 |
 |
 |
Complete Selection of Logic Families that Meet Your Design Needs
Fairchild Semiconductor offers a broad range of standard & TinyLogic™ ICs to meet your high speed, low power designs. Our logic devices are available in both leaded and high density unleaded packaging options.
Logic Portfolio
Why Choose Fairchild's Logic Devices
Our TinyLogic™ family enables design engineers to implement design changes without having to redesign complex silicon subcomponents or PCB layouts.
In addition, our standard CMOS and BiCMOS family of logic products are available in over 500 configurations to meet your design needs.
Application Notes
| Application Note | Function/Products | Description |
|---|---|---|
| AN-640 | Line Drivers, Logic, 74AC240 | Understanding and Minimizing Ground Bounce |
| AN-5026 | Bus Switches, Logic, Transceivers, 74LCX16500, FST16211 | Using BGA Packages |
| AN-5006J | Buffers, Flip Flops, Latches, Line Drivers, Logic, Registers, Transceivers, 74LVTH125, 74LVTH162244, 74LVTH162373, 74LVTH16646, 74LVTH2244, 74LVTH2245, 74LVTH240, 74LVTH244, 74LVTH245, 74LVTH373, 74LVTH374, 74LVTH573, 74LVTH574 | Designing with Bushold (Japanese Translation) |
| AN-5006K | Buffers, Flip Flops, Latches, Line Drivers, Logic, Registers, Transceivers, 74LVTH125, 74LVTH162244, 74LVTH162373, 74LVTH16646, 74LVTH2244, 74LVTH2245, 74LVTH240, 74LVTH244, 74LVTH245, 74LVTH373, 74LVTH374, 74LVTH573, 74LVTH574 | Designing with Bushold (Korean Translation) |
| AN-5006SC | Buffers, Flip Flops, Latches, Line Drivers, Logic, Registers, Transceivers, 74LVTH125, 74LVTH162244, 74LVTH162373, 74LVTH16646, 74LVTH2244, 74LVTH2245, 74LVTH240, 74LVTH244, 74LVTH245, 74LVTH373, 74LVTH374, 74LVTH573, 74LVTH574 | Designing with Bushold (Chinese Translation) |
| AN-5006 | Buffers, Flip Flops, Latches, Line Drivers, Logic, Registers, Transceivers, 74LVTH125, 74LVTH162244, 74LVTH162373, 74LVTH16646, 74LVTH2244, 74LVTH2245, 74LVTH240, 74LVTH244, 74LVTH245, 74LVTH373, 74LVTH374, 74LVTH573, 74LVTH574 | Designing with Bushold |
| AN-5001 | AND Gates, Buffers, Decoders, Voltage Level Translators, Flip Flops, Inverters, Latches, Line Drivers, Logic, Multiplexers, NAND Gates, NOR Gates, OR Gates, Transceivers, 74LVX00, 74LVX02, 74LVX04, 74LVX08, 74LVX125, 74LVX132, 74LVX138, 74LVX14, 74LVX157, 74LVX161284, 74LVX244, 74LVX245, 74LVX273, 74LVX32, 74LVX3245, 74LVX373, 74LVX374, 74LVX4245, 74LVX541, 74LVX573, 74LVX74, 74LVX86, 74LVXC3245, 74LVXC4245 | Using Fairchilds LVX Low Voltage Dual Supply CMOS Translating Transceivers |
| AN-5001J | AND Gates, Buffers, Decoders, Voltage Level Translators, Flip Flops, Inverters, Latches, Line Drivers, Logic, Multiplexers, NAND Gates, NOR Gates, OR Gates, Transceivers, 74LVX00, 74LVX02, 74LVX04, 74LVX08, 74LVX125, 74LVX132, 74LVX138, 74LVX14, 74LVX157, 74LVX161284, 74LVX244, 74LVX245, 74LVX273, 74LVX32, 74LVX3245, 74LVX373, 74LVX374, 74LVX4245, 74LVX541, 74LVX573, 74LVX74, 74LVX86, 74LVXC3245, 74LVXC4245 | Using Fairchilds LVX Low-Voltage Dual-Supply CMOS Translating Transceivers (Japanese Translation) |
| AN-138 | Logic, Multivibrators, Operational Amplifiers, 74VHC123A, 74VHC221A, LM324, LM324A | Using the CMOS Dual Monostable Multivibrator |
| AN-600 | LDOs, Logic, Low-Side Drivers, Transceivers, FAN2558, FAN3278, GTLP16612 | Understanding Latch-up in Advanced CMOS Logic |
| AN-5048 | Logic, LVDS, FIN1018 | System Clock Distribution Example Using LVDS |
| AN-5047 | Logic, LVDS, Signaling, Sensing and Timing, FIN1018 | Live Insertion Using Low Voltage Differential Signaling |
| AN-5029 | Logic, LVDS, FIN1018 | Interfacing Between PECL and LVDS Differential Technologies |
| AN-5046 | Logic, LVDS, FIN1032, FIN1532 | LVDS Receiver Failsafe Biasing Networks |
| AN-248 | Audio Switches, Automotive Ignition IGBTs, Automotive Products, Logic, FSA2268, FSA2268T, ISL9V5036S3, ISL9V5036S3ST | Electrostatic Discharge Prevention-Input Protection Circuits and Handling Guide for CMOS Devices |
| AN-1065K | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: An Interface Technology for Bus and Backplane Applications (Korean Translation) |
| AN-1065SC | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: An Interface Technology for Bus and Backplane Applications (Chinese Translation) |
| AN-1070 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP vs. GTL: A Performance Comparison from a System Perspective |
| AN-1070K | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | Fairchilds GTLP vs. TIs GTL: A Performance Comparison from a System Perspective (Korean Translation) |
| AN-1070SC | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | Fairchilds GTLP vs. TIs GTL: A Performance Comparison from a Systems Perspective (Chinese Translation) |
| AN-1072 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP Output Control Circuitry: Reduces Noise and Enhances System Performance |
| AN-5002 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: Single vs. Multiple Output Switching Technical Discussion |
| AN-375 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | High-Speed-CMOS Designs Address Noise and I/O Levels |
| AN-1072J | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP Output Control Circuitry: Reduces Noise and Enhances System Performance (Japanese Translation) |
| AN-1065 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: An Interface Technology for Bus and Backplane Applications |
| AN-363 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | Designing with TTL |
| AN-1097SC | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: Understanding Output Drive (Chinese Translation) |
| AN-1097 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: Understanding Output Drive |
| AN-1065J | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: An Interface Technology for Bus and Backplane Applications (Japanese Translation) |
| AN-368 | AND Gates, Buffers, Decoders, Flip Flops, Inverters, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, GTLP16612, GTLP16616, GTLP8T306, MM74HCT00, MM74HCT04, MM74HCT05, MM74HCT08, MM74HCT138, MM74HCT14, MM74HCT164, MM74HCT240, MM74HCT244, MM74HCT245, MM74HCT273, MM74HCT32, MM74HCT373, MM74HCT374, MM74HCT540, MM74HCT541, MM74HCT573, MM74HCT574, MM74HCT74 | An Introduction to and Comparison of 74HCT TTL Compatible CMOS Logic |
| AN-1097K | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: Understanding Output Drive (Korean Translation) |
| AN-5025 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | Applications Using the GTLP10B320 |
| AN-5013 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP in BTL Applications |
| AN-5031 | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP Power Configuration |
| AN-1097J | Logic, Transceivers, GTLP16612, GTLP16616, GTLP8T306 | GTLP: Understanding Output Drive (Japanese Translation) |
| AN-88 | Logic, Operational Amplifiers, LM324, LM324A | CMOS Linear Applications |
| AN-303 | AND Gates, Inverters, Logic, NAND Gates, MM74HC00, MM74HC04, MM74HC08, MM74HCT05, MM74HCU04 | HC-MOS Power Dissipation |
| AN-319 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86 | Comparison of MM74HC to 74LS, 74S and 74ALS Logic |
| AN-314 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86 | Interfacing to MM74HC High-Speed CMOS Logic |
| AN-310 | AND Gates, Buffers, Decoders, Flip Flops, Inverters, Latches, Logic, NAND Gates, NOR Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC02, MM74HC04, MM74HC08, MM74HC125, MM74HC126, MM74HC132, MM74HC138, MM74HC14, MM74HC164, MM74HC175, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86, MM74HCT00, MM74HCT04, MM74HCT05, MM74HCT08, MM74HCT138, MM74HCT14, MM74HCT164, MM74HCT240, MM74HCT244, MM74HCT245, MM74HCT273, MM74HCT32, MM74HCT373, MM74HCT374, MM74HCT540, MM74HCT541, MM74HCT573, MM74HCT574, MM74HCT74, MM74HCU04 | High Speed CMOS (MM74HC) Processing |
| AN-376 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595 | Logic-System Design Techniques Reduce Switching-CMOS Power |
| AN-339 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86 | Fairchilds Process Enhancements Eliminate the CMOS SCR Latch-Up Problem in 74HC Logic |
| AN-118 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86 | CMOS Oscillators |
| AN-317 | Buffers, Flip Flops, Latches, Logic, NAND Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC132, MM74HC14, MM74HC164, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86 | AC Characteristics of MM74HC High Speed CMOS |
| AN-313 | AND Gates, Buffers, Decoders, Flip Flops, Inverters, Latches, Logic, NAND Gates, NOR Gates, OR Gates, Registers, Schmitt Triggers, Transceivers, MM74HC00, MM74HC02, MM74HC04, MM74HC08, MM74HC125, MM74HC126, MM74HC132, MM74HC138, MM74HC14, MM74HC164, MM74HC175, MM74HC240, MM74HC244, MM74HC245A, MM74HC273, MM74HC32, MM74HC373, MM74HC374, MM74HC540, MM74HC541, MM74HC573, MM74HC574, MM74HC595, MM74HC74A, MM74HC86, MM74HCT00, MM74HCT04, MM74HCT05, MM74HCT08, MM74HCT138, MM74HCT14, MM74HCT164, MM74HCT240, MM74HCT244, MM74HCT245, MM74HCT273, MM74HCT32, MM74HCT373, MM74HCT374, MM74HCT540, MM74HCT541, MM74HCT573, MM74HCT574, MM74HCT74, MM74HCU04 | DC Electrical Characteristics of MM74HC High Speed CMOS Logic |
| AN-140 | Inverters, Logic, Schmitt Triggers, MM74HC14, MM74HCT14, NC7WV14 | CMOS Schmitt Trigger - A Uniquely Versatile Design Component |
| AN-5055 | AND Gates, Buffers, Inverters, Logic, NC7S04, NC7SP04, NC7SV04, NC7SV08, NC7SV125, NC7SZ04, NC7SZ08, NC7SZ125 | Portability and Ultra Low Power TinyLogic® |
| AN-661 | Logic | FAST Design Considerations |
| AN-5016 | Logic | Double Data Rate Support ICs |
| AN-1037 | Logic | Embedded IEEE1149.1 Test Application Example |
| AN-476 | Logic | Guide to ALS and AS |
| AN-340 | Logic | HCMOS Crystal Oscillators |
| AN-682 | Logic | Terminating F100K ECL Inputs |
| AN-753 | Logic | Simple Byte Parity Applications Featuring the FAST 74F899 |
| AN-5005 | Logic | PC100 Memory Driver Competitive Comparison |
| AN-77 | Logic | CMOS, The Ideal Logic Family |
| AN-780 | Logic | Operating ECL from a Single Positive Supply |
| AN-683 | Logic | 300 MHz Dual Eight-Way Multiplexer/Demultiplexer |
| AN-393 | Logic | Transmission-Line Effects Influence High-Speed CMOS |
| AN-5011 | Logic | Low Voltage 3-STATE Power-Up and Power-Down Circuitry |
| AN-5045 | Logic, LVDS | Using the VBB Reference on High Speed LVDS Repeaters |
| AN-5014 | Logic | Incident Wave Switching and Throughput |
| AN-680 | Logic | Dynamic Threshold for Advanced CMOS Logic |
| AN-5004 | Logic | Low Voltage Device Output Load Specifications, 30pF versus 50pF |
| AN-690 | Logic | Design Innovations Address Advanced CMOS Logic Noise Considerations |
| AN-90 | Logic | 74C Family Characteristics |
| AN-389 | Logic | Follow PC-Board Design Guidelines For Lowest CMOS EMI Radiation |
| AN-784 | Logic | F100K ECL Dual Rail Translators |
| AN-684 | Logic | 100336 Four-Stage Counter/Shift Register |
| AN-831 | Logic | Characteristics and Measurement Techniques of the Spectral Content of Signals Generated by High-Performance ICs |
| AN-994 | Logic | Simplified Intelligent Port Design Using the 74ACT1284 |
| AN-1100 | Logic | Thermal Considerations of Surface Mount Packages |
| AN-891 | Logic | Non-Contact Test Access for Surface Mount Technology |
| AN-377 | Logic | DC Noise Immunity of CMOS Logic Gates |
| AN-5009 | Logic | Fairchilds Logic Solutions for 133MHz Buffered Memory Modules |
| AN-5011J | Logic | Low-Voltage 3-STATE Power-Up and Power-Down Circuitry (Japanese Translation) |
| AN-8030 | Logic | TinyLogic® MicroPak2™ Package Applications Guide |
| AN-817 | Logic | Taking Advantage of ECL Minimum-Skew Clock Drivers |
| AN-890 | Logic | P1149.1A Extensions to IEEE-Std-1149.1-1990 |
| AN-737 | Logic | Device Generated Noise Measurement Techniques |
| AN-889 | Logic | Design of a Parallel Bus-to-Scan Test Port Converter |
| AN-610 | Logic | Terminations for Advanced CMOS Logic |
| AN-881 | Logic | Design Considerations for Fault Tolerant Backplanes |
Collateral
Featured Collateral
Related Information
Additional Resources
|
© Copyright
Fairchild Semiconductor. All rights reserved. Privacy Policy | Site Terms & Conditions | Standard Terms & Conditions of Sale | Trademarks | Site Map | 
