LTC24088-Ch Linear - 8-Ch, 4ppm Inl, 1.5uV Noise, no Latency Delta Sigma
LTC2408C Linear - 4-/8-Channel 24-Bit uPower No Latency ADCs
LTC2408CG Linear - 4-/8-Channel 24-Bit uPower No Latency ADCs
LTC2408I Linear - 4-/8-Channel 24-Bit uPower No Latency ADCs
LTC2408IG Linear - 4-/8-Channel 24-Bit uPower No Latency ADCs
LTC2410 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2410 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2410 Linear - 24-Bit No Latency ADC with Differential Input and Differential Reference
LTC2410C Linear - 24-Bit No Latency ADC with Differential Input and Differential Reference
LTC2410CGN Linear - 24-bit No Latency Adc With Differential Input and Differential Reference
LTC2410DifferentialInput Linear - Differential Input, 0.8uV Noise, no Latency Delta Sigma ADC, SSOP-16
LTC2410I Linear - 24-Bit No Latency ADC with Differential Input and Differential Reference
LTC2410IGN Linear - 24-Bit No Latency ADC with Differential Input and Differential Reference
LTC2411 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2411 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2411-1 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2411-1 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2411DifferentialInput Linear - Differential Input, 1.5uV Noise, no Latency Delta Sigma, MSOP-10
LTC2412 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2412 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2412CGN Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2412IGN Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2413 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2413 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2413 Linear - 24-bit No Latency Adc, With Simultaneous 50hz/60hz Rejection
LTC2413CGN Linear - 24-Bit No Latency ADC, with Simultaneous 50Hz/60Hz Rejection
LTC2413IGN Linear - 24-Bit No Latency ADC, with Simultaneous 50Hz/60Hz Rejection
LTC2414 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2414 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2414CGN Linear - LTC2414, 4-Ch Differential Input 24-Bit no Latency Delta Sigma
LTC2414IGN Linear - LTC2414, 4-Ch Differential Input 24-Bit no Latency Delta Sigma
LTC2415 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2415 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2415-1 Linear - LTC2415, 24-Bit no Latency Delta Sigma ADC With Differential Input and Differential Reference
LTC2415-1CGN Linear - LTC2415, 24-Bit no Latency Delta Sigma ADC With Differential Input and Differential Reference
LTC2415-1IGN Linear - LTC2415, 24-Bit no Latency Delta Sigma ADC With Differential Input and Differential Reference
LTC2415CGN Linear - LTC2415, 24-Bit no Latency Delta Sigma ADC With Differential Input and Differential Reference
LTC2415IGN Linear - LTC2415, 24-Bit no Latency Delta Sigma ADC With Differential Input and Differential Reference
LTC2418 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2418 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2418CGN Linear - LTC2418, 8-Ch Differential Input 24-Bit no Latency Delta Sigma
LTC2418IGN Linear - LTC2418, 8-Ch Differential Input 24-Bit no Latency Delta Sigma
LTC2420 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2420 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2420 Linear - 20-Bit uPower No Latency ADC in SO-8
LTC2420C Linear - 20-Bit uPower No Latency ADC in SO-8
LTC2420CS8 Linear - 20-Bit uPower No Latency ADC in SO-8
LTC2420I Linear - 20-bit Upower No Latency Adc In So-8
LTC2420IS8 Linear - 20-Bit uPower No Latency ADC in SO-8
LTC2421 Linear - 1-/2-Channel 20-Bit UPower No Latency ADCs in MSOP-10
LTC2421CMS Linear - 1-/2-Channel 20-Bit UPower No Latency ADCs in MSOP-10
LTC2421IMS Linear - 1-/2-Channel 20-Bit UPower No Latency ADCs in MSOP-10
LTC2422 Linear - 1-/2-Channel 20-Bit UPower No Latency ADCs in MSOP-10
LTC2422CMS Linear - LTC2422, 2-Ch 8ppm Inl, 1.2ppm Noise, no Latency Delta Sigma, MS10
LTC2422IMS Linear - LTC2422, 2-Ch 8ppm Inl, 1.2ppm Noise, no Latency Delta Sigma, MS10
LTC2424 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2424 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2424 Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2424C Linear - 4-/8-channel 20-bit Upower No Latency Adcs
LTC2424CG Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2424I Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2424IG Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2428 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2428 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2428 Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2428C Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2428CG Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2428I Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2428IG Linear - 4-/8-Channel 20-Bit uPower No Latency ADCs
LTC2430 Linear - 20-bit No Latency Delta-sigma Adcs With Differential Input and Differential Reference
LTC2430CGN Linear - 20-Bit No Latency Delta-Sigma ADCs with Differential Input and Differential Reference
LTC2430IGN Linear - 20-Bit No Latency Delta-Sigma ADCs with Differential Input and Differential Reference
LTC2431 Linear - 20-Bit No Latency Delta-Sigma ADCs with Differential Input and Differential Reference
LTC2431CMS Linear - 20-Bit No Latency Delta-Sigma ADCs with Differential Input and Differential Reference
LTC2431IMS Linear - 20-Bit No Latency Delta-Sigma ADCs with Differential Input and Differential Reference
LTC2433-1 Linear IS - Differential Input 16-Bit No Latency DS ADC
LTC2433-1CMS Linear IS - Differential Input 16-Bit No Latency DS ADC
LTC2433-1IMS Linear IS - Differential Input 16-Bit No Latency DS ADC
LTC2435 Linear - 20-Bit No Latency ADCs with Differential Input and Differential Reference
LTC2435-1 Linear - 20-bit No Latency Adcs With Differential Input and Differential Reference
LTC2435-1CGN Linear - 20-Bit No Latency ADCs with Differential Input and Differential Reference
LTC2435-1IGN Linear - 20-Bit No Latency ADCs with Differential Input and Differential Reference
LTC2435CGN Linear - 20-Bit No Latency ADCs with Differential Input and Differential Reference
LTC2435IGN Linear - 20-Bit No Latency ADCs with Differential Input and Differential Reference
LTC2436-1 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2436-1CGN Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2436-1IGN Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2439-1 Linear - 8-/16-Channel 16-Bit No Latency Delta-Sigma ADC
LTC2439-1CGN Linear - 8-/16-channel 16-bit No Latency Delta-sigma Adc
LTC2439-1IGN Linear - 8-/16-Channel 16-Bit No Latency Delta-Sigma ADC
LTC2440 Linear - 2-Channel Differential Input 24-Bit No Latency DS ADC
LTC2440 Linear - 2-Channel Differential Input 16-Bit No Latency DS ADC
LTC2440CGN Linear - LTC2440, 24-Bit High Speed Differential ADC With Selectable Speed/resolution
LTC2440IGN Linear - LTC2440, 24-Bit High Speed Differential ADC With Selectable Speed/resolution
LTC2442 Linear - 24-Bit High Speed 4-Channel ?? ADC with Integrated AmplifierThe LTC®2442 is an ultra high precision, variable speed, 24-bit ??TM ADC with integrated ampli?er. The ampli?er can be con?gured asA buffer for easy input drive of high impedance sensors. 1 part-per-million (ppm) linearity is achievable when the ampli?er is con?gured in unity gain. External resistors can be used to setA gain for increased resolution of low level input signals. The positive and negative ampli?er supply pins may be tied directly to
LTC2442CG Linear - 24-Bit High Speed 4-Channel ?? ADC with Integrated AmplifierThe LTC®2442 is an ultra high precision, variable speed, 24-bit ??TM ADC with integrated ampli?er. The ampli?er can be con?gured asA buffer for easy input drive of high impedance sensors. 1 part-per-million (ppm) linearity is achievable when the ampli?er is con?gured in unity gain. External resistors can be used to setA gain for increased resolution of low level input signals. The positive and negative ampli?er supply pins may be tied directly to
LTC2442IG Linear - 24-Bit High Speed 4-Channel ?? ADC with Integrated AmplifierThe LTC®2442 is an ultra high precision, variable speed, 24-bit ??TM ADC with integrated ampli?er. The ampli?er can be con?gured asA buffer for easy input drive of high impedance sensors. 1 part-per-million (ppm) linearity is achievable when the ampli?er is con?gured in unity gain. External resistors can be used to setA gain for increased resolution of low level input signals. The positive and negative ampli?er supply pins may be tied directly to
LTC2444 Linear - 24-Bit High Speed 8-/16-Channel ADCs with Selectable Speed/Resolution
LTC2444C Linear - 24-Bit High Speed 8-/16-Channel ADCs with Selectable Speed/Resolution
LTC2448 Linear - 24-Bit High Speed 8-/16-Channel ADCs with Selectable Speed/Resolution
LTC2449 Linear - 24-Bit High Speed 8-/16-Channel ADCs with Selectable Speed/Resolution
LTC2482 Linear - 16-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2482 combinesA 16-bit plus sign No Latency Delta SigmaTM analog-to-digital converter with patented Easy DriveTM technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of onchip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining except
LTC2482CDD Linear - 16-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2482 combinesA 16-bit plus sign No Latency Delta SigmaTM analog-to-digital converter with patented Easy DriveTM technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of onchip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining except
LTC2482IDD Linear - 16-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2482 combinesA 16-bit plus sign No Latency Delta SigmaTM analog-to-digital converter with patented Easy DriveTM technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of onchip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining except
LTC2483 Linear - 16-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2483 combinesA 16-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2483CDD Linear - 16-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2483 combinesA 16-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2483IDD Linear - 16-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2483 combinesA 16-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2484 Linear - 24-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2484 combinesA 24-bit No Latency Delta-Sigma analog-to-digital converter with patented Easy Drive technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining exceptional DC accu
LTC2484CDD Linear - 24-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2484 combinesA 24-bit No Latency Delta-Sigma analog-to-digital converter with patented Easy Drive technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining exceptional DC accu
LTC2484IDD Linear - 24-Bit Delta Sigma ADC with Easy Drive Input Current CancellationThe LTC®2484 combinesA 24-bit No Latency Delta-Sigma analog-to-digital converter with patented Easy Drive technology. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals with rail-to-rail input range to be directly digitized while maintaining exceptional DC accu
LTC2485 Linear - 24-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2485 combinesA 24-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2485CDD Linear - 24-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2485 combinesA 24-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2485IDD Linear - 24-Bit ADC with Easy Drive Input Current Cancellation and I2C InterfaceThe LTC®2485 combinesA 24-bit plus sign No Latency ΔΣTM analog-to-digital converter with patented Easy DriveTM technology and I2C digital interface. The patented sampling scheme eliminates dynamic input current errors and the shortcomings of on-chip buffering through automatic cancellation of differential input current. This allows large external source impedances and input signals, with rail-torail input range to be directly
LTC2600 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2600CGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2600IGN Linear - LTC2600, 3V/5V Octal 16-bit Rail-to-rail DAC, SSOP-16
LTC2601 Linear - 16-/14-/12-bit Rail-to-rail Dacs In 10-lead Dfn
LTC2601CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2601IDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2602 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2602CMS8 Linear - Dual 16-/14-/12-bit Rail-to-rail Dacs In 8-lead Msop
LTC2602IMS8 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2604 Linear - Quad 16-bit Rail-to-rail Dacs In 16-lead Ssop
LTC2604CGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2604IGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2605 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2605CGN Linear - Octal 16-/14-/12-bit Rail-to-rail Dacs In 16-lead Ssop
LTC2605CGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2605IGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2605IGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2606 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2606CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2606CDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2606IDD Linear - 16-/14-/12-bit Rail-to-rail Dacs With I2c Interface
LTC2606IDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2610 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2610CGN Linear - LTC2610, 3V/5V Octal 14-bit Rail-to-rail DAC, SSOP-16
LTC2610IGN Linear - LTC2610, 3V/5V Octal 14-bit Rail-to-rail DAC, SSOP-16
LTC2611 Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2611CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2611IDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2612 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2612CMS8 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2612IMS8 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2614 Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2614CGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2614IGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2615 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2615CGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2615CGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2615IGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2615IGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2616 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2616CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2616CDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2616IDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2616IDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2620 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2620CGN Linear - LTC2620, 3V/5V Octal 12-bit Rail-to-rail DAC, SSOP-16
LTC2620IGN Linear - LTC2620, 3V/5V Octal 12-bit Rail-to-rail DAC, SSOP-16
LTC2621 Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2621CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2621IDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs in 10-Lead DFN
LTC2622 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2622CMS8 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2622IMS8 Linear - Dual 16-/14-/12-Bit Rail-to-Rail DACs in 8-Lead MSOP
LTC2624 Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2624CGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2624IGN Linear - Quad 16-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2625 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2625CGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2625CGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2625IGN Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2625IGN-1 Linear - Octal 16-/14-/12-Bit Rail-to-Rail DACs in 16-Lead SSOP
LTC2626 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2626CDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2626CDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2626IDD Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2626IDD-1 Linear - 16-/14-/12-Bit Rail-to-Rail DACs with I2C Interface
LTC2844 Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC28441 Linear - LTC2844, 3.3V Software Selectable Multiprotocol Transceiver
LTC2844C Linear - LTC2844, 3.3V Software Selectable Multiprotocol Transceiver
LTC2844CG Linear - LTC2844, 3.3V Software Selectable Multiprotocol Transceiver
LTC2844I Linear - LTC2844, 3.3V Software Selectable Multiprotocol Transceiver
LTC2844IG Linear - LTC2844, 3.3V Software Selectable Multiprotocol Transceiver
LTC2845 Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC28451 Linear - LTC2845, 3.3V Software Selectable Multiprotocol Transceiver
LTC2845C Linear - LTC2845, 3.3V Software Selectable Multiprotocol Transceiver
LTC2845CG Linear - LTC2845, 3.3V Software Selectable Multiprotocol Transceiver
LTC2845I Linear - LTC2845, 3.3V Software Selectable Multiprotocol Transceiver
LTC2845IG Linear - LTC2845, 3.3V Software Selectable Multiprotocol Transceiver
LTC2846 Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC2846 Linear - 3.3V Software-Selectable Multiprotocol Transceiver with Termination
LTC2846CG Linear - 3.3V Software-Selectable Multiprotocol Transceiver with Termination
LTC2846IG Linear - 3.3v Software-selectable Multiprotocol Transceiver With Termination
LTC2847 Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC2847CUHF Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC2847IUHF Linear - Software-Selectable Multiprotocol Transceiver with Termination and 3.3V Digital Interface
LTC2859 Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2859CDD Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2859IDD Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2861CDE Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2861CGN Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2861IDE Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2861IGN Linear - 20Mbps RS485 Transceiver with Integrated Switchable TerminationThe LTC2859 and LTC2861 are low power, 20Mbps RS485/422 transceivers operating on 5V supplies. The receiver includesA logic-selectable 120ѓ¶ termination, one-eighth unit load supporting up to 256 nodes per bus, andA failsafe feature that guaranteesA high output state under conditions of floating or shorted inputs.The driver featuresA logic-selectable low-EMI 250kbps operating mode, and maintainsA high output impedance over the entire common
LTC2909CDDB-2.5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909CDDB-3.3 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909CDDB-5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909CTS8-2.5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909CTS8-3.3 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909CTS8-5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909IDDB-2.5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909IDDB-3.3 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909IDDB-5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909ITS8-2.5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909ITS8-3.3 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2909ITS8-5 Linear - Precision Triple/Dual Input UV, OV and Negative Voltage MonitorThe LTC2909 isA dual input monitor intended forA variety of system monitoring applications. Polarity selection andA buffered reference output allow the LTC2909 to monitor positive and negative supplies for undervoltage (UV) and overvoltage (OV) conditions.
LTC2920 Linear - LTC2920-1, Single Power Supply Margining Controller
LTC2920-1 Linear - Precision Quad Supply Monitor in 6-Lead SOT-23
LTC2922IF Linear - Power Supply Tracker With Input Monitorsthe LTC 2921 and LTC2922 Monitor up to Five Supplies and Force Them to Track on Power-up in Multiple Supply Systems. Using External N-channel Pass Transistors, The Supplies CAN be RAMped up at an Adjustable Rate.
LTC2923 Linear - Precision Quad Supply Monitor in 6-Lead SOT-23
LTC2925CGN Linear - Controller, Tracking, Multiple Power Supply
LTC2925CUF Linear - Controller, Tracking, Multiple Power Supply
LTC2925IGN Linear - Controller, Tracking, Multiple Power Supply
LTC2925IUF Linear - Controller, Tracking, Multiple Power Supply
LTC2926 Linear - MOSFET-Controlled Power Supply TrackerThe LTC2926 providesA simple solution for tracking and sequencing up to three power supply rails. An N-channel MOSFET andA few resistors per channel configure the load voltages to ramp up and down together, with voltage offsets, with time delays or with different ramp rates.Automatic remote sense switching compensates for voltage drops across the MOSFETs. The LTC2926 provides two integrated switches as well asA signal to control optional additional external N-channel
LTC2926CGN Linear - MOSFET-Controlled Power Supply TrackerThe LTC2926 providesA simple solution for tracking and sequencing up to three power supply rails. An N-channel MOSFET andA few resistors per channel configure the load voltages to ramp up and down together, with voltage offsets, with time delays or with different ramp rates.Automatic remote sense switching compensates for voltage drops across the MOSFETs. The LTC2926 provides two integrated switches as well asA signal to control optional additional external N-channel
LTC2926CUFD Linear - MOSFET-Controlled Power Supply TrackerThe LTC2926 providesA simple solution for tracking and sequencing up to three power supply rails. An N-channel MOSFET andA few resistors per channel configure the load voltages to ramp up and down together, with voltage offsets, with time delays or with different ramp rates.Automatic remote sense switching compensates for voltage drops across the MOSFETs. The LTC2926 provides two integrated switches as well asA signal to control optional additional external N-channel
LTC2926IGN Linear - MOSFET-Controlled Power Supply TrackerThe LTC2926 providesA simple solution for tracking and sequencing up to three power supply rails. An N-channel MOSFET andA few resistors per channel configure the load voltages to ramp up and down together, with voltage offsets, with time delays or with different ramp rates.Automatic remote sense switching compensates for voltage drops across the MOSFETs. The LTC2926 provides two integrated switches as well asA signal to control optional additional external N-channel
LTC2926IUFD Linear - MOSFET-Controlled Power Supply TrackerThe LTC2926 providesA simple solution for tracking and sequencing up to three power supply rails. An N-channel MOSFET andA few resistors per channel configure the load voltages to ramp up and down together, with voltage offsets, with time delays or with different ramp rates.Automatic remote sense switching compensates for voltage drops across the MOSFETs. The LTC2926 provides two integrated switches as well asA signal to control optional additional external N-channel
LTC2927 Linear - Single Power Supply Tracking ControllerThe LTC®2927 providesA simple solution to power supply tracking and sequencing requirements. By selectingA few resistors, the supply can be configured to ramp-up and ramp-down with differing ramp rates, voltage offsets, or time delays relative to other supplies orA master signal. By forcing current intoA feedback node of an independent supply, the LTC2927 causes the output to trackA ramp signal without inserting any pass element losses. Because the current is cont
LTC2927CDDB Linear - Single Power Supply Tracking ControllerThe LTC®2927 providesA simple solution to power supply tracking and sequencing requirements. By selectingA few resistors, the supply can be configured to ramp-up and ramp-down with differing ramp rates, voltage offsets, or time delays relative to other supplies orA master signal. By forcing current intoA feedback node of an independent supply, the LTC2927 causes the output to trackA ramp signal without inserting any pass element losses. Because the current is cont
LTC2927CTS8 Linear - Single Power Supply Tracking ControllerThe LTC®2927 providesA simple solution to power supply tracking and sequencing requirements. By selectingA few resistors, the supply can be configured to ramp-up and ramp-down with differing ramp rates, voltage offsets, or time delays relative to other supplies orA master signal. By forcing current intoA feedback node of an independent supply, the LTC2927 causes the output to trackA ramp signal without inserting any pass element losses. Because the current is cont
LTC2927IDDB Linear - Single Power Supply Tracking ControllerThe LTC®2927 providesA simple solution to power supply tracking and sequencing requirements. By selectingA few resistors, the supply can be configured to ramp-up and ramp-down with differing ramp rates, voltage offsets, or time delays relative to other supplies orA master signal. By forcing current intoA feedback node of an independent supply, the LTC2927 causes the output to trackA ramp signal without inserting any pass element losses. Because the current is cont
LTC2927ITS8 Linear - Single Power Supply Tracking ControllerThe LTC®2927 providesA simple solution to power supply tracking and sequencing requirements. By selectingA few resistors, the supply can be configured to ramp-up and ramp-down with differing ramp rates, voltage offsets, or time delays relative to other supplies orA master signal. By forcing current intoA feedback node of an independent supply, the LTC2927 causes the output to trackA ramp signal without inserting any pass element losses. Because the current is cont
LTC2951 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951CDDB-1 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951CDDB-2 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951CTS8-1 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951CTS8-2 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951IDDB-1 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951IDDB-2 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951ITS8-1 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2951ITS8-2 Linear - Push Button On/Off ControllerThe LTC®2951 isA micropower, wide input voltage range push button ON/OFF controller. The part containsA push button input which controls the toggling of an open drain enable output. The push button turn OFF debounce time is externally programmable, while the turn ON debounce time is fixed at 128ms.A simple microprocessor interface allows for proper system housekeeping prior to power down. Under system fault conditions, an adjustable KILL timeout delay ensures proper power dow
LTC2970 Linear - Dual I2C Power Supply Monitor and Margining ControllerThe LTC2970 isA dual power supply monitor and margining controller with an SMBus compatible I2C bus interface.A low-drift, on-chip reference and 14-bit ҐДҐТ A/D converter allow precise measurements of supply voltages, load currents or internal die temperature. Fault management allows ALERT to be asserted for configurable over and under voltage fault conditions. Two voltage buffered, 8-bit IDACs allow highly accurate programming of DC/DC converter outpu
LTC2970CUFD Linear - Dual I2C Power Supply Monitor and Margining ControllerThe LTC2970 isA dual power supply monitor and margining controller with an SMBus compatible I2C bus interface.A low-drift, on-chip reference and 14-bit ҐДҐТ A/D converter allow precise measurements of supply voltages, load currents or internal die temperature. Fault management allows ALERT to be asserted for configurable over and under voltage fault conditions. Two voltage buffered, 8-bit IDACs allow highly accurate programming of DC/DC converter outpu
LTC2970CUFD-1 Linear - Dual I2C Power Supply Monitor and Margining ControllerThe LTC2970 isA dual power supply monitor and margining controller with an SMBus compatible I2C bus interface.A low-drift, on-chip reference and 14-bit ҐДҐТ A/D converter allow precise measurements of supply voltages, load currents or internal die temperature. Fault management allows ALERT to be asserted for configurable over and under voltage fault conditions. Two voltage buffered, 8-bit IDACs allow highly accurate programming of DC/DC converter outpu
LTC2970IUFD Linear - Dual I2C Power Supply Monitor and Margining ControllerThe LTC2970 isA dual power supply monitor and margining controller with an SMBus compatible I2C bus interface.A low-drift, on-chip reference and 14-bit ҐДҐТ A/D converter allow precise measurements of supply voltages, load currents or internal die temperature. Fault management allows ALERT to be asserted for configurable over and under voltage fault conditions. Two voltage buffered, 8-bit IDACs allow highly accurate programming of DC/DC converter outpu
LTC2970IUFD-1 Linear - Dual I2C Power Supply Monitor and Margining ControllerThe LTC2970 isA dual power supply monitor and margining controller with an SMBus compatible I2C bus interface.A low-drift, on-chip reference and 14-bit ҐДҐТ A/D converter allow precise measurements of supply voltages, load currents or internal die temperature. Fault management allows ALERT to be asserted for configurable over and under voltage fault conditions. Two voltage buffered, 8-bit IDACs allow highly accurate programming of DC/DC converter outpu
LTC3025 Linear - 500mA, Low Voltage, Very Low Dropout Linear Regulator
LTC3025 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3026 Linear - 500mA, Low Voltage, Very Low Dropout Linear Regulator
LTC3026 Linear - 1.5a Low Input Voltage Vldo Linear Regulator
LTC3026EDD Linear - 1.5A Low Input Voltage VLDO Linear Regulator
LTC3026EMSE Linear - 1.5A Low Input Voltage VLDO Linear Regulator
LTC3035 Linear - 300mA VLDO Linear Regulator with Charge Pump Bias GeneratorThe LTC®3035 isA micropower, VLDO™ (very low dropout) linear regulator which operates from input voltages as low as 1.7V. The device is capable of supplying 300mA of output current withA typical dropout voltage of only 45mV. To allow operation at low input voltages the LTC3035 includesA charge pump generator that provides the necessary bias voltage for the internal LDO circuitry. Output current comes directly from the input supply for high effici
LTC3035EDDB Linear - 300mA VLDO Linear Regulator with Charge Pump Bias GeneratorThe LTC®3035 isA micropower, VLDO™ (very low dropout) linear regulator which operates from input voltages as low as 1.7V. The device is capable of supplying 300mA of output current withA typical dropout voltage of only 45mV. To allow operation at low input voltages the LTC3035 includesA charge pump generator that provides the necessary bias voltage for the internal LDO circuitry. Output current comes directly from the input supply for high effici
LTC3206EUF Linear - I2C Multidisplay LED Controller
LTC3209EUF-1 Linear - 600mA Main/Camera LED ControllerThe LTC®3209-1/LTC3209-2 are highly integrated multidisplay LED controllers. These parts containA high efficiency, low noise charge pump to provide power to MAIN, CAM and AUX LED displays. The LTC3209-1/ LTC3209-2 require only four small ceramic capacitors and one current set resistor to formA complete LED power supply and current controller.
LTC3209EUF-2 Linear - 600mA Main/Camera LED ControllerThe LTC®3209-1/LTC3209-2 are highly integrated multidisplay LED controllers. These parts containA high efficiency, low noise charge pump to provide power to MAIN, CAM and AUX LED displays. The LTC3209-1/ LTC3209-2 require only four small ceramic capacitors and one current set resistor to formA complete LED power supply and current controller.
LTC3210 Linear - MAIN/CAM LED Controller in 3mm Ч 3mm QFNThe LTC3210 isA low noise charge pump DC/DC converter designed to drive four MAIN LEDs and one high current CAM LED for camera lighting. The LTC3210 requires only four small ceramic capacitors and two current set resistors to formA complete LED power supply and current controller.Low Noise Charge Pump Provides High Efficiency with Automatic Mode Switching Multimode Operation: 1x, 1.5x, 2x Individual Full-Scale Current Set Resistors Up to 500mA Total Output Cur
LTC3210EUD Linear - MAIN/CAM LED Controller in 3mm Ч 3mm QFNThe LTC3210 isA low noise charge pump DC/DC converter designed to drive four MAIN LEDs and one high current CAM LED for camera lighting. The LTC3210 requires only four small ceramic capacitors and two current set resistors to formA complete LED power supply and current controller.Low Noise Charge Pump Provides High Efficiency with Automatic Mode Switching Multimode Operation: 1x, 1.5x, 2x Individual Full-Scale Current Set Resistors Up to 500mA Total Output Cur
LTC3214 Linear - 500mA Camera LED Charge PumpThe LTC®3214 isA low noise, high current charge pump DC/DC converter capable of driving high current LEDs at up to 500mA fromA 2.9V to 4.5V input. Low external parts count (two flying capacitors, one programming resistor and two bypass capacitors at VIN and CPO) make the LTC3214 ideally suited for small, battery-powered applications. Built-in soft-start circuitry prevents excessive inrush current during start-up. High switching frequency enables the use of small external capaci
LTC3214EDD Linear - 500mA Camera LED Charge PumpThe LTC®3214 isA low noise, high current charge pump DC/DC converter capable of driving high current LEDs at up to 500mA fromA 2.9V to 4.5V input. Low external parts count (two flying capacitors, one programming resistor and two bypass capacitors at VIN and CPO) make the LTC3214 ideally suited for small, battery-powered applications. Built-in soft-start circuitry prevents excessive inrush current during start-up. High switching frequency enables the use of small external capaci
LTC3215 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3215DD Linear - 700mA Low Noise High Current LED Charge PumpThe LTC®3215 isA low noise, high current ch...
LTC3215EDD Linear - 700mA Low Noise High Current LED Charge Pump
LTC3216 Linear - 1A Low Noise High Current LED Charge Pump with Independent Torch/Flash Current Control
LTC3216 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3216EDE Linear - 1A Low Noise High Current LED Charge Pump with Independent Torch/Flash Current Control
LTC3217 Linear - 600mA Low Noise Multi-LED Camera Light Charge PumpThe LTC®3217 isA low noise charge pump DC/DC converter designed to power four high current LEDs. The LTC3217 requires only four small ceramic capacitors and two current set resistors to formA complete LED power supply and current controller.
LTC3217EUD Linear - 600mA Low Noise Multi-LED Camera Light Charge PumpThe LTC®3217 isA low noise charge pump DC/DC converter designed to power four high current LEDs. The LTC3217 requires only four small ceramic capacitors and two current set resistors to formA complete LED power supply and current controller.
LTC3250-1.5 Linear - LTC3250-1.5, 250mA High Efficiency, Low Noise Inductorless Step-down DC/DC Converter
LTC3250ES6-1.5 Linear - LTC3250-1.5, 250mA High Efficiency, Low Noise Inductorless Step-down DC/DC Converter
LTC3251 Linear - 500mA High Efficiency, Low Noise, Inductorless Step-Down DC/DC Converter
LTC3251-1.2 Linear - 500mA High Efficiency, Low Noise, Inductorless Step-Down DC/DC Converter
LTC3251-1.5 Linear - 500mA High Efficiency, Low Noise, Inductorless Step-Down DC/DC Converter
LTC3251EMSE Linear - 500ma High Efficiency, Low Noise, Inductorless Step-down Dc/dc Converter
LTC3251EMSE-1.2 Linear - 500mA High Efficiency, Low Noise, Inductorless Step-Down DC/DC Converter
LTC3251EMSE-1.5 Linear - 500mA High Efficiency, Low Noise, Inductorless Step-Down DC/DC Converter
LTC3252 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3402 Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3402EMS Linear - LTC3402, 2A, 3MHz Micropower Synchronous Boost Converter
LTC3403 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator with Bypass Transistor
LTC3403EDD Linear - 1.5mhz, 600ma Synchronous Step-down Regulator With Bypass Transistor
LTC3404 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3404 Linear - 1.4mhz High Efficiency Monolithic Synchronous Step-down Regulator
LTC3404EMS8 Linear - 1.4MHz High Efficiency Monolithic Synchronous Step-Down Regulator
LTC3405 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3405 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3405 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3405 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3405 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3405 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3405 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC3405A Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3405A Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3405A Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3405A Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3405A Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3405A Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3405A-1.375 Linear - 1.375V, 1.5MHz, 300mA Synchronous Step-Down Regulators in ThinSOTThe LTC®3405A-1.375 is...
LTC3405A-1.5 Linear - 1.5V, 1.8V, 1.5MHz, 300mA Synchronous Step-Down Regulators in ThinSOT
LTC3405A-1.8 Linear - 1.5V, 1.8V, 1.5MHz, 300mA Synchronous Step-Down Regulators in ThinSOT
LTC3405AES6 Linear - LTC3405A, 1.5MHz, 300mA Synchronous Step-down Regulator in Thinsot
LTC3405AES6-1.5 Linear - 1.5V, 1.8V, 1.5MHz, 300mA Synchronous Step-Down Regulators in ThinSOT
LTC3405AES6-1.8 Linear - 1.5v, 1.8v, 1.5mhz, 300ma Synchronous Step-down Regulators In Thinsot
LTC3405ES6 Linear - LTC3405, 1.5MHz, 250mA Synchronous Step-down Regulator in Thinsot
LTC3406 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3406 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3406 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3406 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3406 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3406 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3406 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC3406 Linear - 1.5mhz, 600ma Synchronous Step-down Regulator In Thinsot
LTC3406-1.2 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406-1.5 Linear - LTC3406, 1.5MHz, 600mA Synchronous Step-down Regulator in Thinsot
LTC3406-1.8 Linear - LTC3406, 1.5MHz, 600mA Synchronous Step-down Regulator in Thinsot
LTC3406A Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC3406B Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3406B Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3406B Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3406B Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3406B Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3406B Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3406B Linear - 1.5mhz, 600ma Synchronous Step-down Regulator In Thinsot
LTC3406B-1.2 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406B-1.5 Linear - LTC3406, 1.5MHz, 600mA Synchronous Step-down Regulator in Thinsot
LTC3406B-1.8 Linear - LTC3406, 1.5MHz, 600mA Synchronous Step-down Regulator in Thinsot
LTC3406B-2 Linear - 2.25MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406B-2ES5 Linear - 2.25mhz, 600ma Synchronous Step-down Regulator In Thinsot
LTC3406BES5 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406BES5-1.2 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406BES5-1.5 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406BES5-1.8 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406ES5 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406ES5-1.2 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406ES5-1.5 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3406ES5-1.8 Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator in ThinSOT
LTC3407 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3407 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3407 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3407 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3407 Linear - 1.4A, 500kHz Step-Down Switching Regulator
LTC3407 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3407-2 Linear - Dual Synchronous, 800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3407EDD-2 Linear - Dual Synchronous, 800ma, 2.25mhz Step-down Dc/dc Regulator
LTC3407EMSE Linear - LTC3407, 1.5MHz Dual 600mA, Synchronous Step-down Regulator
LTC3407EMSE-2 Linear - Dual Synchronous, 800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3408 Linear - 1.5mhz, 600ma Synchronous Step-down Regulator With Bypass Transistor
LTC3408EDD Linear - 1.5MHz, 600mA Synchronous Step-Down Regulator with Bypass Transistor
LTC3409 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3409EDD Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3410 Linear - 2.25MHz, 300mA Synchronous Step-Down Regulator in SC70The LTC®3410 isA high efficiency...
LTC3410B Linear - 2.25MHz, 300mA Synchronous Step-Down Regulator in SC70The LTC®3410B isA high efficiency...
LTC3410BESC6 Linear - 2.25MHz, 300mA Synchronous Step-Down Regulator in SC70The LTC®3410B isA high efficiency...
LTC3410ESC6 Linear - 2.25MHz, 300mA Synchronous Step-Down Regulator in SC70The LTC®3410 isA high efficiency...
LTC3411 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3411 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3411 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3411 Linear - 600mA Low Vin Buck Regulator in 3mm x 3mm DFN
LTC3411 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3411 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC3411 Linear - 1.25a, 4mhz, Synchronous Step-down Dc/dc Converter
LTC3411EDD Linear - 1.25A, 4MHz, Synchronous Step-Down DC/DC Converter
LTC3411EMS Linear - 1.25A, 4MHz, Synchronous Step-Down DC/DC Converter
LTC3412 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3412 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3412 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3412 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3412 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3412 Linear - 1.4A, 500kHz Step-Down Switching Regulator
LTC3412 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3412A Linear - 3A, 4MHz, Monolithic Synchronous Step-Down RegulatorThe LTC®3412A isA high efficiency monolithic synchronous, step-down DC/DC converter utilizingA constant frequency, current mode architecture. It operates from an input voltage range of 2.25V to 5.5V and providesA regulated output voltage from 0.8V to 5V while delivering up to 3A of output current. The internal synchronous power switch with 77m? on-resistance increases efficiency and eliminates the need for an external Schottky diode. Switching frequency
LTC3412AEFE Linear - 3A, 4MHz, Monolithic Synchronous Step-Down RegulatorThe LTC®3412A isA high efficiency monolithic synchronous, step-down DC/DC converter utilizingA constant frequency, current mode architecture. It operates from an input voltage range of 2.25V to 5.5V and providesA regulated output voltage from 0.8V to 5V while delivering up to 3A of output current. The internal synchronous power switch with 77m? on-resistance increases efficiency and eliminates the need for an external Schottky diode. Switching frequency
LTC3412AEUF Linear - 3A, 4MHz, Monolithic Synchronous Step-Down RegulatorThe LTC®3412A isA high efficiency monolithic synchronous, step-down DC/DC converter utilizingA constant frequency, current mode architecture. It operates from an input voltage range of 2.25V to 5.5V and providesA regulated output voltage from 0.8V to 5V while delivering up to 3A of output current. The internal synchronous power switch with 77m? on-resistance increases efficiency and eliminates the need for an external Schottky diode. Switching frequency
LTC3412EFE Linear - LTC3412, 4MHz, 2.5A Synchronous Step-down DC/DC Converter
LTC3413 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3413 Linear - 3A, 2MHz Monolithic Synchronous Regulator for DDR/QDR Memory Termination
LTC3413EFE Linear - 3a, 2mhz Monolithic Synchronous Regulator For Ddr/qdr Memory Termination
LTC3414 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3414 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3414 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3414 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3414 Linear - 1.4A, 500kHz Step-Down Switching Regulator
LTC3414EFE Linear - LTC3414, 4A, 4MHz Synchronous Step-down DC/DC Converter
LTC3415 Linear - 7A, PolyPhase Synchronous Step-Down RegulatorThe LTC3415 isA high efficiency, monolithic synchronous buck regulator usingA phase lockable constant frequency, current mode architecture. PolyPhase® operation allows multiple LTC3415s to run out of phase while using minimal input and output capacitance. The operating supply range is from 5.5V down to 2.5V, making it suitable for single Lithium-Ion battery as well as point of load power supply applications. Burst Mode operation provides high efficiency at low
LTC3415EUHF Linear - 7A, PolyPhase Synchronous Step-Down RegulatorThe LTC3415 isA high efficiency, monolithic synchronous buck regulator usingA phase lockable constant frequency, current mode architecture. PolyPhase® operation allows multiple LTC3415s to run out of phase while using minimal input and output capacitance. The operating supply range is from 5.5V down to 2.5V, making it suitable for single Lithium-Ion battery as well as point of load power supply applications. Burst Mode operation provides high efficiency at low
LTC3416 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3416 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3416 Linear - 4a, 4mhz, Monolithic Synchronous Step-down Regulator With Tracking
LTC3416EFE Linear - 4A, 4MHz, Monolithic Synchronous Step-Down Regulator with Tracking
LTC3417EDHC Linear - Dual Synchronous 1.4A/800mA 4MHz Step-Down DC/DC RegulatorThe LTC®3417 isA dual constant frequency, synchronous step-down DC/DC converter. Intended for medium power applications, it operates fromA 2.25V to 5.5V input voltage range and hasA constant programmable switching frequency, allowing the use of tiny, low cost capacitors and inductors 2mm or less in height. Each output voltage is adjustable from 0.8V to 5V. Internal synchronous low RDS(ON) power switches provide high efficiency without the need for
LTC3417EFE Linear - Dual Synchronous 1.4A/800mA 4MHz Step-Down DC/DC RegulatorThe LTC®3417 isA dual constant frequency, synchronous step-down DC/DC converter. Intended for medium power applications, it operates fromA 2.25V to 5.5V input voltage range and hasA constant programmable switching frequency, allowing the use of tiny, low cost capacitors and inductors 2mm or less in height. Each output voltage is adjustable from 0.8V to 5V. Internal synchronous low RDS(ON) power switches provide high efficiency without the need for
LTC3418 Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3418EUHF Linear - 8A, 4MHz, Monolithic Synchronous Step-Down Regulator
LTC3421 Linear - 4A, 2MHz Dual Phase Step-Up DC/DC Converter in 3mm 3mm DFN
LTC3421 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3421 Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3421 Linear - 3a, 3mhz Micropower Synchronous Boost Converter With Output Disconnect
LTC3421EUF Linear - 3A, 3MHz Micropower Synchronous Boost Converter with Output Disconnect
LTC3422EDD Linear - 1.5A, 3MHz Synchronous Step-Up DC/DC Converter with Output DisconnectThe LTC®3422 isA high efficiency, current mode, fixed frequency, step-up DC/DC converter with true output disconnect and inrush current limiting. The part is guaranteed to start up from an input voltage of 1V. The device includesA 0.20? N-channel MOSFET switch andA 0.24? P-channel MOSFET synchronous rectifier. The output voltage, switching frequency, soft-start time, Burst Mode threshold and loop compensation are all simply programmed u
LTC3423 Linear IS - Low Output Voltage 3mhz Micropower Synchronous Boost Converters
LTC3423EMS Linear IS - Low Output Voltage 3MHz Micropower Synchronous Boost Converters
LTC3424 Linear IS - Low Output Voltage 3MHz Micropower Synchronous Boost Converters
LTC3424EMS Linear IS - Low Output Voltage 3MHz Micropower Synchronous Boost Converters
LTC3426 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3426ES6 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3427EDC Linear - 500mA, 1.25MHz Synchronous Step-Up DC/DC Converter in 2mm Ч 2mm DFN PackageThe LTC®3427 is the industry’s first high efficiency, fixed frequency, step-up DC/DC converter with true output disconnect inA 6-lead 2mm Ч 2mm DFN package. Requiring minimal external components, the LTC3427 operates from an input voltage as low as 1.8V. The LTC3427 contains an internal 0.525? N-channel MOSFET switch andA 0.575? P-channel MOSFET synchronous rectifier, which enables it to supply 200mA at 3.3V fromA 2-cell alkaline
LTC3428 Linear - 4A, 2MHz Dual Phase Step-Up DC/DC Converter in 3mm 3mm DFN
LTC3429 Linear - 4A, 2MHz Dual Phase Step-Up DC/DC Converter in 3mm 3mm DFN
LTC3429 Linear - 1.4A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3429 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3429 Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3436 Linear - 4A, 2MHz Dual Phase Step-Up DC/DC Converter in 3mm 3mm DFN
LTC3436 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3440 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3440 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3440 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3440 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3440 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC3441 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3441 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3441 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3442 Linear - Micropower Synchronous Buck-Boost DC/DC Converter with Automatic Burst Mode Operation
LTC3442EDE Linear - Micropower Synchronous Buck-Boost DC/DC Converter with Automatic Burst Mode Operation
LTC3443 Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3443 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3444EDD Linear - Micropower Synchronous Buck-Boost DC/DC Converter for WCDMA ApplicationsThe LTC®3444 isA highly efficient, fixed frequency, buckboost DC/DC converter, which operates from input voltages above, below, and equal to the output voltage. The topology incorporated in the IC providesA continuous transfer function through all operating modes, making the product ideal forA single Lithium-Ion or multi-cell applications where the output voltage can vary overA wide range.
LTC3445 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3445EUF Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3450 Linear - Quad DCDC Converter for Triple Outputs TFT Supply Plus LED Driver
LTC3450EUD Linear - Triple Output Power Supply For Small Tft-lcd Displays
LTC3453 Linear - 1A Low Noise High Current LED Charge Pump with Independent Torch/Flash Current Control
LTC3453 Linear - 700mA Low Noise High Current LED Charge Pump
LTC3454 Linear - 1A Synchronous Buck-Boost High Current LED DriverThe LTC®3454 isA synchronous buck-boost DC/DC converter optimized for drivingA single high power LED at currents up to 1A fromA single cell Li-Ion battery input. The regulator operates in either synchronous buck, synchronous boost, or buck-boost mode depending on input voltage and LED forward voltage. PLED/PIN efficiency greater than 90% can be achieved over the entire usable range ofA Li-Ion battery (2.7V to 4.2V).
LTC3454EDD Linear - 1A Synchronous Buck-Boost High Current LED DriverThe LTC®3454 isA synchronous buck-boost DC/DC converter optimized for drivingA single high power LED at currents up to 1A fromA single cell Li-Ion battery input. The regulator operates in either synchronous buck, synchronous boost, or buck-boost mode depending on input voltage and LED forward voltage. PLED/PIN efficiency greater than 90% can be achieved over the entire usable range ofA Li-Ion battery (2.7V to 4.2V).
LTC3455 Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3455 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3455 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC3455EUF Linear - Dual DC/DC Converter with USB Power Manager and Li-Ion Battery Charger
LTC3456 Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3456EUF Linear - 2-Cell, Multi-Output DC/DC Converter with USB Power Manager
LTC3458 Linear - 1.4A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3458 Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3458EDE Linear - 1.4A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3458L Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3458LEDE Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3459 Linear - 4A, 2MHz Dual Phase Step-Up DC/DC Converter in 3mm 3mm DFN
LTC3459 Linear - 1.4A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3459 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3459 Linear - 1.7A, 1.5MHz Synchronous Step-Up DC/DC Converter with Output Disconnect
LTC3459 Linear - 10v Micropower Synchronous Boost Converter In Thinsot
LTC3459ES6 Linear - 10V Micropower Synchronous Boost Converter in ThinSOT
LTC3464 Linear - 1.2MHz Step-Up DC/DC Converter in SOT-23
LTC3466 Linear - Dual Full Function White LED Step-Up Converter with Built-In Schottky DiodesLT®3466 isA dual full function step-up DC/DC converter specifically designed to drive up to 20 White LEDs (10 in Series per converter) withA constant current. Series connection of the LEDs provides identical LED currents resulting in uniform brightness and eliminating the need for ballast resistors and expensive factory calibration.The two independent converters are capable of driving asymmetric LED strings. The dimming of the two
LTC3490 Linear - Single Cell 350mA LED DriverThe LTC®3490 providesA constant current drive for 1W LED applications. It isA high efficiency boost converter that operates from 1 or 2 NiMH or alkaline cells and generates 350mA of constant current with up to 4V of compliance. It containsA 100m Ohm NFET switch andA 130m Ohm PFET synchronous rectifier. The fixed switching frequency is internally set to 1.3MHz.
LTC3499 Linear - 750mA Synchronous Step-Up DC/DC Converters with Reverse-Battery ProtectionThe LTC3499/LTC3499B are synchronous, fixed frequency step-up DC/DC power converters with integrated reverse battery protection that protect and disconnect the devices and load when the battery polarity is reversed while delivering high efficiency inA small (3mm Ч 3mm) DFN package. True output disconnect eliminates inrush current and allows zero load current in shutdown.Reverse-Battery Protection for DC/DC Converter and Load High Eff
LTC3499B Linear - 750mA Synchronous Step-Up DC/DC Converters with Reverse-Battery ProtectionThe LTC3499/LTC3499B are synchronous, fixed frequency step-up DC/DC power converters with integrated reverse battery protection that protect and disconnect the devices and load when the battery polarity is reversed while delivering high efficiency inA small (3mm Ч 3mm) DFN package. True output disconnect eliminates inrush current and allows zero load current in shutdown.Reverse-Battery Protection for DC/DC Converter and Load High Eff
LTC3499BEDD Linear - 750mA Synchronous Step-Up DC/DC Converters with Reverse-Battery ProtectionThe LTC3499/LTC3499B are synchronous, fixed frequency step-up DC/DC power converters with integrated reverse battery protection that protect and disconnect the devices and load when the battery polarity is reversed while delivering high efficiency inA small (3mm Ч 3mm) DFN package. True output disconnect eliminates inrush current and allows zero load current in shutdown.Reverse-Battery Protection for DC/DC Converter and Load High Eff
LTC3499EDD Linear - 750mA Synchronous Step-Up DC/DC Converters with Reverse-Battery ProtectionThe LTC3499/LTC3499B are synchronous, fixed frequency step-up DC/DC power converters with integrated reverse battery protection that protect and disconnect the devices and load when the battery polarity is reversed while delivering high efficiency inA small (3mm Ч 3mm) DFN package. True output disconnect eliminates inrush current and allows zero load current in shutdown.Reverse-Battery Protection for DC/DC Converter and Load High Eff
LTC3525 Linear - 400mA Micropower Synchronous Step-Up DC/DC Converter with Output DisconnectThe LTC®3525-...
LTC3525ESC6-3.3 Linear - 400mA Micropower Synchronous Step-Up DC/DC Converter with Output DisconnectThe LTC®3525-...
LTC3525ESC6-5 Linear - 400mA Micropower Synchronous Step-Up DC/DC Converter with Output DisconnectThe LTC®3525-...
LTC3531 Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3531EDD Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3531EDD-3 Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3531EDD-3.3 Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3531ES6-3 Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3531ES6-3.3 Linear - 200mA Buck-Boost Synchronous DC/DC ConvertersThe LTC®3531/LTC3531-3.3/LTC3531-3 are synchronous buck-boost DC/DC converters that operate from input voltages above, below or equal to the output voltage. The topology incorporated in the ICs providesA continuous transfer through all operating modes, making the product ideal for single cell Li-Ion and multicell alkaline or nickel applications. The converters operate in Burst Mode, minimizing solution footprint and component count as well as providing high conv
LTC3532 Linear - Micropower Synchronous Buck-Boost DC/DC ConverterThe LTC3532 isA high effi ciency, fi xed frequency, buckboost DC/DC converter that operates from input voltages above, below or equal to the output voltage. The topology incorporated in the IC providesA continuous transfer function through all operating modes, making the product ideal for single lithium-ion, multicell alkaline or NiMH applications where the output voltage is within the battery voltage range.The device includes two 0.36Ω N-channel MOSFE
LTC3532EDD Linear - Micropower Synchronous Buck-Boost DC/DC ConverterThe LTC3532 isA high effi ciency, fi xed frequency, buckboost DC/DC converter that operates from input voltages above, below or equal to the output voltage. The topology incorporated in the IC providesA continuous transfer function through all operating modes, making the product ideal for single lithium-ion, multicell alkaline or NiMH applications where the output voltage is within the battery voltage range.The device includes two 0.36Ω N-channel MOSFE
LTC3532EMS Linear - Micropower Synchronous Buck-Boost DC/DC ConverterThe LTC3532 isA high effi ciency, fi xed frequency, buckboost DC/DC converter that operates from input voltages above, below or equal to the output voltage. The topology incorporated in the IC providesA continuous transfer function through all operating modes, making the product ideal for single lithium-ion, multicell alkaline or NiMH applications where the output voltage is within the battery voltage range.The device includes two 0.36Ω N-channel MOSFE
LTC3548 Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3548EMSE Linear - Dual Synchronous,400mA/800mA, 2.25MHz Step-Down DC/DC Regulator
LTC3550-1 Linear - Dual Input USB/AC Adapter Li-Ion Battery Charger with 600mA Buck ConverterThe LTC®3550-1 isA standalone linear charger withA 600mA monolithic synchronous buck converter. It is capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The charger automatically selects the appropriate power source for charging.
LTC3550EDHC-1 Linear - Dual Input USB/AC Adapter Li-Ion Battery Charger with 600mA Buck ConverterThe LTC®3550-1 isA standalone linear charger withA 600mA monolithic synchronous buck converter. It is capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The charger automatically selects the appropriate power source for charging.
LTC3552EDHC-1 Linear - Standalone Linear Li-Ion Battery Charger and Dual Synchronous Buck ConverterThe LTC3552-1 isA complete constant-current/constantvoltage linear charger and dual fi xed output DC/DC converter for single cell lithium-ion batteries. Its DFN package and low external component count make the LTC3552-1 ideally suited for portable applications. Furthermore, the LTC3552-1 is designed to work within USB power specifi cations.No external sense resistor or external blocking diode are required due to the internal MOSFE
LTC3700 Linear - Constant Frequency Step-down Dc/dc Controller With Ldo Regulator
LTC3700EMS Linear - Constant Frequency Step-Down DC/DC Controller with LDO Regulator
LTC3701 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3722 Linear - LTC3722, Synchronous Dual Mode Phase Modulated Full Bridge Controller
LTC3722-1 Linear - Synchronous Dual Mode Phase Modulated Full Bridge Controllers
LTC3722-2 Linear - Synchronous Dual Mode Phase Modulated Full Bridge Controllers
LTC3722EGN-1 Linear - Synchronous Dual Mode Phase Modulated Full Bridge Controllers
LTC3722EGN-2 Linear - Synchronous Dual Mode Phase Modulated Full Bridge Controllers
LTC3723-1 Linear - Synchronous Push-pull PWM Controllerssynchronous Push-pull PWM Controllers Provide All of The Control and Protection Functions Necessary For Compact and Highly Efficient, ISOlated Power Converters. High Integration Minimizes External Component Count, While Preserving Design Flexibility.featureshigh Efficiency Synchronous Push-pull PWM 1.5A Sink, 1A Source Output Drivers Adjustable Push-pull Dead-time and Synchronous Timing Adjustable System Undervoltage Lockout and Hysteresis Adjustable Leading Edge Blankin
LTC3725 Linear - Single-Switch Forward Controller and Gate DriverThe LTC®3725 isA controller forA single-switch forward converter and includes an on-chip gate driver.
LTC3725EMSE Linear - Single-Switch Forward Controller and Gate DriverThe LTC®3725 isA controller forA single-switch forward converter and includes an on-chip gate driver.
LTC3725IMSE Linear - Single-Switch Forward Controller and Gate DriverThe LTC®3725 isA controller forA single-switch forward converter and includes an on-chip gate driver.
LTC3726 Linear - Secondary-Side Synchronous Forward ControllerThe LTC3726 isA secondary-side controller for synchronous forward converters. When used in conjunction with the LTC3705/LTC3725 gate driver and primary-side controllers, the part createsA complete isolated power supply that combines the simplicity of OPTI-LOOP® compensation with the speed of secondary-side control.Secondary-Side Control for Fast Transient Response Self-Starting Architecture Eliminates Need for Separate Bias Regulator Proprietary Gate Drive Enco
LTC3726EGN Linear - Secondary-Side Synchronous Forward ControllerThe LTC3726 isA secondary-side controller for synchronous forward converters. When used in conjunction with the LTC3705/LTC3725 gate driver and primary-side controllers, the part createsA complete isolated power supply that combines the simplicity of OPTI-LOOP® compensation with the speed of secondary-side control.Secondary-Side Control for Fast Transient Response Self-Starting Architecture Eliminates Need for Separate Bias Regulator Proprietary Gate Drive Enco
LTC3726IGN Linear - Secondary-Side Synchronous Forward ControllerThe LTC3726 isA secondary-side controller for synchronous forward converters. When used in conjunction with the LTC3705/LTC3725 gate driver and primary-side controllers, the part createsA complete isolated power supply that combines the simplicity of OPTI-LOOP® compensation with the speed of secondary-side control.Secondary-Side Control for Fast Transient Response Self-Starting Architecture Eliminates Need for Separate Bias Regulator Proprietary Gate Drive Enco
LTC3727 Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching Regulators
LTC3727-1 Linear - High Efficiency, 2-phase Synchronous Step-down Switching Regulators
LTC3727A-1 Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching RegulatorsThe LTC®3727A-1 isA high performance dual step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allows phase-lockable frequency of up to 550kHz. Power loss and noise due to the ESR of the input capacitors are minimized by operating the two controller output stages out of phase.
LTC3727AEG-1 Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching RegulatorsThe LTC®3727A-1 isA high performance dual step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allows phase-lockable frequency of up to 550kHz. Power loss and noise due to the ESR of the input capacitors are minimized by operating the two controller output stages out of phase.
LTC3727EG Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching Regulators
LTC3727EG-1 Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching Regulators
LTC3727EUH-1 Linear - High Efficiency, 2-Phase Synchronous Step-Down Switching Regulators
LTC3728L Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3728L-1 Linear - Dual, 550kHz, 2-Phase Synchronous RegulatorThe LTC®3728L-1 isA dual high performance step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allows phase-lockable frequency of up to 550kHz. Power loss and noise due to the ESR of the input capacitors are minimized by operating the two controller output stages out of phase. The LTC3728L-1 is identical to the LTC3728L except that the LTC3728L-1 lacks the over current la
LTC3728LCGN Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3728LCUH Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3728LEGN Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3728LEGN-1 Linear - Dual, 550kHz, 2-Phase Synchronous RegulatorThe LTC®3728L-1 isA dual high performance step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allows phase-lockable frequency of up to 550kHz. Power loss and noise due to the ESR of the input capacitors are minimized by operating the two controller output stages out of phase. The LTC3728L-1 is identical to the LTC3728L except that the LTC3728L-1 lacks the over current la
LTC3728LEUH Linear - Dual, 550khz, 2-phase Synchronous Regulators
LTC3728LEUH-1 Linear - Dual, 550kHz, 2-Phase Synchronous RegulatorThe LTC®3728L-1 isA dual high performance step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allows phase-lockable frequency of up to 550kHz. Power loss and noise due to the ESR of the input capacitors are minimized by operating the two controller output stages out of phase. The LTC3728L-1 is identical to the LTC3728L except that the LTC3728L-1 lacks the over current la
LTC3728LX Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3728LXCUH Linear - Dual, 550kHz, 2-Phase Synchronous Regulators
LTC3733 Linear - 3-phase, Buck Controllers For Amd Cpus
LTC3733-1 Linear - 3-Phase, Buck Controllers for AMD CPUs
LTC3733CUHF-1 Linear - 3-Phase, Buck Controllers for AMD CPUs
LTC3736 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3736 Linear - Dual 2-phase, No Rsense Synchronous Controller With Output Tracking
LTC3736-1 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3736-2 Linear - Dual 2-Phase, No RSENSE Synchronous Controller with Output TrackingThe LTC3736-2 isA 2-phase dual synchronous step-down switching regulator controller with tracking that drives external complementary power MOSFETs using few external components. The constant frequency current mode architecture with MOSFET VDS sensing eliminates the need for sense resistors and improves efficiency. Power loss and noise due to the ESR of the input capacitance are minimized by operating the two controllers out of phase.
LTC3736EGN Linear - Dual 2-Phase, No RSENSE Synchronous Controller with Output Tracking
LTC3736EUF Linear - Dual 2-Phase, No RSENSE Synchronous Controller with Output Tracking
LTC3736EUF-2 Linear - Dual 2-Phase, No RSENSE Synchronous Controller with Output TrackingThe LTC3736-2 isA 2-phase dual synchronous step-down switching regulator controller with tracking that drives external complementary power MOSFETs using few external components. The constant frequency current mode architecture with MOSFET VDS sensing eliminates the need for sense resistors and improves efficiency. Power loss and noise due to the ESR of the input capacitance are minimized by operating the two controllers out of phase.
LTC3737 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3737 Linear - Dual 2-phase, No Rsense Dc/dc Controller With Output Tracking
LTC3737EGN Linear - Dual 2-Phase, No RSENSE DC/DC Controller with Output Tracking
LTC3737EUF Linear - Dual 2-Phase, No RSENSE DC/DC Controller with Output Tracking
LTC3738 Linear - 3-phase Buck Controller For Intel Vrm9/vrm10 With Active Voltage Positioning
LTC3738CUHF Linear - 3-Phase Buck Controller for Intel VRM9/VRM10 with Active Voltage Positioning
LTC3770 Linear - Synchronous Controller with Margining, Tracking and PLL
LTC3770EG Linear - Synchronous Controller With Margining, Tracking and Pll
LTC3770EUH Linear - Synchronous Controller with Margining, Tracking and PLL
LTC3772 Linear - Micropower No RSENSE Constant Frequency Step-Down DC/DC ControllerThe LTC®3772 isA constant frequency current mode step-down DC/DC controller inA low profile 8-lead SOT-23 (ThinSOTTM) andA 3mm Ч 2mm DFN package. The No RSENSETM architecture eliminates the need forA current sense resistor, improving efficiency and saving board space. The LTC3772 automatically switches into Burst Mode operation at light loads to increase efficiency at low output current. It consumes only 40µA of quiescent current under a
LTC3772B Linear - Micropower No RSENSE Constant Frequency Step-Down DC/DC ControllerThe LTC®3772 isA constant frequency current mode step-down DC/DC controller inA low profile 8-lead SOT-23 (ThinSOTTM) andA 3mm Ч 2mm DFN package. The No RSENSETM architecture eliminates the need forA current sense resistor, improving efficiency and saving board space. The LTC3772 automatically switches into Burst Mode operation at light loads to increase efficiency at low output current. It consumes only 40µA of quiescent current under a
LTC3772EDDB Linear - Micropower No RSENSE Constant Frequency Step-Down DC/DC ControllerThe LTC®3772 isA constant frequency current mode step-down DC/DC controller inA low profile 8-lead SOT-23 (ThinSOTTM) andA 3mm Ч 2mm DFN package. The No RSENSETM architecture eliminates the need forA current sense resistor, improving efficiency and saving board space. The LTC3772 automatically switches into Burst Mode operation at light loads to increase efficiency at low output current. It consumes only 40µA of quiescent current under a
LTC3772ETS8 Linear - Micropower No RSENSE Constant Frequency Step-Down DC/DC ControllerThe LTC®3772 isA constant frequency current mode step-down DC/DC controller inA low profile 8-lead SOT-23 (ThinSOTTM) andA 3mm Ч 2mm DFN package. The No RSENSETM architecture eliminates the need forA current sense resistor, improving efficiency and saving board space. The LTC3772 automatically switches into Burst Mode operation at light loads to increase efficiency at low output current. It consumes only 40µA of quiescent current under a
LTC3776 Linear - Dual 2-Phase, No RSENSE Synchronous Controller for DDR/QDR Memory Termination
LTC3776EGN Linear - Dual 2-Phase, No RSENSE Synchronous Controller for DDR/QDR Memory Termination
LTC3776EUF Linear - Dual 2-phase, No Rsense Synchronous Controller For Ddr/qdr Memory Termination
LTC3778 Linear - Wide Operating Range, No RSENSE Step-Down Controller
LTC3778E Linear - LTC3778, 36V, no Rsense Step-down Controller
LTC3778EF Linear - Wide Operating Range, No Rsense Step-down Controller
LTC3780 Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3780EG Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3780EUH Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3780IG Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3780IUH Linear - High Efficiency, Synchronous, 4-Switch Buck-Boost Controller
LTC3783 Linear - PWM LED Driver and Boost, Flyback and SEPIC ConverterThe LTC®3783 isA current mode LED driver and boost, flyback and SEPIC controller that drives both an N-channel power MOSFET and an N-channel load PWM switch. When using an external load switch, the PWMIN input not only drives PWMOUT, but also enables controller GATE switching and error amplifier operation, allowing the controller to store load current information while PWMIN is low. This feature (patent pending) provides extremely fast, true PWM load swi
LTC3783EDHD Linear - PWM LED Driver and Boost, Flyback and SEPIC ConverterThe LTC®3783 isA current mode LED driver and boost, flyback and SEPIC controller that drives both an N-channel power MOSFET and an N-channel load PWM switch. When using an external load switch, the PWMIN input not only drives PWMOUT, but also enables controller GATE switching and error amplifier operation, allowing the controller to store load current information while PWMIN is low. This feature (patent pending) provides extremely fast, true PWM load swi
LTC3783EFE Linear - PWM LED Driver and Boost, Flyback and SEPIC ConverterThe LTC®3783 isA current mode LED driver and boost, flyback and SEPIC controller that drives both an N-channel power MOSFET and an N-channel load PWM switch. When using an external load switch, the PWMIN input not only drives PWMOUT, but also enables controller GATE switching and error amplifier operation, allowing the controller to store load current information while PWMIN is low. This feature (patent pending) provides extremely fast, true PWM load swi
LTC-37xx Lite-On - 0.3 FOUR LED CLOCK FREQUENCY DISPLAYS
LTC3801 Linear - Micropower Constant Frequency Step-down Dc/dc Controllers In Thinsot
LTC3801B Linear - Micropower Constant Frequency Step-Down DC/DC Controllers in ThinSOT
LTC3801BES6 Linear - Micropower Constant Frequency Step-Down DC/DC Controllers in ThinSOT
LTC3801ES6 Linear - Micropower Constant Frequency Step-Down DC/DC Controllers in ThinSOT
LTC3802 Linear - Dual 550kHz Synchronous 2-Phase DC/DC Controller with Programmable Up/Down Tracking
LTC3802EGN Linear - Dual 550khz Synchronous 2-phase Dc/dc Controller With Programmable Up/down Tracking
LTC3802EUH Linear - Dual 550kHz Synchronous 2-Phase DC/DC Controller with Programmable Up/Down Tracking
LTC3806 Linear - Synchronous Flyback Dc/dc Controller
LTC3806EDE Linear - Synchronous Flyback DC/DC Controller
LTC3808 Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3808EDE Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3808EGN Linear - No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
LTC3819EG Linear - 2-Phase, High Efficiency, Step-Down Controller for Sun Server CPUsThe LTC®3819 isA 2-phase, VID programmable, synchronous step-down switching regulator controller that drives two N-channel external power MOSFET stages inA fixed frequency architecture. The 2-phase controller drives its two output stages out of phase at frequencies up to 300kHz to minimize the RMS ripple currents in both input and output capacitors. The 2-phase technique effectively multiplies the fundamental frequency by two, improving tra
LTC3827 Linear - Low IQ, Dual, 2-Phase Synchronous ControllerThe LTC®3827 isA high performance dual step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allowsA phase-lockable frequency of up to 650kHz. Power loss and noise due to the ESR of the input capacitor ESR are minimized by operating the two controller output stages out of phase.
LTC3827EUH Linear - Low IQ, Dual, 2-Phase Synchronous ControllerThe LTC®3827 isA high performance dual step-down switching regulator controller that drives all N-channel synchronous power MOSFET stages.A constant frequency current mode architecture allowsA phase-lockable frequency of up to 650kHz. Power loss and noise due to the ESR of the input capacitor ESR are minimized by operating the two controller output stages out of phase.
LTC3828 Linear - Dual 2-Phase Step-Down Controller with Tracking
LTC3828EG Linear - Dual 2-phase Step-down Controller With Tracking
LTC3828EUH Linear - Dual 2-Phase Step-Down Controller with Tracking
LTC3830 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3830-1 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3830-1ES8 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3830EGN Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3830ES Linear - High Power Step-down Synchronous Dc/dc Controllers For Low Voltage Operation
LTC3830ES8 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3831 Linear - High Power Synchronous Switching Regulator Controller For Ddr Memory Termination
LTC3831EGN Linear - High Power Synchronous Switching Regulator Controller for DDR Memory Termination
LTC3831EGN-1 Linear - LTC3832, High Power Step-down Synchronous DC/DC Controllers For Low Voltage Operation
LTC3832 Linear - High Power Step-down Synchronous Dc/dc Controllers For Low Voltage Operation
LTC3832-1 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3832-1ES8 Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3832EGN Linear - High Power Step-Down Synchronous DC/DC Controllers for Low Voltage Operation
LTC3900 Linear - Synchronous Rectifier Driver for Forward Converters
LTC3900ES8 Linear - Synchronous Rectifier Driver For Forward Converters
LTC3901 Linear - Secondary Side Synchronous Driver For Push-pull and Full-bridge Converters
LTC3901EGN Linear - Secondary Side Synchronous Driver for Push-Pull and Full-Bridge Converters
LTC4002 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4002 Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4002-4.2 Linear - Standalone Li-ion Switch Mode Battery Charger
LTC4002-8.4 Linear - LTC4006, 4A High Efficiency Standalone Li-ion Battery Charger
LTC4002EDD Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4002EDD-4.2 Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4002EDD-4.2 Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4002EDD-8.4 Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4002ES8-4.2 Linear - Standalone Li-Ion Switch Mode Battery Charger
LTC4006 Linear - 4A, High Efficiency, Standalone Li Battery Charger
LTC4006 Linear - 4A, High Efficiency, Standalone Li-Ion Battery Charger
LTC4006-2 Linear - LTC4006, 4A High Efficiency Standalone Li-ion Battery Charger
LTC4006-4 Linear - LTC4006, 4A High Efficiency Standalone Li-ion Battery Charger
LTC4006-6 Linear - LTC4006, 4A High Efficiency Standalone Li-ion Battery Charger
LTC4006EGN-2 Linear - 4A, High Efficiency, Standalone Li-Ion Battery Charger
LTC4006EGN-4 Linear - 4A, High Efficiency, Standalone Li-Ion Battery Charger
LTC4006EGN-6 Linear - 4A, High Efficiency, Standalone Li-Ion Battery Charger
LTC4007 Linear - 4A, High Efficiency, Standalone Li Battery Charger
LTC4007-1 Linear - 4A, High Efficiency, Li-Ion Battery ChargerThe LTC4007-1 isA constant- current/constant-voltage charger controller for 3- or 4-cell lithium-ion batteries. The PWM controller usesA synchronous, quasi-constant frequency, constant off-time architecture that will not generate audible noise even when using ceramic capacitors. Charging current is programmable to ±4% accuracy usingA programming resistor. Charging current can also be monitored asA voltage across the programming resistor.
LTC4007EGN Linear - LTC4007, 4A, High Efficiency Standalone li Battery Charger
LTC4007EUFD-1 Linear - 4A, High Efficiency, Li-Ion Battery ChargerThe LTC4007-1 isA constant- current/constant-voltage charger controller for 3- or 4-cell lithium-ion batteries. The PWM controller usesA synchronous, quasi-constant frequency, constant off-time architecture that will not generate audible noise even when using ceramic capacitors. Charging current is programmable to ±4% accuracy usingA programming resistor. Charging current can also be monitored asA voltage across the programming resistor.
LTC4008 Linear - 4A, High Efficiency, Standalone Li Battery Charger
LTC4008-1 Linear - LTC4008, 4A, High Efficiency Multi-chemistry Battery Charger
LTC4008EGN Linear - LTC4008, 4A, High Efficiency Multi-chemistry Battery Charger
LTC4008EGN-1 Linear - LTC4008, 4A, High Efficiency Multi-chemistry Battery Charger
LTC4010 Linear IS - High Efficiency Standalone Nickel Battery Charger
LTC4010EFE Linear IS - High Efficiency Standalone Nickel Battery Charger
LTC4011 Linear - High Efficiency Standalone Nickel Battery Charger
LTC4011CFE Linear - High Efficiency Standalone Nickel Battery ChargerThe LTC®4011 providesA complete, cost-effective nickel battery fast charge solution inA small package using few external components.A 550kHz PWM current source controller and all necessary charge initiation, monitoring and termination control circuitry are included. The LTC4011 automatically senses the presence ofA DC adapter and battery insertion or removal. Heavily discharged batteries are precharged withA trickle current. The LTC4011 can simultaneousl
LTC4011EFE Linear - High Efficiency Standalone Nickel Battery Charger
LTC4050 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4050 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4050 Linear - Lithium-Ion Linear Battery Charger with Thermistor Interface
LTC4050-4.1 Linear - LTC4050, 1A Lithium-ion Linear Battery Charger Controller With Thermistor Interface
LTC4050-4.2 Linear - LTC4050, 1A Lithium-ion Linear Battery Charger Controller With Thermistor Interface
LTC4050EMS-4.1 Linear - Lithium-ion Linear Battery Charger With Thermistor Interface
LTC4050EMS-4.2 Linear - Lithium-Ion Linear Battery Charger with Thermistor Interface
LTC4052 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4052 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4052-4.2 Linear - LTC4052-4.2, 1A Lithium-ion Battery Pulse Charger With Overcurrent Protection
LTC4052EMS8E-4.2 Linear - LTC4052-4.2, 1A Lithium-ion Battery Pulse Charger With Overcurrent Protection
LTC4053 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4053 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4053-4.2 Linear - USB Compatible Lithium-Ion Battery Charger with Thermal Regulation
LTC4053EDD-4.2 Linear - Usb Compatible Lithium-ion Battery Charger With Thermal Regulation
LTC4053EMSE-4.2 Linear - USB Compatible Lithium-Ion Battery Charger with Thermal Regulation
LTC4054 Linear - Dual 2.6A, 2.5V to 5.5V, Ideal Diodes in 3mm 3mm DFN
LTC4054 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4054 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4054-4.2 Linear - LTC4054, 800mA Standalone Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4054ES5-4.2 Linear - LTC4054, 800mA Standalone Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4054L Linear - LTC4054L, 150mA Standalone Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4054L-4.2 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4054LES5-4.2 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4054X Linear - LTC4054, 800mA Standalone Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4054XES5-4.2 Linear - LTC4054, 800mA Standalone Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4055 Linear - I2C Controllable Buck Regulator with Two LDOs inA 4mm Ч 4mm QFN
LTC4055 Linear - Dual 2.6A, 2.5V to 5.5V, Ideal Diodes in 3mm 3mm DFN
LTC4055 Linear - Usb Power Controller and Li-ion Linear Charger
LTC4055EUF Linear - USB Power Controller and Li-Ion Linear Charger
LTC4056 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4056-4.2 Linear - LTC4056-4.2, Linear Li-ion Charger With Termination in Thinsot
LTC4056ETS8-4.2 Linear - LTC4056-4.2, Linear Li-ion Charger With Termination in Thinsot
LTC4057 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4057 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4057-4.2 Linear - LTC4057-4.2, Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4057ES5-4.2 Linear - LTC4057-4.2, Linear Li-ion Battery Charger With Thermal Regulation in Thinsot
LTC4058 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC4058 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4058 Linear - Standalone Linear Li-ion Battery Charger With Thermal Regulation In Dfn
LTC4058EDD-4.2 Linear - Standalone Linear Li-Ion Battery Charger with Thermal Regulation in DFN
LTC4058XEDD-4.2 Linear - Standalone Linear Li-Ion Battery Charger with Thermal Regulation in DFN
LTC4059 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4060 Linear - Standalone Linear NiMH/NiCd Fast Battery Charger
LTC4060EDHC Linear - Standalone Linear NiMH/NiCd Fast Battery Charger
LTC4060EFE Linear - Standalone Linear NiMH/NiCd Fast Battery Charger
LTC4061 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4061EDD Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4063 Linear - Standalone Linear Li-lon Battery Charger with Thermistor Input
LTC4064 Linear - Monolithic Linear Charger For Back-up Li-ion Batteries
LTC4064EMSE Linear - Monolithic Linear Charger for Back-Up Li-Ion Batteries
LTC4065A Linear - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFNThe LTC®4065 isA complete constant-current/constantvoltage linear charger for single-cell lithium-ion batteries. Its 2mm Ч 2mm DFN package and low external component count make the LTC4065 especially well-suited for portable applications. Furthermore, LTC4065 is specifically designed to work within USB power specifications. The CHRG pin indicates when charge current has dropped to ten percent of its programmed value (C/10). An internal timer terminates ch
LTC4065AEDC Linear - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFNThe LTC®4065 isA complete constant-current/constantvoltage linear charger for single-cell lithium-ion batteries. Its 2mm Ч 2mm DFN package and low external component count make the LTC4065 especially well-suited for portable applications. Furthermore, LTC4065 is specifically designed to work within USB power specifications. The CHRG pin indicates when charge current has dropped to ten percent of its programmed value (C/10). An internal timer terminates ch
LTC4065EDC Linear - Standalone 750mA Li-Ion Battery Charger in 2 x 2 DFNThe LTC®4065 isA complete constant-current/constantvoltage linear charger for single-cell lithium-ion batteries. Its 2mm Ч 2mm DFN package and low external component count make the LTC4065 especially well-suited for portable applications. Furthermore, LTC4065 is specifically designed to work within USB power specifications. The CHRG pin indicates when charge current has dropped to ten percent of its programmed value (C/10). An internal timer terminates ch
LTC4068 Linear - Standalone Linear Li-ion Battery Charger With Programmable Terminationcomplete Constant-current/constantvoltage Linear Charger For Single Cell Lithium-ion Batteries. Its DFN Package and Low External Component Count Make The LTC4068 Ideally Suited For Portable Applications. Furthermore, The LTC4068 is Designed to Work Within USB Power Specifications.featuresprogrammable Charge Current up to 950mA Complete Linear Charger in DFN Package No MOSFET, Sense Resistor or Blocking Diode Required Thermal Regulation Ma
LTC4068EDD-4.2 Linear - Standalone Linear Li-ion Battery Charger With Programmable Terminationcomplete Constant-current/constantvoltage Linear Charger For Single Cell Lithium-ion Batteries. Its DFN Package and Low External Component Count Make The LTC4068 Ideally Suited For Portable Applications. Furthermore, The LTC4068 is Designed to Work Within USB Power Specifications.featuresprogrammable Charge Current up to 950mA Complete Linear Charger in DFN Package No MOSFET, Sense Resistor or Blocking Diode Required Thermal Regulation Ma
LTC4069EDC Linear - Standalone 750mA Li-Ion Battery Charger in 2 Ч 2 DFN with NTC Thermistor InputThe LTC®4069 isA complete constant-current/constantvoltage linear charger for single-cell lithium-ion batteries. The 2mm Ч 2mm DFN package and low external component count make the LTC4069 especially well-suited for portable applications. Furthermore, LTC4069 is specifically designed to work within USB power specifications.
LTC4075 Linear - Dual Input USB/AC Adapter Standalone Li-Ion Battery ChargersThe LTC®4075/LTC4075X are standalone linear chargers that are capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The chargers can detect power at the inputs and automatically select the appropriate power source for charging.
LTC4075EDD Linear - Dual Input USB/AC Adapter Standalone Li-Ion Battery ChargersThe LTC®4075/LTC4075X are standalone linear chargers that are capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The chargers can detect power at the inputs and automatically select the appropriate power source for charging.
LTC4075X Linear - Dual Input USB/AC Adapter Standalone Li-Ion Battery ChargersThe LTC®4075/LTC4075X are standalone linear chargers that are capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The chargers can detect power at the inputs and automatically select the appropriate power source for charging.
LTC4075XEDD Linear - Dual Input USB/AC Adapter Standalone Li-Ion Battery ChargersThe LTC®4075/LTC4075X are standalone linear chargers that are capable of chargingA single-cell Li-Ion battery from both wall adapter and USB inputs. The chargers can detect power at the inputs and automatically select the appropriate power source for charging.
LTC4100 Linear - LTC4410, USB Power Manager in Thinsot
LTC4150 Linear - Coulomb Counter/ Battery Gas Gauge
LTC4150CMS Linear - Coulomb Counter/ Battery Gas Gauge
LTC4150IMS Linear - Coulomb Counter/ Battery Gas Gauge
LTC4210 Linear - LTC4210, 2.7V to 16.5V, 6-Lead SOT-23
LTC4210-1 Linear - Hot Swap Controller In 6-lead Sot-23 Package
LTC4210-1CS6 Linear - Hot Swap Controller in 6-Lead SOT-23 Package
LTC4210-1IS6 Linear - Hot Swap Controller in 6-Lead SOT-23 Package
LTC4210-2 Linear - Hot Swap Controller in 6-Lead SOT-23 Package
LTC4210-2CS6 Linear - Hot Swap Controller in 6-Lead SOT-23 Package
LTC4210-2IS6 Linear - Hot Swap Controller in 6-Lead SOT-23 Package
LTC4211 Linear - Hot Swap Controller With Multifunction Current Control
LTC4211CMS Linear - Hot Swap Controller with Multifunction Current Control
LTC4211CMS8 Linear - Hot Swap Controller with Multifunction Current Control
LTC4211CS8 Linear - Hot Swap Controller with Multifunction Current Control
LTC4211IMS Linear - Hot Swap Controller with Multifunction Current Control
LTC4211IMS8 Linear - Hot Swap Controller with Multifunction Current Control
LTC4211IS8 Linear - Hot Swap Controller with Multifunction Current Control
LTC4211MS Linear - LTC4211, 2.5V to 16.5V, Msop, Multifunction Current Control
LTC4212 Linear - Hot Swap Controller with Power-Up Timeout
LTC4212CMS Linear - Hot Swap Controller With Power-up Timeout
LTC4212IMS Linear - Hot Swap Controller with Power-Up Timeout
LTC4213 Linear - No RSENSE Electronic Circuit BreakerThe LTC®4213 is an Electronic Circuit Breaker. An overcurrent circuit breaker senses the voltage across the drain and source terminals of an external N-channel MOSFET with no need forA sense resistor. The advantages areA lower cost and reduced voltage and power loss in the switch path. An internal high-side driver controls the external MOSFET gate.
LTC4213CDDB Linear - No RSENSE Electronic Circuit BreakerThe LTC®4213 is an Electronic Circuit Breaker. An overcurrent circuit breaker senses the voltage across the drain and source terminals of an external N-channel MOSFET with no need forA sense resistor. The advantages areA lower cost and reduced voltage and power loss in the switch path. An internal high-side driver controls the external MOSFET gate.
LTC4213IDDB Linear - No RSENSE Electronic Circuit BreakerThe LTC®4213 is an Electronic Circuit Breaker. An overcurrent circuit breaker senses the voltage across the drain and source terminals of an external N-channel MOSFET with no need forA sense resistor. The advantages areA lower cost and reduced voltage and power loss in the switch path. An internal high-side driver controls the external MOSFET gate.
LTC4214 Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4214-1 Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4214-1CMS Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4214-1IMS Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4214-2CMS Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4214-2IMS Linear - LTC4214, -6V to -16V, Msop, Negative Voltage Hot Swap Controller
LTC4215 Linear - Hot Swap Controller with I2C Compatible MonitoringThe LTC4215 Hot Swap controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, board supply voltage and inrush current are ramped up at an adjustable rate. An I2C interface and onboard ADC allow for monitoring of load current, voltage and fault status.Allows Safe Insertion into Live Backplane 8-Bit ADC Monitors Current and Voltage I2C/SMBus Interface Wide Operating Voltage Range: 2.9V to 1
LTC4215CGN Linear - Hot Swap Controller with I2C Compatible MonitoringThe LTC4215 Hot Swap controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, board supply voltage and inrush current are ramped up at an adjustable rate. An I2C interface and onboard ADC allow for monitoring of load current, voltage and fault status.Allows Safe Insertion into Live Backplane 8-Bit ADC Monitors Current and Voltage I2C/SMBus Interface Wide Operating Voltage Range: 2.9V to 1
LTC4215CUFD Linear - Hot Swap Controller with I2C Compatible MonitoringThe LTC4215 Hot Swap controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, board supply voltage and inrush current are ramped up at an adjustable rate. An I2C interface and onboard ADC allow for monitoring of load current, voltage and fault status.Allows Safe Insertion into Live Backplane 8-Bit ADC Monitors Current and Voltage I2C/SMBus Interface Wide Operating Voltage Range: 2.9V to 1
LTC4215IGN Linear - Hot Swap Controller with I2C Compatible MonitoringThe LTC4215 Hot Swap controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, board supply voltage and inrush current are ramped up at an adjustable rate. An I2C interface and onboard ADC allow for monitoring of load current, voltage and fault status.Allows Safe Insertion into Live Backplane 8-Bit ADC Monitors Current and Voltage I2C/SMBus Interface Wide Operating Voltage Range: 2.9V to 1
LTC4215IUFD Linear - Hot Swap Controller with I2C Compatible MonitoringThe LTC4215 Hot Swap controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, board supply voltage and inrush current are ramped up at an adjustable rate. An I2C interface and onboard ADC allow for monitoring of load current, voltage and fault status.Allows Safe Insertion into Live Backplane 8-Bit ADC Monitors Current and Voltage I2C/SMBus Interface Wide Operating Voltage Range: 2.9V to 1
LTC4216 Linear - Ultralow Voltage Hot Swap Controller
LTC4216CDE Linear - Ultralow Voltage Hot Swap Controller
LTC4216CMS Linear - Ultralow Voltage Hot Swap Controller
LTC4216IDE Linear - Ultralow Voltage Hot Swap Controller
LTC4216IMS Linear - Ultralow Voltage Hot Swap Controller
LTC4221 Linear - Dual Hot Swap Controller/ Power Sequencer with Dual Speed, Dual Level Fault Protection
LTC4221CGN Linear - Dual Hot Swap Controller/ Power Sequencer with Dual Speed, Dual Level Fault Protection
LTC4221IGN Linear - Dual Hot Swap Controller/ Power Sequencer With Dual Speed, Dual Level Fault Protection
LTC4230 Linear - Triple Hot Swap Controller with Multifunction Current Control
LTC4230CGN Linear - Triple Hot Swap Controller with Multifunction Current Control
LTC4230IGN Linear - Triple Hot Swap Controller With Multifunction Current Control
LTC4240 Linear - CompactPCI Hot Swap Controller with I2C Compatible Interface
LTC4240CGN Linear - CompactPCI Hot Swap Controller with I2C Compatible Interface
LTC4240IGN Linear - Compactpci Hot Swap Controller With I2c Compatible Interface
LTC4241 Linear - LTC4241, Pci-bus With 3.3V Auxiliary Hot Swap Controller
LTC4241CGN Linear - LTC4241, Pci-bus With 3.3V Auxiliary Hot Swap Controller
LTC4241IGN Linear - LTC4241, Pci-bus With 3.3V Auxiliary Hot Swap Controller
LTC4244 Linear - Rugged, CompactPCI Bus Hot Swap Controllers
LTC4244CGN Linear - Rugged, CompactPCI Bus Hot Swap Controllers
LTC4244CGN-1 Linear - Rugged, CompactPCI Bus Hot Swap Controllers
LTC4244IGN Linear - Rugged, Compactpci Bus Hot Swap Controllers
LTC4244IGN-1 Linear - Rugged, CompactPCI Bus Hot Swap Controllers
LTC4252-1 Linear - Negative Voltage Hot Swap Controllers
LTC4252-1CMS Linear - Negative Voltage Hot Swap Controllers
LTC4252-1CMS8 Linear - Negative Voltage Hot Swap Controllers
LTC4252-1IMS Linear - Negative Voltage Hot Swap Controllers
LTC4252-1IMS8 Linear - Negative Voltage Hot Swap Controllers
LTC4252-2 Linear - LTC4252-2, Negative Voltage Hot Swap Controller w/ Auto Retry
LTC4252-2CMS Linear - Negative Voltage Hot Swap Controllers
LTC4252-2CMS8 Linear - Negative Voltage Hot Swap Controllers
LTC4252-2IMS Linear - Negative Voltage Hot Swap Controllers
LTC4252-2IMS8 Linear - Negative Voltage Hot Swap Controllers
LTC4253 Linear - 48V Hot Swap Controller with Sequencer
LTC4253CGN Linear - 48V Hot Swap Controller with Sequencer
LTC4253IGN Linear - 48V Hot Swap Controller with Sequencer
LTC4255 Linear - Quad Network Power Controller with I2C Compatible Interface
LTC4255CG Linear - Quad Network Power Controller With I2c Compatible Interface
LTC4257 Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4257-1 Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4257-1 Linear - Power Over Ethernet Interface Controller With Dual Current Limit
LTC4257CDD-1 Linear - Power over Ethernet Interface Controller with Dual Current Limit
LTC4257CS8 Linear - LTC4257, Ieee 802.3af PD Power-over-ethernet Interface Controller
LTC4257CS8-1 Linear - Power over Ethernet Interface Controller with Dual Current Limit
LTC4257IDD-1 Linear - Power over Ethernet Interface Controller with Dual Current Limit
LTC4257IS8-1 Linear - Power over Ethernet Interface Controller with Dual Current Limit
LTC4258 Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4258 Linear - Quad Ieee 802.3af Power Over Ethernet Controller With Integrated Detection
LTC4258CGW Linear - Quad IEEE 802.3af Power over Ethernet Controller with Integrated Detection
LTC4259A Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4259A Linear - Quad Ieee 802.3af Power Over Ethernet Controller With Ac Disconnect
LTC4259ACGW Linear - Quad IEEE 802.3af Power over Ethernet Controller with AC Disconnect
LTC4261 Linear - Negative Voltage Hot Swap Controller with ADC and I2C MonitoringThe LTC®4261 negative voltage Hot SwapTM controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped at an adjustable rate. The device features independently adjustable inrush current and overcurrent limits to minimize stresses on the pass transistor during start-up, input step and output short conditions.An I2C interface and onboard 10-bi
LTC4261CGN Linear - Negative Voltage Hot Swap Controller with ADC and I2C MonitoringThe LTC®4261 negative voltage Hot SwapTM controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped at an adjustable rate. The device features independently adjustable inrush current and overcurrent limits to minimize stresses on the pass transistor during start-up, input step and output short conditions.An I2C interface and onboard 10-bi
LTC4261CUFD Linear - Negative Voltage Hot Swap Controller with ADC and I2C MonitoringThe LTC®4261 negative voltage Hot SwapTM controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped at an adjustable rate. The device features independently adjustable inrush current and overcurrent limits to minimize stresses on the pass transistor during start-up, input step and output short conditions.An I2C interface and onboard 10-bi
LTC4261IGN Linear - Negative Voltage Hot Swap Controller with ADC and I2C MonitoringThe LTC®4261 negative voltage Hot SwapTM controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped at an adjustable rate. The device features independently adjustable inrush current and overcurrent limits to minimize stresses on the pass transistor during start-up, input step and output short conditions.An I2C interface and onboard 10-bi
LTC4261IUFD Linear - Negative Voltage Hot Swap Controller with ADC and I2C MonitoringThe LTC®4261 negative voltage Hot SwapTM controller allowsA board to be safely inserted and removed fromA live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped at an adjustable rate. The device features independently adjustable inrush current and overcurrent limits to minimize stresses on the pass transistor during start-up, input step and output short conditions.An I2C interface and onboard 10-bi
LTC4267 Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4267CDHC Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4267CGN Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4267IDHC Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4267IGN Linear - Power over Ethernet IEEE 802.3af PD Interface with Integrated Switching Regulator
LTC4300-1 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300-1CMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300-1IMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300-2 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300-2CMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300-2IMS8 Linear - Hot Swappable 2-wire Bus Buffers
LTC4300A-1 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-1CMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-1IMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-2 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-2CMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-2IMS8 Linear - Hot Swappable 2-Wire Bus Buffers
LTC4300A-3 Linear - Level Shifting Hot Swappable 2-Wire Bus Buffer with Enable
LTC4300A-3CDD Linear - Level Shifting Hot Swappable 2-Wire Bus Buffer with Enable
LTC4300A-3CMS8 Linear - Level Shifting Hot Swappable 2-Wire Bus Buffer with Enable
LTC4300A-3IDD Linear - Level Shifting Hot Swappable 2-Wire Bus Buffer with Enable
LTC4300A-3IMS8 Linear - Level Shifting Hot Swappable 2-wire Bus Buffer With Enable
LTC4301 Linear - Hot Swappable 2-Wire Bus Buffer with Low Voltage Level Translation
LTC4301CDD Linear - Supply Independent Hot Swappable 2-Wire Bus Bufferthe LTC4301 Supply Independent, Hot Swappable, 2-wire Bus Buffer Allows I/o Card Insertion IntoA Live Backplane Without Corruption of The Data and Clock Busses.
LTC4301CMS8 Linear - Supply Independent Hot Swappable 2-Wire Bus Bufferthe LTC4301 Supply Independent, Hot Swappable, 2-wire Bus Buffer Allows I/o Card Insertion IntoA Live Backplane Without Corruption of The Data and Clock Busses.
LTC4301IDD Linear - Supply Independent Hot Swappable 2-Wire Bus Bufferthe LTC4301 Supply Independent, Hot Swappable, 2-wire Bus Buffer Allows I/o Card Insertion IntoA Live Backplane Without Corruption of The Data and Clock Busses.
LTC4301IMS8 Linear - Supply Independent Hot Swappable 2-Wire Bus Bufferthe LTC4301 Supply Independent, Hot Swappable, 2-wire Bus Buffer Allows I/o Card Insertion IntoA Live Backplane Without Corruption of The Data and Clock Busses.
LTC4301L Linear - Hot Swappable 2-Wire Bus Buffer with Low Voltage Level Translation
LTC4301LCDD8 Linear - Hot Swappable 2-Wire Bus Buffer with Low Voltage Level Translation
LTC4301LCMS8 Linear - Hot Swappable 2-wire Bus Buffer With Low Voltage Level Translation
LTC4301LIDD8 Linear - Hot Swappable 2-Wire Bus Buffer with Low Voltage Level Translation
LTC4301LIMS8 Linear - Hot Swappable 2-Wire Bus Buffer with Low Voltage Level Translation
LTC4302 Linear - Addressable 2-Wire Bus Bufferaddressable i C Bus and Smbus Compatible Bus Buffers AllowA Peripheral Board to be Inserted and Removed FromA Live Backplane Without Corruption of The Bus.
LTC4302CMS-1 Linear - Addressable 2-Wire Bus Buffers
LTC4302CMS-2 Linear - Addressable 2-Wire Bus Buffers
LTC4302IMS-1 Linear - Addressable 2-Wire Bus Buffers
LTC4302IMS-2 Linear - Addressable 2-Wire Bus Buffers
LTC4305 Linear - 2-Channel, 2-Wire Bus Multiplexer with Capacitance BufferingThe LTC®4305 isA 2-channel, 2-wire bus multiplexer with bus buffers to provide capacitive isolation between the upstream bus and downstream buses. Through software control, the LTC4305 connects the upstream 2-wire bus to any desired combination of downstream channels. Each channel can be pulled up toA supply voltage ranging from 2.2V to 5.5V, independent of the LTC4305 supply voltage. The downstream channels are also provided with an ALERT1-ALERT
LTC4305CDHD Linear - 2-Channel, 2-Wire Bus Multiplexer with Capacitance BufferingThe LTC®4305 isA 2-channel, 2-wire bus multiplexer with bus buffers to provide capacitive isolation between the upstream bus and downstream buses. Through software control, the LTC4305 connects the upstream 2-wire bus to any desired combination of downstream channels. Each channel can be pulled up toA supply voltage ranging from 2.2V to 5.5V, independent of the LTC4305 supply voltage. The downstream channels are also provided with an ALERT1-ALERT
LTC4305CGN Linear - 2-Channel, 2-Wire Bus Multiplexer with Capacitance BufferingThe LTC®4305 isA 2-channel, 2-wire bus multiplexer with bus buffers to provide capacitive isolation between the upstream bus and downstream buses. Through software control, the LTC4305 connects the upstream 2-wire bus to any desired combination of downstream channels. Each channel can be pulled up toA supply voltage ranging from 2.2V to 5.5V, independent of the LTC4305 supply voltage. The downstream channels are also provided with an ALERT1-ALERT
LTC4305IDHD Linear - 2-Channel, 2-Wire Bus Multiplexer with Capacitance BufferingThe LTC®4305 isA 2-channel, 2-wire bus multiplexer with bus buffers to provide capacitive isolation between the upstream bus and downstream buses. Through software control, the LTC4305 connects the upstream 2-wire bus to any desired combination of downstream channels. Each channel can be pulled up toA supply voltage ranging from 2.2V to 5.5V, independent of the LTC4305 supply voltage. The downstream channels are also provided with an ALERT1-ALERT
LTC4305IGN Linear - 2-Channel, 2-Wire Bus Multiplexer with Capacitance BufferingThe LTC®4305 isA 2-channel, 2-wire bus multiplexer with bus buffers to provide capacitive isolation between the upstream bus and downstream buses. Through software control, the LTC4305 connects the upstream 2-wire bus to any desired combination of downstream channels. Each channel can be pulled up toA supply voltage ranging from 2.2V to 5.5V, independent of the LTC4305 supply voltage. The downstream channels are also provided with an ALERT1-ALERT
LTC4350 Linear - Dual 2.6A, 2.5V to 5.5V, Ideal Diodes in 3mm 3mm DFN
LTC4350 Linear - Hot Swappable Load Share Controller
LTC4350CGN Linear - Hot Swappable Load Share Controller
LTC4350IGN Linear - Hot Swappable Load Share Controller
LTC4351 Linear - Dual 2.6A, 2.5V to 5.5V, Ideal Diodes in 3mm 3mm DFN
LTC4354 Linear - Negative Voltage Diode-OR Controller and Monitor
LTC4354CDDB Linear - Negative Voltage Diode-or Controller and Monitor
LTC4354CS8 Linear - Negative Voltage Diode-OR Controller and Monitor
LTC4354IDDB Linear - Negative Voltage Diode-OR Controller and Monitor
LTC4354IS8 Linear - Negative Voltage Diode-OR Controller and Monitor
LTC4400 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC4400-1 Linear - RF Power Controllers with 450kHz Loop BW and 45dB Dynamic Range
LTC4400-1ES6 Linear - Rf Power Controllers With 450khz Loop Bw and 45db Dynamic Range
LTC4400-2 Linear - RF Power Controllers with 450kHz Loop BW and 45dB Dynamic Range
LTC4400-2EMS8 Linear - RF Power Controllers with 450kHz Loop BW and 45dB Dynamic Range
LTC4400-X Linear - LTC4400-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4401 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC4401-1 Linear - LTC4401-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4401-1ES6 Linear - LTC4401-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4401-2 Linear - LTC4401-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4401-2EMS8 Linear - LTC4401-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4401-X Linear - LTC4401-1, Thinsot RF Power Controller With 450kHz Loop BW (800MHz to 2.7GHz)
LTC4402-1 Linear - LTC4403-1,-2, Multiband RF Power Controllers For Edge/tdma
LTC4403 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC4403-1EMS8 Linear - LTC4403-1,-2, Multiband RF Power Controllers For Edge/tdma
LTC4403-2 Linear - LTC4403-1,-2, Multiband RF Power Controllers For Edge/tdma
LTC4403-2EMS Linear - LTC4403-1,-2, Multiband RF Power Controllers For Edge/tdma
LTC4403-X Linear - LTC4403-1,-2, Multiband RF Power Controllers For Edge/tdma
LTC4410 Linear - 150mA Standalone Linear Li-Ion Battery Charger in ThinSOT
LTC5505 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC5505 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5505-1 Linear - RF Power Detector with Buffered Output and >40dB Dynamic Range
LTC5505-1ES5 Linear - RF Power Detector with Buffered Output and >40dB Dynamic Range
LTC5505-2 Linear - RF Power Detector with Buffered Output and >40dB Dynamic Range
LTC5505-2ES5 Linear - RF Power Detector with Buffered Output and >40dB Dynamic Range
LTC5505-X Linear - LTC5505-1/LTC5505-2, RF Power Detector With Buffered Output and >40dB Dynamic Range
LTC5507 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC5507 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5507ES6 Linear - LTC5507, 100kHz to 1GHz RF Power Detector
LTC5508 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC5508 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5508 Linear - 300MHz to 7GHz RF Power Detector with Buffered Output in SC70 Package
LTC5508ESC6 Linear - 300mhz To 7ghz Rf Power Detector With Buffered Output In Sc70 Package
LTC5509 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC5509 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5509 Linear - 300MHz to 3GHz 300MHz RF Power Detector in SC70 Package
LTC5509ESC6 Linear - 300mhz To 3ghz 300mhz Rf Power Detector In Sc70 Package
LTC5530 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5531 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5532 Linear - 40MHz to 900MHz Quadrature Demodulator
LTC5532 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC5532 Linear - 300MHz to 7GHz Precision RF Power Detector with Gain and Offset Adjustment
LTC5532ES6 Linear - 300mhz To 7ghz Precision Rf Power Detector With Gain and Offset Adjustment
LTC5536 Linear - 400MHz to 3.7GHz High Signal Level Downconverting Mixer
LTC6078 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078ACMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078AHMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078AIMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078CDD Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078CMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078HMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078IDD Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6078IMS8 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079 Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079CDHC Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079CGN Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079HGN Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079IDHC Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6079IGN Linear - Micropower Precision, Dual/Quad CMOS Rail-to-Rail Input/Output AmplifiersThe LTC®6078/LTC6079 are dual/quad, low offset, low noise operational amplifiers with low power consumption and rail-to-rail input/output swing.Input offset voltage is trimmed to less than 25μV and the CMOS inputs draw less than 50pA of bias current. The low offset drift, excellent CMRR, and high voltage gain make itA good choice for precision signal conditioning.Each amplifier draws only 54μA current onA 3V supply. The mic
LTC6101 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101ACMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101AHMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101AIMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101BCS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101BHS5 Linear - High Voltage, High-side Current Sense Amplifier In Sot-23
LTC6101BIS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101CCS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101CHS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101CIS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HV Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVACMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVAHMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVAIMS8 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVBCS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVBHS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVBIS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVCCS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVCHS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6101HVCIS5 Linear - High Voltage, High-Side Current Sense Amplifier in SOT-23
LTC6241 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241CDD Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241CS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241HS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op AmpsThe LTC®6241/LTC6242 are dual and quad low noise, low offset, rail-to-rail output, unity gain stable CMOS op amps that feature 1pA of input bias current. The 0.1Hz to 10Hz noise of only 550nVP-P, along with an offset of just 125µV make them uncommon among traditional CMOS op amps. Additionally, noise is guaranteed to be less than 10nV/√Hz at 1kHz. An 18MHz gain bandwidth, and 10V/µs slew rate, along with the wide supply range and low input capacita
LTC6241HVCDD Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241HVCS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241HVHS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op AmpsThe LTC®6241/LTC6242 are dual and quad low noise, low offset, rail-to-rail output, unity gain stable CMOS op amps that feature 1pA of input bias current. The 0.1Hz to 10Hz noise of only 550nVP-P, along with an offset of just 125µV make them uncommon among traditional CMOS op amps. Additionally, noise is guaranteed to be less than 10nV/√Hz at 1kHz. An 18MHz gain bandwidth, and 10V/µs slew rate, along with the wide supply range and low input capacita
LTC6241HVIDD Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241HVIS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241IDD Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6241IS8 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242 Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242CDHC Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242CGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242HGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op AmpsThe LTC®6241/LTC6242 are dual and quad low noise, low offset, rail-to-rail output, unity gain stable CMOS op amps that feature 1pA of input bias current. The 0.1Hz to 10Hz noise of only 550nVP-P, along with an offset of just 125µV make them uncommon among traditional CMOS op amps. Additionally, noise is guaranteed to be less than 10nV/√Hz at 1kHz. An 18MHz gain bandwidth, and 10V/µs slew rate, along with the wide supply range and low input capacita
LTC6242HVCDHC Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242HVCGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242HVHGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op AmpsThe LTC®6241/LTC6242 are dual and quad low noise, low offset, rail-to-rail output, unity gain stable CMOS op amps that feature 1pA of input bias current. The 0.1Hz to 10Hz noise of only 550nVP-P, along with an offset of just 125µV make them uncommon among traditional CMOS op amps. Additionally, noise is guaranteed to be less than 10nV/√Hz at 1kHz. An 18MHz gain bandwidth, and 10V/µs slew rate, along with the wide supply range and low input capacita
LTC6242HVIDHC Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242HVIGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242IDHC Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTC6242IGN Linear - Dual/Quad 18MHz, Low Noise, Rail-to-Rail, CMOS Op Amps
LTM4600 Linear - 10A High Efficiency DC/DC µModuleThe LTM®4600 isA complete 10A switchmode step- down power supply withA built-in inductor, supporting power components and compensation circuitry. With high integration and synchronous current mode operation, this DC/DC µModuleTM delivers high power at high efficiency inA tiny and low profile surface mount package. Supported by Linear Technology’s rigorous testing and high reliability processes, the LTM4600 simplifies the design and layout of your next power supply.
LX1214E500X Philips - NPN microwave power transistor
LX128B Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128B-32F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX128B-5F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX128C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128C-32F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX128C-5F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX128EB Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EB-32F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EB-5F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EB-5F208I Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EC Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EC-32F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EC-5F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EC-5F208I Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EV Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EV-32F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EV-5F208C Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128EV-5F208I Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128V Xilinx - IspGDX2 Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lat...
LX128V-32F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX128V-5F208C Lattice - IspGDX2V/B/C Family High Performance Interfacing and Switchingthe IspGDX2 Family is Lattice S Second Generation Insystemprogrammable Generic Digital Crosspoint Switchfor High Speed Bus Switching and Interface Applications.
LX1689 Microsemi - Third Generation Ccfl Controller
LX1689CPW Microsemi - Third Generation CCFL Controller
LX1689IPW Microsemi - Third Generation CCFL Controller
LX1692AIPW Microsemi - CCFL Backlight Controller ICFor Wide Voltage Range Inverter Application (7V to 22V)Patent resonant strike for unsurpassed striking power combined with best efficiencyLow Stress to transformersExcellent open circuit voltage regulation reduces transformer breakdown voltage requirements while striking higher voltagelampsOne inverter for multiple panel typesWide Dimming RangeAnalog Dimming: >3 to 1Digital Dimming : >20 to 1Combined: >60 to 1Fool-Proof StrikingProgrammable Burst Dimming FrequencyProgrammable Tim
LX1692IDW Microsemi - CCFL Backlight Controller ICMicrosemi’s LX1692 isA cost reduced, third generation Direct Drive CCFL (Cold Cathode Fluorescent Lamp) controller. The integratedcontroller is optimized to drive CCFL’s using resonant full bridge inverter topology. Key Features:For Wide Voltage Range Inverter Application (7V to 22V)Patent Resonant Strike for Unsurpassed Striking Power Combined with Best EfficiencyLow Stress to TransformersExcellent Open Circuit Voltage Regulation Reduces Transformer Breakdown Voltage Requiremen
LX1692IPW Microsemi - CCFL Backlight Controller ICMicrosemi’s LX1692 isA cost reduced, third generation Direct Drive CCFL (Cold Cathode Fluorescent Lamp) controller. The integratedcontroller is optimized to drive CCFL’s using resonant full bridge inverter topology. Key Features:For Wide Voltage Range Inverter Application (7V to 22V)Patent Resonant Strike for Unsurpassed Striking Power Combined with Best EfficiencyLow Stress to TransformersExcellent Open Circuit Voltage Regulation Reduces Transformer Breakdown Voltage Requiremen
LX1696 Microsemi - CCFL Backlight Controller ICKey Features:For Wide Voltage Range Inverter Application (7V to 22V)Patented resonant Lamp Strike for Unsurpassed Striking Power Combined with Best EfficiencyReduced Corona Stress To TransformersWide Dimming Range• Direct Low PWM Brightness Control Input Provides > 300:1 Capability• DC Brightness Control Input Provides > 80:1 capabilityProgrammable Burst Dimming FrequencyProgrammable Time Out ProtectionFixed Operating FrequencyOpen lamp voltage protection, Short lamp protection,
LX1696IPW Microsemi - CCFL Backlight Controller ICKey Features:For Wide Voltage Range Inverter Application (7V to 22V)Patented resonant Lamp Strike for Unsurpassed Striking Power Combined with Best EfficiencyReduced Corona Stress To TransformersWide Dimming Range• Direct Low PWM Brightness Control Input Provides > 300:1 Capability• DC Brightness Control Input Provides > 80:1 capabilityProgrammable Burst Dimming FrequencyProgrammable Time Out ProtectionFixed Operating FrequencyOpen lamp voltage protection, Short lamp protection,