original creation date: 02/10/99 last update date: 09/08/99 last major revision date: mnclc406a-x rev 0a0 microcircuit data sheet wideband, low power monolithic op amp general description the clc406 is a wideband monolithic operational amplifier designed for low-gain applications where power and cost are of primary concern. operating from +5v supplies, the clc406 consumes only 50mw of power yet maintains a 160mhz small signal bandwidth and a 1500v/us slew rate. benefitting from comlinear's current feedback architecture, the clc406 offers a gain range of + 1 to + 10 while providing stable, oscillation free operation without external compensation, even at unity gain. with its exceptional differential gain and phase, typically 0.02% and 0.02 degrees at 3.58mhz, the clc406 is designed to meet the performance and cost requirements of high volume composite video applications. the clc406's large signal bandwidth, high slew rate and high drive capability are features well suited for rgb video applications. providing a 12ns settling time to 0.05% (1/2 lsb in 10-bit systems) and -68/-75dbc 2nd/3rd harmonic distortion (2vpp at 10mhz, rl = 1kohms), the clc406 is an excellent choice as a buffer or driver for high speed a/d and d/a converter systems. commercial remote sensing applications and battery powered radio transceivers requiring a high performance, low power amplifier will find the clc406 to be an attractive, cost-effective solution. ns part numbers CLC406AJ-QML industry part number clc406a prime die ub1373c controlling document 5962-9200401mpa processing mil-std-883, method 5004 quality conformance inspection mil-std-883, method 5005 subgrp description temp ( c) o 1 static tests at +25 2 static tests at +125 3 static tests at -55 4 dynamic tests at +25 5 dynamic tests at +125 6 dynamic tests at -55 7 functional tests at +25 8a functional tests at +125 8b functional tests at -55 9 switching tests at +25 10 switching tests at +125 11 switching tests at -55 1
microcircuit data sheet mnclc406a-x rev 0a0 features - 160mhz small signal bandwidth - 50mw power (+5v supplies) - 0.02%/0.02degrees differential gain/phase - 12ns settling to 0.05% - 1500v/us slew rate - 2.2ns rise and fall time (2vpp) - 70ma output current applications - video distribution amp - hdtv amplifier - flash a/d driver - d/a transimpedance buffer - pulse amplifier - photodiode amp - lan amplifier 2
microcircuit data sheet mnclc406a-x rev 0a0 (absolute maximum ratings) supply voltage (vcc) (note 1) +7 v dc output current (io) +70 ma common mode input voltage (vcm) +vcc differential input voltage +10 v dc maximum power dissipation (pd) (note 2) 1.2w lead temperature (soldering, 10 seconds) +300c junction temperature (tj) +175c storage temperature range -65c to +150c thermal resistance junction -to-ambient (thetaja) tbd ceramic dip (still air) tbd (500 lfpm) junction -to-case (thetajc) tbd ceramic dip package weight (typical) tbd ceramic dip esd tolerance 2000v esd rating (note 3) note 1: absolute maximum ratings are limits beyond which damage to the device may occur. operating ratings are conditions for which the device is functional, but do not guarantee specific performance limits. for guaranteed specifications apply only for the test conditions listed. some performance characteristics may degrade when the device is not operated under the listed test conditions. note 2: the maximum power dissipation must be derated at elevated temperatures and is dictated by tjmax (maximum junction temperature), thetaja (package junction to ambient thermal resistance), and ta (ambient temperature). the maximum allowable power dissipation at any temperature is pdmax = (tjmax - ta) / thetaja or the number given in the absolute maximum ratings, whichever is lower. note 3: human body model, 100 pf discharged through 1.5k ohms. recommended operating conditions supply voltage (vcc) +5 v dc gain range +1 to +10 ambient operating temperature range (ta) -55c to +125c 3
mnclc406a-x rev 0a0 microcircuit data sheet electrical characteristics ac/dc parameters (the following conditions apply to all the following parameters, unless otherwise specified.) dc: rl = 100 ohms, vcc = +5 v dc, av = +6, rf (feedback resistor) = 500 ohms, rg (gain resistor) = 100 ohms, -55c < ta < +125c (note 3) symbol parameter conditions notes pin- name min max unit sub- groups ibn input bias current, noninverting -12 12 ua 1, 2 -24 24 ua 3 dibn input bias current, average temperature coefficient, noninverting 1 -50 50 na/c 2 1 -125 125 na/c 3 ibi input bias current, inverting -15 15 ua 1 -20 20 ua 2 -23 23 ua 3 dibi input bias currrent, average temperature coefficient, inverting 1 -50 50 na/c 2 1 -100 100 na/c 3 vio input offset voltage -6 6 mv 1 -12 12 mv 2 -10 10 mv 3 dvio input offset voltage, average temperature coefficient 1 -60 60 uv/c 2, 3 icc supply current no load 6.0 ma 1, 2 6.4 ma 3 psrr power supply rejection ratio -vcc = -4.5 v to -5.0 v, +vcc = +4.5 v to +5.0 v 2 46 db 1, 3 244 db2 +io output current 1 45 ma 1, 2 125 ma3 -io output current 1 -45 ma 1, 2 1 -25 ma 3 +vo output voltage range 2.7 v 1, 2 2.0 v 3 -vo output voltage range -2.7 v 1, 2 -2.5 v 3 4
mnclc406a-x rev 0a0 microcircuit data sheet electrical characteristics ac/dc parameters(continued) (the following conditions apply to all the following parameters, unless otherwise specified.) dc: rl = 100 ohms, vcc = +5 v dc, av = +6, rf (feedback resistor) = 500 ohms, rg (gain resistor) = 100 ohms, -55c < ta < +125c (note 3) symbol parameter conditions notes pin- name min max unit sub- groups rin noninverting input resistance 1 500 k ohms 1, 2 1 300 k ohms 3 cmrr common mode rejection ratio vcm = +1.0 v 1 45 db 4, 6 143 db5 ssbw small signal bandwidth -3 db bandwidth, vout < 2 vpp . 110 mhz 4 2 90 mhz 5 2 110 mhz 6 lsbw large signal bandwidth -3 db bandwidth, vout < 5 vpp . 1 95 mhz 4, 6 1 80 mhz 5 gfpl gain flatness peaking 0.1 mhz to 25 mhz , vout < 2 vpp 0.2 db 4 2 0.2 db 5, 6 gfph gain flatness peaking > 25mhz, vout < 2 vpp 0.5 db 4 2 0.5 db 5, 6 gfr gain flatness rolloff 0.1 mhz to 50 mhz, vout < 2 vpp 1 db 4 2 1.3 db 5 2 1 db 6 lpd linear phase deviation 0.1 mhz to 75 mhz 1 0.8 deg 4, 6 1 1.2 deg 5 dg differential gain rl = 150 ohms, 3.58 mhz, 4.43 mhz, av = +2 1 0.04 % 4, 5, 6 dp1 differential phase rl = 150 ohms, 3.58 mhz, av = +2 1 0.04 deg 4, 6 1 0.08 deg 5 dp2 differential phase rl = 150 ohms, 4.43 mhz, av = +2 1 0.05 deg 4, 6 1 0.10 deg 5 hd2 2nd harmonic distortion 2 vpp at 20 mhz -42 dbc 4 2 -38 dbc 5 2 -42 dbc 6 hd2l 2nd harmonic distortion 2 vpp at 10 mhz, rl = 1 kohms 1 -62 dbc 4, 6 1 -60 dbc 5 5
mnclc406a-x rev 0a0 microcircuit data sheet electrical characteristics ac/dc parameters(continued) (the following conditions apply to all the following parameters, unless otherwise specified.) dc: rl = 100 ohms, vcc = +5 v dc, av = +6, rf (feedback resistor) = 500 ohms, rg (gain resistor) = 100 ohms, -55c < ta < +125c (note 3) symbol parameter conditions notes pin- name min max unit sub- groups hd3 3rd harmonic distortion 2 vpp at 20 mhz -46 dbc 4 2 -42 dbc 5 2 -46 dbc 6 hd3l 3rd harmonic distortion 2 vpp at 10 mhz, rl = 1 kohms 1 -70 dbc 4, 6 1 -65 dbc 5 trs rise and fall time 2 v step, cl < 10 pf, measured between 10% and 90% points 1 3.0 ns 9, 11 1 3.9 ns 10 trl rise and fall time 4 v step, cl < 10 pf, measured between 10% and 90% points 1 3.6 ns 9, 11 1 5.0 ns 10 ts settling time cl < 10 pf, 2 v step at 0.05% of the final value 1 18 ns 9, 11 120ns10 os overshoot 2 v step, cl < 10 pf 1 15 % 9, 10, 11 sr slew rate vout = 4 v step, measured at +1 v, c1 < 10 pf 1 1200 v/us 4, 6 1 1000 v/us 5 vn equivalent input noise, noninverting voltage > 1 mhz 1 3.4 nv/sq rthz 4, 6 1 3.8 nv/sq rthz 5 icn equivalent input noise, inverting current > 1 mhz 1 13.9 pa/sq rthz 4, 6 1 15.5 pa/sq rthz 5 ncn equivalent input noise, noninverting current > 1 mhz 1 2.6 pa/sq rthz 4, 6 1 3.0 pa/sq rthz 5 snf equivalent input noise, total noise floor > 1 mhz 1 -156 dbm (1hz) 4, 6 1 -155 dbm (1hz) 5 inv equivalent input noise, total integrated noise 1 mhz to 100 mhz 1 38 uv 4, 6 142uv5 note 1: guaranteed, if not tested. note 2: this parameter is group a sample tested only and is excluded from final electrical testing, but is guaranteed to the limits specified. 6
mnclc406a-x rev 0a0 microcircuit data sheet (continued) note 3: the algebraic convention, whereby the most negative value is a minimum and the most positive a maximum, is used in this table. negative current shall be defined as conventional current flow out of a device terminal. 7
microcircuit data sheet mnclc406a-x rev 0a0 graphics and diagrams graphics# description 07081hra3 cerdip (j), 8 lead (b/i ckt) j08arl cerdip (j), 8 lead (p/p dwg) p000418a cerdip (j), 8 lead (pinout) see attached graphics following this page. 8
n mil/aerospace operations 2900 semiconductor drive santa clara, ca 95050 1 8 2 7 3 6 4 5 clc406j 8 - lead dip top view connection diagram p000418a n/c v inv v non-inv -v cc n/c v out +v cc n/c
microcircuit data sheet mnclc406a-x rev 0a0 revision history rev ecn # rel date originator changes 0a0 m0003524 09/08/99 rose malone initial mds release 9
|
