Texas Instruments LM3420AM5-12.6
- Part Number:
- LM3420AM5-12.6
- Manufacturer:
- Texas Instruments
- Ventron No:
- 3732888-LM3420AM5-12.6
- Description:
- IC CTRLR LIION BAT CHRG SOT23-5
- Datasheet:
- LM3420-4.2,8.2,8.4,12.6,16.8
Texas Instruments LM3420AM5-12.6 technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments LM3420AM5-12.6.
- MountSurface Mount
- Package / CaseSOT-23-5
- Number of Pins5
- PackagingCut Tape (CT)
- Number of Terminations5
- ECCN CodeEAR99
- Max Operating Temperature85°C
- Min Operating Temperature-40°C
- Terminal PositionDUAL
- Terminal FormGULL WING
- Number of Functions1
- Supply Voltage12.6V
- Supply Voltage-Max (Vsup)12.726V
- Temperature GradeINDUSTRIAL
- Supply Voltage-Min (Vsup)12.474V
- Number of Channels1
- Analog IC - Other TypePOWER SUPPLY SUPPORT CIRCUIT
- Adjustable ThresholdYES
- Height Seated (Max)1.22mm
- Length2.92mm
- Width1.6mm
- RoHS StatusRoHS Compliant
- Lead FreeContains Lead
LM3420AM5-12.6 Overview
The component in question has a number of pins and terminations, both of which are equal to 5. It falls under the ECCN Code EAR99, indicating that it is classified as an item that is not subject to any specific export controls. With a minimum operating temperature of -40°C, this component is capable of functioning in extreme conditions. Its terminal position is dual, meaning that it has two sets of terminals on opposite sides. The terminal form is gull wing, with the pins extending outwards in a V-shape. This component has a single function and requires a supply voltage of 12.6V, with a maximum supply voltage of 12.726V. Its length measures 2.92mm, making it a compact and versatile component for various electronic applications.
LM3420AM5-12.6 Features
Available in SOT-23-5 Package
with 5 Pins
operate supply voltage at the range of 12.6V
Supply Voltage-Max (Vsup) : 12.726V
LM3420AM5-12.6 Applications
There are a lot of Rochester Electronics LM3420AM5-12.6 Battery Management ICs applications.
Internet infrastructure equipment
Reporting operational status to external devices
Power tools
ADAS Lidar
Motor drive - 3 phase AC400V inverter
xEV charging station (off-board charger)
Rear light with animation
Robot vacuum cleaner
Trucks
Buses
The component in question has a number of pins and terminations, both of which are equal to 5. It falls under the ECCN Code EAR99, indicating that it is classified as an item that is not subject to any specific export controls. With a minimum operating temperature of -40°C, this component is capable of functioning in extreme conditions. Its terminal position is dual, meaning that it has two sets of terminals on opposite sides. The terminal form is gull wing, with the pins extending outwards in a V-shape. This component has a single function and requires a supply voltage of 12.6V, with a maximum supply voltage of 12.726V. Its length measures 2.92mm, making it a compact and versatile component for various electronic applications.
LM3420AM5-12.6 Features
Available in SOT-23-5 Package
with 5 Pins
operate supply voltage at the range of 12.6V
Supply Voltage-Max (Vsup) : 12.726V
LM3420AM5-12.6 Applications
There are a lot of Rochester Electronics LM3420AM5-12.6 Battery Management ICs applications.
Internet infrastructure equipment
Reporting operational status to external devices
Power tools
ADAS Lidar
Motor drive - 3 phase AC400V inverter
xEV charging station (off-board charger)
Rear light with animation
Robot vacuum cleaner
Trucks
Buses
LM3420AM5-12.6 More Descriptions
Contains Lead RoHS Compliant INDUSTRIAL GULL WING IC (Function) 85C 1.6mm 12.726V
IC BATT CNTL LI-ION 3CEL SOT23-5
IC CTRLR LIION BAT CHRG SOT23-5
The LM3420 series of controllers are monolithic integrated circuits designed for charging and end-of-charge control for Lithium-Ion rechargeable batteries. The LM3420 is available in five fixed voltage versions for one through four cell charger applications (4.2V, 8.2V/8.4V, 12.6V and 16.8V respectively). Included in a very small package is an (internally compensated) op amp, a band gap reference, an NPN output transistor, and voltage setting resistors. The amplifier's inverting input is externally accessible for loop frequency compensation. The output is an open-emitter NPN transistor capable of driving up to 15 mA of output current into external circuitry. A trimmed precision band gap reference utilizes temperature drift curvature correction for excellent voltage stability over the operating temperature range. Available with an initial tolerance of 0.5% for the A grade version, and 1% for the standard version, the LM3420 allows for precision end-of charge control for Lithium-Ion rechargeable batteries. The LM3420 is available in a sub-miniature 5-lead SOT23-5 surface mount package thus allowing very compact designs.
IC BATT CNTL LI-ION 3CEL SOT23-5
IC CTRLR LIION BAT CHRG SOT23-5
The LM3420 series of controllers are monolithic integrated circuits designed for charging and end-of-charge control for Lithium-Ion rechargeable batteries. The LM3420 is available in five fixed voltage versions for one through four cell charger applications (4.2V, 8.2V/8.4V, 12.6V and 16.8V respectively). Included in a very small package is an (internally compensated) op amp, a band gap reference, an NPN output transistor, and voltage setting resistors. The amplifier's inverting input is externally accessible for loop frequency compensation. The output is an open-emitter NPN transistor capable of driving up to 15 mA of output current into external circuitry. A trimmed precision band gap reference utilizes temperature drift curvature correction for excellent voltage stability over the operating temperature range. Available with an initial tolerance of 0.5% for the A grade version, and 1% for the standard version, the LM3420 allows for precision end-of charge control for Lithium-Ion rechargeable batteries. The LM3420 is available in a sub-miniature 5-lead SOT23-5 surface mount package thus allowing very compact designs.
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
20 November 2023
What is W25Q128JVSIQ Serial Flash Memory?
Ⅰ. W25Q128JVSIQ overviewⅡ. Manufacturer of W25Q128JVSIQⅢ. Symbol, footprint and pin configuration of W25Q128JVSIQⅣ. Features of W25Q128JVSIQⅤ. Working principle of W25Q128JVSIQⅥ. Technical parameters of W25Q128JVSIQⅦ. Advantages and disadvantages of... -
20 November 2023
Comparing the DHT11 and DHT22 Temperature and Humidity Sensor
Ⅰ. What is a temperature sensor?Ⅱ. DHT11 vs DHT22: OverviewⅢ. DHT11 vs DHT22: Symbol and footprintⅣ. DHT11 vs DHT22: FeaturesⅤ. DHT11 vs DHT22: Pin configurationⅥ. DHT11 vs DHT22:... -
21 November 2023
MCP2551 CAN Transceiver Features, Working Principle, MCP2551 vs TJA1050
Ⅰ. Overview of MCP2551 transceiverⅡ. Manufacturer of MCP2551 transceiverⅢ. Features of MCP2551 transceiverⅣ. Working principle of MCP2551 transceiverⅤ. Block diagram of MCP2551 transceiverⅥ. What is the difference between... -
21 November 2023
AD9361 RF Transceiver Manufacturer, Features, Structure and Working Principle
Ⅰ. Overview of AD9361 RF transceiverⅡ. Manufacturer of AD9361 RF transceiverⅢ. Block diagram of AD9361 RF transceiverⅣ. Structure and working principle of AD9361 RF transceiverⅤ. Features of AD9361...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.