M@ 7929237 0023050 5 mm 1-/73-S3 SGS-THOMSO yz SRS THOMSON SG S-THOMSON LM119 - LM219 LM319 JOE Dd HIGH SPEED DUAL COMPARATORS a TWO INDEPENDENT COMPARATORS = OPERATION FROM A SINGLE + 5 V SUPPLY = TYPICALLY 80 ns RESPONSE TIME AT-+ 15 V a MINIMUM FAN-OUT OF 2 EACH SIDE = MAXIMUM INPUT CURRENT OF 1 nA OVER OPERATING TEMPERATURE RANGE ns INPUTS AND OUTPUTS CAN BE ISOLATED FROM SYSTEM GROUND a HIGH COMMON-MODE SLEW RATE DESCRIPTION These products are precision high speed dual com- parators designed to operate over a wide range of supply voltages down to a single 5 V logic supply and ground and have low input currents and high gains. The open collector of the output stage makes com- patible with TTL as well as capable of driving lamps and relays at currents up to 25 mA. Although designed primarily for applications requi- ring operation from digital logic supplies, are fully specified for power supplies up to 15 V. They feature faster response than the LM111 at the expense of higher power dissipation. However, the high speed, wide operating voltage range and low package count make the much more versatile. December 1988 H N TO-100 DIP 14 (Metal Can) (Plastic Frackage) CERDIP14 (Cerdip Package) on D ac $014 LCc20 (Plastic Micropackage) (Tricecop (LCC)) ORDER CODES Part Temperature Package Number Range HINivlbdIGe LM119 |-55to+125C| e LM219 |-40t0+105C| | e | e/e LM319 0 to + 70 C ejeleyje Note : Hi-Rel Versions Available. Examples : LM119H, LM219N. 110 457oe SG S-THOMSON.-...----~. 30E D e PIN CONNECTIONS (top views) T-73~53 : ae TO100 Lec20 DIP14/CERDIP14 = S014 1 wy n 14 20 [] 13 > 3C ry 12 a a 4 th a 11 : 9 10 1112 5 O---,-r 7] 10 1+ Output 4 1-NC 44-NC 6C FUT] 9 2- Ground 1 2-NC 42- Ground 2 3 - Non-inverting input 1 3-NC 13 - Non-inverting input2 7 q a 8 4- Inverting input 1 4- Ground 1 14- Inverting input 2 vos 5- Veo 5- NC 15- NC 1- NC 8 - Ground 2 a 6 - Output 2 6- Non-Inverting input 1 16- Veo 2-NC 9- Non- inverting input 2 a 7- Ground 2 7-NC 17-NC 3- Ground 1 10 - inverting input 2 8 - Non-inverting input 2 8 - Inverting input 1 18- Output 1 4- Non-invertinginputi = 11- Ve 9- Inverting input 2 9- Voc 19- NC 5- Inverting input 1 12- Output 1 10- Veo 10 - Output 2 20- NC 6- Vee 13- NC : 7 - Output 2 14-NC ; ABSOLUTE MAXIMUM RATINGS a Symbol Parameter LM119 LM219 LM319 Unit ae Vo - Vic Output to Negative Supply Voltage 36 36 36 Vv VGc Negative Supply Voltage 25 25 25 Vv Vic Positive Supply Voltage 18 18 18 Vv Vip Differential Input Voltage +5 +5 +5 Vv Vi Input Voltage (note 1) #15 15 15 Vv Prot Power Dissipation (note 2) 500 500 500 mw Toper Operating Free-air Temperature Range - 55 to+125|-40to+105| 0to+70 C Tstg Storage Temperature Range 65 to + 150} ~ 65 to+ 150/65to+150} C * All potentials referenced to ground unless otherwise specified. 20 G7 SGS-THOMSON 7 iacremecines:e3 458Me 7929297 0023052 5 LM119-LM219-LM319 SCHEMATIC DIAGRAM SG S-THOMSON. CSE OD T-73-53 3.5 kse ; - a vc IR? Ra R6 au | Kes as Ys Kes Ko? Kos a ais fs 1 LHe, ( (]es B10 ea Inputs ae Che ras Ka Q22 R23 a key azi [ R25 00 t+ 2 ul To other half Vcc GND eaeLnt19-01 Non- CASE | Outputs | MVTtINS | inverting | GND Vic Vee N.C. nputs Inputs | TO100 1,6 4,9 3,8 2,7 10 5 - DIPt4/ CERDIP14/ 7,12 5,10 4,9 3,8 11 6 1, 2, 13, 14 $014 Lcc20 10, 18 8, 14 6, 13 4,12 16 9 , ; LCC20 : Other pins are not connected. kj S&S:THOMSON 3/10 MICKCELESTREMISS 459LM119-LM219-LM319 = eqenes? 0023053 QO = ELECTRICAL CHARACTERISTICS SG S8-T H OMSON JOE D LM119 :- 55 C S Tamp S$ + 125 C, Voc =4 15 V Fe LM219 : 40 C < Tamb S + 105 C, Veo = + 15 V 1-73-53 LM319: OC <STamp $+ 70C, Voc =t 18 V {unless otherwise specified) Symbol Parameter LM119, LM219 LM319 Unit Min. | Typ. | Max. | Min. | Typ. | Max. Vio Input Offset Voltage (Rs < 5 kQ) (note 3) mV Tamb = + 25 C - 0.7 4 - 2 8 Tmin S Tamb S Tmax - - 7 - - 10 lo Input Offset Current (note 3) nA Tamb = + 25 C - 30 75 - 80 200 Tmin S$ Tamb S Tmax ~ 100 - - 300 lip Input Bias Current (note 3) nA Tamb = + 25 C - 150 | 500 - 250 | 1000 Tmin S$ Tamb S Tmax - - 4000 - - 1200 Avo Large Signal Voltage Gain (Tamp = + 25 C) 10 40 - 8 40 - | VimV lc Positive Supply Current mA Tamb = + 25 C, Voc =+ 15 V - 8 11.5 - 8 12.5 Tin $ Tamb S$ Tmax, Vc = + 5 V, Voc = 0 V - 43 - - 4.3 - nd loo Negative Supply Current (Tamp = + 25 C) - 3 45 - 3 5 mA Vi Input Voltage Range - +13 - - +13 - Vv (Vc = + 5 V, Veo = 0 V) 1 ~ 3 1 - 3 Vio Differential Input Voltage - - +5 - - 5 Vv VoL Low Level Ouiput Voltage v Tamb = + 25 C, lo = 25 mA Vie-5 mV - 0.75 1.5 - - - Vi<e- 10 mV - - - - 0.75 | 1.5 0 C < Tamp S Tmax - - 0.6 - |. - - Vic > + 4.5 V, Vee =0 V, Vie -6 mV, locsink) < 3.2 MA - 0.23 0.4 - - - Tmin S Tamb s Tmax Vic > + 4.5 V, Vc =0 V, Vic 10 mV, - - - - 0.3 0.4 logink) < 3.2 MA lou High Level Output Current (Vo = + 35 V) HA ; Tamb = + 25C, Vi>+ 5mV - 0.2 2 - - - : Vi>+10mV - - - - 0.2 10 i. Tmin < Tamb S Tmax, Vi > 5 mV - 1 10 - = - tre Rise Time (Tamb = + 25 C) (note 4) - 80 - - 80 - ns Notes: 1. For supply voltages less than: 15 V, the absolute maximum input voltage is equal to the supply voltage. 2. TO100 : Ringay = 160 *C/W, Ringe) = 45 C/W 410 DIP14 = Ringay = 150 CW S014: Ringay = 250 CW . These specifications apply for Voc= + 15 V, unless otherwise stated. The offset voltage, offset current and blas current specifica- tions apply for any supply voltage from a single + 5 V supply up to + 15 V supplies. The offset voltages and offset current given are the maximum values required to drive the output down to 1 Vor up to + 14 V witha 1 mA load current. Thus, these parameters define an error band and take into account the worst case effects of voltage gain and input impedance. . The response time specified is for a 100 mV input step with 5 mV overdrive. 460 i SGS-THOMSON MICROELECTRON ES_ Me 759292397 0023054 2 LM119-LM219-LM319 LM119-LM219 T-73-53 INPUT BIAS CURRENTS COMMON MODE LIMITS Lo a Vdc zk Vec =+15V 5-04 Vdc = +8 V. Vee =0 = 7 oO _ OQ -o8 5 NY E = +15V ~ 2 NJ $ CC iw Bias S712 a 158 a 5 Ww 15 3 | a , Referred to supply voltage 7] -2.0 q i 2 a 6 12 5 = os 2 * EY 5 oa Vec= 15 V, Vde= +5 V. Ver =0 e = Vcc 55-38 -15 8@ 275 45 GS 85 185 125 55 -35 -15 6.0 25 45 65 85 105 125 (C) Eaariig-02 TEMPERATURE (C) egeos19-03 OUTPUT SATURATION VOLTAGE SUPPLY CURRENT 25 r 12 < z 10 t 76 q Vec = t15V = Too, = c Eb amb Positive Sis +125C_| 2 8.0 zc Tamb <= + 25C vd > < 6.0 = o 2 =+5V, Vcc = 5 "0 4 : supply 2 yf Tamb = - 55C = 40 = 5 4 F i a 5.6 Vv = 15V > 9 7 it ce 20 Vec = 415V SA 1A input overdrive = 5 mV Negative supply a a oz OF 896 68 10 55 -35 -15 5.0 25 45 65 8 105 125 oO OUTPUT VOLTAGE {V) E@aLM119-04 TEMPERATURE (C) E8sLM119-05 SUPPLY CURRENT OUTPUT LIMITING CHARACTERISTICS 126 T 1.2 Tamb = +25C q | | Tamb ~ 425C z = 100 fy | J 10 3 Positive supply Z Short circuit current Ss 5 = a0 a8 5 im 5 G : ee ee: EF ea 3 5 Pman 2 > Negative suppl 9 Zz 3 ppv = 49 oa 2 a C LH Power dissipation 2 % 5 2 A, a2 = $V a 8 e 5.0 10 15 2 SUPPLY VOLTAGE (+V) E@sLMt 19-06 SGS-THOMSON Q 5.0 10 18 OUTPUT VOLTAGE (V) E88LM119-07 6/10 461S$ G S-THOMSON LM319 INPUT BIAS CURRENTS 300 ve Vec= 15 V S ot 3 a 250 p -08 i 2-12 2 = 70 Ww 1.6 @ 2 -20 a ~~. < 150 2 F e a 198 = 08 = o oA $0 Va, 0 0 2 30 40 50 60 70 cc TEMPERATURE (C) easiMti9-08 OUTPUT SATURATION VOLTAGE 25 t T 42 Tamb = +25C / <n z E y B / 5 80 i 15 ig x 5 / < 6.0 Oo 10 Oo - 2 y 2 40 = SA Voc = +15V a 3 5.0 + t 2 So H 29 Input overdrive = 5 mV Leet _ A _" a 02 Of O88 oO8 10 0 OUTPUT VOLTAGE (V} &88LM119-10 6/10 SGS-THOMSON 462 ky COMMON MODE LIMITS Ve = +8V, Veg = 0 -Veq - 15V ete. dd. " Referred to supply voltages Voc =18V, Vg = +5 Vdc = 1 2 #30 40) 65006 (66070 TEMPERATURE (C) E88LMii9-09 SUPPLY CURRENT | Vecs 168 V Positive supply Vacs +5 V, VEc=0 Positive supply _! | Vec=t15V Negative supply 1 wl wh. 10 2006 6300 40 50 ss TEMPERATURE (C) Eel Mii9-11 MIGROZLECTRONICSLM119-LM219-LM319 Me 7929237? 0023056 b S G S-THOMSON TRANSFER FUNCTION a8 ae Vec = 15V Vi =+36V o > WPRL - 14k mag x = ow Tamb = 425C ec = VL=t5iV a L < w 58 6 a 4 = aw say a Q oO m > 15 30 5 Qo a 16 2.6 = > s o 0 16 8 8 10 -06 -92 02 Os 1.8 DIFFERENTIAL INPUT VOLTAGE tmvV) E88LM119-12 RESPONSE TIME FOR VARIOUS INPUT OVERDRIVES 6.0 50 Vcc =r15V _ Ry =500 9 22 40 omy VL= +5V =u 39 Tamb = + 25C wi es 20 FES 0 o> VW Pe 0 2 Sai ab 6a a5 =O _sg -100 0 8 100 150 200 256 300 350 TIME (ns) E88LM119-15 RESPONSE TIME FOR VARIOUS INPUT OVERDRIVES JOE D INPUT CHARACTERISTICS ano _ Veet 15V $ Tamb = 125C 5 300 Fd T-73-53 = 200 ty o . j 0 : < x 100 5 = 0 | VID (tax) I -160 ~10 -64 -20 2.6 6.0 10 DIFFERENTIAL INPUT VOLTAGE (Vv) E@aLMi 19-13 RESPONSE TIME FOR VARIOUS INPUT OVERDRIVES 6.0 5. 40 3.0 2.0 1.0 0 Veco -+5V R,_ = 5002 100 VL-+5V 50 Tamb ~ + 25C 0 INPUT VOLTAGE (mV) OUTPUT VOLTAGE (Vv) 0 SO 100 180 208 250 300 350 TIME {ns} E88LM119-15 RESPONSE TIME FOR VARIOUS INPUT OVERDRIVES 6.0 - 6.0 5.0 = + 7 Vec=5V ; RL = 500 2 5.0 SS 40 VL=+8V ss 40 z = L z = _ | 2mv Smv sw 3.0 -W 30 - - wg Ww 9 oe 2.0 GE 20 ae EA 20 mV BO ta a2 16 o> o> ' 2 5 0 > 5 8 Voc = 15 Vv ae 0 5 E00 Ry = 5000 a 2 s 5 VL=+5V = a) =O 58 Tamb = +25C -100 8 0 50 160 158 200 250 300 350 O 58 100 150 200 250 200 350 TIME {ns} ES8LM119-16 TIME (ns) E@SLM1 19-17 G7 SGS-THOMSON 70 7 ieccrezsctecnrss 463LM119-LM219-LM319_ MM 792923? 0023057 8 MM 2 S G S-THOMSON SOE Dd TYPICAL APPLICATION DIAGRAMS RELAY DRIVER a 73-53 +28V Inputs 30V E68LM119-18 WINDOW DETECTOR +5V Vyto___+ Vo vi o TTL output YLto___+ Vo=+5V for Vir<i<VuT Vo=0 for Vj< VLT or Vj>VuT E8eLM119-19 8/0 kyr SSScmnormcnies 464Me 9e%e3? 0023058 T | LM119-LM219-LM319 8S G S-THOMSON SOE D PACKAGE MECHANICAL DATA 14 PINS PLASTIC DIP OR CERDIP T-73-53 mm e e e e e e e=2.54 8.5max. 7) (2) 4 Y Y : 0,51 min. ae el | fH 5,08 no i : : | | j 4,57 max. r t i : t | 1 i H i i} (1) Nominal dimension wz)-- J : ! : 02 ile 31 0.38 177 max. 03 762 39 0,508 (2) re Prise 14 & od en dt Datum (2) True geometrical position Or l a LIL LS OFC 7 19.9 max. 6.35 a) 14 pins 14 PINS PLASTIC MICROPACKAGE (SO} mm e=127 pe peyge pegpepze | Q.185 T 7 fT | Poof 0.265 t 1 t t I t t 0,63 P] fj | thee \ | ' | ' ' ' min 14 8 59. 39 0.1 6.2 4,0 0.2 1 : 7 | Oatum 0.35 0.4 0,45 min, 8.55 175 max. 8,75 14 Pins G7 ". 9/10 If SGS-THOMSON 465ee LM119-LM219-LM3i9 _@ ?9e9e3? 00030595 1 mm SG S-THOMSON JOE D PACKAGE MECHANICAL DATA (continued) 10 PINS - METAL CAN TO100 mm Pin 1 0.26 1,01 j 12,70min. 0.407 0.508 10 pins 20 PINS TRICECOP (LCC) mm 8,74 ao 1,86 max. 1.97 9.04 14 18 1 13 t 19 J Output n?1 - ee 2.16 I 0,64 9 3 8 4 osi27 efefete|, Datum 8,74 9,04 20 PINS 10/10 G7 SGS-THOMSON SSF encRomecraax:s3 466