Low-Power Design Techniques in Digital Systems
LOW-POWER CAN TRANSCEIVER WITH BUS WAKE
Low-Power 3.3V-Supply Full-Duplex RS
LOW-NOISE, HIGH-SPEED, 450-mA CURRENT FEEDBACK AMPLIFIERS THS3122 THS3125
Low-Noise, High-Speed, 450-mA Current
Low-Noise, High-Speed Current Feedback
Low-Noise, High-Output Drive, Current
Low-Noise Local Oscillator Design Techniques using a
Low-Energy Design Methodologies for High
LOW-DISTORTION, HIGH SLEW RATE, CURRENT-FEEDBACK AMPLIFIERS THS3061 THS3062 FEATURES
Low-Cost, Low-Power, Rail-to-Rail OPERATIONAL AMPLIFIERS Amplifier Series
Low-Cost, 8-Channel, Integrated Analog Front
low –power and area-efficient shift register using pulsed latches
Low Voltage Differential Current Switch Logic
Low Voltage 24-Bit I2C and SMBus I/O Expander (Rev. B)
Low Quiescent Current, Dual-Channel
LOW POWER, SINGLE-SUPPLY, RAIL-TO-RAIL OPERATIONAL AMPLIFIERS Amplifier Series
Low power VLSI design approach for 16 bit binary counter to reduce
Low Power Full Adder With Reduced Transistor Count
Low Power Full Adder Circuit Implementation using Transmission Gate
LOW POWER DUAL OPERATIONAL AMPLIFIERS ... Data Sheet General Description Features
