fast responding, 45 - db range 500 mhz to 40 ghz power detector preliminary technical data adl6010 rev. prb information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specif ications subject to change without notice. no license is granted by implication or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062 - 9106, u.s.a. tel: 781.329.4700 www.analog.com fax: 781.461.3113 ? 2013 analog devices, inc. all rights reserved. features state - of - the - art broadband detector technology schottky diode front e nd with on - chip linearization boardband 50 ohm input impedance accurate response from 0. 5 ghz to 40 ghz input range of - 3 0 dbm to +1 5 dbm re 50 ? unity gain scaled linear in v/v output fast incremental envelope response: >20mhz low power consumption: 3.0 ma at 5 v 2 mm 2 mm, 6 - lead lfcsp package applications high - precision microwave instrumentation point - to - point power - level control collision - avoidance systems functional block dia gram figure 1. functional block diagram general description the adl60 1 0 is a versatile, broadband rf envelope detector. the envelope output voltage is presented as a voltag e that is proportional to the envelope of the input signal. absolute power measurement can be made with a simple low pass filter design at the output of the adl6010. the adl6010 provides state - of - the - art accuracy and stability over time and temperature, in a simple 6 - pin format. it features a novel detector cell using schottky diodes and a proprietary linearizing system. the device has a specified input power, relative to a 50 - ? environment ranges, of ? 3 0 dbm to +1 5 dbm. traditional diode - based detecto rs exhibit significant even - order nonlinearity, due to source loading, generating distortion components which are reflected into the signal source. the ad l 601 0 detector does not exhibit this behavior C an important benefit in applications where a low - ratio coupler is used to extract a sample of the primary signal. the supply voltage may range from 3.3 v up to 5.5 v, with no degradation in the response accuracy. the zero - signal current consumption is less than 3 ma. the adl6010 operates from ?55c to +125c and is available in a 6 - lead, 2 mm 2 mm lfcsp package.
adl6010 preliminary technical data rev. prb | page 2 of 10 table of contents features .............................................................................................. 1 applications ....................................................................................... 1 functional block diagram .............................................................. 1 general description ......................................................................... 1 revision history .......................... error! bookmark not defined. specificatio ns ..................................................................................... 3 absolute maximum ratings ............................................................ 5 thermal resistance .......................................................................5 esd caution ...................................................................................5 pin configuration and function descriptions ..............................6 typical performance characteristics ..............................................7 outline dimensions ....................................................................... 10 ordering guide ............................................................................... 10
preliminary technical data adl6010 rev. prb | page 3 of 10 specifications t a = 25c, vpos = 5v , unless otherwise s tate d. table 1 . parameter test conditions min typ max unit frequency range input rfin 5 00 mhz 40 ghz rf input input impedance 50 ? f = 1 ghz input rfin to output vout dynamic range 0.5 db error cw input, t a = +2 5c 40 db 1 db error cw input, t a = +2 5c 45 db maximum input level , 1 db 15 dbm minimum input level , 1 db -30 dbm conversion gain vout = (gain v in ) + intercept 1 v/v rms output intercept 0 v output voltage, high power in p in = +15 dbm 4 v output voltage, low power in p in = - 30 dbm 0.03 v f = 10 ghz input rfin to output vout dynamic range 0.5 db error cw input, t a = +2 5c 40 db 1 db error cw input, t a = +2 5c 45 db maximum input level , 1 db 1 8 dbm minimum input level , 1 db -30 dbm conversion gain vout = (gain v in ) + intercept 1 v/v rms output intercept 0 v output voltage, high power in p in = +15 dbm 4 v output voltage, low power in p in = - 30 dbm 0.03 v f = 20 ghz input rfin to output vout dynamic range 0.5 db error cw input, t a = +2 5c 40 db 1 db error cw input, t a = +2 5c 45 db maximum input level , 1 db 15 dbm minimum input level , 1 db -30 dbm conversion gain vout = (gain v in ) + intercept 1 v/v rms output intercept 0 v output voltage, high power in p in = +15 dbm 4 v output voltage, low power in p in = - 30 dbm 0.02 v f = 30 ghz input rfin to output vout dynamic range 0.5 db error cw input, t a = +2 5c 40 db 1 db error cw input, t a = +2 5c 45 db maximum input level , 1 db 15 dbm minimum input level , 1 db -3 0 dbm conversion gain vout = (gain v in ) + intercept 1 v/v rms output intercept 0 v output voltage, high power in p in = +15 dbm 4 v output voltage, low power in p in = - 30 dbm 0.0 3 v f = 40 ghz input rfin to output vout
adl6010 preliminary technical data rev. prb | page 4 of 10 dynamic range 0.5 db error cw input, t a = +2 5c 30 db 1 db error cw input, t a = +2 5c 35 db maximum input level , 1 db 15 dbm minimum input level , 1 db -25 dbm conversion gain vout = (gain v in ) + intercept 1 v/v rms output intercept 0 v output voltage, high power in p in = +15 dbm 4 v output voltage, low power in p in = - 30 dbm 0.0 5 v vout output pin vout maximum output voltage 4 v output offset no signal at rfin tbd mv available output current tbd ma envelope modulation bandwidth 50 mhz power supplies operating range - 55c t a 125c 2.7 5.0 5.5 v quiescent current 3.0 ma
preliminary technical data adl6010 rev. prb | page 5 of 10 absolute maximum rat ings table summary table 2 . parameter rating supply voltage, vpos tbd rfin tbd maximum junction temperature tbd operating temperature range tbd storage temperature range tbd stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device r eliability. thermal resistance ja is specified for the worst - case conditions, that is, a device soldered in a circuit board for surface - mount packages. table 3 . thermal resistance package type ja jc unit tbd tbd tbd c/w esd caution
adl6010 preliminary technical data rev. prb | page 6 of 10 pin configuration an d function descripti ons figure 2. pin configuration table 4 . pin function descriptions pin no. mnemonic description 1, 4, 6 , epad gnd device ground pin s . pin 1, 4 and 6 are ground pins and the metal slug on the underside of the chip must be connected to a low impedance ground plane. 2 vout envelop peak output. 3 vpos supply voltage pin. the o perational range is from 2.5 v to 5.5 v. 5 rfin signal input pin. this pin is ac - coupled and has an input impedance of approximately 50 ohms.
preliminary technical data adl6010 rev. prb | page 7 of 10 typical performance characteristics v pos = 5 v ; single - gg ended input drive, t a = - 40 o c ( blue ) , + 25 o c ( green) and + 85 o c ( red ) , input signal is a s ine wave ( cw ) , unless otherwise indicated. figure 3 v out and conformance error vs. p in and temperature at 1ghz. figure 4 v out and conformance error vs. p in and temperature at 5ghz. figure 5 v out and conformance error vs. p in and temperature at 10 ghz. figure 5 v out and conformance error vs. p in and temperature at 1 5ghz. figure 7 v out and conformance error vs. p in and temperature at 20 ghz (data truncated by measurement setup) . figure 8 v out and conformance error vs. p in and temperature at 2 5ghz . (data truncated by measurement setup) . tbd tbd
adl6010 preliminary technical data rev. prb | page 8 of 10 figure 9 v out and conformance error vs. p in and temperature at 30 ghz (data truncated by measurement setup) . figure 10 v out and conformance error vs. p in and temperature at 35 ghz (data truncated by measurement setup) . figure 11 v out and conformance error vs. p in and temperature at 40 ghz (data truncated by measurement setup) .
preliminary technical data adl6010 rev. prb | page 9 of 10 e valuation board the adl6010 - evalz is a fully populated, 4 - layer, rogers 4003- based evaluation board. for no rmal operation, it requires a 5 v/ 27 ma power supply. the 5 v power supply must be connected to the vpos and gnd test loops. the rf input signal is applied to the 2.92 mm connector (rfin). the output voltage is available on the sma connector (vout) or on the test loop (v_vout). configuration options for the evaluation board are listed in table 5. figure 13 adl6010 evaluation board schematics table 5 . eval uation board configuration options component function /notes default value r2 , r3 output interface. a 100 ohm series resistor should be used in the presence of large capacitive loads. r3 can be replaced with a 0 ohm resistor. r2 = 1 0 0 ? (size: 0402) r3 = 100 ? (size: 0402) c2 bypass capacitor . i t provides supply ac decoupling by forming a return path for the ac signal and reduces the noise at the input end. the nominal value is 0.1 f. c2 = 0.1 f (size: 0402) rfin rf input. southwest microwave 2.92 mm connector is used for in put interface.
adl6010 preliminary technical data rev. prb | page 10 of 10 outline dimensions figure 14 . 6- lead lead frame chip scale package [lfcsp_ud] 2 mm x 2 mm body , ultra thin, dual lead (cp - 6 - 7) dimensions shown in millimeters . ordering guide model temperature range package description package option ordering quantity ad l6010acpzn -r2 ? 40c to + 8 5c 6 - lead lead frame chip scale package cp -6 -7 250 ad l6010acpzn -r7 ? 40c to + 8 5c 6 - lead lead frame chip scale package cp -6 -7 1500 ad l6010scpzn -r2 ? 55 c to +125c 6 - lead lead frame chip scale package cp -6 -7 250 ad l6010scpzn -r7 ? 55 c to +125c 6 - lead lead frame chip scale package cp -6 -7 1500 adl6010 - evalz evaluation board 1 ? 20 13 analog devices, inc. all rights reserved. trademarks and registered trademarks are the property of their respective owners. pr11617 - 0 - 8/13(prb)
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