Nt AR RH1014M TECHNOLOGY DESCRIPTION The RH1014M is the first precision quad operational amplifier which directly upgrades designs in the industry standard 8-pin DIP LM124/LM148/0P-1 1/5156 pin con- figuration. Low offset voltage (300yV max), low drift ( 2.5nV/C), low offset current ( 1.5nA), and high gain (1.2 million min) combine to make the RH1014M four truly precision amplifers in one package. The wafer lots are processed to Linear Technologys in- house Class S flow to yield circuits usable in stringent military applications. Quad Precision Operational Amplifier ABSOLUTE MAXIMUM RATINGS SUPPLY VOltAGE o...cceceecseessetssseseesesserseecoteees +22V Differential Input Voltage uo... cece +30V Input Voltage .............. Equal to Positive Supply Voltage evetasanes 5V Below Negative Supply Voltage Output Short-Circuit Duration... Indefinite Operating Temperature Range.............. 55C to 125C Storage Temperature Range................. 65C to 150C Lead Temperature (Soldering, 10 sec)............006 300C FLTC and LT are registered trademarks of Linear Technology Corporation. BURN-IN CIRCUIT 50k 1002 RH1014M 50k RH1014M BI PACKAGE INFORMATION TOP VIEW outa [1] had 4] OUT D -Ina [2] 13] -IND HINA D3] 12] +IND v fl na] v- +nB [5] pe -ine [6] 9 | -InC ours [7] rg | OuTc J PACKAGE 14-LEAD CERAMIC DIP TOP VIEW OUTA 14 OUT D -INA 13 -IND +INA 12 +IND yr ul yr +INB 10 +ING -INB 9 -ING OUT B 8 OUT G WB PACKAGE 14-LEAD FLATPAK METAL SEALED BOTTOM BRAZED LT WNRH1014M TABLE 1; ELECTRICAL CHARACTERISTICS (Pre-trradiation) Vs =215V, Vom = OV, unless otherwise noted. Ta = 25C SUB- |-55G Ta 125C | SUB- SYMBOL} PARAMETER CONDITIONS NOTES} MIN TYP MAX |GROUP;} MIN TYP MAX /|GROUP| UNITS Vos Input Offset Voltage 300 1 550 2,3 pv 2 450 1 uv Vem = 0.1V 2 750 2 wv Vog | Average Tempco of Offset 1 2.5 pV/eG Temp | Voltage Vos Long Term Vog Stability 0.5 uV/Mo Time las Input Offset Currant 10 1 20 2,3 nA 2 10 1 20 23 nA Ip Input Bias Current 30 1 45 2,3 nA 2 50 1 120 23 nA @n Input Noise Voltage 0.1Hz to 10Hz 0.55 Vp-p Input Noise Voltage fg = 10Hz 24 nv/ Hz Density fg = 1000Hz 22 nV/ Hz in Input Noise Current fy = 10Hz 0.07 pA/ Hz Density Rin Input Resistance Differential 1 70 M Common Moda 4 G Avo Large-Signal Voltage Gain | Vg =210V,R, 2k 1.2 0.25 5,6 WV Vo =+10V, Ri 600 0.5 Why Vo=5mV to 4V, Ri = 500 2 1 wv Input Voltage Range 1 13.6 V 1 -15.0 V 1,2 35 V 1,2 0 V CMRR- | Common-Moade Rejection | Von = 13.5V, -15V 97 1 dB Ratio Vem = 13V, -14.9V 94 23 dB PSRR _ | Power Supply Rejection Vg = 22V to +18V 100 1 97 2,3 dB Ratio Channel Separation Vo =+10V, Ry = 2k 120 1 dB Vout Output Voltage Swing Ru 2k 412.5 4 411.5 5,6 Vv Output Low, No Load 2 25 4 mV Output Low, 600 to GND 2 10 4 18 5.6 mv Output Low, lgiyy = IMA 2 350 4 mv Output High, No Load 2 4.0 4 V Output High, 600 to GND 2 34 4 3.1 5.6 V SR Slew Rate 0.2 4 Vis Ig Supply Current Per Amplifier 0.55 1 0.70 2,3 mA 2 0.50 1 0.65 23 mA LY LeeRH1IO14M TABLE 1A: ELECTRICAL CHARACTERISTICS (rost-tratiationy (Note 3) Vs = 215V, Vom = OV, T, = 25C, unless otherwise noted. TOKRAD(Si) | 20KRAD(Si) | 50KRAD(Si) | 100KRAD(Si) | 200KRAD(Si) SYMBOL | PARAMETER CONDITIONS NOTES} MIN MAX} MIN MAX | MIN MAX | MIN MAX | MIN MAX | UNITS Vos Input Offset Voltage 450 450 600 750 900 uv 2 600 600 750 900 uv los Input Offset Current 10 10 15 20 25 nA 2 10 10 15 20 nA lp Input Bias Current 60 75 100 175 250 nA 2 80 100 125 200 nA Input Voltage Range 1 13.5 13.5 13.5 13.5 13.5 1 1-150 -15.0 -15.0 -15.0 -15.0 2 3.5 3.5 3.5 3.5 2 0 0 0 0 CMRR- | Common-Mode Rejection | Vey = 13V,-15V oF oF 94 90 86 dB Ratio PSRR Power Supply Rejection Vs = +10V to +18V 100 98 94 86 80 dB Ratio Avot Large-Signal Voltage Gain | Ry 10k, Vg=210V 500 200 100 50 25 Vim Vout Maximum Output Voltage | Ry, 10k 12.5 +12.5 12.5 12.5 +12.5 Vv Swing Output Low, No Load 2 25 30 40 50 mv Output Low, 600 to GND 2 10 10 10 10 mv Output Low, Isiyx = 1mA 2 0.6 0.8 1.0 1.6 V Output High, No Load 2 4.0 40 4.0 4.0 V Output High, 600 to GND 2 34 3.2 3.0 28 Vv SR Slew Rate Ri 10k 0.13 0.12 0.11 0.07 0.01 Vis Is Supply Current Per Amplifier 0.55 0.55 0.55 0.55 0.55 mA 2 0.50 0.50 0.50 0.50 mA Note 1: Guaranteed by design, characterization, or correlation to other tested parameters.. Note 2: Specification applies for Vg* = 5V, Vs" = OV, Vom = OV, Vout = 1.4V. LT WNRH1014M TABLE 2: ELECTRICAL TEST REQUIREMENTS MIL-STD-883 TEST REQUIREMENTS SUBGROUP Final Electrical Test Requirements (Method 5004) 1*,23456 Group A Test Requirements (Method 5005) 1,2,3,4,5,6 Group B and D for Class S, and 1,23 Group C and D for Class B End Point Electrical Parameters (Method 5005} * PDA applies to subgroup 1. See PDA Test Notes. PDA Test Notes The PDA is specified as 5% based on failures from group A, subgroup 1, tests after cooldown as the final electrical test in accordance with method 5004 of MIL-STD-883. The verified failures of group A, subgroup 1, after burn-in divided by the total number of davices submitted for burn-in in that lot shall be used to determine the percent for tha lot. Linear Technology Corporation reserves the right to test to tighter limits than those given. TOTAL DOSE BIAS CIRCUIT sv -VA 10k 10k -15V 1 RH1014h TOBC TYPICAL PERFORMANCE CHARACTERISTICS Supply Current (Per Amplifier) 2 0.8 Vg = +15 RL = 10k z 06 S06 Lu E = = a & pos = 04 se = 0A a N a = N\ = za oo QB oo a 0 0 1 10 100 1000 TOTAL DOSE KRAD (Si) AH io 14M Got Positive Slew Rate Negative Slew Rate TTT 0.8 TTT Vg = 215 Ve = 415V Ri = 10k Ry = 10k g = 06 s heh te | = 04 Th 4 M. NY a Mw nl = MN Ph a 0.2 N = 0 10 100 1000 1 10 100 1000 TOTAL DOSE KRAD (Si} TOTAL DOSE KRAD (Si) RH tot4M Goe AH io14M Gos LY LeeRH1IO14M TYPICAL PERFORMANCE CHARACTERISTICS Input Offset Voltage Input Bias Current Input Offset Current 0 70 3-oTT Vg = 15V Ve = 215 Vg = =15V Vom = OV 60 F Yom = OV Von = OW 200 + =z 9 3 | = / s wu Ler ~ 50 E = 100 LL = / = & Lt a a Lt] a 40 ac 1 oa peor) a > ee Ss | B Zo 3 yf al A 2 30 vj a | nears] a ao i 0 S_100 - S 5 = 20 5 a 2 | a = Lae = -1 200 0 Lt = a 300 0 2 1 10 100 1000 1 10 100 1000 1 10 100 1000 TOTAL DOSE KRAD (Si) TOTAL DOSE KRAD (Si) TOTAL DOSE KRAD (Si) AH1014M Gos AHIO14M Gos AHIO14M Gos, Open-Loop Gain Common-Mode Rejection Ratio Power Supply Rejection Ratio 150 T T TTT 150 TT TIT T 140 a I sw Vg = 15Y z = +15V = Vg = 10V TO +18 140 Aa RL=10k =H = 149 | -15V < Vow < 13.5V = 130 MN Vout = +10 oS o S 130 NY = 130 2120 = N S = Tt <= & 120 \ B20 g 110 AL S ' 4 mn i S 110 i a 110 PL > 100 WW N > : : Mt z GS 100 = 100 Th, = 90 5 ~ ce = Lu 90 = 90 = 80 o a 80 80 70 1 10 100 1000 1 10 100 1000 1 10 100 1000 TOTAL DOSE KRAD (Si) TOTAL DOSE KRAD (Si) TOTAL DOSE KRAD (Si) AHIO14M Gor AH1O14M Gos RHio14M Gos Input Noise Voltage Density Gain Bandwidth Product 100 1000 a Vg = +15 Veg = 25V = 90 1g = 10Hz = 900 R, = 10k = 80 = 800 = ad = 70 S 700 = = 60 2 600 Ww Qa 2 50 = 500 = 40 = 400 s : Lu wi 30 = 300 = 91 = 700 5 a = 10 100 0 0 1 10 100 1000 1 10 100 1000 TOTAL DOSE KRAD (Si) TOTAL DOSE KRAD (Si) AH1O14M GIO. AH1O14M G11 LT WN ODRH1014M Microcircuit Part Numbering System 9962 Fed Stock Class Designator (Microcircuits) 94 XXX Last 2 Digits Dwg No in of FY in That FY Which the Dwg No was Assigned Rad Hard Identifier spe No ZZ BYY a Finish Package Designator Glass Dasignator or Quality Level 1.2.1, MIL-STD-883 MIL-M-38510 wa * For existing MIL-M-38510 associated detail specification sheet, the "Last 2 Digits of FY" and drawing number will consist of first two digits of MIL-M-38510 (.e., 38) followed by the three digit identifier assigned to the detail sheet (i.e., 9/339). Operational Amplifiers Generic LT*1001AMH, J8 LT1001MH, J& LT1002AMJ LT1006AMH, J8 LT1006MH, J8 LT1007AMH, J8 LT1012AMH, D LT1012MH, D LT1013AMH, J8 LT1013MH, J LT1014AMJ LT1014MJ LT1028AMH, J8 LT1028MH, J& LT1037AMH, J8 LT1055AMH LT1055MH LT1056AMH LT1056MH LT1057AMH, J8 LT1057MH, J& LT1058AMJ, L LT1058MJ LT1078AMH LT1078AMJ8 LT1078MH LT1078MJ8 LT1079AMJ LT1079MJ LT1124AMJ8 LT1124MJ8 LT1125AMJ LT1125MJ LT1172MJ8 LTC1051MH, J8 LTC1051AMH, J& LTC1052MJ8, H, J High Speed Op Amps Generic LT1022AMH LT1022MH LT1028AMH, J8 LT1028MH, J8 LT1037AMH, J8 LT1056AMH LT1056MH LT1057AMH, J8 LT1057MH, J& LT1058AMJ, L LT1058MJ LT118AMJ8 LT1229MJ8 LT1230MJ SMD 5962- 8773803GA, PA 8773801GA, PA 8771501CA 8993301MGA, PA 8993302MGA, PA 8757801GA, PA 9084202MGA, PA 9084201MGA, PA 8876001GA, PA 8876002GA, PA 8967701CA 8967702CA 8862202GA, PA 8862201GA, PA 8856701GA, PA 8997601GA 899760364 89976026A 89976046A 9081701MGA, PA 9081702MGA, PA 8989701CA, XA 8989702CA 9163204MGA 9163206M PA 9163203MGA 9163203M PA 9163202MCA 9163201MCA 9323804M PA 9323802M PA 9323803MCA 9323801MCA 9207901M PA 9460001MGA, PA 9460002MGA, PA 8978201PA, GA, CA SMD 5962- 89622016A 89622026A 8862202GA, PA 8862201GA, PA 8856701GA, PA 89976026A 89976046A 9081701MGA, PA 9081702MGA, PA 8989701CA, XA 8989702CA 9451601M PA 9318401MPA 9318402MCA Buffer Amplifiers Generic LT1010MH, K Analog-to-Digital Converters Generic LTC"1291CMJ8 LTC1292CMJ8 LTC1293CMJ LTC1294CMJ Regulators Generic LT1003MK LT1020MJ LT1033MK LT1076HVMK LT1076MK LT1083MK-5 LT1084MK LT1084MK-5 LT1085MK LT1085MK-5 LT1086MK, H LT1086MK-5 LT1120MJ8 LT1185MK References Generic LT1004MH-1.2 LT1004MH-2.5 LT1008MH LT10719AMH-10 LT1019AMH-5 LT1019AMH-4.5 LT1019AMH-2.5 LT1019MH-10 LT1019MH-5 LT1019MH-4.5 LT1019MH-2.5 LT1021BMH-10 LT1021BMH-5 LT1021BMH-? LT1021CGMH-10 LT1021CMH-5 LT1021DMH-10 LT1021DMH-5 LT1021DMH-7 LT1029AMH LT1029MH LT1031BMH LT1031CMH LT1031DMH LT580SH LT580TH SMD 5962- 8856201XA, YA SMD 5962- 9305701MPA 9305702MPA 9305703MEA 9305704MRA SMD 5962- 8987301XA 9084101MCA 8874101XA 9311902MYA 9311901MYA 9073901MXA 6952101XA 9073902MXA 8864601XA 9073903MXA 8998101XA, YA 9073904MXA 9322401MPA 9469501MXA SMD 5962- 8859701XA 8859702KA 8961001XA 9059501GA 9059502GA 9059503GA 9059504GA 9059505GA 9059506GA 9059507GA 9059508GA 8860001GA 8876201GA 8864701GA 8860002GA 88/6202GA 8860003GA 8876203GA 8864702GA 9051901XA 9051902XA 8980201XA 8980202KA 8980203KA 8686101XA 8686102XA Comparators Generic LT1010MH, K LT1011AMH, J8 LT1011MH, J8 LT1016MH, J8 LT1017MH, J8 LT1018MH, J8 LTC1041MJ8 Switehing Regulators Generic LT1070HVMK LT1070MK LT1071HVMK LT1071MK LT1072HVMK LT1072MJ8, K LT1074MK LT1074HVMK LT1111MJ8 LTC1052MH, J8, J SMD 5962- 8856201XA, YA 9062701GA, PA 9062702GA, PA 868450114, PA 8950401GA, PA 8950402GA, PA 9470901MPA SMD 5962- 9082504M YA 9082501MYA 9082505MYA 9082502MYA 9082506M YA 9082503MPA, YA 9457601MYA 9457602MYA 9321201M PA 8978201GA, PA, CA Switehing Power Supply Controllers Generic LT1241MJ8 LT1242MJ8 LT1243MJ8 LT1244MJ8 LT1245MJ8 Interface Products Generic LT1039MJ16, J LT1080MJ LT1081MJ LT1180MJ LT1181MJ LT1280MJ LT1281MJ LTC1045MJ LTC485MJ8 Filters Generic LTC1060AMJ LTC1062MJ8 LTC1064-1AMJ LTC1064-1MJ LTC1064-4MJ, L LTC1064MJ SMD 5962- 9319001MPA 9319002MPA 9319003MPA 9319004M PA 9319005M PA SMD 5962- 8875102EA, VA 8766601VA 8766602EA 9172901MVA 9172902MEA 9172903MVA 9172904MEA 9054501RA 9208001MPA SMD 5962- 8864101RA 9159501M PA 9069302MCA 9069301MCA 9064901EA, XA 89483010A Rev D 0696 6 LY LeeRH1IO14M Rad Hard This table provides example specifications for our Rad Hard products. For complete Rad Hard data sheets, contact 1-800-4-LINEAR. 10Krad (Si) | 20Krad (Si) | 50Krad (Si) | 80Krad (Si) | 100Krad (Si) | 200Krad (Si) PACKAGE DEVICE SYMBOL | CONDITIONS MIN MAX | MIN MAX | MIN MAX | MIN MAX | MIN MAX | MIN MAX UNITS OPTIONS RHO? Vos 90 150 200 200 300 uv J8,H los 2.8 4 8 12 20 nA RH27C Vos 100 130 180 280 400 uv H.W los 75 13 90 120 180 nA RH37C Vos 100 130 180 280 400 uv H.W los 75 15 90 120 180 nA RHIO1A Vos 2 2 2 2 3 mv H.W los 10 10 10 10 20 nA RH108A Vos 0.5 05 0.5 1.0 mv H.W log 0.2 0.2 0.2 0.2 nA RH117 Veer SV (VY in Your) 40V 1.20 1.30) 1.20 1301120 1.30 1.20 130 v H, K 1OMA Tour IMaxeP P wax RH118 Vos 4 4 4 4 10 my H.W sR Vs = 15V, Ay =1 50 50 50 50 50 Wus RH119 Vos 4 4 4 4 8 mv Hd, W lps 3 100 150 300 500 nA RH129 We 6.7 42 6.7 te 6.7 fe 67 fe 6.7 42 V H Vai TEMP | RH129A 10 10 10 15 20 ppmsC RH129B 20 20 20 25 30 ppmsc RH129C 50 50 50 55 60 ppm/C RH137 Var IVin-VYourl 8,lour=10mA |-+1.295 -1.275|-1.225 -1.275|-1.225 -1.276 -1.225 -1.275]-1.22 -1.23 v K,H Rv lVin-Vourl 40 1.2 -13]-12 -13]-12 -13 -12 -13|)-12 -13 v 10mA lour | wax. P P wax RH1009 We 2.495 2.505 | 2.495 2.505 | 2.495 2.505 2.495 2.505) 2.495 2.505 V H Vaile 6 6 8 10 12 mv RH1011 Vos 1.5 1.5 1.5 1.5 2 my H, J8, W los 4 4 4 20 50 nA RH1013 Vos 450 450 600 750 900 uv H, JB, W los 10 10 15 20 25 nA RH1014 Vos 450 450 600 750 900 uv J, W los 10 10 15 20 25 nA RH1021-5 Vour RH10216M-5 4.9975 5.0025] 4.995 5.005 }4.993 5.007 4.9925 5.008] 4.99 5.01 v H RH1021BM-5, DM-5 495 5.05 [4.945 5.055 [4.942 5.058 494 5.06 [4.985 5.065 y TCVoyr | RH1021BM-5 5 5 5 7 10 ppmveG RH1021CM-5, DM-5 20 20 20 22 25 ppm/G RH1021-7 Vour 6.95 705 )6.95 705 )695 7.05 694 706) 69 7.07 V H TCVpur | RH1021BM-7 5 5 5 7 10 ppnvec RH1021DM-7 20 20 20 22 25 ppmsC RH1021-10 Vout RH1021CM-10 9.995 10.005) 9.99 10.01 |9.987 10.013 9.985 10.015] 998 10.02 Vv H RH1021BM-10, DM-10 995 10.05 }9.945 10.055)9.942 10.06 9.98 10.06} 9.935 10.065 v TCVour RH1021BM-10 5 5 5 7 10 ppm/ RH1021CM-10, DM-10 20 20 20 22 25 ppmsG RH10564 Vos 180 180 200 450 450 uv H.W log +10 +50 +150 +250 +350 pA RH10/8 Vos 350 500 650 | 75k = 800 1000 uv H, J8, W los 2 18 13 fk 18 23 nA J, W RH1086 Vrer lout = 10mA 1.258 1.257 1.253 1.247 1.241 v H, K 10mA < lout < IruLL Loan 1.5-< (Vi Vout) < 15 1.271 1.269 1.265 1.260 1.253 v Dropout | AVaer = 1%, lout = 1.54 (K} AVacr = 1%, Igur = 0.54 (H) 15 1.51 1.52 1.55 1.575 v Information furnished by Linear Technology Corporation is believed to be accurate and reliable. LINEAR However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen- [ LD TECHNOLOGY tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.RH1014M NORTHEAST REGION Linear Technology Corporation 3220 Tillman Drive, Suite 120 Bensalem, PA 19020 Phone: (215) 638-9667 FAX: (215) 638-9764 Linear Technology Corporation 266 Lowell Street, Suite B-8 Wilmington, MA 01887 Phone: (508) 658-3881 FAX: (508) 658-2701 NORTHWEST REGION Linear Technology Corporation 1900 McCarthy Blvd., Suite 205 Milpitas, CA 95035 Phone: (408) 428-2050 FAX: (408) 432-6331 FRANCE Linear Technology S.A.R.L. Immeuble "Le Quartz" 58 Chemin de la Justice 92290 Chatenay Malabry France Phone: 33-1-41079555 FAX: 33-1-46314613 GERMANY Linear Technology GmbH Oskar-Messter-Str. 24 85737 Ismaning Germany Phone: 49-89-962455-0 FAX: 49-89-9631 47 JAPAN Linear Technology KK 5F NAO Bldg. 1-14 Shin-Ogawa-cho Shinjuku-ku Tokyo, 162 Japan Phone: 81-3-3267-7891 FAX: 81-3-3267-8510 U.S. Area Sales Offices SOUTHEAST REGION Linear Technology Corporation 17000 Dallas Parkway, Suite 219 Dallas, TX 75248 Phone: (214) 733-3071 FAX: (214) 380-5138 Linear Technology Corporation 5510 Six Forks Road, Suite 102 Raleigh, NG 27609 Phone: (919) 870-5106 FAX: (919) 870-8831 CENTRAL REGION Linear Technology Corporation Chesapeake Square 229 Mitchell Court, Suite A-25 Addison, IL 601014 Phone: (708) 620-6910 FAX: (708) 620-6977 International Sales Offices KOREA Linear Technology Korea Co., Ltd Namsong Building, #403 ltaewon-Dong 260-199 Yongsan-Ku, Seoul 140-200 Korea, Phone: 82-2-792-1617 FAX: 82-2-792-1619 SINGAPORE Linear Technology Pte. Ltd. 507 Yishun Industrial Park A Singapore 2776 Phone: 685-753-2692 FAX: 65-754-4113 World Headquarters Linear Technology Corporation 1630 McCarthy Blvd. Milpitas, CA 95035-7417 Phone: (408) 432-1900 FAX: (408) 434-0507 1630 McCarthy Blvd., Milpitas, CA 95035-7417 Q Linear Technology Corporation (408) 432-1900 FAX: (408) 434-0507 * TELEX: 499-3977 SOUTHWEST REGION Linear Technology Corporation 21243 Ventura Blvd., Suite 227 Woodland Hills, CA 91364 Phone: (818) 703-0835 FAX: (818) 703-0517 Linear Technology Corporation 15375 Barranca Parkway, Suite A-211 Irvine, CA 92718 Phone: (714) 453-4650 FAX: (714) 453-4765 TAIWAN Linear Technology Corporation Rm. 602, No, 46, Sec. 2 Chung Shan N. Rd. Taipei, Taiwan, R.0.C. Phone: 886-2-521-7575 FAX: 886-2-562-2285 UNITED KINGDOM Linear Technology (UK) Ltd. The Coliseum, Riverside Way Camberley, Surrey GU15 3L United Kingdom Phone: 44-1276-677676 FAX: 44-1276-64851 1.D. No. 66-11-1014 Rev. D 0795 LT/HP 0796 .5K RE D + PRINTED IN USA LINEAR TECHNOLOGY LINEAR TECHNOLOGY CORPORATION 1990