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| EL2180C/el2280c/el2480c august 1996, rev. d EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers note: all information contained in this data sheet has been carefully checked and is believed to be accurate as of the date of publication; however, this data sheet cannot be a ``controlled document''. current revisions, if any, to these specifications are maintained at the factory and are available upon your request. we recommend checking the revision level before finalization of your design documentation. ? 1995 elantec, inc. features # single (EL2180C), dual (el2280c) and quad (el2480c) topologies # 3 ma supply current (per amplifier) # 250 mhz b 3 db bandwidth # tiny sot23-5 package (EL2180C) # low cost # single- and dual-supply operation down to g 1.5v # 0.05%/0.05 diff. gain/diff. phase into 150 x # 1200 v/ m s slew rate # large output drive current: 100 ma (EL2180C) 55 ma (el2280c) 55 ma (el2480c) # also available with disable in single (el2186c), dual (el2286c), and triple (el2386c) # lower power el2170c/el2176c family also available (1 ma/ 70 mhz) in single, dual and quad applications # low power/battery applications # hdsl amplifiers # video amplifiers # cable drivers # rgb amplifiers # test equipment amplifiers # current to voltage converters ordering information part no. temp. range package outline y EL2180Cn b 40 cto a 85 c 8-pin pdip mdp0031 EL2180Cs b 40 cto a 85 c 8-pin soic mdp0027 EL2180Cw b 40 cto a 85 c 5-pin sot23 * mdp0038 el2280cn b 40 cto a 85 c 8-pin pdip mdp0031 el2280cs b 40 cto a 85 c 8-pin soic mdp0027 el2480cn b 40 cto a 85 c 14-pin pdip mdp0031 el2480cs b 40 cto a 85 c 14-pin soic mdp0027 * see ordering information section of databook. general description the EL2180C/el2280c/el2480c are single/dual/quad cur- rent-feedback operational amplifiers which achieve a b 3db bandwidth of 250 mhz at a gain of a 1 while consuming only 3 ma of supply current per amplifier. they will operate with dual supplies ranging from g 1.5v to g 6v, or from single sup- plies ranging from a 3v to a 12v. in spite of their low supply current, the el2480c and the el2280c can output 55 ma while swinging to g 4v on g 5v supplies. the EL2180C can output 100 ma with similar output swings. these attributes make the EL2180C/el2280c/el2480c excellent choices for low power and/or low voltage cable-driver, hdsl, or rgb applications. for applications where board space is extremely critical, the EL2180C is available in the tiny 5-lead sot23 package, which has a footprint 28% the size of an 8-lead soic. for single, dual, and triple applications with disable, consider the el2186c (8-pin single), el2286c (14-pin dual) or el2386c (16-pin triple). for lower power applications where speed is still a concern, consider the el2170c/el2176c family which also comes in similar single, dual and quad configura- tions. the el2170c/el2176c family provides a b 3 db band- width of 70 mhz while consuming 1 ma of supply current per amplifier. connection diagrams EL2180C so, p-dip el2280c so, p-dip 2180 1 EL2180C sot23-5 el2480c so, p-dip 2180 46 2180 2
EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers absolute maximum ratings (t a e 25 c) voltage between v s a and v s b a 12.6v common-mode input voltage v s b to v s a differential input voltage g 6v current into a in or b in g 7.5 ma internal power dissipation see curves operating ambient temperature range b 40 cto a 85 c operating junction temperature plastic packages 150 c output current (EL2180C) g 120 ma output current (el2280c) g 60 ma output current (el2480c) g 60 ma storage temperature range b 65 cto a 150 c important note: all parameters having min/max specifications are guaranteed. the test level column indicates the specific device testing actually performed during production and quality inspection. elantec performs most electrical tests using modern high-speed automatic test equipment, specifically the ltx77 series system. unless otherwise noted, all tests are pulsed tests, therefore t j e t c e t a . test level test procedure i 100% production tested and qa sample tested per qa test plan qcx0002. ii 100% production tested at t a e 25 c and qa sample tested at t a e 25 c, t max and t min per qa test plan qcx0002. iii qa sample tested per qa test plan qcx0002. iv parameter is guaranteed (but not tested) by design and characterization data. v parameter is typical value at t a e 25 c for information purposes only. dc electrical characteristics v s e g 5v, r l e 150 x ,t a e 25 c unless otherwise specified parameter description conditions min typ max test units level v os input offset voltage 2.5 10 i mv tcv os average input offset measured from t min to t max 5v m v/ c voltage drift dv os v os matching el2280c, el2480c only 0.5 v mv a i in a input current 1.5 15 i m a d a i in a i in matching el2280c, el2480c only 20 v na b i in b input current 16 40 i m a d b i in b i in matching el2280c, el2480c only 2 v m a cmrr common mode rejection v cm e g 3.5v 45 50 i db ratio b icmr b input current common v cm e g 3.5v 5 30 i m a/v mode rejection psrr power supply rejection v s is moved from g 4v to g 6v 60 70 i db ratio b ipsr b input current power v s is moved from g 4v to g 6v 1 15 i m a/v supply rejection r ol transimpedance v out e g 2.5v 120 300 i k x a r in a input resistance v cm e g 3.5v 0.5 2 i m x a c in a input capacitance 1.2 v pf cmir common mode input range g 3.5 g 4.0 i v 2 td is 3.8in EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers dc electrical characteristics e contd. v s e g 5v, r l e 150 x ,t a e 25 c unless otherwise specified parameter description conditions min typ max test units level v o output voltage swing v s e g 5 g 3.5 g 4.0 i v v s ea 5 single-supply, high 4.0 v v v s ea 5 single-supply, low 0.3 v v i o output current EL2180C only 80 100 i ma el2280c only, per amplifier 50 55 i ma el2480c only, per amplifier 50 55 i ma i s supply current per amplifier 3 6 i ma ac electrical characteristics v s e g 5v, r f e r g e 750 x for pdip and soic packages, r f e r g e 560 x for sot23-5 package, r l e 150 x ,t a e 25 c unless otherwise specified parameter description conditions min typ max test units level b 3dbbw b 3 db bandwidth a v ea 1 250 v mhz b 3dbbw b 3 db bandwidth a v ea 2 180 v mhz 0.1 db bw 0.1 db bandwidth a v ea 2 50 v mhz sr slew rate v out e g 2.5v, a v ea 2 600 1200 iv v/ m s t r ,t f rise and fall time v out e g 500 mv 1.5 v ns t pd propagation delay v out e g 500 mv 1.5 v ns os overshoot v out e g 500 mv 3.0 v % t s 0.1% settling v out e g 2.5v, a v eb 115vns dg differential gain a v ea 2, r l e 150 x (note 1) 0.05 v % dp differential phase a v ea 2, r l e 150 x (note 1) 0.05 v dg differential gain a v ea 1, r l e 500 x (note 1) 0.01 v % dp differential phase a v ea 1, r l e 500 x (note 1) 0.01 v c s channel separation el2280c, el2480c only, f e 5 mhz 85 v db note 1: dc offset from 0v to 0.714v, ac amplitude 286 mv p-p ,f e 3.58 mhz. 3 td is 1.6in td is 2.8in EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers test circuit (per amplifier) 2180 3 simplified schematic (per amplifer) 2180 4 4 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical performance curves (pdip and soic packages) response (gain) non-inverting frequency 2180 5 (pdip and soic packages) response (phase) non-inverting frequency 2180 6 (pdip and soic packages) for various r f and r g frequency response 2180 7 (pdip and soic packages) response (gain) inverting frequency 2180 8 (pdip and soic packages) response (phase) inverting frequency 2180 9 (pdip and soic packages) for various r l and r l frequency response 2180 10 frequency transimpedance (r ol )vs 2180 11 vs frequency psrr and cmrr 2180 12 various c in b frequency response for 2180 13 5 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical performance curves e contd. noise vs frequency voltage and current 2180 14 distortion vs frequency 2nd and 3rd harmonic 2180 15 swing vs frequency output voltage 2180 16 various non-inverting gains vs supply voltage for b 3 db bandwidth and peaking 2180 17 various inverting gains vs supply voltage for b 3 db bandwidth and peaking 2180 18 vs supply voltage output voltage swing 2180 19 supply voltage supply current vs 2180 20 vs supply voltage common-mode input range 2180 21 supply voltage slew rate vs 2180 22 6 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical performance curves e contd. vs die temperature input bias current 2180 23 vs die temperature short-circuit current 2180 24 vs die temperature transimpedance (r ol ) 2180 25 various non-inverting gains vs die temperature for b 3 db bandwidth and peaking 2180 26 various inverting gains die temperature for b 3 db bandwidth vs 2180 27 vs die temperature input offset voltage 2180 28 die temperature supply current vs 2180 29 vs die temperature input voltage range 2180 30 die temperature slew rate vs 2180 31 7 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical performance curves e contd. voltage at 3.58 mhz phase vs dc input differential gain and 2180 32 voltage at 3.58 mhz phase vs dc input differential gain and 2180 33 settling accuracy settling time vs 2180 34 small-signal step response 2180 35 large-signal step response 2180 36 vs ambient temperature maximum power dissipation 5-lead plastic sot23 2180 47 vs ambient temperature maximum power dissipation 8-pin plastic dip 2180 37 vs ambient temperature maximum power dissipation 8-lead so 2180 38 8 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical performance curves e contd. vs ambient temperature maximum power dissipation 14-pin plastic dip 2180 39 vs ambient temperature maximum power dissipation 14-lead so 2180 40 vs frequency channel separation 2180 41 (sot23-5 package) response (gain) non-inverting frequency 2180 48 (sot23-5 package) response (phase) non-inverting frequency 2180 49 (sot23-5 package) various r f and r g frequency response for 2180 50 (sot23-5 package) response (gain) inverting frequency 2180 51 (sot23-5 package) response (phase) inverting frequency 2180 52 9 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers applications information product description the EL2180C/el2280c/el2480c are current- feedback operational amplifiers that offer a wide b 3 db bandwidth of 250 mhz and a low supply current of 3 ma per amplifier. all of these prod- ucts also feature high output current drive. the EL2180C can output 100 ma, while the el2280c and the el2480c can output 55 ma per amplifi- er. the EL2180C/el2280c/el2480c work with supply voltages ranging from a single 3v to g 6v, and they are also capable of swinging to within 1v of either supply on the input and the output. because of their current-feedback topolo- gy, the EL2180C/el2280c/el2480c do not have the normal gain-bandwidth product associ- ated with voltage-feedback operational amplifi- ers. this allows their b 3 db bandwidth to re- main relatively constant as closed-loop gain is in- creased. this combination of high bandwidth and low power, together with aggressive pricing make the EL2180C/el2280c/el2480c the ideal choice for many low-power/high-bandwidth ap- plications such as portable computing, hdsl, and video processing. for applications where board space is extremely critical, the EL2180C is available in the tiny 5-lead sot23 package, which has a footprint 28% the size of an 8-lead soic. the EL2180C/ el2280c/el2480c are each also available in in- dustry standard pinouts in pdip and soic pack- ages. for single, dual and triple applications with disable, consider the el2186c (8-pin single), el2286c (14-pin dual) and el2386c (16-pin triple). if lower power is required, refer to the el2170c/el2176c family which provides sin- gles, duals, and quads with 70 mhz of band- width while consuming 1 ma of supply current per amplifier. power supply bypassing and printed circuit board layout as with any high-frequency device, good printed circuit board layout is necessary for optimum performance. ground plane construction is high- ly recommended. lead lengths should be as short as possible. the power supply pins must be well bypassed to reduce the risk of oscillation. the combination of a 4.7 m f tantalum capacitor in parallel with a 0.1 m f capacitor has been shown to work well when placed at each supply pin. for good ac performance, parasitic capacitance should be kept to a minimum especially at the inverting input (see the capacitance at the in- verting input section). ground plane construc- tion should be used, but it should be removed from the area near the inverting input to mini- mize any stray capacitance at that node. carbon or metal-film resistors are acceptable with the metal-film resistors giving slightly less peaking and bandwidth because of their additional series inductance. use of sockets, particularly for the so package, should be avoided if possible. sock- ets add parasitic inductance and capacitance which will result in some additional peaking and overshoot. capacitance at the inverting input any manufacturer's high-speed voltage- or cur- rent-feedback amplifier can be affected by stray capacitance at the inverting input. for inverting gains this parasitic capacitance has little effect because the inverting input is a virtual ground, but for non-inverting gains this capacitance (in conjunction with the feedback and gain resistors) creates a pole in the feedback path of the amplifi- er. this pole, if low enough in frequency, has the same destabilizing effect as a zero in the forward open-loop response. the use of large value feed- back and gain resistors further exacerbates the problem by further lowering the pole frequency. 10 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers applications information e contd. the experienced user with a large amount of pc board layout experience may find in rare cases that the EL2180C/el2280c/el2480c have less bandwidth than expected. the reduction of feedback resistor values (or the addition of a very small amount of external ca- pacitance at the inverting input, e.g. 0.5 pf) will increase bandwidth as desired. please see the curves for frequency response for various r f and r g , and frequency response for various c in b . feedback resistor values the EL2180C/el2280c/el2480c have been de- signed and specified at gains of a 1 and a 2 with r f e 750 x in pdip and soic packages and r f e 560 x in sot23-5 package. these values of feedback resistors give 250 mhz of b 3 db band- width at a v ea 1 with about 2.5 db of peaking, and 180 mhz of b 3 db bandwidth at a v ea 2 with about 0.1 db of peaking. the sot23-5 pack- age is characterized with a smaller value of feed- back resistor, for a given bandwidth, to compen- sate for lower parasitics within both the package itself and the printed circuit board where it will be placed. since the EL2180C/el2280c/ el2480c are current-feedback amplifiers, it is also possible to change the value of r f to get more bandwidth. as seen in the curve of fre- quency response for various r f and r g , band- width and peaking can be easily modified by varying the value of the feedback resistor. because the EL2180C/el2280c/el2480c are current-feedback amplifiers, their gain-band- width product is not a constant for different closed-loop gains. this feature actually allows the EL2180C/el2280c/el2480c to maintain about the same b 3 db bandwidth, regardless of closed-loop gain. however, as closed-loop gain is increased, bandwidth decreases slightly while sta- bility increases. since the loop stability is im- proving with higher closed-loop gains, it becomes possible to reduce the value of r f below the spec- ified 560 x and 750 x and still retain stability, re- sulting in only a slight loss of bandwidth with increased closed-loop gain. supply voltage range and single- supply operation the EL2180C/el2280c/el2480c have been de- signed to operate with supply voltages having a span of greater than 3v, and less than 12v. in practical terms, this means that the EL2180C/ el2280c/el2480c will operate on dual supplies ranging from g 1.5v to g 6v. with a single-sup- ply, the EL2180C/el2280c/el2480c will oper- ate from a 3v to a 12v. as supply voltages continue to decrease, it be- comes necessary to provide input and output voltage ranges that can get as close as possible to the supply voltages. the EL2180C/el2280c/ el2480c have an input voltage range that ex- tends to within 1v of either supply. so, for exam- ple, on a single a 5v supply, the EL2180C/ el2280c/el2480c have an input range which spans from 1v to 4v. the output range of the EL2180C/el2280c/el2480c is also quite large, extending to within 1v of the supply rail. on a g 5v supply, the output is therefore capable of swinging from b 4v to a 4v. single-supply out- put range is even larger because of the increased negative swing due to the external pull-down re- sistor to ground. on a single a 5v supply, output voltage range is about 0.3v to 4v. video performance for good video performance, an amplifier is re- quired to maintain the same output impedance and the same frequency response as dc levels are changed at the output. this is especially difficult when driving a standard video load of 150 x , be- cause of the change in output current with dc level. until the EL2180C/el2280c/el2480c, good differential gain could only be achieved by running high idle currents through the output transistors (to reduce variations in output imped- ance). these currents were typically comparable to the entire 3 ma supply current of each EL2180C/el2280c/el2480c amplifier! special circuitry has been incorporated in the EL2180C/ el2280c/el2480c to reduce the variation of output impedance with current output. this re- sults in dg and dp specifications of 0.05% and 0.05 while driving 150 x at a gain of a 2. 11 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers applications information e contd. video performance has also been measured with a 500 x load at a gain of a 1. under these condi- tions, the EL2180C/el2280c/el2480c have dg and dp specifications of 0.01% and 0.01 respec- tively while driving 500 x at a v ea 1. output drive capability in spite of its low 3 ma of supply current, the EL2180C is capable of providing a minimum of g 80 ma of output current. similarly, each am- plifier of the el2280c and the el2480c is capa- ble of providing a minimum of g 50 ma. these output drive levels are unprecedented in amplifi- ers running at these supply currents. with a min- imum g 80 ma of output drive, the EL2180C is capable of driving 50 x loads to g 4v, making it an excellent choice for driving isolation trans- formers in telecommunications applications. similarly, the g 50 ma minimum output drive of each el2280c and el2480c amplifier allows swings of g 2.5v into 50 x loads. driving cables and capacitive loads when used as a cable driver, double termination is always recommended for reflection-free per- formance. for those applications, the back-termi- nation series resistor will decouple the EL2180C/ el2280c/el2480c from the cable and allow ex- tensive capacitive drive. however, other applica- tions may have high capacitive loads without a back-termination resistor. in these applications, a small series resistor (usually between 5 x and 50 x ) can be placed in series with the output to eliminate most peaking. the gain resistor (r g ) can then be chosen to make up for any gain loss which may be created by this additional resistor at the output. in many cases it is also possible to simply increase the value of the feedback resistor (r f ) to reduce the peaking. current limiting the EL2180C/el2280c/el2480c have no inter- nal current-limiting circuitry. if any output is shorted, it is possible to exceed the absolute maximum ratings for output current or power dissipation, potentially resulting in the destruc- tion of the device. power dissipation with the high output drive capability of the EL2180C/el2280c/el2480c, it is possible to exceed the 150 c absolute maximum junction temperature under certain very high load current conditions. generally speaking, when r l falls be- low about 25 x , it is important to calculate the maximum junction temperature (t jmax ) for the application to determine if power-supply volt- ages, load conditions, or package type need to be modified for the EL2180C/el2280c/el2480c to remain in the safe operating area. these parame- ters are calculated as follows: t jmax e t max a ( i ja * n * pd max ) [ 1 ] where: t max e maximum ambient temperature i ja e thermal resistance of the package n e number of amplifiers in the pack- age pd max e maximum power dissipation of each amplifier in the package. pd max for each amplifier can be calculated as follows: pd max e (2 * v s * i smax ) a (v s b v outmax ) * (v outmax /r l )) [ 2 ] where: v s e supply voltage i smax e maximum supply current of 1 amplifier v outmax e max. output voltage of the application r l e load resistance 12 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical application circuits inverting 200 ma output current distribution amplifier 2180 42 fast-settling precision amplifier 2180 43 13 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers typical application circuits e contd. differential line-driver/receiver 2180 44 14 EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers EL2180C/el2280c/el2480c macromodel * el2180 macromodel * transimpedance stage * revision a, march 1995 * * ac characteristics used: rf e rg e 750 ohms g1 0 18 17 0 1.0 * connections: a input rol 18 0 450k * l b input cdp 18 0 0.675pf * ll a vsupply * * lll b vsupply * output stage * llll output * * lllll q141819qp .subckt el2180/el 32746 q271820qn * q371921qn * input stage q4 4 20 22 qp * r7 21 6 4 e1100301.0 r82264 vis 10 9 0v ios1 7 19 1ma h2 9 12 vxx 1.0 ios2 20 4 1ma r1211400 * l1 11 12 25nh * supply current iinp 3 0 1.5ua * iinm 2 0 3ua ips 7 4 0.2ma r12 3 0 2meg * ** error terms * slew rate limiting * * ivos 0 23 0.2ma h1 13 0 vis 600 vxx 23 0 0v r213141k e4240301.0 d1 14 0 dclamp e5 2 50701.0 d2 0 14 dclamp e6 2 6040 b 1.0 * r9 24 23 316 * high frequency pole r10 25 23 3.2k * r11 26 23 3.2k e2 30 0 14 0 0.00166666666 * l3 30 17 150nh * models c5 17 0 0.8pf * r5 17 0 165 .model qn npn(is e 5e-15 bf e 200 tf e 0.01ns) * .model qp pnp(is e 5e-15 bf e 200 tf e 0.01ns) .model dclamp d(is e 1e-30 ibv e 0.266 a bv e 0.71v n e 4) .ends 15 td is 5.2in EL2180C/el2280c/el2480c august 1996, rev. d EL2180C/el2280c/el2480c 250 mhz/3 ma current mode feedback amplifiers EL2180C/el2280c/el2480c macromodel e contd. 2180 45 general disclaimer specifications contained in this data sheet are in effect as of the publication date shown. elantec, inc. reserves the right to make changes in the circuitry or specifications contained herein at any time without notice. elantec, inc. assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement. elantec, inc. 1996 tarob court milpitas, ca 95035 telephone: (408) 945-1323 (800) 333-6314 fax: (408) 945-9305 european office: 44-71-482-4596 warning e life support policy elantec, inc. products are not authorized for and should not be used within life support systems without the specific written consent of elantec, inc. life support systems are equipment in- tended to support or sustain life and whose failure to perform when properly used in accordance with instructions provided can be reasonably expected to result in significant personal injury or death. users contemplating application of elantec, inc. products in life support systems are requested to contact elantec, inc. factory headquarters to establish suitable terms & conditions for these applications. elantec, inc.'s warranty is limited to replace- ment of defective components and does not cover injury to per- sons or property or other consequential damages. printed in u.s.a. 16 |
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