gain g p (db) power gain vs. frequency 0 500 1 000 1 500 frequency f (mhz) t a = ?40 c +25 c +85 c v cc = v cont 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 v cc = 3.1 v 3.3 v 3.5 v 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 t a = +85 c +25 c ?40 c v cc = v cont 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 v cc = 3.1 v 3.3 v 3.5 v output return loss rl out (db) output return loss vs. frequency frequency f (mhz) 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 v cc = v cont = 3.3 v t a = +85 c +25 c ?40 c remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 8 of 15 oct 04, 2011 isolation isl (db) isolation vs. frequency frequency f (mhz) v cc = v cont = 3.3 v ?20 ?10 010 v cc = v cont = 3.3 v f = 500 mhz 20 10 0 ? 10 ? 20 output power p out (dbm) output power vs. input power input power p in (dbm) v cc = v cont 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 v cc = 3.1 v 3.3 v 3.5 v isolation isl (db) isolation vs. frequency frequency f (mhz) 0 ? 5 ? 10 ?1 5 ? 20 ?2 5 ? 30 0 500 1 000 1 500 t a = ?40 c +25 c +85 c frequency f (mhz) k factor k k factor vs. frequency 3 2 1 0 0 1 000 500 1 500 v cc = v cont v cc = 3.3 v 3.5 v 3.1 v frequency f (mhz) k factor k k factor vs. frequency 3 2 1 0 0 1 000 500 1 500 t a = +85 c +25 c ?40 c v cc = v cont = 3.3 v ?20 ?10 010 v cc = v cont = 3.3 v f = 500 mhz 20 15 10 5 0 power gain g p (db) power gain vs. input power input power p in (dbm) remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 9 of 15 oct 04, 2011 20 15 10 5 0 v cc = v cont f = 500 mhz gain 1 db compression output power p o (1 db) (dbm) gain 1 db compression output power vs. supply voltage ?50 25 100 ?25 0 50 75 gain 1 db compression output power p o (1 db) (dbm) gain 1 db compression output power vs. operating ambient temperature operating ambient temperature t a ( c) supply voltage v cc (v) 2.8 3.0 3.2 3.4 3.6 3.8 20 15 10 5 0 v cc = v cont = 3.3 v f = 500 mhz 40 20 0 ?20 ?40 ?60 ?80 ?100 ?20 ?25 05 20 ?30 ?5 ?15 ?10 v cc = v cont = 3.3 v f1 = 500 mhz f2 = 505 mhz p out im 3 input power p in (dbm) output power p out (dbm) 3rd order intermodulation distortion im 3 (dbm) output power, im 3 vs. input power 10 15 20 15 10 5 0 supply voltage v cc (v) v cc = v cont f1 = 500 mhz f2 = 505 mhz input 3rd order intercept point iip 3 (dbm) input 3rd order intercept point vs. supply voltage 20 15 10 5 0 v cc = v cont = 3.3 v f1 = 500 mhz f2 = 505 mhz input 3rd order intercept point iip 3 (dbm) input 3rd order intercept point vs. operating ambient temperature ?50 25 100 ?25 0 50 75 operating ambient temperature t a ( c) 2.8 3.0 3.2 3.4 3.6 3.8 remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 10 of 15 oct 04, 2011 s-parameters 1 (lna-mode) (t a = +25 c, v cc = v cont = 3.3 v, z s = z l = 75 , monitored at connector on board) s 11 - frequency start : 10 mhz stop : 2 000 mhz 1 : 40 mhz 57.89 ?48.84 2 : 500 mhz 48.64 ?14.27 3 : 1 000 mhz 38.40 12.24 2 1 3 s 22 - frequency start : 10 mhz stop : 2 000 mhz 1 : 40 mhz 38.73 ?12.11 2 : 500 mhz 53.95 ?13.04 3 : 1 000 mhz 46.63 4.15 1 2 3 remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 11 of 15 oct 04, 2011 typical characteristic s 3 (bypass-mode) (t a = +25 c, z s = z l = 75 , unless otherwise specified) 0 500 1 000 1 500 v cont = 0 v 0 ? 1 ? 2 ? 3 ? 4 ? 5 insertion loss l ins (db) insertion loss vs. frequency frequency f (mhz) 0 500 1 000 1 500 v cont = 0 v 0 ? 5 ? 10 ? 15 ? 20 ?2 5 ? 30 input return loss rl in (db) input return loss vs. frequency frequency f (mhz) 0 ? 5 ? 10 ? 15 ? 20 ?2 5 ? 30 input return loss rl in (db) input return loss vs. frequency frequency f (mhz) v cc = 3.3 v, v cont = 0 v ?40 c 0 ? 5 ? 10 ? 15 ? 20 ?2 5 ? 30 output return loss rl out (db) output return loss vs. frequency frequency f (mhz) v cc = 3.5 v, 3.3 v, 3.1 v 0 500 1 000 1 500 v cc = 3.3 v, v cont = 0 v 0 ? 1 ? 2 ? 3 ? 4 ? 5 insertion loss l ins (db) insertion loss vs. frequency frequency f (mhz) t a = ?40 c, +25 c +85 c v cc = 3.5 v, 3.3 v, 3.1 v +25 c t a = +85 c 0 500 1 000 1 500 0 500 1 000 1 500 v cont = 0 v v cc = 3.5 v, 3.3 v, 3.1 v 0 ? 5 ? 10 ? 15 ? 20 ?2 5 ? 30 output return loss rl out (db) output return loss vs. frequency frequency f (mhz) 0 500 1 000 1 500 v cc = 3.3 v, v cont = 0 v t a = +85 c ?40 c +25 c remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 12 of 15 oct 04, 2011 40 20 0 ?20 ?40 ?60 ?80 ?100 ?10 10 40 30 ?20 0 v cc = 3.3 v, v cont = 0 v f1 = 500 mhz f2 = 505 mhz v cc = 3.3 v, v cont = 0 v f1 = 500 mhz f2 = 505 mhz input power p in (dbm) output power, im 3 vs. input power 20 40 30 20 10 supply voltage v cc (v) 2.8 3.0 3.2 3.4 3.6 3.8 v cont = 0 v f1 = 500 mhz f2 = 505 mhz input 3rd order intercept point iip 3 (dbm) input 3rd order intercept point vs. supply voltage 40 30 20 10 input 3rd order intercept point iip 3 (dbm) input 3rd order intercept point vs. operating ambient temperature ?50 100 0 50 operating ambient temperature t a ( c) ?10 0 10 20 v cc = 3.3 v, v cont = 0 v f = 500 mhz 20 10 0 ? 10 ? 20 output power p out (dbm) output power vs. input power input power p in (dbm) p out im 3 output power p out (dbm) 3rd order intermodulation distortion im 3 (dbm) remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 13 of 15 oct 04, 2011 s-parameters 2 (bypass-mode) (t a = +25 c, v cc = 3.3 v, v cont = 0 v, z s = z l = 75 , monitored at connector on board) s 11 - frequency start : 10 mhz stop : 2 000 mhz 1 : 40 mhz 78.51 ?6.19 2 : 500 mhz 48.91 ?10.37 3 : 1 000 mhz 34.97 16.79 1 2 3 s 22 - frequency start : 10 mhz stop : 2 000 mhz 1 : 40 mhz 78.30 ?6.19 2 : 500 mhz 49.41 ?8.53 3 : 1 000 mhz 37.36 20.18 2 1 3 remark the graphs indicate nominal characteristics. pd5756t6n r09ds0026ej0100 rev.1.00 page 14 of 15 oct 04, 2011 package dimensions 6-pin plastic tson (t6n) (unit: mm) 0.50.06 a a 0.20.1 0.70.1 (bottom view) (top view) 1.50.1 1.50.1 0.37 +0.03 ?0.05 0.08 min. 0.2 +0.07 ?0.05 0.30.07 (0.24) (side view) 1.20.1 remark a>0 ( ) : reference value pd5756t6n r09ds0026ej0100 rev.1.00 page 15 of 15 oct 04, 2011 notes on correct use (1) observe precautions for handling becau se of electro-static sensitive devices. (2) form a ground pattern as widely as possible to minimize ground impedance (to prevent undesired oscillation). (3) all the ground terminals should be connected to the ground plane as close as possible. (4) the bypass capacitor s hould be attached to v cc line. (5) do not supply dc voltage to input pin. recommended soldering conditions this product should be soldered and mounted under the following recommended conditions. for soldering methods and conditions other than those recommended below, contact your nearby sales office. soldering method soldering conditions condition symbol infrared reflow peak temperature (package surface temperature) : 260 c or below time at peak temperature : 10 seconds or less time at temperature of 220 c or higher : 60 seconds or less preheating time at 120 to 180 c : 120 30 seconds maximum number of reflow processes : 3 times maximum chlorine content of rosin flux (% mass) : 0.2%(wt.) or below ir260 partial heating peak temperature (terminal temperature) : 350 c or below soldering time (per side of device) : 3 seconds or less maximum chlorine content of rosin flux (% mass) : 0.2%(wt.) or below hs350 caution do not use different soldering methods together. all trademarks and registered trademarks are t he property of their respective owners. c - 1 revision history pd5756t6n data sheet description rev. date page summary 1.00 oct 04, 2011 first edition issued notice 1. all information included in this document is current as of the date this document is issued. such information, however, is s ubject to change without any prior notice. before purchasing or using any renesas electronics products listed herein, please confirm the latest product information with a renesas electronics sales office. also , please pay regular and careful attention to additional and different information to be disclosed by renesas electronics such as that disclosed through our website. 2. renesas electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property ri ghts of third parties by or arising from the use of renesas electronics products or technical information described in this document. no license, express, implied or otherwise, is granted hereby under any paten ts, copyrights or other intellectual property rights of renesas electronics or others. 3. you should not alter, modify, copy, or otherwise misappropriate any renesas electronics product, whether in whole or in part . 4. descriptions of circuits, software and other related information in this document are provided only to illustrate the operat ion of semiconductor products and application examples. you are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. renesas electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. 5. when exporting the products or technology described in this document, you should comply with the applicable export control l aws and regulations and follow the procedures required by such laws and regulations. you should not use renesas electronics products or the technology described in this document for any purpose rela ting to military applications or use by the military, including but not limited to the development of weapons of mass destruction. renesas electronics products and technology may not be used for or incorporate d into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. 6. renesas electronics has used reasonable care in preparing the information included in this document, but renesas electronics does not warrant that such information is error free. renesas electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information incl uded herein. 7. renesas electronics products are classified according to the following three quality grades: "standard", "high quality", an d "specific". the recommended applications for each renesas electronics product depends on the product's quality grade, as indicated below. you must check the quality grade of each renesas electronics produ ct before using it in a particular application. you may not use any renesas electronics product for any application categorized as "specific" without the prior written consent of renesas electronics. fu rther, you may not use any renesas electronics product for any application for which it is not intended without the prior written consent of renesas electronics. renesas electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any renesas electronics product for an application categorized as "specific" or for which the product is not intended wh ere you have failed to obtain the prior written consent of renesas electronics. the quality grade of each renesas electronics product is "standard" unless otherwise expressly specified in a renesas electroni cs data sheets or data books, etc. "standard": computers; 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