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MAX1697SEUT+T
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697SEUT-T
| MAX1697 60mA, SOT23 Inverting Charge Pump With Shutdown |
MAX1697SEUT-T
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697T
MAX1697T/U
| MAX1697 60mA, SOT23 Inverting Charge Pump With Shutdown |
MAX1697TEUT
MAX1697TEUT#G16
MAX1697TEUT#TG16
MAX1697TEUT+
MAX1697TEUT+T
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697TEUT-T
| MAX1697 60mA, SOT23 Inverting Charge Pump With Shutdown |
MAX1697TEUT-T
MAX1697TEUT/V#TG16
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697U
| MAX1697 60mA, SOT23 Inverting Charge Pump With Shutdown |
MAX1697UEUT
MAX1697UEUT#G16
MAX1697UEUT#TG16
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697UEUT-T
| MAX1697 60mA, SOT23 Inverting Charge Pump With Shutdown |
MAX1697UEUT-T
| 60mA, SOT23 Inverting Charge Pump With Shutdown
The MAX1697 ultra-small, monolithic, CMOS charge-pump voltage inverter accepts an input voltage ranging from +1.25V to +5.5V. This device features an ultra-low 12? output resistance, permitting loads o... |
MAX1697_08
| 60ma, Sot23 Inverting Charge Pump with Shutdown |
MAX1697_EUT-T
| 60ma, Sot23 Inverting Charge Pump With Shutdown |
MAX1698
| High-efficiency Step-up Current Regulator For Leds |
MAX1698AEUB
| High-efficiency Step-up Current Regulator for LEDs |
MAX1698EUB
| MAX1698 High-efficiency Step-up Current Regulator For Leds |
MAX1698EVKIT
| MAX1698EVKIT Evaluation Kit For The MAX1698 |
MAX1698_07
| High-efficiency Step-up Current Regulator for LEDs |
MAX16997
MAX16997AAUA+
MAX16998
MAX16998AAUA+
MAX16998AAUA+T
MAX16998BAUA+
MAX16998BAUA+T
MAX16998DAUA+
| High-Voltage Watchdog Timers With Adjustable Timeout Delay
The MAX16997/MAX16998 are microprocessor (µP) supervisory circuits for high-input-voltage and low-quiescent-current applications. These devices detect downstream circuit failures and provide... |
MAX16999
MAX16999AUA05+
MAX16999AUA05+
MAX16999AUA10+
MAX16999AUA10+
MAX16999AUA33+
MAX16999AUA33+
| Ultra-Low Output Voltage, Low-Quiescent-Current Linear Regulator For High-Temperature Applications
The MAX16999 linear regulator operates from a 2.5V to 5.5V input voltage and delivers 100mA continuous load current with a low quiescent current typic... |
MAX170
| Serial Output, 5.6 s, 12-Bit ADC With Reference |
MAX1700
| 1 Cell to 3 Cell, High-power 1A, Low-Noise, Step-up DC-DC Converters |
MAX1700-MAX1701
| 1.2mhz Low-cost, High-performance Chargers |
MAX17000
| Complete DDR2 And DDR3 Power-Management Solution
The MAX17000 pulse-width modulation (PWM) controller provides a complete power solution for notebook DDR, DDR2, and DDR3 memory. It comprises a stepdown controller, a source-sink LDO regulator, and a ... |
MAX17000A
| Complete DDR2 And DDR3 Memory Power-Management Solution
The MAX17000A pulse-width modulation (PWM) controller provides a complete power solution for notebook DDR, DDR2, and DDR3 memory. It comprises a stepdown controller, a source-sink LDO regulator... |
MAX17000A
MAX17000AETG+
MAX17000AETG+T
| Complete DDR2 And DDR3 Memory Power-Management Solution
he MAX17000A pulse-width modulation (PWM) controller provides a complete power solution for notebook DDR, DDR2, and DDR3 memory. It comprises a stepdown controller, a source-sink LDO regulator,... |
MAX17000A_08
| 1.2mhz Low-cost, High-performance Chargers |
MAX17000ETG+
MAX17000ETG+
| Complete DDR2 And DDR3 Power-Management Solution
The MAX17000 pulse-width modulation (PWM) controller provides a complete power solution for notebook DDR, DDR2, and DDR3 memory. It comprises a stepdown controller, a source-sink LDO regulator, and a ... |
MAX17003
| Fixed-frequency with optimal interleaving minimizes input ripple current from the lowest input voltages up to 26V
The MAX17003/MAX17004 are dual step-down, switch-mode, power-supply (SMPS) controllers with synchronous rectification, intended for mai... |
MAX17003A
| High-Efficiency, Quad Output, Main Power-Supply Controllers For Notebook Computers
The MAX17003A/MAX17004A are dual step-down, switch-mode, power-supply (SMPS) controllers with synchronous rectification, intended for main 5V/3.3V power generation in... |
MAX17004
| Fixed-frequency with optimal interleaving minimizes input ripple current from the lowest input voltages up to 26V
The MAX17003/MAX17004 are dual step-down, switch-mode, power-supply (SMPS) controllers with synchronous rectification, intended for mai... |
MAX17004A
| High-Efficiency, Quad Output, Main Power-Supply Controllers For Notebook Computers
The MAX17003A/MAX17004A are dual step-down, switch-mode, power-supply (SMPS) controllers with synchronous rectification, intended for main 5V/3.3V power generation in... |
MAX17005
| 1.2mhz Low-cost, High-performance Chargers |
MAX17005A
MAX17005AETP+
MAX17005AETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005A/MAX17006A/MAX17015A are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
MAX17005B
MAX17005BETP+
MAX17005BETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005B/MAX17006B/MAX17015B are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
MAX17005ETP
MAX17006
| 1.2mhz Low-cost, High-performance Chargers |
MAX17006A
MAX17006AETP+
MAX17006AETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005A/MAX17006A/MAX17015A are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
MAX17006B
MAX17006BETP+
MAX17006BETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005B/MAX17006B/MAX17015B are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
MAX17006ETP
| 1.2mhz Low-cost, High-performance Chargers |
MAX17007
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs) ... |
MAX17007A
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007A/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs)... |
MAX17007AGTI+
MAX17007AGTI+
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs) ... |
MAX17007AGTI+
MAX17007AGTI+T
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007A/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs)... |
MAX17007GTI+
MAX17007GTI+
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs) ... |
MAX17008
MAX17008GTI+
MAX17008GTI+T
| Dual And Combinable QPWM Graphics Core Controllers For Notebook Computers
The MAX17007A/MAX17008 are dual Quick-PWM™ step-down controllers intended for general power generation in battery-powered systems. The two switched-mode power supplies (SMPSs)... |
MAX17009
MAX17009GTL+
MAX17009GTL+T
| AMD Mobile Serial VID Dual-Phase Fixed-Frequency Controller
The MAX17009 is a two-phase, step-down interleaved, fixed-frequency controller for AMD\'s serial VID interface (SVI) CPU core supplies. Power-on detection of the CPU configures the MAX17009... |
MAX1700EEE
| MAX1700, MAX1701 1 Cell to 3 Cell, High-power 1A, Low-Noise, Step-up DC-DC Converters |
MAX1700EVKIT
| MAX1701EVKIT Evaluation Kit For The MAX1700/MAX1701 |
MAX1701
| 1 Cell to 3 Cell, High-power 1A, Low-Noise, Step-up DC-DC Converters |
MAX17010
| LCD display bias IC with integrated scan driver offers new level of integration and functionality
The MAX17010 contains a high-performance step-up switching regulator, a high-speed operational amplifier (op amp), and a high-voltage level-shifting sc... |
MAX17010ETL+
MAX17014
MAX17014ETM+
MAX17015
| 1.2mhz Low-cost, High-performance Chargers |
MAX17015A
MAX17015AETP+
MAX17015AETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005A/MAX17006A/MAX17015A are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
MAX17015B
MAX17015BETP+
MAX17015BETP+T
| Industry\'s Highest Switching-Frequency Notebook Battery Chargers
The MAX17005B/MAX17006B/MAX17015B are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture that significantly reduces ... |
