tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 1 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com applications ? repeaters ? mobile infrastructure ? lte / wcdma / edge / cdma ? general purpose wireless 3-pin sot-89 package product features ? 50 ? ? ? 4000 ? mhz ? 20.6 ? db gain at 1.9 ? ghz ? +36 ? dbm output ip3 ? 1.3 ? db noise figure at 1.9 ? ghz ? 50 ohm cascadable gain block ? unconditionally stable ? high input power capability ? +5 ? v single supply, 85 ? ma current ? sot-89 package functional block diagram pin configuration pin no. label 1 rf input 2 gnd 3 rf output ? / ? v dd backside paddle gnd general description the tqp3m9008 is a cascadable, high linearity gain block amplifier in a low-cost surface- mount package. at 1.9 ? ghz, the amplifier typically provides 20.6 ? db gain, +36 ? dbm oip3, and 1.3 ? db noise figure while only drawing 85 ? ma current. the device is housed in a lead- free/green/rohs-compliant industry-standard sot- 89 package using a nipdau plating to eliminate the possibility of tin whiskering. the tqp3m9008 has the benefit of having high gain across a broad range of frequencies while also prov iding very low noise. this allows the device to be used i n both receiver and transmitter chains for high performanc e systems. the amplifier is internally matc hed using a high performance e- phemt process and only requires an external rf choke and blocking/bypass capacitors fo r operation from a single +5 ? v supply. the internal active bias circuit also enables stable operation over bia s and temperature variations. the tqp3m9008 covers the 0.05 ? ? ? 4 ? ghz frequency band and is targeted for wireless infrastructure or other applications requiring high linearit y and/or low noise figure. ordering information part no. description tqp3m9008 high linearity lna gain block tqp3m9008-pcb_if 0.05 ? ? ? 0.5 ghz evaluation board tqp3m9008-pcb_rf 0.5 ? ? ? 4.0 ghz evaluation board standard t/r size = 1000 pieces on a 7? reel
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 2 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com recommended operating conditions parameter min typ max units device voltage (v dd ) +3.0 +5.0 +5.25 v t case ?40 +105 c tj for >10 6 hours mttf +190 c electrical specifications are measured at specified test conditions. specifications are not guaranteed over all recommended operating conditions. absolute maximum ratings parameter rating storage temperature ?65 to 150 ? c rf input power, cw, 50 , t=25 c +23 ? dbm device voltage (v dd ) +7 ? v reverse device voltage ?0.3 ? v operation of this device outside the parameter rang es given above may cause permanent damage. electrical specifications test conditions unless otherwise noted: v dd ? = ? +5 v, temp. ? = ? +25 ? c, 50 system parameter conditions min typ max units operational frequency range 50 4000 mhz test frequency 1900 mhz gain 19 20.6 22 db input return loss 16 db output return loss 17 db output p1db +20 dbm output ip3 pout ? = ? +3 ? dbm/tone, ? f ? = ? 1 mhz +32.5 +36 dbm noise figure 1.3 db current, i dd 85 100 ma thermal resistance, jc junction to case 38.7 c/w
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 3 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com s-parameters test conditions: v dd ? = ? +5 ? v, i dd ? = ? 85 ? ma, temp. ? = ? +25 ? c, 50 ? system, calibrated to device leads freq (mhz) s11 (db) s11 (ang) s21 (db) s21 (ang) s12 (db) s12 (ang) s22 (db) s22 (ang) 50 -12.5 -170.0 23.6 172.9 -26.7 0.6 -9.8 177.2 100 -11.9 -175.1 23.5 167.7 -26.7 -1.9 -9.9 171.9 200 -11.4 178.0 23.1 159.5 -26.6 -5.5 -10.0 162.2 400 -11.4 167.0 22.7 144.1 -26.7 -12.9 -10.5 145.5 600 -11.6 154.1 22.3 129.4 -26.7 -19.6 -10.7 129.3 800 -11.8 147.2 22.0 114.6 -26.7 -26.1 -11.3 111.8 1000 -12.3 139.1 21.7 99.5 -26.8 -33.4 -12.4 94.3 1200 -12.7 132.1 21.4 85.6 -26.9 -39.9 -13.1 77.8 1400 -13.3 126.3 21.0 71.0 -27.1 -47.7 -14.3 58.7 1600 -13.6 116.9 20.8 56.2 -27.4 -56.5 -15.4 36.8 1800 -13.9 110.2 20.5 41.8 -27.6 -63.3 -16.3 15.3 2000 -14.3 103.5 20.3 27.9 -28.1 -71.6 -17.5 -11.2 2200 -15.1 94.6 19.9 13.8 -28.5 -80.2 -18.0 -39.1 2400 -15.8 85.2 19.7 -1.1 -28.7 -88.9 -17.4 -65.9 2600 -16.8 72.7 19.5 -16.0 -29.4 -96.8 -16.6 -94.2 2800 -18.0 55.2 19.2 -31.3 -29.9 -105.7 -14.9 -115.0 3000 -19.8 25.5 19.0 -46.9 -30.6 -117.1 -14.1 -131.7 3200 -19.9 -16.8 18.6 -63.5 -31.0 -128.0 -13.1 -148.3 3400 -17.8 -59.0 18.3 -80.5 -31.8 -139.4 -12.4 -160.2 3600 -14.3 -90.8 17.7 -98.5 -32.8 -154.4 -11.9 -173.9 3800 -11.3 -114.3 17.0 -117.1 -34.0 -168.1 -11.2 174.5 4000 -8.7 -132.7 16.1 -135.8 -34.8 173.1 -10.7 167.6
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 4 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com tqp3m9008-pcb_if ? / ? rf evaluation board notes: 1. see evaluation board pcb section for material a nd stack-up. 2. components shown on the silkscreen but not on th e schematic are not used. 3. r1 (0 jumper) may be replaced with copper trace in the t arget application layout. 4. the recommended component values are dependent u pon the frequency of operation. 5. all components are of 0603 size unless stated on the schematic. bill of material ? tqp3m9008-pcb_if ? / ? rf reference designation tqp3m9008-pcb_if tqp3m9008-pcb_rf 50 - 500 mhz 500 - 4000 mhz q1 tqp3m9008 tqp3m9008 c1, c2 1000 pf 100 pf c3 0.01 uf 0.01 uf l1 330 nh 68 nh d1 do not place r1 0 performance can be optimized at frequency of intere st by using recommended component values shown in t he table below. reference designation frequency (mhz) 500 2000 2500 3500 c1, c2 100 pf 22 pf 22 pf 22 pf l1 82 nh 22 nh 18 nh 15 nh
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 5 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com typical performance ? tqp3m9008-pcb_rf test conditions unless otherwise noted: v dd =+5 ? v, i dd =85 ? ma, temp=+25 ? c, 50 system parameter typical value units frequency 500 900 1900 2700 3500 4000 mhz gain 22.8 22.3 20.6 19.0 17.6 16.0 db input return loss 10 12 16 18 10 7.3 db output return loss 9.5 12 17 13 12.4 14 db output p1db +20.9 +19.7 +19.9 +19.4 +19.7 +18.5 dbm oip3 +37.5 +37.6 +36 +35.3 +34.7 +33.7 dbm noise figure 1.1 1.1 1.3 1.6 2 2.5 db notes: 1. oip3 measured with two tones at an output power of +3 dbm / tone separated by 1 mhz. 2. noise figure values in the table above includes board losses. approx. =0.1db at 2 ghz. performance plots ? tqp3m9008-pcb_rf test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 85 ? ma, temp. ? = ? +25 ? c, 50 system 14 16 18 20 22 24 500 1000 1500 2000 2500 3000 3500 4000 gain (db) frequency (mhz) gain vs. frequency over temp -40 c -20 c +25 c +85 ? c -25 -20 -15 -10 -5 0 500 1000 1500 2000 2500 3000 3500 4000 s11 (db) frequency (mhz) s11 vs. frequency over temp +85 c +25 c -40 c -20 ? c -20 -15 -10 -5 0 500 1000 1500 2000 2500 3000 3500 4000 s22 (db) frequency (mhz) s22 vs. frequency over temp -40 c -20 c +25 c +85 ? c 0 1 2 3 4 500 1000 1500 2000 2500 3000 3500 4000 nf (db) frequency (mhz) noise figure vs. frequency over temp +85 c +25 c -40 c 25 30 35 40 45 0 3 6 9 12 oip3 (dbm) pout/tone (dbm) oip3 vs. pout/tone over temp f=1900 mhz, 1 mhz tone spacing +25 c +85 c -40 c 25 30 35 40 45 500 1000 1500 2000 2500 3000 3500 4000 oip3 (dbm) frequency (mhz) oip3 vs. frequency over temp 1 mhz tone spacing, 3 dbm/tone +25 c +85 c -40 c
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 6 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com performance plots ? tqp3m9008-pcb_rf test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 85 ? ma, temp. ? = ? +25 ? c, 50 system 14 16 18 20 22 500 1000 1500 2000 2500 3000 3500 4000 p1db (dbm) frequency (mhz) p1db vs. frequency over temp -40 c +25 c +85 c 30 35 40 45 50 55 0 500 1000 1500 2000 2500 3000 3500 4000 oip2 (dbm) frequency (mhz) oip2 vs. frequency pout = 3 dbm / tone, 1 mhz spacing, +5v, +25c 12 16 20 24 28 32 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 pout (dbm) pin (dbm) compression curve temp.=+25c p1db p10db tqp3m9008_pcb-rf freq.=500 mhz 25 30 35 40 45 3 4 5 6 7 oip3 (dbm) vdd (volts) oip3 vs. vdd 1900mhz 900mhz pout/tone = 3dbm tone spacing = 1mhz 10 15 20 25 30 3 4 5 6 7 p1db (dbm) vdd (volts) p1db vs. vdd 1900 mhz 900 mhz 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3 4 5 6 7 nf (db) vdd (volts) noise figure vs. vdd 1900mhz 900mhz 65 70 75 80 85 90 3 4 5 6 7 idd (ma) vdd (volts) idd vs vdd 70 75 80 85 90 -40 -15 10 35 60 85 idd (ma) temperature (c) idd vs. temperature cw signal
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 7 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com performance plots ? tqp3m9008-pcb_if test conditions unless otherwise noted: v dd =+5 ? v, i dd =85 ? ma, temp= +25 ? c, 50 system. 15 17 19 21 23 25 0 100 200 300 400 500 gain (db) frequency (mhz) gain vs. frequency over temp -40 c -20 c +25 c +85 ? c -20 -15 -10 -5 0 0 100 200 300 400 500 s11 (db) frequency (mhz) s11 vs. frequency over temp -40 ? c -20 c +25 c +85 c -20 -15 -10 -5 0 0 100 200 300 400 500 s22 (db) frequency (mhz) s22 vs. frequency over temp -20 c -40 c +25 c +85 ? c 0 1 2 3 4 0 100 200 300 400 500 nf (db) frequency (mhz) noise figure vs. frequency over temp +85 c +25 c -40 c 25 30 35 40 45 0 100 200 300 400 500 oip3 (dbm) frequency (mhz) oip3 vs. frequency over temp 1 mhz tone spacing, 3 dbm/tone -40 c +25 c +85 c 14 16 18 20 22 0 100 200 300 400 500 p1db (dbm) frequency (mhz) p1db vs. frequency over temp -40 c +25 c +85 c 12 16 20 24 28 32 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 pout (dbm) pin (dbm) compression curve tqp3m9008_pcb-if freq.=500 mhz temp.=+25c p1db p10db typical performance ? tqp3m9008-pcb_if test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 85 ? ma, temp. ? = ? +25 ? c, 50 system parameter typical value units frequency 70 100 200 500 mhz gain 23.2 23.2 22.9 22.3 db input return loss 10 11 11 11 db output return loss 9 9 10 10 db output p1db +19.8 +20.2 +19.9 +19.9 dbm oip3 +37 +37 +37 +37 dbm noise figure 1.2 1.1 0.8 1.1 db notes: 1. oip3 measured with two tones at an output power of +3 dbm / tone separated by 1 mhz. 2. noise figure values in the table above includes board losses. approx. =0.1db at 2 ghz.
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 8 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com pin configuration and description pin no. label description 1 rf in rf input; matched to 50 ohms. external dc block is required. 2, backside paddle gnd rf/dc ground. use recommended via pattern to minimize inductance and thermal resistance. see pcb mounting pattern for su ggested footprint. 3 rf out ? / ? v dd rf output, matched to 50 ohms. external dc block an d bias voltage required. evaluation board pcb triquint pcb 1075825 material and stack-up 50 ohm line dimensions: width = .028?, spacing = .0 28?
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 9 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com package marking and dimensions 1.62 (.064) 4.40 (.173) .35 (.014) .36 (.014) .44 (.017) 1.40 (.055) d1 d c b1 b symbol a 4.60 (.181) 4.50 (.177) 1.83 (.072) 1.73 (.068) 1.60 (.063) max .44 (.017) .48 (.019) .56 (.022) .50 (.020) .40 (.016) .42 (.0165) 1.50 (.059) typ min 3.94 (.155) 2.13 (.084) 2.29 (.090) e h l e1 e1 e symbol 2.29 (.090) 2.60 (.102) 4.25 (.167) 1.20 (.047) 1.50 bsc (.059) 1.10 (.043) 4.10 (.161) 3.00 bsc (.118) 2.20 (.087) 2.50 (.098) max min .89 (.035) typ 7 b e e1 2x b1 e l h d1 d c e1 d1 d1 alternate backside patterns - reflow compatible (part may be supplied with either pattern) a half etching depth 0.001" notes: 1. all dimensions are in millimeters. angles are i n degrees. 2. dimension and tolerance formats conform to asme y14.4m-1994. 3. the terminal #1 identifier and terminal numberin g conform to jesd 95-1 spp-012. 4. contact plating: nipdau pcb mounting pattern notes: 1. all dimensions are in millimeters. angles are i n degrees. 2. use 1 ? oz. copper minimum for top and bottom layer metal. 3. vias are required under the backside paddle of t his device for proper rf/dc grounding and thermal d issipation. 4. do not remove or minimize via hole structure in the pcb. thermal and rf grounding is critical. 5. we recommend a 0.35 ? mm (#80/.0135") diameter bit for drilling via holes and a final plated thru diameter of 0.25 mm (0.10? ). 6. ensure good package backside paddle solder attac h for best electrical and thermal performance. 3m9008 yxxx package marking product identifier: 3m9008 assembly code: yxxx
tqp3m9008 high linearity lna gain block datasheet rev. m 05-06-14 - 10 of 10 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com product compliance information esd sensitivity ratings caution! esd-sensitive device esd rating: class 1a value: ? 250 ? v to < ? 500 ? v test: human body model (hbm) standard: esda/jedec standard js-001-2012 esd rating: class c3 value: ? 1000 ? v test: charged device model (cdm) standard: jedec standard jesd22-c101f solderability compatible with both lead-free (260 ? c maximum reflow temperature) and tin/lead (245 ? c maximum reflow temperature) soldering processes. contact plating: nipdau rohs compliance this part is compliant with eu 2002/95/ec rohs directive (restrictions on the use of certain hazardous substances in electrical and electronic equipment). this product also has the following attributes: ? lead free ? halogen free (chlorine, bromine) ? antimony free ? tbbp-a (c 15 h 12 br 4 0 2 ) free ? pfos free ? svhc free msl rating msl rating: level 3 test: 260 ? c convection reflow standard: jedec standard ipc/jedec j-std-020 contact information for the latest specifications, additional product i nformation, worldwide sales and distribution locati ons, and information about triquint: web: www.triquint.com tel: +1.503.615.9000 email: info-sales@triquint.com fax: +1.503.615.8902 for technical questions and application information : email: sjcapplications.engineering@triquint.com important notice the information contained herein is believed to be reliable. triquint makes no warranties regarding the informat ion contained herein. triquint assumes no responsibility or liability wha tsoever for any of the information contained herein. triquint assumes no responsibility or liab ility whatsoever for the use of the information con tained herein. the information contained herein is p rovided "as is, where is" and with all faults, and the entire risk associated with such information is entirely with the user. all information contained herein is subject to chan ge without notice. customers should obtain and verify the latest relev ant in formation before placing orders for triquint produc ts. the information contained herein or any use of such inf ormation does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other intellectual property rights, whether w ith regard to such information itself or anything described by such information. triquint products are not warranted or authorized f or use as critical components in medical, life-savi ng, or life- sustaining applications, or other applications wher e a fail ure would reasonably be expected to cause severe pe rsonal injury or death.
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