LMS1485IMX/NOPB Overview
This driver chip is excellent for driving common LEDs due to its enhanced 8-SOIC (0.154, 3.90mm Width) package.Tape & Reel (TR) package is used to mount this receiver.With its Transceiver can transceiver design, this part can be incorporated into a wide range of solutions.PCBs or development boards with Surface Mount-types can accommodate this wide receiver.This differential driver uses 4.75V~5.25V for power supply.This electronic part can have?up to 1/1 eligible receivers/drivers on the field at once.?For applications where the operating temperature is -40°C~85°C, this ic receiver was designed primarily.Driver ICs with a supply voltage range of 5V can operate efficiently.In this package, you will find 8 market-standard pinouts for this transceiver.Since the part number LMS1485 represents the product type, temperature, package, etc., you can try searching with that number to find more variants.A 8-pin driver IC with enhanced power dissipation control is featured here.Its package size is drastically reduced by downsizing ICs and utilizing high-density Surface Mount mounting techniques.In this ic receiver, the resolution was able to be set to a maximum of 1 bits.Typically, the resolution of this receiver is specified to be 1 bits.This transceiver module is designed to operate from an input voltage supply of 5V.In this category, this rf transceiver module belongs to the Line Driver or Receivers subcategory.It is designed so that it can be operated from a 5V power supply with this driver IC.In total, 1 transmitters have been installed, which produce radio waves and transmit data by using antennas to send data.
LMS1485IMX/NOPB Features
Tape & Reel (TR) package
8 pin count
8 pins
5V power supply
LMS1485IMX/NOPB Applications
There are a lot of Texas Instruments LMS1485IMX/NOPB Drivers/Receivers/Transceivers applications.
- Long-distance fiber optic network applications
- Bridges
- Notebook
- WDM transmission
- Desktop PC
- Switches
- Fiber optic cable connection network
- Desktop radio
- Carrier phase observations
- Clock radio