Amplifiers Comparators Power Supply Circuits Power/Motor Con

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Amplifiers Comparators Power Supply Circuits Power/Motor Con

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Volumes Alphanumeric Index Cross References
Amplifiers Comparators
Power Supply Circuits
Power/Motor Control Circuits
Voltage References
Data Conversion
Interface Circuits
Communication Circuits
Consumer Electronic Circuits
Automotive Electronic Circuits
Other Analog Circuits
Tape Reel Options
Packaging Information
Quality Reliability Assurance
Applications Product Literature
What's Different
Additions
CHAPTER
LM2575 MC78BC00 MC78FC00 MC78LC00 MC33154 MC33264 MC33341 MC33347 MC33348 MC33363A MC33364 MC33368 MC33463 MC33464 MC33465 MC33466 MC34065, MC33065 MC34165, MC33165 MC44604 MC44605
CHAPTER
MC1413 MC34156 SN75175
CHAPTER
MC13109 MC13110 MC13111 MC13144 MC13159
MC13283 MC44007 MC44030/35 MC44306 MC44353 MC44354 MC44355 MC44461 MC44462 MC44463
CHAPTER
MC33143 MC33193 MC33197A MC33293 MCCF33093 MCCF33094 MCCF33095
CHAPTER
MC13022 MC13029A MC13081X MC13022A MC13280AY, MC13281A/B MC13282A
Deletes
LM307 LM248 MC1411 MC1412 MC1472 MC1748C MC3361C MC3371A
MC3372A MC3430 MC3486 MC3487 MC13001X/07X MC13017 MC13024 MC3329
MC33344 MC34050 MC34051 MC44301 MC44302 MC44303 MCT1413 SN75173
Product Literature (Referenced)
AN454A AN829 AN921 AN93
AN1044 AN1315 AN1539
AN1544 AN1548 AN1575
Recommended Designs
AM26LS31 AM26LS32 MC26S10 MC3373 MC3448A
MC3450 MC3453 MC3467 MC3481
MC3485 ULN2068 TDA1185A
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DL128/D
Analog
Device Data Vol. This publication presents technical information broad line Analog Interface Integrated Circuit products. Complete device specifications provided form Data Sheets which categorized product type into chapters easy reference. Selector Guides product family provided beginning each chapter enable quick comparisons performance characteristics. Cross Reference chapter lists Motorola nearest replacement functional equivalent part numbers other industry products. chapter devoted showing Tape Reel Options. Packaging Information, including surface mount packages, provided another chapter. Additionally, chapters provided with information Quality Reliability Assurance program concepts, high-reliability processing, abstracts available Applications Product Literature. information this book been carefully checked believed accurate; however, responsibility assumed inaccuracies. Motorola reserves right make changes without further notice products herein. Motorola makes warranty, representation guarantee regarding suitability products particular purpose, does Motorola assume liability arising application product circuit, specifically disclaims liability, including without limitation consequential incidental damages. "Typical" parameters vary different applications. operating parameters, including "Typicals" must validated each customer application customer's technical experts. Motorola does convey license under patent rights rights others. Motorola products designed, intended, authorized components systems intended surgical implant into body, other applications intended support sustain life, other application which failure Motorola product could create situation where personal injury death occur. Should Buyer purchase Motorola products such unintended unauthorized application, Buyer shall indemnify hold Motorola officers, employees, subsidiaries, affiliates, distributors harmless against claims, costs, damages, expenses, reasonable attorney fees arising directly indirectly, claim personal injury death associated with such unintended unauthorized use, even such claim alleges that Motorola negligent regarding design manufacture part. Motorola registered trademarks Motorola, Inc. Motorola, Inc. Equal Opportunity/Affirmative Action Employer.
Printed U.S.A.
Series First Printing Motorola, Inc. 1996 Previous Edition 1995 ``All Rights Reserved''
Data Classification
Product Preview
This heading data sheet indicates that device formative stages design (under development). disclaimer bottom first page reads: ``This document contains information product under development. Motorola reserves right change discontinue this product without notice.''
Advance Information
This heading data sheet indicates that device sampling, pre-production, first production stages. disclaimer bottom first page reads: ``This document contains information product. Specifications information herein subject change without notice.''
Fully Released
fully released data sheet contains neither classification heading disclaimer bottom first page. This document contains information product full production. Guaranteed limits will changed without written notice your local Motorola Semiconductor Sales Office.
C-QUAM®, Designer's, Easy Switcher, GreenLine, MDTL, MECL, MECL 10,000, MONOMAX, MOSAIC®, MRTL, MTTL, MOSFET, SENSEFET, Sleep-Mode, SMARTMOS, Switchmode, ZIP-R-TRIM® trademarks Motorola Inc.
Alphanumeric Index Cross References
Brief
Motorola Analog Interface Integrated Circuits cover much broader range products than traditional amps/ regulators/consumer-image associated with Analog suppliers. Analog circuit technology currently influences design architecture equipment major markets. with other integrated circuit technologies, Analog circuit design techniques processes have been continually refined updated meet needs these diversified markets. Operational amplifiers have utilized JFET inputs improved performance, plus innovative design trimming concepts have evolved improved high performance precision characteristics. analog power ICs, basic voltage regulators have been refined include higher current voltage levels, dropout regulators, more precise three-terminal fixed adjustable voltages. power area continues expand into switching regulators, power supply control supervisory circuits, motor controllers, battery charging controllers. Analog designs also offer wide array line drivers, receivers transceivers many EIA, European, IEEE interface standards. Peripheral drivers variety devices also offered. addition these interface functions, hard disk drive read channel circuits, 10BASE-T Ethernet circuits also available. Data Conversion, high performance video speed flash converter available, well variety CMOS Sigma-Delta converters. Analog circuit technology also provided precision low-voltage references Data Conversion other temperature drift applications. host special purpose analog devices have also been developed. These circuits find applications telecommunications, radio, television, automotive, communications, data transmission. These products have reduced cost communications, have provided capabilities telecommunications which make telephone line convenient both voice data communications. Analog developments have also reduced many discrete components formerly required consumer functions packages have made significant contributions rapidly growing market electronics automotive applications. table contents provides perspective many markets served Analog/Interface Motorola's involvement these areas. MOTOROLA ANALOG DEVICE DATA
Alphanumeric Index
Device Number Function Page Device Number Function Page
Dual Differential/Quad Single-Ended Line Drivers AM26LS31# Quad Line Driver with NAND Enabled Three-State Outputs AM26LS32# Quad EIA-422/423 Line Receiver with Three-State Outputs CA3059 Zero Voltage Switches CA3146 General Purpose Transistor Array LF347, JFET Input Operational Amplifiers LF351 JFET Input Operational Amplifiers LF353 JFET Input Operational Amplifiers LF411C Offset, Drift JFET Input Operational Amplifiers LF412C Offset, Drift JFET Input Operational Amplifiers LF441C Power JFET Input Operational Amplifiers LF442C Power JFET Input Operational Amplifiers LF444C Power JFET Input Operational Amplifiers LM11C, Precision Operational Amplifiers LM201A Operational Amplifiers LM211 Highly Flexible Voltage Comparator LM224 Quad Power Operational Amplifiers LM239, Quad Single Supply Comparators LM258 Dual Power Operational Amplifiers LM285 Micropower Voltage Reference Diodes LM293 Offset Voltage Dual Comparators LM301A Operational Amplifiers LM308A Precision Operational Amplifier LM311 Highly Flexible Voltage Comparator LM317 Three-Terminal Adjustable Output Positive Voltage Regulator LM317L Three-Terminal Adjustable Output Voltage Regulator LM317M Three-Terminal Adjustable Output Positive Voltage Regulator LM323, Positive Voltage Regulators LM324, Quad Power Operational Amplifiers LM337 Three-Terminal Adjustable Output Negative Voltage Regulator LM337M Three-Terminal Adjustable Output Negative Voltage Regulator LM339, Quad Single Supply Comparators LM340, Series Three-Terminal Positive Voltage Regulators LM348 Differential Input Operational Amplifier LM350 Three-Terminal Adjustable Output Positive Voltage Regulator LM358 Dual Power Operational Amplifier LM385, Micropower Voltage Reference Diodes LM393, Offset Voltage Dual Comparators LM833 Dual Noise, Audio Amplifier LM2575 Easy Switcher Step-Down Voltage Regulator LM2900 Quad Single Supply Operational Amplifier LM2901, Quad Single Supply Comparator LM2902, Quad Power Operational Amplifier LM2903, Offset Voltage Dual Comparator LM2904, Dual Power Operational Amplifier LM2931 Dropout Voltage Regulator Communications Device Data (DL136). recommended designs.
AM26LS30
7-13 7-24 7-24 4-14 9-28 2-11 2-11 2-11 2-13 2-13
LM2935 LM3900 LP2950 LP2951 MC1350 MC1374 MC1377 MC1378 MC1391 MC1403, MC1404 MC1413, MC1416,
2-17 2-17 2-17 2-24 2-30 2-39 2-45 2-52 2-62 2-68 2-30 2-34 2-39 3-45 3-53
MC1436, MC1455, MC1458, MC1488 MC14C88B MC14C89B, MC1489, MC1490 MC1494 MC1495 MC1496 MC1723C MC1741C MC1776C
3-61 3-69 2-45 3-75 3-82 2-52 3-89 2-56 3-105 2-62 2-68 2-73 3-113 2-113 2-52 2-45 2-68 2-62 3-136 MC2833 MC3301 MC3302 MC3303 MC3334 MC3335 MC3340 MC3346
MC3356 MC3357 MC3358 MC3359 MC3362 MC3363 MC3371 MC3372 MC3373# MC3374 MC3392 MC3399 MC3403
Dropout Dual Regulator Quad Single Supply Operational Amplifier Micropower Voltage Regulator Micropower Voltage Regulator Monolithic Amplifier Modulator Circuit Color PAL/NTSC Encoder Color Composite Video Overlay Synchronizer Horizontal Processor Voltage Reference Voltage References Family High Voltage, High Current Darlington Transistor Arrays High Voltage, High Current Darlington Transistor Arrays High Voltage, Internally Compensated Operational Amplifiers Timing Circuit Internally Compensated, High Performance Dual Operational Amplifiers Quad Line Driver Quad Power Line Driver Quad Power Line Receiver Quad Line Receivers RF/IF Audio Amplifier Linear Four-Quadrant Multiplier Wideband Linear Four-Quadrant Multiplier Balanced Modulatosr/Demodulators Voltage Regulator Internally Compensated, High Performance Operational Amplifier Micropower Programmable Operational Amplifier Power Transmitter System Quad Single Supply Operational Amplifier Quad Single Supply Comparators Quad Power Operational Amplifier High Energy Ignition Circuit Power Dual Conversion Receiver Electronic Attenuator General Purpose Transistor Array Differentially Connected Pair Three Isolated Transistor Arrays Wideband Receiver Power Dual, Power Operational Amplifier Dual, Power Operational Amplifier Power Dual Conversion Receiver Power Dual Conversion Receiver Power Narrowband Power Narrowband Remote Control Wideband Amplifier with Detector Voltage Narrowband Receiver Side Protected Switch Automotive Half-Amp High-Side Switch Quad Power Operational Amplifier
3-146 2-113 3-150 3-150 9-30 9-34 9-42 9-58 9-62 5-13 7-30 7-30 2-79 11-6 2-84 7-33 7-44 7-50 7-39 2-92 11-14 11-28 8-45 3-162 2-99 2-104 8-55 2-113 2-52 2-123 10-15 8-62 9-66 9-69
8-66 8-72 2-137 8-76 8-82 8-113 8-96 8-96 9-72 8-89 10-19 10-28 2-123
MOTOROLA ANALOG DEVICE DATA
Alphanumeric Index (continued)
Device Number Function Page Device Number Function Page
MC3405 MC3418 MC3419-IL MC3423 MC3425 MC3448A# MC3450# MC3453# MC3456 MC3458 MC3467# MC3476 MC3479 MC3481# MC3485# MC3488A MC3518 MC4558AC, MC4741C MC7800 Series MC78L00, Series MC78M00 Series MC78T00 Series MC78BC00 MC78FC00 MC78LC00 MC7900 Series MC79L00, Series MC79M00 Series MC10319 MC13020 MC13022 MC13022A MC13025 MC13027 MC13028A MC13029A
Dual Operational Amplifier Dual Comparator Continuously Variable Slope Delta Modulator/Demodulator Telephone Line-Feed Circuit Overvoltage Crowbar Sensing Circuit Power Supply Supervisory/Over Undervoltage Protection Circuit Bidirectional Instrumentation (GPIB) Transceiver Quad MTTL Compatible Line Receivers MTTL Compatible Quad Line Driver Dual Timing Circuit Dual, Power Operational Amplifier Triple Wideband Preamplifier with Electronic Gain Control (EGC) Cost Programmable Operational Amplifier Stepper Motor Driver Quad Single-Ended Line Driver Quad Single-Ended Line Driver Dual EIA-423/EIA-232D Line Driver Continuously Variable Slope Delta Modulator/Demodulator Dual Wide Bandwidth Operational Amplifiers Differential Input Operational Amplifier Three-Terminal Positive Voltage Regulators Three-Terminal Current Positive Voltage Regulators Three-Terminal Medium Current Positive Voltage Regulators Three-Ampere Positive Voltage Regulators Micropower Voltage Regulator Micropower Voltage Regulator Micropower Voltage Regulator Three-Terminal Negative Voltage Regulators Three-Terminal Currect Negative Voltage Regulators Three-Terminal Negative Voltage Regulators High Speed 8-Bit Analog-to-Digital Flash Converter Motorola C-QUAM Stereo Decoder Advanced Medium Voltage Stereo Decoder Advanced Medium Voltage Stereo Decoder Electronically Tuned Radio Front AMAX Stereo Chipset Advanced Wide Voltage C-QUAM Stereo Decoder Advanced Wide Voltage C-QUAM Stereo Decoder with Amplifier AM/FM Internal Switch Dual Conversion Receiver Wideband Receiver Mini-Watt Audio Output Advanced PAL/NTSC Encoder Multimode Color Monitor Horizontal, Vertical Video Combination Processor Universal Cordless Telephone Subsystem Universal Cordless Telephone Subsystem with Scrambler
2-129 3-168 3-174 7-58
MC13111 MC13122 MC13135 MC13136 MC13141 MC13142 MC13143 MC13144 MC13150
7-64 7-71 11-43 2-137 7-76 2-144 4-19 7-81 7-81 7-86 2-149 2-156 3-182 3-197 3-204 3-213 3-222 3-223 3-224 3-225 3-235 3-240 9-66 9-81 9-86 9-91 9-94 9-119 9-137
MC13155 MC13156 MC13158 MC13159 MC13173 MC13175 MC13176 MC13280AY MC13281A, MC13282A MC13283 MC26S10# MC33023 MC33025 MC33030 MC33033 MC33035 MC33039 MC33060A MC33063A MC33064 MC33065 MC33065-H, MC33066 MC33067 MC33071, MC33072, MC33074, MC33076 MC33077 MC33078 MC33079 MC33091A MC33092 MC33095 MC33102 MC33110 MC33111 MC33120 MC33121 MC33128
MC13030 MC13055 MC13060 MC13077 MC13081X MC13109 MC13110
9-156 8-121 9-171 9-175 9-187 8-128 8-154
Universal Cordless Telephone Subsystem AMAX Stereo Chipset Communications Receiver Communications Receiver Power DC-1.8 Mixer Power DC-1.8 LNA, Mixer Ultra Power DC-2.4 Linear Mixer Noise Amplifier with Programmable Bias Narrowband Coilless Detector Subsystem Wideband System Wideband System Wideband Subsystem Wideband Amplifier Infrared Integrated Transceiver System FM/AM Transmitter FM/AM Transmitter 80/100 Video Processor 80/100 Video Processor Video Processor with Interface Video Processor with Interface Quad Open-Collector Transceiver High Speed Single-Ended Controller High Speed Double-Ended Controller Servo Motor Controller/Driver Brushless Motor Controller Brushless Motor Controller Closed-Loop Brushless Motor Adapter Precision Switchmode Pulse Width Modulator Control Circuit DC-to-DC Converter Control Circuit Undervoltage Sensing Circuit High Performance Dual Channel Current Mode Controller High Performance Dual Channel Current Mode Controllers High Performance Resonant Mode Controller High Performance Resonant Mode Controller High Slew Rate, Wide Bandwidth, Single Supply Operational Amplifiers High Slew Rate, Wide Bandwidth, Single Supply Operational Amplifiers High Slew Rate, Wide Bandwidth, Single Supply Operational Amplifiers Dual High Output Current, Power, Noise Bipolar Dual, Noise Operational Amplifier Dual/Quad Noise Operational Amplifier Dual/Quad Noise Operational Amplifier HIgh Side TMOS Driver Alternator Voltage Regulator Integral Alternator Regulator Sleep-Mode Two-State, Micropower Operational Amplifier Voltage Compander Voltage Compander with Mute Feedthrough Subscriber Loop Interface Circuit Voltage Subscriber Loop Interface Circuit Power Management Controller
8-185 9-94 8-214 8-214 8-226 8-235 8-245 8-252 8-258 8-275 8-290 8-308 8-330 8-336 8-353 8-353 9-205 9-205 9-215 9-226 7-55 3-392 3-408 4-27 4-41 4-64 4-87 3-425 3-437 3-446 3-451 3-465 3-478 3-486 2-272 2-272 2-272 2-161 2-169 2-180 2-180 10-31 10-45 10-134 2-189 3-244
Communications Device Data (DL136). recommended designs.
MOTOROLA ANALOG DEVICE DATA
Alphanumeric Index (continued)
Device Number Function Page Device Number Function Page
MC33129 MC33143 MC33151 MC33152 MC33153 MC33154 MC33160 MC33161 MC33163 MC33164 MC33165 MC33166 MC33167 MC33169 MC33171 MC33172 MC33174 MC33178 MC33179 MC33181 MC33182 MC33184 MC33192 MC33193 MC33197A MC33199 MC33201 MC33202 MC33204 MC33206 MC33207 MC33218A MC33219A MC33261 MC33262 MC33264 MC33267 MC33269 Series MC33272A MC33274A MC33282 MC33284 MC33293A MC33298 MC33304 MC33340
High Performance Current Mode Controller Dual High-Side Switch High Speed Dual MOSFET Driver High Speed Dual MOSFET Driver Single IGBT Gate Driver Single IGBT Gate Driver Microprocessor Voltage Regulator Supervisory Circuit Universal Voltage Monitors Power Switching Regulator Micropower Undervoltage Sensing Circuit Power Switching Regulator Power Switching Regulator Power Switching Regulator GaAs Power Amplifier Support Power, Single Supply Operational Amplifier Power, Single Supply Operational Amplifier Power, Single Supply Operational Amplifier High Output Current, Power, Noise Bipolar High Output Current, Power, Noise Bipolar Power, High Slew Rate, Wide Bandwidth, JFET Input Power, High Slew Rate, Wide Bandwidth, JFET Input Power, High Slew Rate, Wide Bandwidth, JFET Input Mi-Bus Interface Stepper Motor Controller Automotive Direction Indicator Automotive Wash Wiper Timer Automotive 9141 Serial Link Driver Rail-to-Rail Operational Amplifier Rail-to-Rail Operational Amplifier Rail-to-Rail Operational Amplifier Rail-to-Rail Operational Amplifier with Enable Feature Rail-to-Rail Operational Amplifier with Enable Feature Voice Switched Speakerphone with Microprocessor Interface Voice Switched Speakerphone Power Factor Controller Power Factor Controller Micropower Voltage Regulators with On/Off Control Dropout Regulator Dropout Positive Voltage Regulator Single Supply, High Slew Rate Input Offset Voltage, Bipolar Single Supply, High Slew Rate Input Offset Voltage, Bipolar Input Offset, High Slew Rate, Wide Bandwidth, JFET Input Input Offset, High Slew Rate, Wide Bandwidth, JFET Input Quad Side Switch Octal Output Driver Voltage Rail-to-Rail, Sleepmode Operational Amplifier Battery Fast Charge Controller
3-499 10-45 3-514 3-522 3-251 3-262 3-530 3-537 3-550 3-564 3-570 3-584 3-598 3-263 2-201 2-201 2-201 2-208 2-208 2-299 2-299 2-299 10-60 10-71 10-78 10-83 2-218 2-218 2-218 2-227 2-227 3-612 3-623 3-273 3-280 3-285 2-237 2-237 2-246 2-246 10-94 10-109 2-254 3-290
MC33341 MC33345 MC33346 MC33347 MC33348 MC33362 MC33363 MC33363A MC33364 MC33368 MC33463 MC33464 MC33465 MC33466 MC34001, MC34002, MC34004, MC34010 MC34011A MC34012 MC34014 MC34016 MC34017 MC34018 MC34023 MC34025 MC34055 MC34058 MC34059 MC34060A MC34063A MC34064 MC34065 MC34065-H, MC34066 MC34067 MC34071, MC34072, MC34074, MC34080 MC34081 MC3408
Power Supply/Battery Charger Regulation Control Circuit Lithium Battery Protection Circuit Four Cell Battery Packs Lithium Battery Protection Circuit Three Four Cell Battery Packs Lithium Battery Protection Circuit Cell Battery Packs Lithium Battery Protection Circuit Cell Battery Packs High Voltage Switching Regulator High Voltage Switching Regulator High Voltage Switching Regulator Critical Conduction SMPS Controller High Voltage GreenLinePower Factor Controller Variable Frequency Micropower DC-to-DC Converter Micropower Undervoltage Sensing Circuits Micropower Undervoltage Sensing Circuits with Output Delay Fixed Frequency Micropower DC-to-DC Converter JFET Input Operational Amplifier JFET Input Operational Amplifier JFET Input Operational Amplifier Electronic Telephone Circuit Electronic Telephone Circuit Telephone Tone Ringer Telephone Speech Network with Dialer Interface Cordless Universal Telephone Interface Telephone Tone Ringer Voice Switched Speakerphone Circuit High Speed Single-Ended Controller High Speed Double-Ended Controller IEEE 802.3 10BASE-T Transceiver EIA-485 Transceiver with Three-State Outputs EIA-485 Transceiver with Three-State Outputs Precision Switchmode Pulse Width Modulator Control Circuit DC-to-DC Converter Control Circuit Undervoltage Sensing Circuit High Performance Dual Channel Current Mode Controller High Performance Dual Channel Current Mode Controllers High Performance Resonant Mode Controller High Performance Resonant Mode Controller High Slew Rate, Wide Bandwidth, Single-Supply Operational Amplifier High Slew Rate, Wide Bandwidth, Single-Supply Operational Amplifier High Slew Rate, Wide Bandwidth, Single-Supply Operational Amplifier High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier
3-301 3-316 3-328 3-329 3-339 3-348 3-359 3-370 3-371 3-372 3-384 3-386 3-388 3-390 2-265 2-265 2-265 3-392 3-408 7-90 7-105 7-105 3-425 3-437 3-446 3-451 3-465 3-478 3-486 2-272 2-272 2-272 2-288 2-288 2-288
Communications Device Data (DL136). recommended designs.
MOTOROLA ANALOG DEVICE DATA
Alphanumeric Index (continued)
Device Number Function Page Device Number Function Page
MC34083 MC34084 MC34085 MC34114 MC34115 MC34117 MC34118 MC34119 MC34129 MC34151 MC34152 MC34156 MC34160 MC34161 MC34163 MC34164 MC34165 MC34166 MC34167 MC34181 MC34182 MC34184 MC34216A MC34250 MC34261 MC34262 MC34268 MC34270 MC34271 MC44002 MC44007 MC44011 MC44030 MC44035 MC44144 MC44145 MC44353 MC44354 MC44355 MC44461 MC44462 MC44463 MC4460
High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifier Telephone Speech Network with Dialer Interface Continuously Variable Slope Delta Modulator/Demodulator Telephone Tone Ringer Voice Switched Speakerphone Circuit Power Audio Amplifier High Performance Current Mode Controller High Speed Dual MOSFET Driver High Speed Dual MOSFET Driver 28-Channel Inkjet Driver Microprocessor Voltage Regulator Supervisory Circuit Universal Voltage Monitor Power Switching Regulator Micropower Undervoltage Sensing Circuit Power Switching Regulator Power Switching Regulator Power Switching Regulator Power, High Slew Rate, Wide Bandwidth, JFET Input Power, High Slew Rate, Wide Bandwidth, JFET Input Power, High Slew Rate, Wide Bandwidth, JFET Input Programmable Telephone Line Interface Circuit with Loudspeaker Amplifier M-Bit/Sec PR-IV Hard Disk Drive Read Channel Power Factor Controller Power Factor Controller SCSI-2 Active Terminator Regulator Liquid Crystal Display Backlight Integrated Circuit Liquid Crystal Display Backlight Integrated Circuit Chroma Multistandard Video Processor Chroma Multistandard Video Processor Controlled Multistandard Video Processor Multistandard Video Signal Processor with Integrated Delay Line Multistandard Video Signal Processor with Integrated Delay Line Subcarrier Phase-Locked Loop Pixel Clock Generator/Sync Separator Tuned Audio/Video Modulator PAL, SECAM NTSC Systems Tuned Audio/Video Modulator PAL, SECAM NTSC Systems Tuned Audio/Video Modulator PAL, SECAM NTSC Systems Picture-in-Picture (PIP) Controller Picture-in-Picture (PIP) Controller Picture-in-Picture (PIP) Controller HIgh Performance Current Mode Controller
2-288 2-288 2-288 9-227 3-499 3-514 3-522 7-116 3-530 3-537 3-550 3-564 3-570 3-584 3-598 2-299 2-299 2-299 7-118 3-612 3-623 3-638 3-641 3-641 9-236 9-236 9-275 9-324 9-324 9-326 9-331 9-338 9-338 9-338 9-341 9-354 9-360 3-651
MC44603 MC44604 MC44605
MC44817, MC44818 MC44824, MC44826 MC44827 MC44828 MC44829 MC44864
MC68160 MC75172B MC75174B MC79076 MCC3334 MCCF3334 MCCF33093 MCCF33094 MCCF33095 MCCF79076 MCT1458, MCT4558C SAA1042 SG3525A SG3526 SG3527A SN75175 TCA0372 TCA3385 TCA3388 TCA5600 TCF5600 TCF6000 TDA1085C TDA1185A# TL062 TL064 TL071C, TL072C, TL074C, TL081C, TL082C, TL084C, TL431, Series TL494 TL594
Mixed Frequency Mode GreenLine Controller High Safety Standby Ladder Mode GreenLine Controller High Safety Latched Mode GreenLine Controller (Multi) Synchronized Applications Tuning Circuit with 3-Wire Tuning Circuit with Tuning Circuit with Tuning Circuit with Tuning Circuit with 3-Wire Tuning Circuit with Tuning Circuit with Tuning Circuit with Prescaler Converters Automatic Tuner Alignment Enhanced Ethernet Transceiver Quad EIA-485 Line Driver with Three-State Output Quad EIA-485 Line Driver with Three-State Output Electronic Ignition Control Chip High Energy Ignition Circuit High Energy Ignition Circuit Ignition Control Flip-Chip Ignition Control Flip-Chip Integral Alternator Regulator electronic Ignition Control Chip Internally Compensated, High Performance Dual Operational Amplifier Dual Wide Bandwidth Operational Amplifier Stepper Motor Driver Pulse Width Modulator Control Circuit Pulse Width Modulator Control Circuit Pulse Width Modulator Control Circuit Quad EIA-485 Line Receiver Dual Power Operational Amplifier Telephone Ring Signal Converter Telephone Speech Network Universal Microprocessor Power Supply/Controller Universal Microprocessor Power Supply/Controller Peripheral Clamping Array Universal Motor Speed Controller Triac Phase Angle Controller Power JFET Input Operational Amplifier Power JFET Input Operational Amplifier Noise JFET Input Operational Amplifier Noise JFET Input Operational Amplifier Noise JFET Input Operational Amplifier JFET Input Operational Amplifier JFET Input Operational Amplifier JFET Input Operational Amplifier Programmable Precision References Switchmode Pulse Width Modulation Control Circuit Precision Switchmode Pulse Width Modulation Control Circuit
3-667 3-689 3-690
9-367 9-374 9-381 9-388 9-395 9-396 9-397 9-405
7-120 7-146 7-146 10-131 10-15 10-15 10-132 10-133 10-134 10-131 2-89 2-153 4-92 3-691 3-697 3-691 7-157 2-308 3-705 3-705 10-144 4-97 4-107 2-312 2-312 2-319 2-319 2-319 2-325 2-325 2-325 5-18 3-716 3-726
Communications Device Data (DL136). recommended designs.
MOTOROLA ANALOG DEVICE DATA
Alphanumeric Index (continued)
Device Number Function Page Device Number Function Page
TL780 Series UAA1016B UAA1041b UAA2016 UC2842A UC2842B UC2843A UC2843B UC2844 UC2844B UC2845 UC2845B UC3842A UC3842B
Three-Terminal Positive Fixed Voltage Regulator Zero Voltage Controller Automotive Direction Indicator Zero Voltage Switch Power Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller
3-736 4-116 10-148 4-122 3-742 3-755 3-742 3-755 3-769 3-782 3-769 3-782 3-742 3-755
UC3843A UC3843B UC3844 UC3844B UC3845 UC3845B UC3844B UC3845 UC3845B ULN2068# ULN2803 ULN2804 µA78S40
HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller HIgh Performance Current Mode Controller Quad Sinking High Current Switch Octal High Voltage, High Current Darlington Transistor Array Octal High Voltage, High Current Darlington Transistor Array Universal Switching Regulator Subsystem
3-742 3-755 3-769 3-782 3-769 3-782 3-782 3-769 3-782 7-162 7-166 7-166 3-796
Communications Device Data (DL136). recommended designs.
MOTOROLA ANALOG DEVICE DATA
Cross References
following table represents cross reference guide Analog devices that manufactured Motorola. Where Motorola part number differs from industry part
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
number, Motorola device ``form, function'' replacement industry part number. However, some differences characteristics and/or specifications exist.
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
75175 9636AT 9640PC 9667PC 9668PC AD589J AD589K AD589L AD589M AM201AD AM201D AM26LS30P AM26LS31CJ AM26LS31CN AM26LS32ACJ AM26LS32ACN AM26LS32PC AM723PC AN5150 CA081AE CA081E CA082AE CA082E CA084AE CA084E CA1391E CA1458S CA239AE CA239E CA3026 CA3045F CA3046 CA3054 CA3058 CA3059 CA3079 CA3086F CA3136A CA3146 CA339AE CA339E CA723CE CA741CS CS2842AD CS2843AD CS2844D
SN75175 MC3488AP MC26S10P# MC1413P MC1416P LM385Z-1.2 LM385Z-1.2 LM385Z-1.2 LM385BZ-1.2 LM201AN LM201AN AM26LS30PC AM26LS31PC# AM26LS31PC# AM26LS32D# AM26LS32PC# AM26LS32PC# MC1723CP MC34129P TL081ACP TL081CP TL082ACP TL082CP TL084ACN TL084CN MC1391P MC1458CP1 LM239AN LM239N CA3054 MC3346P MC3346P CA3054 CA3059 CA3059 CA3079 MC3346P MC3346P MC3346P LM339AN LM339N MC1723CP MC1741CP1 UC2842BD1 UC2843BD1 UC2844BD1
CS2845D CS3842AD CS3843AD CS3844D CS3845D DM8822N DS1233M DS1488N DS1489AN DS1489N DS26LS32N DS26S10CN DS3650N DS8834N DS8835N DS9636ACN ICL741CLNPA ICL741CLNTY ICL8008CPA ICL8008CTY ICL8017CTW ICL8017MTW ICL8069CCZR ICL8069DCZR IP33063N IP34060AN IP34063N IP3525AN IP3526N IP3527AN LM240LAZ-18 LM240LAZ-24 LM240LAZ-5.0 LM240LAZ-6.0 LM240LAZ-8.0 LM249N LM2575 LM258D LM258M LM258N LM285Z-1.2 LM285Z-2.5 LM2901D LM2901M LM2901N LM2902D
UC2845BD1 UC3842BD1 UC3843BD1 UC3844BD1 UC3845BD1 MC1489AP MC34064P-5 MC1488P MC1489AP MC1489P AM26LS32P# MC26S10P# MC3450P# MC8T26AP MC8T26AP MC3488AP1 MC1741CP1 MC1741CP1 LM301AN LM301AN LM301AN LM301AN LM385BZ-1.2 LM385BZ-1.2 MC33063AP1 MC34060AP MC34063AP1 SG3525AN SG3526N SG3527AN MC78L18ACP MC78L24ACP MC78L05ACP MC78L05ACP MC78L08ACP MC4741CP LM2575 LM258D LM258D LM258N LM285Z-1.2 LM285Z-2.5 LM2901D LM2901D LM2901N LM2902D
recommended designs.
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
IP494ACJ IP494ACN IR3M03A IR3M03AN ITT3710 ITT656 L144AP L203 L387 LF347BN LF347N LF351BN LF351N LF353AN LF353BN LF353D LF353N LF411CD LF412CD LF441CD LF441CN LF442CD LF442CN LF444CD LF444CN LM11CLN LM11CN LM139N LM1489AN LM1489N LM1496N LM1496M LM1889 LM1981 LM201AD LM201AN LM201AP LM211D LM211M LM224D LM224M LM224N LM239AN LM239D LM239M LM239N LM240LAZ-12 LM240LAZ-15 LM2902M LM2902N LM2903D LM2903M LM2902D LM2902N LM2903D LM2903D LM211D LM211D LM224D LM224D LM224N LM239AN LM239D LM239D LM239N LM201AD LM201AN LF351N MC34002AP MC34002BP LF353D LF353N LF411CD LF412CD LF441CD LF441CN LF442CD LF442CN LF444CD LF444CN LM11CLN LM11CN MC1391P MC1489AP MC1489P MC1496P MC1496D LF347BN LF347N MC1413P MC1413P
TL594IN TL594CN MC34063AP1 MC34063AD MC1391P LM324N MC33267T
LM2903N LM2903P LM2904M LM2904N LM2905N LM2931AD-5.0 LM2931AT-5.0 LM2931AZ-5.0 LM2931CD LM2931CM LM2931CT
LM2903N LM2903N LM2904D LM2904N MC1455P1 LM2931AD-5.0 LM2931AT-5.0 LM2931AZ-5.0 LM2931CD LM2931CD LM2931CT LM2931D-5.0 LM2931D-5.0 LM2931T-5.0 LM2931Z-5.0 LM2935T LM293D LM301AD LM301AD LM301AN LM301AN MC3346P MC3346P CA3054 LM308AD LM308AN MC3356P LM311D LM311D LM311N LM311N MC3346P MC3346P LM317T LM317T LM317LD LM317LZ LM317MT LM317T LM317T MC3356P MC79L12ACP MC79L15ACP MC79L05ACP MC7912CT MC7915CT MC7918CT MC7924CT MC78L05ACP MC78L08ACP LM340T-12 LM340T-15
MC34001BP
LM2931D-5.0 LM2931D LM2931T-5.0 LM2931Z-5.0 LM2935T LM293D LM301AD LM301AM LM301AN LM301AP LM3045 LM3046N LM3054 LM308AD LM308AN LM308P LM311D LM311M LM311N LM311P LM3146A
MC1374P MC13020P
LM3146 LM317KC LM317KD LM317LD
LM201AN
LM317LZ LM317MP LM317P LM317T LM3189 LM320LZ-12 LM320LZ-15 LM320LZ-5.0 LM320MP-12 LM320MP-15
MC78L12ACP MC78L15ACP
LM320MP-18 LM320MP-24 LM340LAZ-5.0 LM340LAZ-8.0 LM340T-12 LM340T-15
recommended designs.
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
LM320MP-5.0 LM320MP-5.2 LM320MP-6.0 LM320MP-8.0 LM320T-12 LM320T-15 LM320T-5.0 LM320T-5.2 LM322N LM323AT LM323T LM324AD LM324AN LM324D LM324M LM324N LM337MP LM337MT LM337T LM339AD LM339AM LM339AN LM339D LM339N LM339P LM340AT-12 LM340AT-15 LM340AT-5.0 LM340KC-12 LM340KC-15 LM340LAZ-12 LM340LAZ-18 LM340LAZ-24 LM340T-18 LM340T-24 LM340T-5.0 LM340T-6.0 LM340T-8.0 LM341P-12 LM341P-15 LM341P-18 LM341P-24 LM341P-5.0 LM341P-6.0 LM341P-8.0 LM342P-12 LM342P-15 LM342P-18 LM342P-24 LM342P-5.0 LM342P-6.0 LM342P-8.0 recommended designs. LM340T-18 LM340T-24 LM340T-5.0 LM340T-6.0 LM340T-8.0 LM340AT-12 LM340AT-15 LM340AT-5.0 LM340T-12 LM340T-15 LM337MT LM337T LM339AD LM339AD LM339AN LM339D LM339N LM323AT LM323T LM324AD LM324AN LM324D LM324D LM324N
MC7905CT MC7905.2CT MC7906CT MC7908CT MC7912CT MC7915CT MC7905CT MC7905.2CT MC1455P1
LM348D LM348M LM349N LM350T LM358AN LM358D LM358N LM363AN LM363N LM385BZ-1.2 LM385BZ-2.5 LM385D-1.2 LM385D-2.5 LM385M-1.2 LM385M-2.5 LM385Z-1.
LM348D LM348D MC4741CP LM350T LM358N LM358D LM358N MC3450P# MC3450P# LM385BZ-1.2 LM385BZ-2.5 LM385D-1.2 LM385D-2.5 LM385D-1.2 LM385D-2.5 LM385Z-1.2 LM385Z-2.5 MC34119P MC1455P1 LM393AN LM393D LM393N LM393D LM393N TL431ACLP TL431ACD MC1776CP1 MC1455P1 MC3456P MC1350P MC1723CP MC1741CP1 MC7805CT MC7812CT MC7815CT MC78L05ACP MC78L05CP MC78L08ACP MC78L08CP MC78L12ACP MC78L12CP MC78L15ACP MC78L15CP MC78L18ACP MC78L18CP MC78L24ACP MC78L24CP MC78M05CT MC78M06CT MC78M12CT MC78M15CT MC7905CT
LM337MT
LM385Z-2.5 LM386N LM3905N LM393AN LM393D LM393JG LM393M LM393N
LM339N
LM431ACZ LM431ACM LM4250CN LM555CN LM556CN LM703LN
MC78L12ACP MC78L18ACP MC78L24ACP
LM723CN LM741EN LM7805CT LM7812CT LM7815CT LM78L05ACZ LM78L05CZ LM78L08ACZ
MC78M12CT MC78M15CT MC78M18CT MC78M24CT MC78M05CT MC78M06CT MC78M08CT MC78M12CT MC78M15CT MC78M18CT MC78M24CT MC78M05CT MC78M06CT MC78M08CT
LM78L08CZ LM78L12ACZ LM78L12CZ LM78L15ACZ LM78L15CZ LM78L18ACZ LM78L18CZ LM78L24ACZ LM78L24CZ LM78M05CP LM78M06CP LM78M12CP LM78M15CP LM7905CT
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
LM7912CT LM7915CT LM79L05ACZ LM79L12ACZ LM79L15ACZ LM79M05CP LM79M12CP LM79M15CP LM833D LM833N LM833P LM837N LMC6482D LMC6482P LMC6484D LMC6484P LP2950CZ-3.0 LP2950CZ-3.3 LP2950CZ-5.0 LP2950ACZ-3.0 LP2950ACZ-3.3 LP2950ACZ-5.0 LP2951CM LP2951ACM LP2951CM-3.0 LP2951CM-3.3 LP2951ACM-3.0 LP2951ACM-3.3 LP2951CN LP2951ACN LP2951CN-3.0 LP2951CN-3.3 LP2951ACN-3.0 LP2951ACN-3.3 LT1083 LT1431CZ LTC699CN8 LTC699IN8 MAX809LCPA MB3759 N5558V N5723A N5741A N5741V N8T26AB N8T26AN N8T26B N8T26N N8T97B N8T97N N8T98B N8T98N
MC7912CT MC7915CT MC79L05ACP MC79L12ACP MC78L15ACP MC79M05CT MC79M12CT MC79M15CT LM833D LM833N LM833N MC33079P MC33202D MC33202P MC33204D MC33204P LP2950CZ-3.0 LP2950CZ-3.3 LP2950CZ-5.0 LP2950ACZ-3.0 LP2950ACZ-3.3 LP2950ACZ-5.0 LP2951CD LP2951ACD LP2951CD-3.0 LP2951CD-3.3 LP2951ACD-3.0 LP2951ACD-3.3 LP2951CN LP2951ACN LP2951CN-3.0 LP2951CN-3.3 LP2951ACN-3.0 LP2951ACN-3.3 MC34268DT TL431BCLP MC34064D-5 MC33064D-5 MC34064P-5 TL494CN MC1458P1 MC1723CP MC1741CP1 MC1741CP1 MC8T26AP MC8T26AP MC8T26AP MC8T26AP MC8T97P MC8T97P MC8T98P MC8T98P
NE550A NE555D NE555V NE556D NE5561N NE5234D NE5234P OP-01P RC1458DN RC4136DP RC4136N RC4558DN RC4558P RC723DB RC741DN RE5VL47A RH5RE30AA-T1 RH5RE33AA-T1 RH5RE40AA-T1 RH5RE50AA-T1 RN5RG30AA-TR RN5RG33AA-TR RN5RG40AA-TR RN5RG50AA-TR RH5RH301A-T1 RH5RH302B-T1 RH5RH331A-T1 RH5RH332B-T1 RH5RH501A-T1 RH5RH502B-T1 RH5RI301B-T1 RH5RI302B-T1 RH5RI331B-T1 RH5RI332B-T1 RH5RI501B-T1 RH5RI502B-T1 RH5RL30AA-T1 RH5RL33AA-T1 RH5RL40AA-T1 RH5RL50AA-T1 RH5VT09AA-T1 RH5VT20AA-T1 RH5VT27AA-T1 RH5VT30AA-T1 RH5VT45AA-T1 RH5VT09CA-T1 RH5VT20CA-T1 RH5VT27CA-T1 RH5VT30CA-T1 RH5VT45CA-T1 RN5RL30AA-TR RN5RL33AA-TR MC4558CP1 MC4558CP1 MC1723CP MC1741CP1 MC34164P-5 MC78LC30HT1 MC78LC33HT1 MC78LC40HT1 MC78LC50HT1 MC78BC30NTR MC78BC33NTR MC78BC40NTR MC78BC50NTR MC33466H-30JT1 MC33466H-30LT1 MC33466H-33JT1 MC33466H-33LT1 MC33466H-50JT1 MC33466H-50LT1 MC33463H-30KT1 MC33463H-30LT1 MC33463H-33KT1 MC33463H-33LT1 MC33463H-50KT1 MC33463H-50LT1 MC78FC30HT1 MC78FC33HT1 MC78FC40HT1 MC78FC50HT1 MC33464H-09AT1 MC33464H-20AT1 MC33464H-27AT1 MC33464H-30AT1 MC33464H-45AT1 MC33464H-09CT1 MC33464H-20CT1 MC33464H-27CT1 MC33464H-30CT1 MC33464H-45CT1 MC78FC30NTR MC78FC33NTR MC1458P1 MC1455D MC1455P1 NE556D
MC1723CP
MC34060AP MC33204D MC33204P MC1436P1 MC3403P MC3403P
recommended designs.
1-10
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
RN5RL40AA-TR RN5RL50AA-TR RN5VD09AA-TR RN5VD20AA-TR RN5VD27AA-TR RN5VD30AA-TR RN5VD45AA-TR RN5VD09CA-TR RN5VD20CA-TR RN5VD27CA-TR RN5VD30CA-TR RN5VD45CA-TR RN5VT09AA-TR RN5VT20AA-TR RN5VT27AA-T4 RN5VT30AA-TR RN5VT45AA-TR RN5VT09CA-TR RN5VT20CA-TR RN5VT27CA-TR RN5VT30CA-TR RN5VT45CA-TR S-80743AN SA555N SAA1042 SG1458M SG1496N SG1596J SG201AM SG201AN SG201M SG201N SG224N SG300N SG301AM SG301AN SG308AM SG3118AM SG311M SG317P SG317R SG324N SG337P SG337R SG3423M SG3525AN SG3526N SG3527AN SG3561 SG4250CM SG555CM SG556CN
MC78FC40NTR MC78FC50NTR MC33465N-09ATR MC33465N-20ATR MC33465N-27ATR MC33465N-30ATR MC33465N-45ATR MC33465N-09CTR MC33465N-20CTR MC33465N-27CTR MC33465N-30CTR MC33465N-45CTR MC33464N-09ATR MC33464N-20ATR MC33464N-27ATR MC33464N-30ATR MC33464N-45ATR MC33464N-09CTR MC33464N-20CTR MC33464N-27CTR MC33464N-30CTR MC33464N-45CTR MC34164P-3 MC1455BP1 SAA1042V MC1458P1 MC1496P MC1496BP LM201AN LM201AN LM201AN LM201AN LM224N MC1723CP LM301AN LM301AN LM308AN LM308AN LM311N LM317T LM317T LM324N LM337T LM337T MC3423P1 SG3525AN SG3526N SG3527AN MC34261P MC1776CP1 MC1455P1 MC3456P
SG723CN SG741CM SG777CN SG7805ACP SG7805ACR SG7805ACT SG7805CP SG7806ACP SG7806ACR SG7806ACT SG7806CP SG7806CR SG7808ACP SG7808ACT SG7808CP SG7808CR SG7812ACP SG7812ACR SG7812ACT SG7812CP SG7812CR SG7815ACP SG7815ACR SG7815ACT SG7815CP SG7815CR SG7815CT SG7818ACP SG7818ACR SG7818ACT SG7818CP SG7818CR SG7824ACP SG7824ACR SG7824ACT SG7824CP SG7824CR SG7905.2CP SG7905.2CR SG7905.2CT SG7905ACP SG7905ACR SG7905ACT SG7905CP SG7905CR SG7905CT SG7908CP SG7908CR SG7908CT SG7912ACP SG7912ACR SG7912ACT
MC1723CP MC1741CP1 LM308AN MC7805ACT MC7805ACT MC7805ACT MC7805CT MC7806ACT MC7806ACT MC7806ACT MC7806CT MC7806CT MC7808ACT MC7808ACT MC7808CT MC7808CT MC7812ACT MC7812ACT MC7812ACT MC7812CT MC7812CT MC7815ACT MC7815ACT MC7815ACT MC7815CT MC7815CT MC7815CT MC7818ACT MC7818ACT MC7818ACT MC7818CT MC7818CT MC7824ACT MC7824ACT MC7824ACT MC7824CT MC7824CT MC7905.2CT MC7905.2CT MC7905.2CT MC7905ACT MC7905ACT MC7905ACT MC7905CT MC7905CT MC7905CT MC7908CT MC7908CT MC7908CT MC7912ACT MC7912ACT MC7912ACT
recommended designs.
MOTOROLA ANALOG DEVICE DATA
1-11
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
SG7912CP SG7912CR SG7912CT SG79015ACP SG7915ACR SG7915ACT SG7915CP SG7915CR SG7915CT SG7918CP SN75LBC086 SN75121N SN75126N SN75150N SN75154N SN75174N SN75175N SN75188N SN75189AN SN75189N SN75468N SN76591P SN76600P SSS201AP SSS301AP TA7504P TA7506P TA75071P TA75072P TA75074F TA75339F TA75339P TA75358CF TA75358CP TA75393F TA75393P TA75458F TA75458P TA75558P TA7555F TA7555P TA75902F TA76494P TA78005AP TA78006AP TA78008AP TA78012AP TA78015AP TA78018AP TA78024AP TA78L005AP TA78L005P
MC7912CT MC7912CT MC7912CT MC7915ACT MC7915ACT MC7915ACT MC7915CT MC7915CT MC7915CT MC7918CT MC34055DW MC3481/5P# MC3481/5P# MC1488P MC1489P MC75174BP SN75175N MC1488P MC1489AP MC1489P MC1413P MC1391P MC1350P LM201AN LM301AN MC1741CP1 LM301AN MC34001P MC34002P MC34004P LM339D LM339N LM358D LM358N LM393D LM393N MC1458D MC1458CP1 MC4558CP1 MC1455D MC1455P1 LM324D TL494IN MC7805CT MC7806CT MC7808CT MC7812CT MC7815CT MC7818CT MC7824CT MC78L05ACP MC78L05CP
TA78L008AP TA78L008P TA78L012AP TA78L012P TA78L015AP TA78L015P TA78L018AP TA78L018P TA78L024AP TA78L024P TA78M05P TA78M06P TA78M08P TA78M12P TA78M18P TA78M20P TA78M24P TA79005P TA79006P TA79008P TA79012P TA79015P TA79018P TA79024P TA79L005P TA79L012P TA79L015P TA79L018P TA79L024P TB920 TBA920S TCF5600 TD62003P/AP TD62479P TDA1085C TDA1085 TDA1185A TDA4817 TDC1018 TDC1048 TK115 TL022CP TL044CJ TL062ACP TL062CD TL062CP TL062VP TL064ACD TL064ACN TL064CD TL064CN TL064VN TL062ACP TL062CD TL062CP TL062VP TL064ACD TL064ACN TL064CD TL064CN TL064VN MC33264 TDA1185A# TCF5600 MC1413P MC1374P TDA1085C MC78M05CT MC78M06CT MC78M08CT MC78M12CT MC78M18CT MC78M20CT MC78M24CT MC7905CT MC7906CT MC7908CT MC7912CT MC7915CT MC7918CT MC7924CT
MC78L08ACP MC78L08CP MC78L12ACP MC78L12CP MC78L15ACP MC78L15CP MC78L18ACP MC78L18CP MC78L24ACP MC78L24CP
MC79L05CP MC79L12P MC79L15P MC79L18P MC79L24P MC1391P MC1391P
TDA1085C MC34261P MC10324P MC10319P LM358N LM324N
recommended designs.
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
TL071ACD TL071ACP TL071CD TL071CP TL072ACD TL072ACP TL072CD TL072CP TL074ACN TL074CN TL081ACD TL081ACP TL081CD TL081CP TL082ACP TL082CD TL082CP TL084ACN TL084CN TL431CD TL431CLP TL431CP TL431ILP TL431IP TL494CN TL494IN TL497CN TL594CN TL594IN TL780-05CKC TL780-12CKC TL780-15CKC TL7805ACKC TLC2272D TLC2272P TLC2274D TLC2274P µA1391PC µA1458CP µA1458CTC µA1458P µA1458TC µA2240PC µA301AT µA3026HM µA3045 µA3046DC µA3054DC µA311T µA317UC µA3303P µA3403P
TL071ACD TL071ACP TL071CD TL071CP TL072ACD TL072ACP TL072CD TL072CP TL074ACN TL074CN TL081ACD TL081ACP TL081CD TL081CP TL082ACP TL082CD TL082CP TL084ACN TL084CN TL431CD TL431CLP TL431CP TL431ILP TL431IP TL494CN TL494IN MC34063AP1 TL594CN TL594IN TL780-05CKC TL780-12CKC TL780-15CKC MC7805ACT MC33202D MC33202P MC33204D MC33204P MC1391P MC1458CP1 MC1458CP1 MC1458P1 MC1458P1 MC1455P1 LM301AN CA3054 MC3346P MC3346P CA3054 LM311N LM317T MC3303P MC3403P
µA4136PC µA431AWC µA4558TC µA494PC µA555TC µA556PC µA723CN µA723PC µA741CP µA742DC µA757DC µA757DM µA775PC µA776TC µA7805CKC µA7805UC µA7805UV µA7806CKC µA7806UC µA7806UV µA7808CKC µA7808UC µA7808UV µA7812CKC µA7812UC µA7812UV µA7815CKC µA7815UC µA7815UV µA7818CKC µA7818UC µA7818UV µA7824CKC µA7824UC µA7824UV µA78GU1C µA78GUC µA78L05ACLP µA78L05AWC µA78L05CLP µA78L05WC µA78L08ACLP µA78L08AWC µA78L08CLP µA78L12ACLP µA78L12AWC µA78L12CLP µA78L12WC µA78L15ACLP µA78L15AWC µA78L15CLP µA78L15WC MC78L15CP MC78L15ACP MC78L12CP MC78L08CP MC78L12ACP MC78L08ACP MC78L05CP MC78L05ACP LM339N MC1776CP1 MC7805CT MC7805CT MC7805BT MC7806CT MC7806CT MC7806BT MC7808CT MC7808CT MC7808BT MC7812CT MC7812CT MC7812BT MC7815CT MC7815CT MC7815BT MC7818CT MC7818CT MC7818BT MC7824CT MC7824CT MC7824BT TL431CP MC4558CP1 TL494CN MC1455P1 MC3456P MC1723CP MC1723CP MC1741CP1
MC4741CP
CA3059 MC1350P MC1350P
LM317T LM317T MC78L05ACP MC78L05CP MC78L08ACP
MC78L12ACP MC78L12CP MC78L15ACP MC78L15CP
recommended designs.
MOTOROLA ANALOG DEVICE DATA
1-13
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
µA78L18AWC µA78L24AWC µA78M05CKC µA78M05CKD µA78M05UC µA78M06CKC µA78M06CKD µA78M06UC µA78M08CKC µA78M08CKD µA78M08UC µA78M12CKC µA78M12CKD µA78M12UC µA78M15CKC µA78M15CKD µA78M15UC µA78M18UC µA78M20CKC µA78M20CKD µA78M20UC µA78M24CKC µA78M24CKD µA78M24UC µA78MGT2C µA78MGU1C µA78MGUC µA78S40PC µA78S40PV µA7905.2CKC µA7905CKC µA7905UC µA7906CKC µA7906UC µA7908CKC µA7912CKC µA7912UC µA7915CKC µA7915UC µA7918CKC µA7918UC µA7924CKC µA7924UC µA798TC µA79L05AWC µA79L05WC µA79L12AWC µA79L12WC µA79L15AWC µA79L15WC µA79M05AUC µA79M05CKC µA78S40PC µA78S40PV MC7905.2CT MC7905CT MC7905CT MC7906CT MC7906CT MC7908CT MC7912CT MC7912CT MC7915CT MC7915CT MC7918CT MC7918CT MC7924CT MC7924CT MC3458P1 MC79L05ACP MC79L05CP MC79L12ACP MC79L12CP MC79L15ACP MC79L15CP MC79M05CT MC79M05CT MC78M24CT MC78M20CT MC78M24CT MC78M15CT MC78M18CT MC78M20CT MC78M12CT MC78M15CT MC78M08CT MC78M12CT MC78M06CT MC78M08CT MC78M05CT MC78M06CT MC78L24ACP MC78M05CT
MC78L18ACP
µA79M06AUC µA79M06CKC µA79M06UC
MC79M06CT MC79M06CT MC79M06CT MC79M08CT MC79M08CT MC79M08CT MC79M12CT MC79M12CT MC79M18CT MC79M18CT MC79M24CT MC79M24CT MC79M24CT MC3488AP1 UAA1016B MC33023DW MC33023P MC33023FN MC33025DW MC33025P MC33025FN UC2842AD UC2842AN UC2842BD UC2842BN UC2842AD UC2842AN UC2843AD UC2843AN UC2843BD UC2843BN UC2843AD UC2843AN UC2844BD UC2844BN UC2844D UC2844N UC2845BD UC2845BN UC2845D UC2845N LM317T LM337T SG3525AN SG3526N SG3527AN MC34023DW MC34023P MC34023FN MC34025DW MC34025P MC34025FN
MC78M05CT
µA79M08AUC µA79M08CKC µA79M08UC
MC78M06CT
µA79M12AUC µA79M12CKC µA79M18AUC
MC78M08CT
µA79M18UC µA79M24AUC µA79M24CKC
MC78M12CT
µA79M24UC µA9636ATC UAA1016B
MC78M15CT
UC2823DW UC2823N UC2823Q UC2825DW
MC78M20CT
UC2825N UC2825Q UC2842AD
MC78M24CT LM317T LM317T LM317MT
UC2842AN UC2842BD UC2842BN UC2842D UC2842N UC2843AD UC2843AN UC2843BD UC2843BN UC2843D UC2843N UC2844BD UC2844BN UC2844D UC2844N UC2845BD UC2845BN UC2845D UC2845N UC317T UC337T UC3525AN UC3526N UC3527AN UC3823DW UC3823N UC3823Q UC3825DW UC3825N UC3825Q
recommended designs.
1-14
MOTOROLA ANALOG DEVICE DATA
Cross References (continued)
Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement Industry Part Number Motorola Nearest Replacement Motorola Similar Replacement
UC3842AD UC3842AN UC3842BD UC3842BN UC3842D UC3842N UC3843AD UC3843AN UC3843BD UC3843BN UC3843D UC3843N UC3844BD UC3844BN UC3844D UC3844N UC3845BD UC3845BN UC3845D
UC3842AD UC3842AN UC3842BD UC3842BN UC3842AD UC3842AN UC3843AD UC3843AN UC3843BD UC3843BN UC3843AD UC3843AN UC3844BD UC3844BN UC3844D UC3844N UC3845BD UC3845BN UC3845D
UC3845N UC494ACN UC494CN UCN5816A ULN2003A ULN2004A ULN2068BB ULN2068NE ULN2151H ULN2151M ULN2803A ULN2804A ULN8126A ULS2151M ULX8161M UPD6950C UVC3101 XR082CP XR084CP
UC3845N TL594CN TL494CN MC34142FN MC1413 MC1416 ULN2068B# ULN2068B# MC1741CP1 MC1741CP1 ULN2803A ULN2804A SG3526N MC1741CP1 MC34060AP MC10319P MC10319P TL082CP TL084CN
recommended designs.
MOTOROLA ANALOG DEVICE DATA
1-15
1-16
MOTOROLA ANALOG DEVICE DATA
Amplifiers Comparators
Brief
over decades, Motorola continually refined updated integrated circuit technologies, analog circuit design techniques processes response needs marketplace. enhanced performance newer operational amplifiers comparators come through innovative application these technologies, designs processes. Some early designs still available giving new, higher performance operational amplifier comparator circuits. Motorola pioneered JFET inputs, temperature coefficient input stages, Miller loop compensation, output stages, dual-doublet frequency compensation analog "in-the-package" trimming resistors produce superior high performance operational amplifiers comparators, operating many cases from single supply with input offset, noise, power, high output swing, high slew rate high gain-bandwidth product reasonable cost customer. Present operational amplifiers comparators find applications market segments including motor controls, instrumentation, aerospace, automotive, telecommunications, medical, consumer products. Page Operational Amplifiers Single Dual Quad High Frequency Amplifiers Miscellaneous Amplifiers Bipolar CMOS Comparators Single Dual Quad Package Overview Device Listing Related Literature
MOTOROLA ANALOG DEVICE DATA
Operational Amplifiers
Motorola offers broad line bipolar operational amplifiers meet wide range applications. From low-cost industry-standard types high precision circuits, span encompasses large range performance capabilities. These Analog integrated circuits available single, dual quad monolithic devices variety temperature ranges package styles. Most devices obtained unencapsulated ``chip'' form well. price delivery information chips, please contact your Motorola Sales Representative Distributor.
Table Single Operational Amplifiers
(µA) (mV) TCVIO (µV/°C) (µV/ (nA) Avol (V/mV) (MHz) (V/µs) Supply Voltage Description
Device
Suffix/ Package
Noncompensated
Commercial Temperature Range (0°C +70°C) LM301A LM308A 0.25 ±3.0 ±3.0 ±3.0 General Purpose Precision N/626, D/751 N/626, D/751
Industrial Temperature Range 25°C +85°C) LM201A 0.075 General Purpose N/626, D/751
Internally Compensated
Commercial Temperature Range (0°C +70°C) LF351 LF411C LF441C LM11C LM11CL MC1436, MC1741C MC1776C MC3476 MC34001 MC34001B MC34071 MC34071A MC34080B MC34081B MC34181 TL071AC TL071C TL081AC TL081C 0.04 0.003 0.05 0.05 ±5.0 +5.0 ±5.0 ±3.0 ±3.0 ±3.0 ±1.2 ±1.5 ±5.0 ±5.0 +3.0 +3.0 ±5.0 ±5.0 ±2.5 ±5.0 ±5.0 ±5.0 ±5.0 JFET Input JFET Input, Offset, Drift Power, JFET Input Precision Precision High Voltage General Purpose µPower, Programmable Cost, µPower, Programmable JFET Input JFET Input High Performance Single Supply Decompensated High Speed, JFET Input Power, JFET Input Noise, JFET Input Noise, JFET Input JFET Input JFET Input N/626, D/751 N/626, D/751 N/626, D/751 N/626 N/626 P1/626, D/751 P1/626, D/751 P1/626, D/751 P1/626 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751
Automotive Temperature Range 40°C +85°C) MC33071 MC33071A MC33171 MC33181 0.05 +3.0 +3.0 +3.0 ±2.5 ±0.9 ±0.9 ±6.0 ±6.0 High Performance Single Supply Power, Single Supply Power, JFET Input P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751
Extended Automotive Temperature Range 40°C +105°C) MC33201 Rail-to-Rail P/626, D/751
Military Temperature Range 55°C +125°C) MC33201 Rail-to-Rail P/626, D/751
MOTOROLA ANALOG DEVICE DATA
Table Dual Operational Amplifiers
(µA) (mV) TCVIO (µV/°C) (µV/ (nA) Avol (V/mV) (MHz) (V/µs) Supply Voltage Description
Device
Suffix/ Package
Internally Compensated
Commercial Temperature Range (0°C +70°C) LF353 LF412C LF442C LM358 LM833 MC/MCT1458 MC1458C MC3458 0.25 31.6 ±5.0 +5.0 ±5.0 ±1.5 +3.0 +2.5 ±3.0 ±3.0 ±1.5 +3.0 ±3.0 ±3.0 ±5.0 ±5.0 +3.0 +3.0 ±5.0 ±5.0 ±2.5 ±2.5 ±2.5 ±5.0 ±5.0 ±5.0 ±5.0 ±1.5 +3.0 ±1.5 +3.0 +3.0 +3.0 ±2.0 JFET Input JFET Input, Offset, Drift Power, JFET Input Single Supply, Power Consumption Noise, Audio Dual MC1741 General Purpose Split Supplies, Single Supply, Crossover Distortion High Frequency High Frequency JFET Input JFET Input High Performance Single Supply High Speed, JFET Input Decompensated Power, JFET Input Power, JFET Input Power, JFET Input Noise, JFET Input Noise, JFET Input JFET Input JFET Input N/626, D/751 N/626, D/751 N/626 N/626, D/751 N/626, D/751 P1/626, D/751 P1/626, D/751 P1/626, D/751 P1/626 P1/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626 P/626 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751
MC4558AC MC/MCT4558C MC34002 MC34002B MC34072 MC34072A MC34082 MC34083B MC34182 TL062AC TL062C TL072AC TL072C TL082AC TL082C
0.05
Industrial Temperature Range 25°C +85°C) LM258 0.15 Split Single Supply N/626, D/751
Automotive Temperature Range 40°C +85°C) MC3358 MC33072 MC33072A MC33076 0.50 Split Single Supply High Performance Single Supply High Output Current P1/626 P/626, D/751 P/626, D/751 P1/626, P2/648C, D/751 P/626, D/751 N/626, D/751 P/626, D/751
MC33077 MC33078 MC33102 (Awake) (Sleep) MC33172 MC33178 MC33182 MC33272A MC33282 TL062V
0.10
0.56
0.05
31.6 31.6
11.5
±2.5 ±5.0 ±2.5 ±2.5 +3.0 ±2.0 ±2.5 ±1.5 ±2.5 ±2.5
Noise Noise Sleep-ModeMicropower Power, Single Supply High Output Current Power, JFET Input High Performance Input, Offset JFET Power, JFET Input
P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751 P/626, D/751
MOTOROLA ANALOG DEVICE DATA
Table Dual Operational Amplifiers (continued)
(µA) (mV) TCVIO (µV/°C) (nA) Avol (V/mV) (MHz) (V/µs) Supply Voltage ±0.9 ±6.0 Description
Device
Suffix/ Package
Extended Automotive Temperature Range 40°C +105°C) MC33202 MC33206 LM2904 Rail-to-Rail Rail-to-Rail with Enable Split Single Supply P/626, D/751 P/646, D/751A N/626, D/751
0.25
±1.5 +3.0
Extended Automotive Temperature Range 40°C +125°C) TCA0372 LM2904V 0.25 +5.0 ±1.5 +3.0 ±0.9 ±6.0 Power Amp, Single Supply Split Single Supply DP2/648, DW/751G N/626, D/751
Military Temperature Range 55°C +125°C) MC33202 Rail-to-Rail P/626, D/751
Table Quad Operational Amplifiers
(µA) (mV) TCVIO (µV/°C) (nA) Avol (V/mV) (MHz) (V/µs) Supply Voltage Description
Device
Suffix/ Package
Internally Compensated
Commercial Temperature Range (0°C +70°C) LF347 LF347B LF444C LM324, LM348 LM3900 MC3403 MC4741C MC34004 MC34004B MC34074 MC34074A MC34084 MC34085B MC34184 TL064AC TL064C TL074AC TL074C TL084AC TL084C 0.25 0.05 ±5.0 ±5.0 ±5.0 ±1.5 +3.0 ±3.0 +3.0 ±1.5 +3.0 ±3.0 ±5.0 ±5.0 +3.0 +3.0 ±5.0 ±5.0 ±2.5 ±2.5 ±2.5 ±5.0 ±5.0 ±5.0 ±5.0 ±1.5 +3.0 ±2.0 +4.0 ±1.5 +3.0 JFET Input JFET Input Power, JFET Input Power Consumption Quad MC1741 Crossover Distortion Quad MC1741 JFET Input JFET Input High Performance Single Supply High Speed, JFET Input Decompensated Power, JFET Input Power, JFET Input Power, JFET Input Noise, JFET Input Noise, JFET Input JFET Input JFET Input N/646 N/646 N/646, D/751A N/646, D/751A D/751A P/646, D/751A P/646, D/751A P/646 P/646 P/646, D/751A P/646, D/751A P/646, DW/751G P/646, DW/751G P/646, D/751A N/646, D/751A N/646, D/751A N/646 N/646 N/646 N/646
Industrial Temperature Range 25°C +85°C) LM224, 0.15 Split Supplies Single Supply N/646, D/751A
Automotive Temperature Range 40°C +85°C) MC3301/ LM2900 MC3303 Norton Input Differential General Purpose P/646 N/646 P/646, D/751A
MOTOROLA ANALOG DEVICE DATA
Table Quad Operational Amplifiers (continued)
(µA) (mV) TCVIO (µV/°C) 0.56 (nA) 0.05 Avol (V/mV) (MHz) 31.6 31.6 (V/µs) 11.5 Supply Voltage +3.0 +3.0 ±5.0 +3.0 ±2.0 ±2.5 ±1.5 ±2.5 ±2.5 ±0.9 ±0.9 +1.8 ±1.5 +3.0 ±6.0 ±6.0 Description High Performance, Single Supply High Performance Noise Power, Single Supply High Output Current Power, JFET Input High Performance Input, Offset JFET Power, JFET Input
Device MC33074 MC33074A MC33079 MC33174 MC33179 MC33184 MC33274A MC33284 TL064V
Suffix/ Package P/646, D/751A P/646, D/751A N/646, D/751A P/646, D/751A P/646, D/751A P/646, D/751A P/646, D/751A P/646, D/751A N/646, D/751A
Extended Automotive Temperature Range 40°C +105°C) MC33204 MC33207 MC33304 LM2902 Rail-to-Rail Rail-to-Rail with Enable Sleepmode, Rail-to-Rail Differential Power P/646, D/751A P/648, D/751B P/646, D/751A N/646, D/751A
Extended Automotive Temperature Range 40°C +125°C) LM2902V ±1.5 +3.0 ±0.9 ±6.0 Differential Power N/646, D/751A
Military Temperature Range 55°C +125°C) MC33204 Rail-to-Rail P/646, D/751A
High Frequency Amplifiers
variety high frequency circuits with features ranging from cost simplicity multifunction versatility marks Motorola's line integrated amplifiers. Devices described here intended industrial communications applications. devices especially dedicated consumer products, i.e., entertainment radio. (See Consumer Electronics Circuits section.) Amplifiers. These parts recommended applications through MHz. best high frequency performance obtained using physically smaller SOIC version (shorter leads) MC1350D. There currently other like these, because other manufacturers have dropped their copies. Applications include variable gain video instrumentation amplifiers, (Intermediate Frequency) amplifiers radio receivers, transmitter power output control. Many uses will found medical instrumentation, remote monitoring, video/graphics processing, variety communications equipment. family parts using same basic (identical circuit with slightly different test parameters) listed following table.
Amplifiers MC1490/MC1350 Family Wideband
General Purpose Amplifiers
MC1490 MC1350 family basic building blocks (Automatic Gain Controlled) RF/Video
Table High Frequency Amplifier Specifications
Operating Temperature Range +85°C MC1490 +70°C MC1350 (dB) Bandwidth Typical VCC/VEE (Vdc) Minimum +6.0 Maximum Suffix/ Package P/626, D/751 P/626
MOTOROLA ANALOG DEVICE DATA
Miscellaneous Amplifiers
Motorola provides several Bipolar CMOS special purpose amplifiers which fill specific needs. These devices range from power CMOS programmable amplifiers comparators variable-gain bipolar power amplifiers.
MC3405 Dual Operational Amplifier Dual Voltage Comparator This device contains Differential Input Operational Amplifiers Comparators; each capable single supply operation. This operational amplifier-comparator circuit will find applications general purpose product automotive circuits industrial ``building block.''
Output Inputs
Comp
Output
Inputs Inputs Output VEE/Gnd
Inputs
Comp
Output
Table Bipolar
(µA) (mV) (nA) Avol (V/mV) Response (µs) Supply Voltage Single Dual ±1.5 Suffix/ ffix/ Package P/646
Device MC3405
MC14573 Quad Programmable Operational Amplifier MC14575 Dual Programmable Operational Amplifier Dual Programmable Comparator MC14576B/MC14577B Dual Video Amplifiers
Table CMOS
Function Operational Amplifiers Operational Amplifiers Comparators Video Amplifiers Quantity Package Single Supply Voltage Range V(1) Dual Supply Voltage Range ±1.5 ±7.5 ±1.5 ±7.5 ±2.5 ±6.0 V(2) Frequency Range Device MC14573 MC14575 MC14576C MC14577C Suffix/ Package P/648, D/751B P/648, D/751B P/626, F/904
surface mount package. ±2.5 ±5.0 surface mount package.
MOTOROLA ANALOG DEVICE DATA
Comparators
Table Single Comparators
(µA) (mV) (µA) (V/V) (mA) Response Time (ns) Supply Voltage Temperature Range (°C) Suffix/ ffix/ Package
Device
Description
Bipolar
LM211 LM311 0.25 0.01 0.05 +15, With strobe, will operate from single supply D/751 N/626, D/751
CMOS
MC14578 Requires only from single-ended supply P/648, D/751B
Table Dual Comparators
(µA) (mV) (µA) (V/V) (mA) Response Time (ns) Supply Voltage Temperature Range (°C) Suffix/ ffix/ Package
Device
Description
Bipolar
LM293 LM393 LM393A LM2903 LM2903V MC3405 0.25 0.05 1300 1300 1300 1500 1500 1300 ±1.5 Designed single split supply operation, input eration, common mode includes ground (negative supply) This device contains arators amps comparators single package +105 +125 N/626, D/751
0.05
±1.5 ±7.5
P/646
CMOS
MC14575 0.001 0.0001 1000 ±1.5 ±7.5 This device contains amps comparators single package P/648, D/751B
Table Quad Comparators
(µA) (mV) (µA) (V/V) (mA) Response Time (ns) Supply Voltage Temperature Range (°C) Suffix/ ffix/ Package
Device
Description
Bipolar
LM239 LM239A LM339 LM339A LM2901 LM2901V MC3302 MC3431 MC3432 MC3433 0.25 0.05 1300 ±1.5 Designed single split supply operation, input includes common mode ground (negative supply) +125 N/646, D/751A
P/646 P/648
+5.0, -5.0
High speed comparator/ sense lifier amplifier
CMOS
MC14574 0.001 0.0001 1000 ±1.5 ±7.5 Externally programmable power dissipation with resistors P/648, D/751B
MOTOROLA ANALOG DEVICE DATA
Amplifiers Comparators Package Overview
CASE SUFFIX
CASE SUFFIX
CASE 648, 648C DP2, SUFFIX
CASE SUFFIX
CASE 751A SUFFIX
CASE 751B SUFFIX
CASE 751G SUFFIX
CASE SUFFIX
MOTOROLA ANALOG DEVICE DATA
Device Listing Related Literature
Amplifiers
Device
LF347, LF351, LF353 LF411C, LF412C LF441C, LF442C, LF444C LM11C, LM301A, LM201A LM308A LM324, LM324A, LM224, LM2902, LM348 LM358, LM258, LM2904, LM833 MC1436, MC1458, MCT1458, MC1490 MC1741C MC1776C MC3301, LM2900, LM3900 MC3403, MC3303 MC3458, MC3358 MC3476 MC4558AC, MC4558C MCT4558C MC4741C MC33076 MC33077 MC33078, MC33079 MC33102 MC33171, MC33172, MC33174 MC33178, MC33179 MC33201, MC33202, MC33204 MC33206, MC33207 MC33272A, MC33274A MC33282, MC33284 MC33304 MC34001, MC34002, MC34004, MC34071, MC33071, MC34080 thru MC34085 MC34181, MC33181,
Function
JFET Input Operational Amplifiers Offset, Drift JFET Input Operational Amplifiers Power JFET Input Operational Amplifiers Precision Operational Amplifiers Operational Amplifiers Precision Operational Amplifier Quad Power Operational Amplifiers
Page
2-11 2-13 2-17 2-24 2-30 2-34 2-45
Differential Input Operational Amplifier 2-56 Dual Power Operational Amplifiers 2-62 Dual Noise, Audio Amplifier 2-73 High Voltage, Internally Compensated Operational Amplifiers 2-79 Internally Compensated, High Performance Dual Operational Amplifiers 2-84 Internally Compensated, High Performance Dual Operational Amplifier 2-89 RF/IF/Audio Amplifier 2-92 Internally Compensated, High Performance Operational Amplifier 2-99 Micropower Programmable Operational Amplifier 2-104 Quad Single Supply Operational Amplifiers 2-113 Quad Power Operational Amplifiers 2-123 Dual, Power Operational Amplifiers 2-137 Cost Programmable Operational Amplifier 2-144 Dual Wide Bandwidth Operational Amplifiers 2-149 Dual Wide Bandwidth Operational Amplifier 2-153 Differential Input Operational Amplifier 2-156 Dual High Output Current, Power, Noise Bipolar Operational Amplifier 2-161 Dual, Noise Operational Amplifier 2-169 Dual/Quad Noise Operational Amplifiers 2-180 Sleep-ModeTwo-State, Micropower Operational Amplifier 2-189 Power, Single Supply Operational Amplifiers 2-201 High Output Current Power, Noise Bipolar Operational Amplifiers 2-208 Rail-to-Rail Operational Amplifiers 2-218 Rail-to-Rail Operational Amplifiers with Enable Feature 2-227 Single Supply, High Slew Rate Input Offset Voltage, Bipolar Operational Amplifiers 2-237 Input Offset, High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifiers 2-246 Voltage Rail-to-Rail SLEEPMODEOperational Amplifier 2-254 JFET Input Operational Amplifiers 2-265 High Slew Rate, Wide Bandwidth, Single Supply Operational Amplifiers 2-272 High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifiers 2-288 Power, High Slew Rate, Wide Bandwidth, JFET Input Operational Amplifiers 2-299
MOTOROLA ANALOG DEVICE DATA
Amplifiers
Device
TCA0372 TL062, TL064 TL071C, TL072C, TL074C, TL081C, TL082C, TL084C,
Function
Page
Dual Power Operational Amplifier 2-308 Power JFET Input Operational Amplifiers 2-312 Noise, JFET Input Operational Amplifiers 2-319 JFET Input Operational Amplifiers 2-325
Comparators
LM311, LM211 LM339, LM239, LM2901, MC3302 LM393, LM293, LM2903, MC3405 Highly Flexible Voltage Comparators 2-39 Quad Single Supply Comparators 2-52 Offset Voltage Dual Comparators 2-68 Dual Operational Amplifier Dual Comparator 2-129
ADDENDUM
Operational Amplifier Application Information 2-331
RELATED APPLICATION NOTES
Note
AN587
Title
Related Device
Analysis Design Current Source MC1741C
2-10
MOTOROLA ANALOG DEVICE DATA
LF347, LF351 JFET Input Operational Amplifiers
These cost JFET input operational amplifiers combine state-of-the-art analog technologies single monolithic integrated circuit. Each internally compensated operational amplifier well matched high voltage JFET input devices input offset voltage. JFET technology provides wide bandwidths fast slew rates with input bias currents, input offset currents, supply currents. These devices available single, dual quad operational amplifiers which pin-compatible with industry standard MC1741, MC1458, MC3403/LM324 bipolar devices. Input Offset Voltage (LF347B)
LF353
FAMILY JFET OPERATIONAL AMPLIFIERS
SUFFIX PLASTIC PACKAGE CASE
Input Bias Current: Input Noise Voltage: Wide Gain Bandwidth: High Slew Rate: 13V/µs Supply Current: Amplifier High Input Impedance: 1012 High Common Mode Supply Voltage Rejection Ratios:
SUFFIX PLASTIC PACKAGE CASE (SO-8)
CONNECTIONS
Offset Null Invt Input Noninvt Input Output Inputs
Output Offset Null
LF351 (Top View)
Output
LF353 (Top View)
MAXIMUM RATINGS
Rating Supply Voltage Differential Input Voltage Input Voltage Range (Note Output Short Circuit Duration (Note Power Dissipation +25°C Derate above =+25°C Operating Ambient Temperature Range Operating Junction Temperature Range Storage Temperature Range Symbol VIDR 1/JA Tstg Value Continuous +150 mW/°C Unit
Inputs
SUFFIX PLASTIC PACKAGE CASE
CONNECTIONS
Inputs
Inputs
Inputs
Inputs
NOTES: Unless otherwise specified, absolute maximum negative input voltage limited negative power supply. amplifier output shorted ground indefinitely. However, more than amplifier output shorted simultaneously, maximum junction temperature rating exceeded.
(Top View)
ORDERING INFORMATION
Device LF351D LF351N LF353D LF353N LF347BN LF347N Operating Function Temperature Range Single Single Dual Dual Quad Quad +70°C Package SO-8 Plastic SO-8 Plastic Plastic Plastic
MOTOROLA ANALOG DEVICE DATA
2-11
LF347, LF351 LF353
ELECTRICAL CHARACTERISTICS (VCC 25°C, unless otherwise noted.)
LF347B Characteristic Input Offset Voltage +25°C +70°C Avg. Temperature Coefficient Input Offset Voltage +70°C Input Offset Current (VCM Note +25°C +70°C Input Bias Current (VCM Note +25°C +70°C Input Resistance Common Mode Input Voltage Range Large-Signal Voltage Gain +25°C +70°C Output Voltage Swing Common Mode Rejection Supply Voltage Rejection Supply Current LF347 LF351 LF353 Short Circuit Current Slew Rate Gain-Bandwidth Product Equivalent Input Noise Voltage 1000 Equivalent Input Noise Current 1000 Channel Separation (LF347, LF353) (Input Referred) Symbol VIO/T VICR AVOL PSRR 0.01 -120 0.01 -120 V/µs 1012 1012 V/mV µV/°C LF347, LF351, LF353 Unit
Typical Characteristic Performance Curves, refer MC34001, 34002, 34004 data sheet. NOTE: Input bias currents JFET input amps approximately double every 10°C rise junction temperature. maintain junction temperatures close ambient possible, pulse techniques utilized during test.
MOTOROLA ANALOG DEVICE DATA
LF411C LF412C Offset, Drift JFET Input Operational Amplifiers
Through innovative design concepts precision matching this monolithic high speed JFET input operational amplifier family offers very input offset voltage well temperature coefficient input offset voltage. amplifier requires less than amplifier supply current exhibits greater than gain bandwidth product more than V/µs slew rate. Through JFET inputs amplifier very input bias currents input offset currents. amplifier utilizes industry standard pinouts which afford user opportunity directly upgrade circuit performance without need redesign. LF411C LF412C available industry standard plastic 8-pin SO-8 surface mount packages, specified over commercial temperature range. Input Offset Voltage: (Single) (Dual) T.C. Input Offset Voltage: µV/°C
SINGLE/DUAL JFET OPERATIONAL AMPLIFIERS
SEMICONDUCTOR TECHNICAL DATA
Input Offset Current: Input Bias Current: Input Noise Voltage: Input Noise Current: 0.01 Total Harmonic Distortion: 0.05% Supply Current: High Input Resistance: 1012 Wide Gain Bandwidth: High Slew Rate: V/µs (Typ) Fast Settling Time: within 0.01%) Internally Compensated
SUFFIX PLASTIC PACKAGE CASE
SUFFIX PLASTIC PACKAGE CASE (SO-8)
CONNECTIONS LF411C
Offset Null
Output Offset Null
ORDERING INFORMATION
Device LF411CD LF411CN LF412CD LF412CN Dual +70°C Function Single Operating Temperature Range Package SO-8 Plastic SO-8 Plastic
Invt Input Noninvt Input
(Single, View)
LF412C
Output Inputs
Output Inputs
(Dual, View)
MOTOROLA ANALOG DEVICE DATA
2-13
LF411C LF412C
MAXIMUM RATINGS
Rating Supply Voltages Input Differential Voltage Range (Note Input Voltage Range (Note Output Short Circuit Duration (Note Maximum Junction Temperature Operating Ambient Temperature Range Thermal Resistance (Junction-to-Ambient) Storage Temperature Maximum Power Dissipation LF411CN/412CN LF411CD/412CD Symbol VCC, VIDR Tstg Value Indefinite +150 +150 (Note Unit °C/W
NOTES: Input voltages should exceed VEE. Power dissipation must considered ensure maximum junction temperature (TJ) exceeded.
Representative Schematic Diagram (Each Amplifier)
Output Inputs
Offset Null LF411C Only Bias Circuitry Common Amplifiers
2-14
MOTOROLA ANALOG DEVICE DATA
LF411C LF412C
ELECTRICAL CHARACTERISTICS (VCC 70°C, unless otherwise noted.)
Characteristic Input Offset Voltage LF411 LF412 Average Temperature Coefficient Input Offset Voltage Input Offset Current (VCM LF411 25°C 70°C LF412 25°C 70°C Input Bias Current (VCM LF411 25°C 70°C LF412 25°C 70°C Large Signal Voltage Gain LF411 25°C 70°C LF412 25°C 70°C Output Voltage Swing (VID ±1.0 LF411 LF412 Common Mode Input Voltage Range LF411 LF412 Common Mode Rejection (VCM LF411 LF412 Power Supply Rejection (Note (VCC +5.0 -5.0 LF411 LF412 Power Supply Current LF411 LF41NOTE: Measured with simultaneously varied.
Symbol |VIO|
+13.9 -14.7 +14.0 -14.0
Unit
AVOL VICR
µV/°C
V/mV
MOTOROLA ANALOG DEVICE DATA
2-15
LF411C LF412C
ELECTRICAL CHARACTERISTICS (VCC 25°C, unless otherwise noted.)
Characteristic Slew Rate (Vin +1.0) LF411 LF412 Gain Bandwidth Product LF411 LF412 Channel Separation kHz, LF412) Differential Input Resistance (VCM Equivalent Input Voltage Noise kHz) LF411 LF412 Equivalent Input Noise Current kHz) LF411 LF412 Symbol 0.01 0.01 -120 1012 Unit V/µs
2-16
MOTOROLA ANALOG DEVICE DATA
Power JFET Input Operational Amplifiers
These JFET input operational amplifiers designed power applications. They feature high input impedance, input bias current input offset current. Advanced design techniques allow higher slew rates, gain bandwidth products output swing. LF441C device provides external null adjustment input offset voltage. These devices specified over commercial temperature range. available plastic dual in-line SOIC packages. Supply Current: µA/Amplifier
LF441C LF442C LF444C
POWER JFET INPUT OPERATIONAL AMPLIFIERS
SEMICONDUCTOR TECHNICAL DATA
Input Bias Current: High Gain Bandwidth: High Slew Rate: V/µs High Input Impedance: 1012 Large Output Voltage Swing: Output Short Circuit Protection
SUFFIX PLASTIC PACKAGE CASE
SUFFIX PLASTIC PACKAGE CASE (SO-8)
Representative Schematic Diagram (Each Amplifier)
CONNECTIONS
Offset Null Inputs Output Output Inputs
Inputs
Output Offset Null
(Single, View)
Output Inputs
(Dual, View)
*Null adjustment pins LF441 only.
LF441C input offset voltage null adjust circuit
SUFFIX PLASTIC PACKAGE CASE
SUFFIX PLASTIC PACKAGE CASE 751A (SO-14)
CONNECTIONS ORDERING INFORMATION
Device LF441CD LF441CN LF442CD LF442CN LF444CD LF444CN Function Single Dual Quad Operating Temperature Range Package SO-8 Plastic +70°C SO-8 Plastic SO-14 Plastic Output Inputs Inputs
Output Inputs
Inputs
Output
Output
(Quad, View)
MOTOROLA ANALOG DEVICE DATA
2-17
LF441C LF442C LF444C
MAXIMUM RATINGS
Rating Supply Voltage (from VEE) Input Differential Voltage Range (Note Input Voltage Range (Notes Output Short Circuit Duration (Note Operating Junction Temperature (Note Storage Temperature Range Symbol VIDR Tstg Value Indefinite +150 +150 Unit
NOTES: Differential voltages noninverting input terminal with respect inverting input terminal. magnitude input voltage must never exceed magnitude supply whichever less. Power dissipation must considered ensure maximum junction temperature (TJ) exceeded (see Figure
ELECTRICAL CHARACTERISTICS (VCC 70°C, unless otherwise noted.)
Characteristic Input Offset Voltage Single: +25°C +70°C Dual: +25°C +70°C Quad: +25°C +70°C Average Temperature Coefficient Offset Voltage Input Offset Current (VCM +25°C +70°C Input Bias Current (VCM +25°C +70°C Common Mode Input Voltage Range +25°C) Large Signal Voltage Gain +25°C +70°C Output Voltage Swing Common Mode Rejection VICR, Power Supply Rejection Power Supply Current Load, Single Dual Quad Symbol VIO/T VICR AVOL 1000 +14.5 V/mV µV/°C Unit
2-18
MOTOROLA ANALOG DEVICE DATA
LF441C LF442C LF444C
ELECTRICAL CHARACTERISTICS (VCC +25°C, unless otherwise noted.)
Characteristic Slew Rate (Vin +1.0) Settling Time -1.0, Gain Bandwidth Product kHz) Equivalent Input Noise Voltage kHz) Equivalent Input Noise Current kHz) Input Resistance Channel Separation kHz) within within Symbol 0.01 1012 Unit
Figure Maximum Power Dissipation versus Temperature Package Variations
MAXIMUM POWER DISSIPATION (mW) 2400 2000 1600 1200 Plastic Package SO-14 SO-8 INPUT BIAS CURRENT (pA)
Figure Input Bias Current versus Input Common Mode Voltage
25°C
-5.0
AMBIENT TEMPERATURE (°C)
VICR, INPUT COMMON MODE VOLTAGE
Figure Input Bias Current versus Temperature
1000 IIB,INPUT BIAS CURRENT (nA) 0.01 SUPPLY CURRENT AMPLIFIER
Figure Supply Current versus Supply Voltage
125°C 25°C
55°C
0.001
AMBIENT TEMPERATURE (°C)
VCC, VEE, SUPPLY VOLTAGE
MOTOROLA ANALOG DEVICE DATA
2-19
LF441C LF442C LF444C
Figure Positive Input Common Mode Voltage Range versus Positive Supply Voltage
+VICR, POSITIVE INPUT COMMON MODE VOLTAGE RANGE -VICR,NEGATIVE INPUT COMMON MODE VOLTAGE RANGE -55°C 125°C -55°C 125°C
Figure Negative Input Common Mode Voltage Range versus Negative Supply Voltage
-5.0
VCC, POSITIVE SUPPLY VOLTAGE
-5.0 VEE, NEGATIVE SUPPLY VOLTAGE
Figure Output Voltage versus Output Source Current
OUTPUT VOLTAGE OUTPUT VOLTAGE 125°C 55°C 25°C
Figure Output Voltage versus Output Sink Current
55°C
125°C
25°C
-5.0
OUTPUT SOURCE CURRENT (mA)
-IO, OUTPUT SINK CURRENT (mA)
Figure Output Voltage Swing versus Supply Voltage
OUTPUT VOLTAGE SWING (Vp-p VCC, VEE, SUPPLY VOLTAGE OUTPUT VOLTAGE SWING (Vp-p -55°C 125°C
Figure Output Voltage Swing versus Load Resistance
25°C LOAD RESISTANCE
2-20
MOTOROLA ANALOG DEVICE DATA
LF441C LF442C LF444C
Figure Normalized Gain Bandwidth Product versus Temperature
AVOL OPEN LOOP VOLTAGE GAIN (dB) Phase 25°C FREQUENCY (MHz) Gain
GBW, NORMALIZED GAIN BANDWIDTH PRODUCT
Figure Open Loop Voltage Gain Phase versus Frequency
EXCESS PHASE (DEGREES)
AMBIENT TEMPERATURE (°C)
Figure Slew Rate versus Temperature
THD, OUTPUT DISTORTION SLEW RATE
Figure Total Output Distortion versus Frequency
25°C
+1.0 AMBIENT TEMPERATURE (°C)
FREQUENCY (Hz)
Figure Output Voltage Swing versus Frequency
VOL, OPEN LOOP VOLTAGE GAIN (dB) OUTPUT VOLTAGE SWING (Vp-p
Figure Open Loop Voltage Gain versus Frequency
+1.0 25°C FREQUENCY (Hz)
25°C FREQUENCY (Hz)
MOTOROLA ANALOG DEVICE DATA
2-21
LF441C LF442C LF444C
Figure Common Mode Rejection versus Frequency
CMR, COMMON MODE REJECTION (dB) PSR, POWER SUPPLY REJECTION (dB) ±1.5 25°C FREQUENCY (Hz)
Figure Power Supply Rejection versus Frequency
+PSR -PSR (VEE=±1.5 CCDM /ADM -PSR FREQUENCY (Hz) 25°C +PSR
(VCC ±1.5
Figure Input Noise Voltage versus Frequency
AVOL, OPEN LOOP VOLTAGE GAIN INPUT NOISE VOLTAGE FREQUENCY (Hz) 25°C
Figure Open Loop Voltage Gain versus Supply Voltage
25°C 125°C -55°C VCC, SUPPLY VOLTAGE
Figure Output Impedance versus Frequency
OUTPUT IMPEDANCE 1.0k FREQUENCY (Hz) 100k 1.0M
Figure Inverter Settling Time
OUTPUT VOLTAGE STEP FROM -5.0 SETTLING TIME (µs) 25°C
25°C
MOTOROLA ANALOG DEVICE DATA
LF441C LF442C LF444C
SMALL SIGNAL RESPONSE Figure Inverting
OUTPUT VOLTAGE mV/DIV) OUTPUT VOLTAGE mV/DIV) -1.0 25°C +1.0 25°C
Figure Noninverting
TIME (0.5 µs/DIV)
TIME (0.5 µs/DIV)
LARGE SIGNAL RESPONSE Figure Inverting
OUTPUT VOLTAGE (5.0 V/DIV) OUTPUT VOLTAGE (5.0 V/DIV) -1.0 25°C +1.0 25°C
Figure Noninverting
TIME (2.0 µs/DIV)
TIME (2.0 µs/DIV)
MOTOROLA ANALOG DEVICE DATA
2-23
LM11C, Precision Operational Amplifiers
LM11C precision, drift operational amplifier providing best features existing Bipolar amps. Implementation super gain transistors allows reduction input bias currents order magnitude over earlier devices such LM308A. Offset voltage drift have also been reduced. Although bandwidth slew rate great devices, input offset voltage, drift bias current inherently lower, particularly over temperature. Power consumption also much lower, eliminating warm-up stabilization time critical applications. Offset balancing provided, with range determined external resistance potentiometer. Compensation provided internally, external compensation added improved stability when driving capacitive loads. precision characteristics LM11C make this device ideal applications such charge integrators, analog memories, electrometers, active filters, light meters logarithmic amplifiers. Input Offset Voltage:
PRECISION OPERATIONAL AMPLIFIERS
SEMICONDUCTOR TECHNICAL DATA
Input Bias Current: Input Offset Current: Input Offset Voltage Drift: µV/°C Long-Term Stability: µV/year High Common Mode Rejection:
SUFFIX PLASTIC PACKAGE CASE
Representative Schematic Diagram
Balance 17.4 17.4
Compensation
CONNECTIONS
Balance
Balance Output Compensation
Inputs
(Top View)
Inputs Output
ORDERING INFORMATION
Device LM11CN,CLN
Operating Temperature Range +70°C
Package Plastic
2-24
MOTOROLA ANALOG DEVICE DATA
LM11C,
MAXIMUM RATINGS
Rating Power Supply Voltage Differential Input Current (Note Output Short Circuit Duration (Note Power Dissipation (Note Operating Junction Temperature Storage Temperature Range Symbol Tstg Value Indefinite +125 Unit
ELECTRICAL CHARACTERISTICS 25°C, unless otherwise noted Note
Characteristic Input Offset Voltage Tlow Thigh Input Offset Current Tlow Thigh Input Bias Current Tlow Thigh Input Resistance Input Offset Voltage Drift Tlow Thigh Input Offset Current Drift Tlow Thigh Input Bias Current Drift Tlow Thigh Large Signal Voltage Gain Vout Iout ±2.0 Tlow Thigh (Note Vout Iout ±0.5 Tlow Thigh Common Mode Rejection -12.5 Tlow Thigh Power Supply Rejection ±2.5 Tlow Thigh Power Supply Current Tlow Thigh Output Short Circuit Current 150°C, Output Shorted Ground Symbol VIO/T IIO/T IIB/T AVOL 1200 1011 1011 Unit µV/°C A/°C pA/°C V/mV
NOTES: inputs shunted back-to-back diodes over-voltage protection. Excessive current will flow input differential voltage excess limiting resistance used. Additionally, resistance each input suggested prevent possible latch-up initiated supply reversals. output current limited when shorted ground voltages less than supplies. Continuous overloads will require package dissipation considered heatsinking should provided when necessary. Devices must derated based package thermal resistance (see package outline dimensions). These specifications apply +2.0 -1.0 (VEE +2.5 -1.0 Tlow Thigh) ±2.5 Tlow Thigh: +70°C LM11C LM11C. Vout ±11.5 other conditions unchanged.
MOTOROLA ANALOG DEVICE DATA
2-25
LM11C,
Figure Input Bias Current versus Case Temperature
INPUT OFFSET CURRENT (pA) INPUT BIAS CURRENT (pA) VCC/VEE ±2.5 VCC/VEE ±2.0
Figure Input Offset Current versus Case Temperature
Curve VCC/VEE Curve VCC/VEE ±2.5
CASE TEMPERATURE (°C)
CASE TEMPERATURE (°C)
Figure Temperature Coefficient Input Offset Voltage versus Input Offset Voltage
TEMPERATURE COEFFICIENT INPUT OFFSET VOLTAGE INPUT NOISE VCC/VEE 125°C
Figure Spectral Noise Density
VCC/VEE
-8.0 -6.0 -4.0 -2.0 VIO, INPUT OFFSET VOLTAGE (mV) 25°C
FREQUENCY (Hz)
Figure Common Mode Limits versus Temperature
COMMON MODE LIMITS CMR, COMMON MODE REJECTION RATIO (dB) Positive
Figure Common Mode Rejection Slew Limit versus Frequency
VCC/VEE CMSL, COMMON MODE SLEW LIMIT (Vp-p)
-1.0
CMSL
±2.5 Negative
TEMPERATURE (°C)
0.01
FREQUENCY (Hz)
2-26
MOTOROLA ANALOG DEVICE DATA
LM11C,
Figure Open Loop Voltage Gain versus Supply Voltage
VOL, OPEN LOOP VOLTAGE GAIN (dB) Vsat VS(k) Vsat OUTPUT SATURATION VOLTAGE -1.0 -2.0 LOAD CURRENT (±mA) -55°C 125°C ±2.5 (125°C)
Figure Output Saturation versus Load Current
VCC/VEE, SUPPLY VOLTAGE (±V)
Figure Power Supply Rejection Ratio versus Frequency
PSR, POWER SUPPLY REJECTIOJN (dB) SUPPLY CURRENT FREQUENCY (Hz)
Figure Supply Current versus Supply Voltage
25°C 125°C -55°C
VCC/VEE, SUPPLY VOLTAGE (±V)
Figure Open Loop Voltage Gain Phase versus Frequency
AVOL, VOLTAGE GAIN (dB) 1000 VCC/VEE FREQUENCY (Hz) SLEW RATE (mV/ AVOL PHASE (DEGREES)
Figure Slew Rate versus External Compensation Capacitor
VCC/VEE
EXTERNAL COMPENSATION CAPACITOR (pF)
MOTOROLA ANALOG DEVICE DATA
2-27
LM11C,
Figure Closed Loop Output Impedance versus Frequency
OUTPUT IMPEDANCE 0.01 FREQUENCY (Hz) 1000 VCC/VEE Iout ±1.0
APPLICATIONS INFORMATION
extremely input bias currents this device, tempting remove bias current compensation resistor normally associated with summing amplifier configuration. Direct connection inputs impedance source ground should avoided when supply voltages greater than approximately used. potential problem involves reversal supply which cause excessive current flow second supply. Possible destruction could result second supply current limited approximately bypass capacitors greater than used supply bus. Disconnecting supply will generally cause reversal loading other supply within external circuitry. Although problem usually avoided placing clamp diodes across power supplies each printed circuit board, careful design will include sufficient resistance input leads limit current input leads pulled either supply internal currents. This precaution limited only LM11C. LM11C capable resolving picoampere level signals. Leakage currents external severely impair performance device. important that high quality insulating materials such teflon employed. Proper cleaning remove fluxes other residues from printed circuit boards, sockets device package necessary minimize surface leakage. When operating high humidity environments temperatures near 0°C, surface coating suggested moisture barrier. Leakage effects printed circuit boards reduced encircling inputs (both sides board) with conductive guard ring connected impedance potential nearly same that inputs. Guard ring electrical connections common operational amplifier configurations illustrated Figure Electrostatic shielding suggested high impedance circuits. Error voltages external circuitry generated thermocouple effects. Dissimilar metals along with temperature gradients error voltage ranging hundreds microvolts. Some best thermocouples junctions dissimilar metals made package pins printed circuit boards. Problems avoided keeping level circuitry away from heat generating elements. LM11C internally compensated, external compensation added improve stability, particularly when driving capacitive loads.
Figure Guard Ring Electrical Connections Common Amplifier Configurations
Summing (Inverting) Input Noninverting Voltage Follower
Output Input
Output Input
Output
2-28
MOTOROLA ANALOG DEVICE DATA
LM11C,
Figure Input Protection Summing (Inverting) Amplifier
Input Output
Figure Input Protection Voltage Follower
Input
Output
Current limited event input connected impedance source outside common mode range device. Current controlled supply reverses. affect normal operation.
Input current limited when input exceeds supply voltage, power supply turned off, output shorted.
Figure Cable Bootstrapping Input Shields
Output Input input shield bootstrapped voltage follower reduces input capacitance, leakage, spurious voltages from cable flexing. small capacitor from input ground will prevent instability.
Input Output
summing amplifier input virtual ground. Therefore shield grounded. small feedback capacitor will insure stability.
Figure Adjusting Input Offset Voltage with Balance Potentiometer
Minimum Adjustment Range (mV) ±0.4 ±1.0 ±2.0 ±5.0
Inputs
Output
Input offset voltage adjustment range function Balance Potentiometer Resistance indicated table above. potentiometer connected between ``Balance" pins.
MOTOROLA ANALOG DEVICE DATA
2-29
Operational Amplifiers
general purpose operational amplifier that allows user choose compensation capacitor best suited needs. With proper compensation, summing amplifier slew rates V/µs obtained. Input Offset Current: Maximum Over Temperature Range
LM301A LM201A
OPERATIONAL AMPLIFIERS
SEMICONDUCTOR TECHNICAL DATA
External Frequency Compensation Flexibility Class Output Provides Excellent Linearity Output Short Circuit Protection Guaranteed Drift Characteristics
Figure Standard Compensation Offset Balancing Circuit
Inverting Input Non- Inverting Input Balance Output Freq Compen
Figure Double-Ended Limit Detector
MZ4622 Equiv.
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Balance
-0.4
SUFFIX PLASTIC PACKAGE CASE (SO-8)
(Pins Shown Connected)
Figure Representative Circuit Schematic
Balance Compensation Inputs Output
CONNECTIONS
Balance Inputs
Compensation Output Balance
(Top View)
Device
ORDERING INFORMATION
Operating Temperature Range +70°C +85°C Package SO-8 Plastic SO-8 Plastic
Balance
LM301AD LM301AN LM201AD LM201AN
2-30
MOTOROLA ANALOG DEVICE DATA
LM301A LM201A
MAXIMUM RATINGS
Value Rating Power Supply Voltage Input Differential Voltage Input Common Mode Range (Note Output Short Circuit Duration Power Dissipation (Package Limitation) Plastic Dual-In-Line Package (LM201A/ Derate above +25°C 301A) Operating Ambient Temperature Range Storage Temperature Range Symbol VCC, VICR Tstg mW/°C LM201A Continuous LM301A Unit
+150
NOTE: supply voltages less than absolute maximum input voltage equal supply voltage.
ELECTRICAL CHARACTERISTICS +25°C, unless otherwise noted.) Unless otherwise specified, these specifications apply
supply voltages from LM201A, from LM301A. LM201A Characteristic Input Offset Voltage Input Offset Current Input Bias Current Input Resistance Supply Current VCC/VEE VCC/VEE Large Signal Voltage Gain (VCC/VEE Input Offset Voltage Input Offset Current Temperature Coefficient Input Offset Voltage TA(min) (max) Temperature Coefficient Input Offset Current +25°C (max) TA(min) 25°C Input Bias Current Large Signal Voltage Gain (VCC/VEE ±10V, Input Voltage Range VCC/VEE VCC/VEE Common Mode Rejection Supply Voltage Rejection Output Voltage Swing (VCC/VEE Supply Currents TA(max), VCC/VEE Symbol ICC,IEE V/mV LM301A Unit
following specifications apply over operating temperature range. VIO/T IIO/T AVOL VICR ICC,IEE 0.01 0.02 0.01 0.02 V/mV µV/°C nA/°C
MOTOROLA ANALOG DEVICE DATA
2-31
LM301A LM201A
Figure Minimum Input Voltage Range
VOR, OUTPUT VOLTAGE RANGE INPUT VOLTAGE RANGE Applicable Specified Operating Temperature Ranges Applicable Specified Operating Temperature Ranges
Figure Minimum Output Voltage Swing
Positive Negative LM201A only
Minimum Minimum VCC, -VEE), SUPPLY VOLTAGE LM201A only
VCC, -VEE), SUPPLY VOLTAGE
Figure Minimum Voltage Gain
VOLTAGE GAIN (dB) VCC, -VEE), SUPPLY VOLTAGE LM201A only SUPPLY CURRENTS (mA) Applicable Specified Operating Temperature Ranges
Figure Typical Supply Currents
LM201A only +25°C
VCC, -VEE), SUPPLY VOLTAGE
Figure Open Loop Frequency Response
VOLTAGE GAIN (dB) Gain Phase Single-Pole Compensation VOR, OUTPUT VOLTAGE RANGE
Figure Large Signal Frequency Response
Single-Pole Compensation
FREQUENCY (Hz)
FREQUENCY (Hz)
MOTOROLA ANALOG DEVICE DATA
LM301A LM201A
Figure Voltage Follower Pulse Response
VOR, VOLTAGE RANGE -2.0 -4.0 -6.0 -8.0 TIME (µs) Input Output Single-Pole Compensation VOLTAGE GAIN (dB) Gain Phase Feedforward Compensation PHASE (DEGREES)
Figure Open Loop Frequency Response
FREQUENCY (Hz)
Figure Large Signal Frequency Response
VOR, OUTPUT VOLTAGE RANGE VOR, OUTPUT VOLTAGE RANGE Feedforward Compensation -2.0 -4.0 -6.0 -8.0 FREQUENCY (Hz)
Figure Inverter Pulse Response
Feedforward Compensation Output
Input
TIME (µs)
Figure Single-Pole Compensation
Frequency Compensation
Figure Feedforward Compensation
Balance 2foR2
Balance
MOTOROLA ANALOG DEVICE DATA
2-33
LM308A Precision Operational Amplifier
LM308A operational amplifier provides high input impedance, input offset temperature drift, noise. These characteristics made possible special Super Beta processing technology. This amplifier particularly useful applications where high accuracy drift performance essential. addition high speed performance improved employing feedforward compensation techniques maximize slew rate without compromising other performance criteria. LM308A offers extremely input offset voltage drift specifications allowing usage even most critical applications without external offset nulling. Operation from Wide Range Power Supply Voltages
SUPER GAIN OPERATIONAL AMPLIFIER
SEMICONDUCTOR TECHNICAL DATA
Input Bias Offset Currents Input Offset Voltage Guaranteed Offset Voltage Drift Performance High Input Impedance
SUFFIX PLASTIC PACKAGE CASE
Frequency Compensation
Standard Compensation
Inverting Input Noninverting Input Compen
Modified Compensation
Inverting Input Output Noninverting Compen Input
Output Compen
SUFFIX PLASTIC PACKAGE CASE (SO-8)
CONNECTIONS
Compen Standard Feedforward Compensation
Input Compen Output Compen
Compen Output
Feedforward Compensations Decoupling Load Capacitance
Input 0.01 Compen Output Compen 0.01µF
Inputs
(Top View)
ORDERING INFORMATION
Device LM308AN LM308AD Operating Temperature Range +70°C Package Plastic SO-8
2-34
MOTOROLA ANALOG DEVICE DATA
LM308A
MAXIMUM RATINGS +25°C, unless otherwise noted.)
Rating Power Supply Voltage Input Voltage (See Note Input Differential Current Note Output Short Circuit Duration Operating Ambient Temperature Range Storage Temperature Range Junction Temperature Symbol VCC, Tstg Value Indefinite +150 +150 Unit
NOTES: supply voltages less than maximum input voltage equal supply voltage. inputs shunted with back-to-back diodes overvoltage protection. Therefore, excessive current will flow differential input voltage excess applied between inputs, unless some limiting resistance used.
ELECTRICAL CHARACTERISTICS (Unless otherwise noted these specifications apply supply voltages +5.0
-5.0 +25°C.) Input Offset Voltage Input Offset Current Input Bias Current Input Resistance Power Supply Currents (VCC Large Signal Voltage Gain (VCC following specifications apply over operating temperature range. Input Offset Voltage Input Offset Current Average Temperature Coefficient Input Offset Voltage (min) (max) Average Temperature Coefficient Input Offset Current Input Bias Current Large Signal Voltage Gain (VCC Input Voltage Range (VCC Common Mode Rejection Supply Voltage Rejection Output Voltage Range (VCC VICR IIO/T AVOL pA/°C V/mV VIO/T 0.73 µV/°C AVOL V/mV Characteristic Symbol ICC, ±0.3 ±0.8 Unit
MOTOROLA ANALOG DEVICE DATA
2-35
LM308A
Figure Maximum Equivalent Input Offset Voltage Error versus Input Resistance
0.25 0.20 0.10 0.05 0.15 INPUT OFFSET CURRENT (nA) EQUIVALENT INPUT OFFSET VOLTAGE (mV)
Figure Input Bias Input Offset Currents
INPUT BIAS CURRENT (nA) TEMPERATURE (°C)
INPUT RESISTANCE
Figure Voltage Gain versus Supply Voltages
SUPPLY CURRENTS AVOL VOLTAGE GAIN (dB) +25°C -55°C +70°C +125°C
Figure Power Supply Currents versus Power Supply Voltages
-55°C +25°C +70°C +125°C
VEE, SUPPLY VOLTAGES
VEE, SUPPLY VOLTAGES
Figure Open Loop Frequency Response
VOR, OUTPUT VOLTAGE RANGE Vp-p) AVOL VOLTAGE GAIN (dB) FREQUENCY (Hz)
Figure Large Signal Frequency Response
+25°C
FREQUENCY (Hz)
2-36
MOTOROLA ANALOG DEVICE DATA
LM308A
SUGGESTED DESIGN APPLICATIONS
INPUT GUARDING Special care must taken assembly printed circuit boards take full advantage input currents LM308A amplifier. Boards must thoroughly cleaned with alcohol blown with compressed air. After cleaning, boards should coated with epoxy silicone rubber prevent contamination. Even with properly cleaned coated boards, leakage currents cause trouble +125°C, particularly since input pins adjacent pins that supply potentials. This leakage significantly reduced using guarding lower voltage difference between inputs adjacent metal runs. guard, which conductive ring surrounding inputs, connected low-impedance point that approximately same voltage inputs. Leakage currents from high voltage pins then absorbed guard. Figure Sample Hold
Input LM101A equiv Sample Output Output
Figure Fast Summing Amplifier with Input Current
0.002
LM308A
Input 0.002
Compen
Power Bandwidth: Small Signal Bandwidth: Slew Rate: V/µs 10-8
addition increasing speed, LM101A raises high frequency gain, increases output drive capability eliminates thermal feedback.
Teflon, Polyethylene Polycarbonate Dielectric Capacitor
Figure Connection Input Guards Inverting Amplifier
Input Output Output Used compensate large source resistances. Input Note: must impedance. Input Output
Follower
Noninverting Amplifier
MOTOROLA ANALOG DEVICE DATA
2-37
LM308A
Representative Circuit Schematic
Compensation Compensation
17.4 17.4
Inputs Output
2-38
MOTOROLA ANALOG DEVICE DATA
Highly Flexible Voltage Comparators
ability operate from single power supply split supplies, commonly used with operational amplifiers, makes LM211/LM311 truly versatile comparator. Moreover, inputs device isolated from system ground while output drive loads referenced either ground, supply. This flexibility makes possible drive DTL, RTL, TTL, logic. output also switch voltages currents Thus LM211/LM311 used drive relays, lamps solenoids.
LM311 LM211
HIGH PERFORMANCE VOLTAGE COMPARATORS
SEMICONDUCTOR TECHNICAL DATA
Typical Comparator Design Configurations
Split Power Supply with Offset Balance Inputs Output Ground-Referred Load Inputs Load Referred Negative Supply Inputs Output Single Supply Output
SUFFIX PLASTIC PACKAGE CASE
Inputs
SUFFIX PLASTIC PACKAGE CASE (SO-8)
Output
CONNECTIONS
Input polarity reversed when used output.
Output Balance/Strobe Balance
Input polarity reversed when used output.
Inputs
Load Referred Positive Supply Strobe Capability Output Inputs
(Top View)
Inputs
Output
ORDERING INFORMATION
Strobe Device LM211D LM311D LM311N Operating Temperature Range +85°C +70°C Package SO-8 SO-8 Plastic
MOTOROLA ANALOG DEVICE DATA
2-39
LM311 LM211
MAXIMUM RATINGS +25°C, unless otherwise noted.)
Rating Total Supply Voltage Output Negative Supply Voltage Ground Negative Supply Voltage Input Differential Voltage Input Voltage (Note Voltage Strobe Power Dissipation Thermal Characteristics Plastic Derate Above +25°C Operating Ambient Temperature Range Operating Junction Temperature Storage Temperature Range Symbol +VEE -VEE 1/JA TJ(max) Tstg LM211 VCC-5 LM311 VCC-5 Unit mW/°C +150 +150
+150 +150
ELECTRICAL CHARACTERISTICS (VCC 25°C, unless otherwise noted [Note 1].)
LM211 Characteristic Input Offset Voltage (Note +25°C Tlow Thigh* Input Offset Current (Note +25°C Tlow Thigh* Input Bias Current +25°C Tlow Thigh* Voltage Gain Response Time (Note Saturation Voltage -5.0 25°C 25°C Tlow Thigh* 66.0 Isink Isink Strobe "On" Current (Note Output Leakage Current 25°C, Istrobe= 25°C, Istrobe= Tlow Thigh* Input Voltage Range (Tlow Thigh*) Positive Supply Current Negative Supply Current
Tlow
LM311 +13.0 +6.0 -5.0 -14.5 0.75 0.23 -14.7 13.8 +2.4 -1.3 +13.0 +7.5 -5.0 V/mV Unit
Symbol
0.75 0.23 -14.7 13.8 +2.4 -1.3
VICR -14.5
-25°C LM211 Thigh +85°C LM211 LM311 +70°C LM311 NOTES: Offset voltage, offset current bias current specifications apply supply voltage range from single supply supplies. This rating applies supplies. positive input voltage limit above negative supply. negative input voltage limit equal negative supply voltage below positive supply, whichever less. offset voltages offset currents given maximum values required drive output within volt either supply with load. Thus, these parameters define error band take into account "worst case" effects voltage gain input impedance. response time specified input step with overdrive. short strobe ground; should current driven
2-40
MOTOROLA ANALOG DEVICE DATA
LM311 LM211
Figure Circuit Schematic
Balance Balance/Strobe Inputs Output
Figure Input Bias Current versus Temperature
Normal Pins Tied INPUT OFFSET CURRENT (nA) INPUT BIAS CURRENT (nA)
Figure Input Offset Current versus Temperature
Pins Tied
Normal
TEMPERATURE (°C)
TEMPERATURE (°C)
Figure Input Bias Current versus Differential Input Voltage
INPUT BIAS CURRENT (nA) COMMON MODE LIMITS -8.0 -4.0 +25°C -0.5 -1.0 -1.5
Figure Common Mode Limits versus Temperature
Referred Supply Voltages
DIFFERENTIAL INPUT VOLTAGE
TEMPERATURE (°C)
MOTOROLA ANALOG DEVICE DATA
2-41
LM311 LM211
OUTPUT VOLTAGE
OUTPUT VOLTAGE
Figure Response Time Various Input Overdrives
Figure Response Time Various Input Overdrives
,INPUT VOLTAGE (mV)
+25°C tTLH, RESPONSE TIME (µs)
,INPUT VOLTAGE (mV)
+5.0
-100
+5.0
+25°C tTHL, RESPONSE TIME (µs)
OUTPUT VOLTAGE
OUTPUT VOLTAGE
Figure Response Time Various Input Overdrives
-5.0
Figure Response Time Various Input Overdrives
-5.0
,INPUT VOLTAGE (mV)
,INPUT VOLTAGE (mV)
+25°C
-100 tTLH, RESPONSE TIME (µs)
+25°C
tTHL, RESPONSE TIME (µs)
Figure Output Short Circuit Current Characteristics Power Dissipation
OUTPUT SHORT CIRCUIT CURRENT (mA) +25°C Short Circuit Current 0.30 0.15 Power Dissipation 0.75 0.60 0.45 POWER DISSIPATION 0.90 SATURATION VOLTAGE 0.90 0.75 0.60
Figure Output Saturation Voltage versus Output Current
-55°C 0.45 0.30 0.15 OUTPUT CURRENT (mA) +25°C +125°C
OUTPUT VOLTAGE
MOTOROLA ANALOG DEVICE DATA
LM311 LM211
Figure Output Leakage Current versus Temperature
OUTPUT LEAKAGE CURRENT (mA) POWER SUPPLY CURRENT (mA) +25°C Positive Supply Output Positive Negative Power Supply Output TEMPERATURE (°C) VCC-VEE, POWER SUPPLY VOLTAGE
Figure Power Supply Current versus Supply Voltage
Output (LM11/211 only)
0.01
Figure Power Supply Current versus Temperature
Positive Negative Supply Output High Postive Supply Output
SUPPLY CURRENT (mA)
TEMPERATURE (°C)
APPLICATIONS INFORMATION Figure Improved Method Adding Hysteresis Without Applying Positive Feedback Inputs
Input 0.002 LM311 Output Input LM311 Output
Figure Conventional Technique Adding Hysteresis
MOTOROLA ANALOG DEVICE DATA
2-43
LM311 LM211
TECHNIQUES AVOIDING OSCILLATIONS COMPARATOR APPLICATIONS
When high speed comparator such LM211 used with high speed input signals source impedances, output response will normally fast stable, providing power supplies have been bypassed (with disc capacitors), that output signal routed well away from inputs (Pins also away from Pins However, when input signal voltage ramp slow sine wave, signal source impedance high (1.0 comparator burst into oscillation near crossing-point. This high gain wide bandwidth comparators like LM211 series. avoid oscillation instability such usage, several precautions recommended, shown Figure trim pins (Pins unwanted auxiliary inputs. these pins connected trim-pot, they should shorted together. they connected trim-pot, 0.01 capacitor (C1) between Pins will minimize susceptibility coupling. smaller capacitor used used positive feedback Figure fastest response time, both balance pins VCC. Certain sources will produce cleaner comparator output waveform 1000 capacitor (C2) connected directly across input pins. When signal source applied through resistive network, usually advantageous choose same value, both dynamic (AC) considerations. Carbon, tin-oxide, metal-film resistors have been used with good results comparator input circuitry, inductive wirewound resistors should avoided. When comparator circuits input resistors (e.g., summing resistors), their value placement particularly important. cases body resistor should close device socket. other words, there should very short lead length printed-circuit foil between comparator resistor radiate pick signals. same applies capacitors, pots, etc. example, little inches lead between resistors input pins result oscillations that very hard dampen. Twisting these input leads tightly best alternative placing resistors close comparator. Since feedback almost comparator result oscillation, printed-circuit layout should engineered thoughtfully. Preferably there should groundplane under LM211 circuitry (e.g., side double layer printed circuit board). Ground, positive supply negative supply foil should extend between output inputs guard. foil connections inputs should small compact possible, should essentially surrounded ground foil sides guard against capacitive coupling from fast high-level signals (such output). Pins used, they should shorted together. they connected trim-pot, trim-pot should located more than inches away from LM211, 0.01 capacitor should installed across Pins this capacitor cannot used, shielding printed-circuit foil advisable between Pins power supply bypass capacitors should located within couple inches LM211. standard procedure hysteresis comparator prevent oscillation, avoid excessive noise output. circuit Figure feedback resistor from output positive input will cause about hysteresis. However, larger than such would practical simply increase value positive feedback resistor proportionally above maintain same amount hysteresis. When both inputs LM211 connected active signals, high-impedance signal driving positive input LM211 that positive feedback would disruptive, circuit Figure ideal. positive feedback applied (one offset adjustment pins). This will sufficient cause hysteresis sharp transitions with input triangle waves from hundreds kHz. positive-feedback signal across resistor swings below positive supply. This signal centered around nominal voltage this feedback does offset voltage comparator. much offset voltage trimmed out, using resistor shown.
Figure Zero-Crossing Detector Driving CMOS Logic
Balance Adjust Balance Input Inputs
Figure Relay Driver with Strobe Capability
VCC1 Output Balance/Strobe 2N2222 Equiv Strobe
LM311
Inputs Output CMOS Logic
LM311
*Zener Diode protects comparator from inductive kickback voltage transients VCC2 supply line.
2-44
MOTOROLA ANALOG DEVICE DATA
LM324, LM324A, LM224, LM2902, Quad Power Operational Amplifiers
LM324 series low-cost, quad operational amplifiers with true differential inputs. They have several distinct advantages over standard operational amplifier types single supply applications. quad amplifier operate supply voltages high with quiescent currents about one-fifth those associated with MC1741 amplifier basis). common mode input range includes negative supply, thereby eliminating necessity external biasing components many applications. output voltage range also includes negative power supply voltage. Short Circuited Protected Outputs
LM2902V
QUAD DIFFERENTIAL INPUT OPERATIONAL AMPLIFIERS
SEMICONDUCTOR TECHNICAL DATA
True Differential Input Stage Single Supply Operation: Input Bias Currents: Maximum (LM324A) Four Amplifiers Package Internally Compensated Common Mode Range Extends Negative Supply Industry Standard Pinouts Clamps Inputs Increase Ruggedness without Affecting Device Operation
SUFFIX PLASTIC PACKAGE CASE (LM224, LM324, LM2902 Only)
SUFFIX PLASTIC PACKAGE CASE 751A (SO-14)
CONNECTIONS
Inputs
Inputs
MAXIMUM RATINGS 25°C, unless otherwise noted.)
Rating Power Supply Voltages Single Supply Split Supplies Input Differential Voltage Range (See Note Input Common Mode Voltage Range Output Short Circuit Duration Junction Temperature Storage Temperature Range Operating Ambient Temperature Range
NOTE: Split Power Supplies.
Symbol VCC, VIDR
LM224 LM324, LM324A
LM2902, LM2902V
Unit
Inputs
VEE, Inputs
(Top View)
VICR Tstg
-0.3
-0.3
ORDERING INFORMATION
Device LM2902D LM2902N LM2902VD LM2902VN LM224D LM224N LM324AD LM324

Amplifiers Comparators Power Supply Circuits Power/Motor Con

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