The DS90LV017ATM is a single high-speed Differential Driver optimized for high data rate and low power applications. The DS90LV017A is a current mode driver allowing power dissipation to remain low even at high frequency. In addition, the short circuit fault current is also minimized. The device is designed to support data rates in excess of 600Mbps (300MHz) utilizing low voltage differential signalling (LVDS) technology. The DS90LV017A has a flow-through design for easy PCB layout. The differential driver output provides low EMI with its typical low output swing of 355mV. The DS90LV017A can be paired with its companion single line receiver, the DS90LV018A or with any of TIs LVDS receivers, to provide a high-speed point-to-point LVDS interface.
The SN65LVDS1D is a single LVDS Transmitter with LVTTL input and LVDS output. The SN65LVDS1 device is used with a LVDS receiver in a point-to-point connection, data or clocking signals can be transmitted over printed-circuit board traces or cables at very high rates with very low electromagnetic emissions and power consumption. The packaging, low power, low EMI, high ESD tolerance and wide supply voltage range make the device ideal for battery-powered applications.
The ADN4661BRZ is a CMOS LVDS low voltage high speed differential signalling Line Driver offering data rates of over 600Mbps (300MHz) and ultra-low power consumption. It features a flow-through pin-out for easy PCB layout and separation of input and output signals. The device accepts low voltage TTL/CMOS logic signals and converts them to a differential current output of typically ±3.1mA for driving a transmission medium such as a twisted-pair cable. The transmitted signal develops a differential voltage of typically ±355mV across a termination resistor at the receiving end and this is converted back to a TTL/CMOS logic level by a line receiver. The ADN4661 and a companion LVDS receiver offer a new solution to high speed point-to-point data transmission and a low power alternative to emitter-coupled logic (ECL) or positive emitter-coupled logic (PECL).