16 Terminations 3.3V 16 Pin SN65LVDT390 Receivers 0/4 Drivers/Receivers 4 Functions Min 3V V Max 3.6V V
LED drivers benefit from this IC's enhanced TSSOP package.The Rail/Tube package contains this receiver.Since this is a Receiver can transceiver, many solutions can use it for a variety of functions.Any Surface Mount-type PCB or development board can be used with this wide receiver.This differential driver requires a 3 V ~ 3.6 V power supply.At any given time, there can be up to 0/4 eligible receivers/drivers for this electronic part.IC receiver likes this one are designed for use in applications where operating temperatures are -40°C ~ 85°C.3.3V is the supply voltage range that this line driver ic can efficiently operate with.In this wide receiver, 16 terminations are integrated for driving and receiving signals from data.Transceiver comes with 16 standard pinouts that meet the market's requirements.For more variants of this part, try searching with the base part number SN65LVDT390, which indicates the product type, temperature, package, etc.An enhanced power dissipation control driver IC featuring 16 pins.The package size of this optical transceiver has been dramatically reduced by downsizing ICs and using high-density Surface Mount mounting techniques.In most cases, the receiver will be specified with a 4-bit resolution.There is a supply voltage of 3.3V on the input of this transceiver module, so it can be operated from that source.Under 85°C, the operating transceiver module's temperature must be kept below.There must not be a minimum operating temperature of -40°C for this optical transceiver.The transceiver's maximum supply voltage that can be applied to this IC is rated at 3.6V.In order to use this line driver ic, it is necessary to have a voltage supply of at least 3V.In this case, the wide receiver uses the 16-TSSOP supplier package.Integrating circuits from the 65LVDT series are power-saving integrating circuits.4 elements make up this integrated circuit, enabling it to handle multiple tasks effintegrated circuitiently.