MAX7310 - 2-wire-interfaced 8-bit I/o Port Expander With Reset
MAX7310AEE - 2-Wire-Interfaced 8-Bit I/O Port Expander with Reset
MAX7310ATE - 2-Wire-Interfaced 8-Bit I/O Port Expander with Reset
MAX7310AUE - 2-Wire-Interfaced 8-Bit I/O Port Expander with Reset
MAX7311 - 2-wire-interfaced 16-bit I/o Port Expander With Interrupt and Hot-insertion Protection
MAX7311AAG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7311ATG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7311AUG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7311AWG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7312 - 2-wire-interfaced 16-bit I/o Port Expander With Interrupt and Hot-insertion Protection
MAX7312AAG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7312ATG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7312AUG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7312AWG - 2-Wire-Interfaced 16-Bit I/O Port Expander with Interrupt and Hot-Insertion Protection
MAX7313 - 16-port I/o Expander With Led Intensity Control, Interrupt, and Hot-insertion Protection
MAX7313AEG - 16-Port I/O Expander with LED Intensity Control, Interrupt, and Hot-Insertion Protection
MAX7313ATG - 16-Port I/O Expander with LED Intensity Control, Interrupt, and Hot-Insertion Protection
MAX7314 - 18-port Gpio With Led Intensity Control, Interrupt, and Hot-insertion Protection
MAX7314AEG - 18-Port GPIO with LED Intensity Control, Interrupt, and Hot-Insertion Protection
MAX7314ATG - 18-Port GPIO with LED Intensity Control, Interrupt, and Hot-Insertion Protection
MAX7315 - 8-Port I/O Expander with LED Intensity Control and Interrupt
MAX7315AEE - 8-Port I/O Expander with LED Intensity Control and Interrupt
MAX7315ATE - 8-Port I/O Expander with LED Intensity Control and Interrupt
MAX7315AUE - 8-Port I/O Expander with LED Intensity Control and Interrupt
MAX7316 - 10-Port I/o Expander With Led Intensity Control and Interrupt The MAX7316 I2C/SMBus -compatible Serial Interfaced Peripheral Provides Microprocessors With Eight Additional I/o Ports Plus One Output-only Port and One Input-only Port. Each I/o Port CAN be Individually Configured as Either an Open-drain Current-sinking Output Rated to 50mA at 5.5V or asA Logic Input With Transition Detection. The Output-only Port CAN Also be Assigned as an Interrupt Output For Transition Detection. The Outputs Are Capable of
MAX7319 - I2c Port Expander With Eight Inputs and Maskable Transition Detection
MAX7319AEE+ - I2C Port Expander with Eight Inputs and Maskable Transition Detection
MAX7319ATE+ - I2C Port Expander with Eight Inputs and Maskable Transition Detection
MAX7320 - I2C Port Expander with Eight Push-Pull Outputs The MAX7320 2-wire serial-interfaced peripheral features eight push-pull outputs with selectable power-up logic states.The +5.5V tolerant RST input clears the serial interface, terminating any I2C* communication to or from the MAX7320.The MAX7320 uses two address inputs with four-level logic to allow 16 I2C slave addresses. The slave address also determines the power-up state level for the outputs in groups of four ports.The MAX7320 supports hot insertion. The
MAX7320AEE+ - I2C Port Expander with Eight Push-Pull Outputs The MAX7320 2-wire serial-interfaced peripheral features eight push-pull outputs with selectable power-up logic states.The +5.5V tolerant RST input clears the serial interface, terminating any I2C* communication to or from the MAX7320.The MAX7320 uses two address inputs with four-level logic to allow 16 I2C slave addresses. The slave address also determines the power-up state level for the outputs in groups of four ports.The MAX7320 supports hot insertion. The
MAX7320ATE+ - I2C Port Expander with Eight Push-Pull Outputs The MAX7320 2-wire serial-interfaced peripheral features eight push-pull outputs with selectable power-up logic states.The +5.5V tolerant RST input clears the serial interface, terminating any I2C* communication to or from the MAX7320.The MAX7320 uses two address inputs with four-level logic to allow 16 I2C slave addresses. The slave address also determines the power-up state level for the outputs in groups of four ports.The MAX7320 supports hot insertion. The
MAX7321 - I2c Port Expander With 8 Open-drain I/os
MAX7321AAP - I2C Port Expander with 8 Open-Drain I/Os
MAX7321AEE - I2C Port Expander with 8 Open-Drain I/Os
MAX7321ASE - I2C Port Expander with 8 Open-Drain I/Os
MAX7321ATE - I2C Port Expander with 8 Open-Drain I/Os
MAX7321AUP - I2C Port Expander with 8 Open-Drain I/Os
MAX7327 - I2C Port Expander with 12 Push-Pull Outputs and 4 Open-Drain I/Os
MAX7327AATG+ - I2C Port Expander with 12 Push-Pull Outputs and 4 Open-Drain I/Os
MAX7327AEG+ - I2C Port Expander with 12 Push-Pull Outputs and 4 Open-Drain I/Os
MAX7327ATG+ - I2C Port Expander with 12 Push-Pull Outputs and 4 Open-Drain I/Os
MAX7328 - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7328AAP - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7328AUP - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7328AWE - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7329 - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7329AAP - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7329AUP - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7329AWE - I2C Port Expanders with Eight I/O Ports The MAX7328/MAX7329 are 2-wire serial-interfaced peripherals with eight I/O ports. Any port can be used asA logic input or an open-drain output. All input ports are continuously monitored for state changes (transition detection). Transitions are alerted through the open-drain, 5.5V-tolerant INT-bar output. The MAX7328 and MAX7329 versions differ only by their slave ID address ranges. The MAX7328 hasA slave ID range of 0100xxx (0x20 to 0x27). The MAX7329 hasA slave
MAX7382CMUK - Silicon Oscillator with Reset Output
MAX7382CMUT - Silicon Oscillator with Reset Output
MAX7382CMVB - Silicon Oscillator with Reset Output
MAX7382CMVT - Silicon Oscillator with Reset Output
MAX7382CMWB - Silicon Oscillator with Reset Output
MAX7382CMYN - Silicon Oscillator with Reset Output
MAX7382CRUK - Silicon Oscillator with Reset Output
MAX7382CRUT - Silicon Oscillator with Reset Output
MAX7382CRVB - Silicon Oscillator with Reset Output
MAX7382CRVT - Silicon Oscillator with Reset Output
MAX7382CRWB - Silicon Oscillator with Reset Output
MAX7382CRYN - Silicon Oscillator with Reset Output
MAX7383 - Silicon Oscillator With Low-power Frequency Switching
MAX7383AXUK - Silicon Oscillator with Low-Power Frequency Switching
MAX7383AXUT - Silicon Oscillator with Low-Power Frequency Switching
MAX7383AXVB - Silicon Oscillator with Low-Power Frequency Switching
MAX7383AXVT - Silicon Oscillator with Low-Power Frequency Switching
MAX7383AXWB - Silicon Oscillator with Low-Power Frequency Switching
MAX7383AXYN - Silicon Oscillator with Low-Power Frequency Switching
MAX7384 - Silicon Oscillator With Low-power Frequency Switching and Reset Output
MAX7384A - Silicon Oscillator with Low-Power Frequency Switching and Reset Output
MAX7384B - Silicon Oscillator with Low-Power Frequency Switching and Reset Output
MAX7384C - Silicon Oscillator with Low-Power Frequency Switching and Reset Output
MAX7387 - System Monitoring Oscillator with Watchdog and Power Fail The MAX7387/MAX7388 replace ceramic resonators, crystals, and supervisory functions for microcontrollers in 3.3V and 5V applications.The MAX7387/MAX7388 provideA clock source together with integrated reset, watchdog, and power-fail functions. The watchdog timer is pin programmable and provides watchdog timeout values in the 16ms to 2048ms range. The power-fail output provides early warning of power failure. The power-fail threshold on the MAX7388 is
MAX7387srff - System Monitoring Oscillator with Watchdog and Power Fail The MAX7387/MAX7388 replace ceramic resonators, crystals, and supervisory functions for microcontrollers in 3.3V and 5V applications.The MAX7387/MAX7388 provideA clock source together with integrated reset, watchdog, and power-fail functions. The watchdog timer is pin programmable and provides watchdog timeout values in the 16ms to 2048ms range. The power-fail output provides early warning of power failure. The power-fail threshold on the MAX7388 is
MAX7388 - System Monitoring Oscillator with Watchdog and Power Fail The MAX7387/MAX7388 replace ceramic resonators, crystals, and supervisory functions for microcontrollers in 3.3V and 5V applications.The MAX7387/MAX7388 provideA clock source together with integrated reset, watchdog, and power-fail functions. The watchdog timer is pin programmable and provides watchdog timeout values in the 16ms to 2048ms range. The power-fail output provides early warning of power failure. The power-fail threshold on the MAX7388 is
MAX7388srff - System Monitoring Oscillator with Watchdog and Power Fail The MAX7387/MAX7388 replace ceramic resonators, crystals, and supervisory functions for microcontrollers in 3.3V and 5V applications.The MAX7387/MAX7388 provideA clock source together with integrated reset, watchdog, and power-fail functions. The watchdog timer is pin programmable and provides watchdog timeout values in the 16ms to 2048ms range. The power-fail output provides early warning of power failure. The power-fail threshold on the MAX7388 is
MAX739 - 5V,-12V,-15V, and Adjustable Inverting Current-Mode PWM Regulators
MAX7393 - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTLY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTMG - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTRD - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTTP - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTWB - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ALTWV - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTLY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTMG - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTRD - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTTP - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTWB - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7393ATTWV - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTLY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTMG - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTRD - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTTP - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTWB - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTWV - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTYN - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTYQ - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTZH - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ALTZY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTLY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTMG - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTRD - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTTP - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTWB - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTWV - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTYN - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTYQ - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTZH - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7394ATTZY - The MAX7393/MAX7394 precision silicon oscillators replace crystals, ceramic resonators, and crystal oscillator modules in systems withA +2.4V to +3.6V operating supply voltage range.The MAX7393/MAX7394 consist ofA temperature-compensated precision oscillator with enable (MAX7394) or autoenable (MAX7393). The MAX7393/MAX7394 are supplied at specific frequencies, just like crystals and resonators. Output frequency accuracy is guaranteed to be within ±0.25% (TDFN) and ±1.3% (µDFN) (0°C to +85°C) and ±1.0% (T
MAX7454 - HD/SD Switchable Video Filters and Buffers The MAX7454/MAX7455 triple-channel video reconstruction filters and buffers are ideal for high definition (HD), standard definition progressive scan/noninterlaced (SDp), and standard definition interlaced (SDi) television applications. These devices areA fully integrated solution for filtering and buffering HD and/or SDp/SDi TV signals in component video output format (Y PB PR or RGB). The MAX7454/MAX7455 are compatible with the 1080i, 720p, 480p, and 480i scannin
MAX7454UUP - HD/SD Switchable Video Filters and Buffers The MAX7454/MAX7455 triple-channel video reconstruction filters and buffers are ideal for high definition (HD), standard definition progressive scan/noninterlaced (SDp), and standard definition interlaced (SDi) television applications. These devices areA fully integrated solution for filtering and buffering HD and/or SDp/SDi TV signals in component video output format (Y PB PR or RGB). The MAX7454/MAX7455 are compatible with the 1080i, 720p, 480p, and 480i scannin
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