TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 1 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com applications ? base station transceivers and repeaters ? defense communications ? general purpose wireless ? test instrumentation ? tdd or fdd systems 8 pin 2x2 mm dfn package pin configuration pin no. label 1, 3, 4, 5, 8 nc 2 rf in 6 shut down 7 rf out backside paddle rf/dc gnd product features ? 50 ? ? ? 4000 mhz operational bandwidth ? flat gain (14.5 1 db) from 0.7 to 2.7 ghz ? high linearity, +35.5 dbm output ip3 ? 1.6 db noise figure ? integrated on-chip matching, 50 ohm in/out ? integrated active bias ? integrated shutdown control pin general description the TQL9047 is a cascadable, high linearity gain block amplifier in a low- cost surface mount package. at 1.9 ghz, the amplifier typically provides 14.5 db gain, +35.5 dbm oip3 and 1.6 db noise figure while drawing 70 m a current from a 5v supply. the TQL9047 features medium gain across a broad range of frequencies with the integration of a shut - down biasing capability to allow for operation for tdd applications. the low noise figure and high lineari ty performance allows the device to be used in both re ceiver and transmitter chains for high performance systems. the internal active bias circuit also enab les stable operation over bias and temperature variatio ns and can be biased from a single positive supply ran ging from +3.3 to +5 volts. the amplifier is internally matched using a high performance e- phemt process and is housed in a small 2 ? x ? 2 mm surface-mount package. the TQL9047 covers the 700 ? ? ? 4000 mhz frequency band and is targeted for wireless infrastructure or other applications requiring high linearity and/or low no ise figure. functional block diagram ordering information part no. description TQL9047 high linearity gain block TQL9047-pcb_rf 0.5 ? ? ? 4.0 ghz evaluation board TQL9047-pcb_if 50 ? ? ? 500 mhz evaluation board standard t/r size = 2500 pieces on a 7? reel
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 2 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com recommended operating conditions parameter min typ max units supply 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 supply voltage (v dd ) +7 rf input power, cw, 50 , t=25c 20 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 13.0 14.5 16.0 db input return loss 11 db output return loss 13 db noise figure 1.6 3.0 db output p1db +18 +20.8 dbm output ip3 pout ? = ? +4 ? dbm ? / ? tone, f ? = ? 1 ? mhz +32 +35.5 dbm power shutdown control (pin 6) on state 0 +0.5 v off state (power down) +1.4 +3.3 v dd v current, i dd on state 70 100 ma off state (power down) 3 5 ma shutdown pin current, i sd v pd +1.4 ? v 250 a thermal resistance, jc channel to case 62 c/w
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 3 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com s-parameters test conditions: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c, unmatched 50 ? system, calibrated to device leads freq (ghz) s11 (db) s11 (ang) s21 (db) s21 (ang) s12 (db) s12 (ang) s22 (db) s22 (ang) 0.05 -14.7 -82.4 17.5 163.7 -20.4 10.7 -24.7 -89.6 0.1 -19.4 -117.5 16.9 164.3 -20.0 3.6 -18.2 -156.9 0.2 -22.9 -146.3 16.7 159.8 -19.8 -2.1 -18.6 173.6 0.3 -25.2 -165.5 16.6 153.1 -19.8 -6.1 -19.2 153.6 0.4 -26.5 -174.9 16.5 145.7 -19.7 -9.4 -19.1 137.5 0.5 -29.3 179.8 16.4 138.2 -19.7 -12.5 -19.1 121.5 0.6 -32.8 172.9 16.3 130.7 -19.7 -15.7 -19.5 107.6 0.7 -40.1 -174.1 16.2 123.1 -19.7 -18.7 -19.7 93.5 0.8 -43.3 -61.6 16.1 115.6 -19.6 -21.9 -19.8 78.8 0.9 -33.6 -45.7 16.0 108.1 -19.6 -25.0 -20.0 64.2 1.0 -28.8 -45.4 15.9 100.6 -19.6 -28.3 -20.2 50.0 1.1 -25.7 -48.8 15.8 93.1 -19.6 -31.5 -20.3 35.7 1.2 -23.3 -51.6 15.6 85.7 -19.6 -34.8 -20.3 21.1 1.3 -21.4 -55.3 15.5 78.3 -19.6 -38.1 -20.4 6.1 1.4 -19.9 -59.1 15.4 71.0 -19.6 -41.4 -20.3 -8.8 1.5 -18.7 -63.2 15.3 63.6 -19.6 -44.8 -20.0 -23.9 1.6 -17.6 -67.2 15.2 56.4 -19.6 -48.2 -19.7 -38.4 1.7 -16.7 -71.3 15.1 49.1 -19.6 -51.7 -19.2 -52.2 1.8 -15.9 -75.5 14.9 41.9 -19.7 -55.2 -18.7 -65.6 1.9 -15.3 -79.7 14.8 34.6 -19.7 -58.6 -18.1 -78.2 2.0 -14.7 -84.0 14.7 27.4 -19.7 -62.1 -17.5 -89.8 2.1 -14.2 -88.2 14.6 20.1 -19.8 -65.6 -16.9 -100.9 2.2 -13.8 -92.5 14.5 12.8 -19.8 -69.1 -16.3 -111.1 2.3 -13.5 -96.8 14.4 5.5 -19.8 -72.6 -15.8 -120.8 2.4 -13.2 -101.1 14.3 -1.8 -19.8 -76.2 -15.3 -130.2 2.5 -13.0 -105.5 14.3 -9.2 -19.9 -79.8 -14.8 -138.9 2.6 -12.9 -109.9 14.2 -16.7 -19.9 -83.6 -14.4 -147.7 2.7 -12.8 -114.3 14.1 -24.2 -19.9 -87.2 -13.9 -156.5 2.8 -12.7 -118.6 14.1 -32.0 -19.9 -91.0 -13.6 -165.2 2.9 -12.7 -122.8 14.0 -39.7 -19.9 -94.7 -13.2 -173.9 3.0 -12.7 -126.9 13.9 -47.6 -19.9 -98.7 -13.0 177.1 3.1 -12.7 -130.7 13.8 -55.7 -19.9 -102.7 -12.7 168.1 3.2 -12.8 -134.3 13.8 -64.0 -19.9 -106.8 -12.4 158.8 3.3 -12.9 -137.7 13.7 -72.4 -19.8 -111.0 -12.2 149.4 3.4 -13.0 -140.3 13.6 -81.0 -19.8 -115.4 -12.0 139.8 3.5 -13.0 -142.4 13.5 -89.7 -19.7 -119.9 -11.8 129.8 3.6 -13.0 -143.9 13.3 -98.8 -19.7 -124.7 -11.7 119.6 3.8 -12.8 -144.2 13.0 -117.3 -19.5 -134.7 -11.5 98.0 4.0 -11.8 -143.1 12.5 -136.6 -19.4 -145.8 -11.5 75.3
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 4 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com TQL9047-pcb_rf evaluation board � � notes: 1. see evaluation board pcb information section for material and stack-up. 2. r3 (0 jumper) is not shown on the schematic and may be r eplaced with copper trace in the target application layout. 3. all components are of 0402 size unless stated on the schematic. 4. c1, c2, and c3 are non-critical values. the rea ctive impedance should be as low as possible at the frequency of operation for optimal performance. 5. the l1 value is non-critical and needs to provid e high reactive impedance at the frequency of opera tion. 6. r2 is optional and does not need to be loaded if the shut-down functionality is not needed; i.e. fd d applications. if r2 is not loaded, the lna will operate in its standard ?on? s tate. 7. a through line is included on the evaluation boa rd to de-embed the board losses. bill of material ? TQL9047-pcb_rf reference des. value description manuf. part number n/a n/a printed circuit board triquint n/a u1 n/a high linearity gain block triquint TQL9047 r1 n/a do not load n/a n/a r2 0 resistor, chip, 0402, 5%, 1/16w various various r3 0 resistor, chip, 0402, 5%, 1/16w various various l1 68 nh inductor, 0603, 5%, ceramic various various c4 1.0 uf cap., chip, 0402, 10%, 10v, x5r various various c1, c2, c3, c5, c6 33 pf cap., chip, 0402, 5%, 50v, npo/cog various various see note 6. resistor is not needed if shut-down functionality is not used.
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 5 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com typical performance ? TQL9047-pcb_rf test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c parameter conditions typical values units frequency 900 1900 2700 mhz gain 16 14.5 13.5 db input return loss 28 11 10 db output return loss 19 13 13 db output p1db +21 +20.8 +20.5 dbm oip3 pout ? = ? +4 ? dbm ? / ? tone, ? f ? = ? 1 ? mhz +35.8 +35.5 +35.5 dbm noise figure (1) 1.5 1.6 1.9 db notes: 1. noise figure data shown in the table above is de-em bedded from the eval board loss. performance plots ? TQL9047-pcb_rf test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c 10 11 12 13 14 15 16 17 0 1000 2000 3000 4000 gain (db) frequency (mhz) gain vs. frequency +85c +25c ?40c -30 -25 -20 -15 -10 -5 0 0 1000 2000 3000 4000 |s11| (db) frequency (mhz) input return loss vs. frequency +85c +25c ?40c -25 -20 -15 -10 -5 0 5 -9 -7 -5 -3 -1 1 3 5 |s21| (db) pin (dbm) isolation vs. input power temp.=+25c shutdown mode vpd > 1.4v freq = 2.6 ghz -30 -25 -20 -15 -10 -5 0 0 1000 2000 3000 4000 |s22| (db) frequency (mhz) output return loss vs. frequency +85c +25c ?40c
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 6 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com performance plots ? TQL9047-pcb_rf (cont?d) test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c 32 34 36 38 40 42 -1 0 1 2 3 4 5 6 7 oip3 (dbm) pout/tone (dbm) output ip3 vs. pout/tone +85c +25c ?40c freq.=900 mhz 32 34 36 38 40 42 -1 0 1 2 3 4 5 6 7 oip3 (dbm) pout/tone (dbm) output ip3 vs. pout/tone freq.=1900 mhz +85c +25c ?40c 32 34 36 38 40 42 -1 0 1 2 3 4 5 6 7 oip3 (dbm) pout/tone (dbm) output ip3 vs. pout/tone freq.=2700 mhz +85c +25c ?40c 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0 500 1000 1500 2000 2500 3000 noise figure (db) frequency (mhz) noise figure vs. frequency +85c +25c ?40c 30 35 40 45 50 55 60 0 1000 2000 3000 4000 oip2 (dbm) frequency (mhz) output ip2 vs. frequency temp.=+25c pout/tone = +4 dbm 0 10 20 30 40 50 60 70 80 0 1 2 3 4 5 i dd (ma) shutdown voltage (v) i dd vs. shutdown voltage +85c +25c ?40c
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 7 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com typical performance ? TQL9047-pcb_if test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c, c1 and c2 ? = ? 1000 ? pf, l1 ? = ? 330 ? nh parameter conditions typical values units frequency 50 100 150 500 mhz gain 17.5 17 16.7 16.4 db input return loss 8 13 16 23 db output return loss 18 17 17 18 db output p1db +20.4 +20.7 +20.8 +20.8 dbm oip3 pout = ? +3 ? dbm ? / ? tone, ? f ? = ? 1 ? mhz +36.3 +36.4 +36.5 +36.5 dbm noise figure (1) eval board losses de-embedded 1.4 1.4 1.4 1.6 db performance plots ? TQL9047-pcb_if test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c, c1 and c2 ? = ? 1000 ? pf, l1 ? = ? 330 ? nh 14 15 16 17 18 19 0 100 200 300 400 500 gain (db) frequency (mhz) gain vs. frequency +85c +25c ?40c -40 -30 -20 -10 0 0 100 200 300 400 500 |s11| (db) frequency (mhz) input return loss vs. frequency +85c +25c ?40c -40 -30 -20 -10 0 0 100 200 300 400 500 |s22| (db) frequency (mhz) output return loss vs. frequency +85c +25c ?40c 34 35 36 37 38 39 0 100 200 300 400 500 output ip3 (dbm) frequency (mhz) output ip3 vs. frequency pout=+3 dbm/tone 1 mhz tone spacing +85c +25c ?40c 18 19 20 21 22 23 0 100 200 300 400 500 p1db (dbm) frequency (mhz) p1db vs. frequency +85c +25c ?40c 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0 100 200 300 400 500 nf (db) frequency (mhz) nf vs frequency +85c +25c ?40c
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 8 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com typical performance ? TQL9047-pcb_rf v dd = +3.3v test conditions unless otherwise noted: v dd = +3.3v, i dd = 42 ma (typ.), temp= +25c parameter conditions typical values units frequency 1900 mhz gain 14.0 db input return loss 11 db output return loss 12.5 db output p1db +16.7 dbm oip3 pout = +3 dbm ? / ? tone, ? f=1 mhz +29 dbm noise figure (1) 1.7 db notes: 1. noise figure data shown in the table above is de-em bedded from the eval board loss. performance plots ? TQL9047-pcb_rf v dd = +3.3v test conditions unless otherwise noted: v dd ? = ? +3.3 ? v, i dd ? = ? 42 ? ma ? (typ.), temp. ? = ? +25 ? c 8 10 12 14 16 18 0 1000 2000 3000 4000 gain (db) frequency (mhz) gain vs. frequency temp.=+25c -25 -20 -15 -10 -5 0 0 1000 2000 3000 4000 |s11| (db) frequency (mhz) input return loss vs. frequency temp.=+25c -25 -20 -15 -10 -5 0 0 1000 2000 3000 4000 |s22| (db) frequency (mhz) output return loss vs. frequency temp.=+25c 25 26 27 28 29 30 -1 0 1 2 3 4 5 6 7 oip3 (dbm) pout/tone (dbm) output ip3 vs. pout/tone temp.=+25c freq.=1900 mhz
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 9 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com switching speed switching speed measurement based on tqs applicatio n board using shutdown circuit: v pd ? = ? +3 ? v, v dd ? = ? +5 ? v parameter ?40 ? c +25 ? c +85 ? c turn-off transition (50% cntr ? 10% rf) 1.04 s 1.15 s 1.28 s turn-on transition (50% cntr ? 90% rf) 1.58 s 1.37 s 1.39 s control signal temp. ? = ? +25 ? c temp. ? = ? ?40 ? c temp. ? = ? +85 ? c control signal control signal rf signal rf signal rf signal freq. ? = 2600 ? mhz pout ? = ?10 ? dbm ? / ? tone freq. ? = ? 2600 ? mhz pout ? = ? ?10 ? dbm ? / ? tone freq. ? = ? 2600 ? mhz pout ? = ? ?10 ? dbm ? / ? tone
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 10 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com reference design ? optimized return loss input return loss over the 500 ? ? ? 2700 mhz band can be optimized using a 2 element input tune. performance plots test conditions unless otherwise noted: v dd ? = ? +5 ? v, i dd ? = ? 70 ? ma ? (typ.), temp. ? = ? +25 ? c 11 12 13 14 15 16 17 0 1 2 3 4 gain (db) frequency (ghz) gain vs. frequency temp.=+25c -40 -30 -20 -10 0 0 1 2 3 4 |s11| / |s22| (db) frequency (ghz) return loss vs. frequency temp.=+25c |s22| |s11| 30 32 34 36 38 40 -1 0 1 2 3 4 5 6 7 oip3 (dbm) pout/tone (dbm) output ip3 vs. pout/tone temp.=+25c 2700 mhz 1900 mhz 900 mhz 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0 500 1000 1500 2000 2500 3000 noise figure (db) frequency (mhz) noise figure vs. frequency temp.=+25c
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 11 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com pin configuration and description pin no. label description 2 rf in rf input pin. a dc block is required. 6 shut down a high voltage turns off the device. if the pin is not connected or is less than 0.5 v, then the device will operate under its normal opera ting condition. 7 rf out rf output pin. dc bias will also need to be injecte d through a rf bias choke/inductor for operation. 1, 3, 4, 5, 8 nc no electrical connection. provide grounded land pa ds for pcb mounting integrity. backside paddle rf/dc gnd rf/dc ground. use recommended via pattern to minim ize inductance and thermal resistance; see pcb mounting pattern for su ggested footprint. evaluation board pcb information triquint pcb 1084112 material and stack-up 50 ohm line dimensions: width = 0.020?, spacing = 0 .032?
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 12 of 13 - disclaimer: subject to change without notice ? 2014 triquint www.triquint.com package marking and dimensions top view side view bottom view pin 1 identifier 0.200x45 2.0000.050 2.0000.050 0.8000.050 exp. dap 0.3000.050 1.6000.050 exp. dap 0.500 bsc 0.2500.050 0.203 ref 0.00-0.05 pin 1 identifier 0.8500.050 notes: 1. all dimensions are in millimeters. angles are i n degrees. 2. except where noted, this part outline conforms t o jedec standard mo-229. 3. dimension and tolerance formats conform to asme y14.4m-1994. 4. the terminal #1 identifier and terminal numberin g conform to jesd 95-1 spp-012. 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 laye r metal. 3. vias are required under the backside paddle of t his device for proper rf/dc grounding and thermal d issipation. we recommend a 0.35mm (#80/.0135") diameter bit for dr illing via holes and a final plated thru diameter o f 0.25 mm (0.10?). 4. ensure good package backside paddle solder attac h for reliable operation and best electrical perfor mance. 9047 xxxx package marking product identifier: 9047 lot code: xxxx
TQL9047 high linearity gain block data sheet: rev k 05/07/14 - 13 of 13 - 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 to < ? 2000 ? v test: charged device model (cdm) standard: jedec standard jesd22-c101 solderability compatible with both lead- free (260 c max. reflow temperature) and tin/lead (245 c max. 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 hazar dous 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 1 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 on s, 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 warrantie s regarding the information 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 provided "as is, wh ere is" and with all faults, and the entire risk as sociated with such information is entirely with the user. all information contained herein is subject to chan ge without notice. customers shoul d obtain and verify the latest relevant information before placing orders for triquint products. 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 oth er intellectual property rights, whether with regar d 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 applic ations, or other applications where a failure would reasonably be expected to cause severe personal injury or death.
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