Linear Technology LTC3851EUD#PBF
- Part Number:
- LTC3851EUD#PBF
- Manufacturer:
- Linear Technology
- Ventron No:
- 3287060-LTC3851EUD#PBF
- Description:
- IC REG CTRLR BUCK 16QFN
- Datasheet:
- LTC3851EUD#PBF
Linear Technology LTC3851EUD#PBF technical specifications, attributes, parameters and parts with similar specifications to Linear Technology LTC3851EUD#PBF.
- Lifecycle StatusPRODUCTION (Last Updated: 4 days ago)
- Factory Lead Time12 Weeks
- Mounting TypeSurface Mount
- Package / Case16-WFQFN Exposed Pad
- Surface MountYES
- Number of Pins16
- Operating Temperature-40°C~85°C TA
- PackagingTube
- Published2005
- JESD-609 Codee3
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations16
- ECCN CodeEAR99
- Terminal FinishMatte Tin (Sn)
- SubcategorySwitching Regulator or Controllers
- TechnologyCMOS
- Terminal PositionQUAD
- Peak Reflow Temperature (Cel)250
- Terminal Pitch0.5mm
- Frequency750kHz
- Base Part NumberLTC3851
- FunctionStep-Down
- Number of Outputs1
- Output Voltage5.5V
- Output TypeTransistor Driver
- Input Voltage-Nom15V
- Analog IC - Other TypeSWITCHING CONTROLLER
- Output ConfigurationPositive
- Output Current50mA
- Voltage - Supply (Vcc/Vdd)4V~38V
- Control FeaturesCurrent Limit, Enable, Frequency Control, Soft Start, Tracking
- Input Voltage (Min)4V
- TopologyBuck
- Control ModeCURRENT-MODE
- Frequency - Switching250kHz~750kHz
- Input Voltage (Max)38V
- Control TechniquePULSE WIDTH MODULATION
- Synchronous RectifierYes
- Switcher ConfigurationPUSH-PULL
- Duty Cycle (Max)99%
- Clock SyncNo
- Length3mm
- Height Seated (Max)0.8mm
- Width3mm
- REACH SVHCNo SVHC
- RoHS StatusROHS3 Compliant
LTC3851EUD#PBF Overview
It comes in a 16-WFQFN Exposed Pad package, so switching controller can be used for most applications. This dc motor controller can be used to generate outputs with 1 numbers. Tube is the solid enclosure in which PMIC is packaged. With Transistor Driver dc switching's output (s), it is able to handle it. dc controls with 4V~38V voltage are supplied and operated. A -40°C~85°C TA dc switcher is not a problem. A switching controller such as this can switch at a value of 250kHz~750kHz . It is suitable for general dc dc regulator when it is set to Surface Mount. DCDC regulator is controlled efficiently by Current Limit, Enable, Frequency Control, Soft Start, Tracking. Switch converters are connected to ICs with SWITCHING CONTROLLER analog outputs. Thare switching converters has a terminal (s) at QUAD . A variety of 16 terminations are available in dc switching. These dc dc converter ics adapt several control methods, including PULSE WIDTH MODULATION. DC switcher's input voltageis 15V volts. LTC3851 can be used to locate other relevant dc to dc converter ics. The switching converter has a total of 16 pins. Switching converter is a special type of Switching Regulator or Controllers. 4V should be the minimum input voltage for the dc dc voltage regulator. As determined by the test statistics, the output voltage of DC regulator is 5.5V. The dc to dc regulator is limited to 38V input voltage. You should note down the dc dc regulator's usual output current of 50mA when you start a project. Switching controller operates at a frequency of 750kHz.
LTC3851EUD#PBF Features
Transistor Driver Outputs
Switching Frequency: 250kHz~750kHz
Current Limit, Enable, Frequency Control, Soft Start, Tracking
PULSE WIDTH MODULATION
Frequency: 750kHz
LTC3851EUD#PBF Applications
There are a lot of Linear Technology/Analog Devices
LTC3851EUD#PBF DC to DC converter applications.
Computer application technology
Network technology
Automation technology
CMM
Various precision measuring instruments
Various precision measuring detectors
Flaw detection equipment
Balance equipment
Industrial robots
Industrial controllers
It comes in a 16-WFQFN Exposed Pad package, so switching controller can be used for most applications. This dc motor controller can be used to generate outputs with 1 numbers. Tube is the solid enclosure in which PMIC is packaged. With Transistor Driver dc switching's output (s), it is able to handle it. dc controls with 4V~38V voltage are supplied and operated. A -40°C~85°C TA dc switcher is not a problem. A switching controller such as this can switch at a value of 250kHz~750kHz . It is suitable for general dc dc regulator when it is set to Surface Mount. DCDC regulator is controlled efficiently by Current Limit, Enable, Frequency Control, Soft Start, Tracking. Switch converters are connected to ICs with SWITCHING CONTROLLER analog outputs. Thare switching converters has a terminal (s) at QUAD . A variety of 16 terminations are available in dc switching. These dc dc converter ics adapt several control methods, including PULSE WIDTH MODULATION. DC switcher's input voltageis 15V volts. LTC3851 can be used to locate other relevant dc to dc converter ics. The switching converter has a total of 16 pins. Switching converter is a special type of Switching Regulator or Controllers. 4V should be the minimum input voltage for the dc dc voltage regulator. As determined by the test statistics, the output voltage of DC regulator is 5.5V. The dc to dc regulator is limited to 38V input voltage. You should note down the dc dc regulator's usual output current of 50mA when you start a project. Switching controller operates at a frequency of 750kHz.
LTC3851EUD#PBF Features
Transistor Driver Outputs
Switching Frequency: 250kHz~750kHz
Current Limit, Enable, Frequency Control, Soft Start, Tracking
PULSE WIDTH MODULATION
Frequency: 750kHz
LTC3851EUD#PBF Applications
There are a lot of Linear Technology/Analog Devices
LTC3851EUD#PBF DC to DC converter applications.
Computer application technology
Network technology
Automation technology
CMM
Various precision measuring instruments
Various precision measuring detectors
Flaw detection equipment
Balance equipment
Industrial robots
Industrial controllers
LTC3851EUD#PBF More Descriptions
IC REG CTRLR BUCK 16QFN / DC/DC Cntrlr Dual-OUT Step Down 790kHz Automotive 16-Pin QFN EP Tube
Synchronous Step-Down Switching Regulator Controller
Switching Controller, Current-mode, 0.05A, 530kHz Switching Freq-Max, CMOS, PQCC16
Switching Regulator IC; Voltage Regulator Type:Buck Switching; Input Voltage Primary Max:38V; Output Voltage Max:5.5V; Output Current Max:50mA; Voltage Tolerance ±:1%; Switching Frequency Max:750kHz; Supply Voltage Min:4V ;RoHS Compliant: Yes
IC, SW CONTROLLE, SYNC, 16QFN; Primary Input Voltage:38V; No. of Outputs:1; Output Voltage:5.5V; Output Current:50mA; Voltage Regulator Case Style:QFN; No. of Pins:16; Operating Temperature Range:-40°C to 85°C; SVHC:No SVHC (20-Jun-2011); Accuracy %:1%; Adjustable Output Voltage Max:5.5V; Adjustable Output Voltage Min:0.8V; Base Number:3851; Frequency:750kHz; Input Voltage Max:38V; Output Current Max:50mA; Output Voltage Max:5V; Package / Case:QFN; Supply Voltage Max:38V; Supply Voltage Min:4V; Termination Type:SMD; Voltage Regulator Type:Step Up (Boost)
Synchronous Step-Down Switching Regulator Controller
Switching Controller, Current-mode, 0.05A, 530kHz Switching Freq-Max, CMOS, PQCC16
Switching Regulator IC; Voltage Regulator Type:Buck Switching; Input Voltage Primary Max:38V; Output Voltage Max:5.5V; Output Current Max:50mA; Voltage Tolerance ±:1%; Switching Frequency Max:750kHz; Supply Voltage Min:4V ;RoHS Compliant: Yes
IC, SW CONTROLLE, SYNC, 16QFN; Primary Input Voltage:38V; No. of Outputs:1; Output Voltage:5.5V; Output Current:50mA; Voltage Regulator Case Style:QFN; No. of Pins:16; Operating Temperature Range:-40°C to 85°C; SVHC:No SVHC (20-Jun-2011); Accuracy %:1%; Adjustable Output Voltage Max:5.5V; Adjustable Output Voltage Min:0.8V; Base Number:3851; Frequency:750kHz; Input Voltage Max:38V; Output Current Max:50mA; Output Voltage Max:5V; Package / Case:QFN; Supply Voltage Max:38V; Supply Voltage Min:4V; Termination Type:SMD; Voltage Regulator Type:Step Up (Boost)
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
18 March 2024
LM324N Internal Structure, Working Principle and LM324 vs LM324N
Ⅰ. Overview of LM324NⅡ. Internal structure and working principle of LM324NⅢ. Typical performance characteristics of LM324NⅣ. How to configure the power supply for LM324N?Ⅴ. Pin description of LM324NⅥ.... -
18 March 2024
TDA7377 Audio Power Amplifier Alternatives, Application and Other Details
Ⅰ. Overview of TDA7377Ⅱ. Performance evaluation of TDA7377Ⅲ. Internal circuit diagram of TDA7377Ⅳ. Application of TDA7377Ⅴ. PCB-layout grounding of TDA7377Ⅵ. TDA7377 power amplifier chip parametersⅦ. How to ensure... -
19 March 2024
HT1621B Alternatives, Brand, Usage and Other Details
Ⅰ. Overview of HT1621BⅡ. Which brand is HT1621B?Ⅲ. Pins and description of HT1621BⅣ. How to use HT1621B?Ⅴ. Application circuits of HT1621BⅥ. Tips for using HT1621BⅦ. How to set... -
19 March 2024
AT24C02 Pinout, Working Principle, Characteristics and More
Ⅰ. AT24C02 overviewⅡ. Working principle of AT24C02Ⅲ. Pins and functions of AT24C02Ⅳ. Characteristics of AT24C02Ⅴ. Block diagram of AT24C02Ⅵ. What should we pay attention to when using AT24C02?Ⅶ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.