SN75LPE185PWR Overview
This LED driver IC features an enhanced 24-TSSOP (0.173, 4.40mm Width) package for driving common LEDs.This receiver is mounted in the Tape & Reel (TR) package.It has proved to be a valuable component for a variety of applications since it is a Transceiver can transceiver.PCBs or development boards with Surface Mount-types can accommodate this wide receiver.It takes 4.75V~5.25V from the power supply to run this differential driver.As many as 3/5 eligible receivers/drivers can be used simultaneously with this electronic part.Applications with operating temperatures of 0°C~70°C have been designed primarily for this ic receiver.There is a voltage range of 5V for this line driver ic, so it can operate efficiently.24 terminations are integrated into this wide receiver for driving and receiving signals from data.The pinouts for this transceiver are standardized to meet the needs of the market.With the part number 75LPE185 identifying the product type, temperature, package, etc., you can search with it to see more variants.24-pin driver IC with improved power dissipation control.Through optical transceiver downsizing and high-density Surface Mount mounting technologies, its package size is reduced dramatically.It provided a 3-bit resolution capability with this ic receiver.There is a supply voltage of 5V on the input of this transceiver module, so it can be operated from that source.In this category, this rf transceiver module belongs to the Line Driver or Receivers subcategory.The module isolated transceiver contains 5 receivers.It is advisable to maintain a line driver ic's operating temperature above -12V during operation.
SN75LPE185PWR Features
Tape & Reel (TR) package
24 pin count
24 pins
SN75LPE185PWR Applications
There are a lot of Texas Instruments SN75LPE185PWR Drivers/Receivers/Transceivers applications.
- Precision engineering measurement
- Wireless projection application for conferences
- SONET/SDH Network
- 1x/2x Fiber Channel
- Long-distance fiber optic network applications
- Wireless transmission
- Remote controls
- Wireless access points
- Carrier phase observations
- Broadcast application