Suited for a range of applications including notebook and desktop PCs, smartphones, tablets, docking stations, gaming consoles, monitors, and virtual reality equipment, these parts use a lower-level supply voltage and draw less power than competing products. They also address the growing need within the consumer electronics, computing, and communications sectors for USB Type-C and DisplayPort 2.0 (DP2.0) ReDrivers.
The PI2DPX1066 and PI2DPX1217 are power-efficient, 1.8V-rated 4-to-4 channel configuration ReDrivers for USB Type-C implementation and can support data rates of 10Gbps per channel. Both devices feature 4 different modes — namely, SuperSpeed USB 10Gbps, SuperSpeed USB 20Gbps, SuperSpeed USB 10Gbps/2-lane DP1.4/DP2.0 (UHBR10), and 4-lane DP1.4/DP2.0 (UHBR10).
Configuration of the new USB Type-C ReDrivers is done via their respective I2C interfaces. This results in the option to choose between 16 different equalizer settings and four different flat gain settings. These protocol-agnostic devices are transparent to channel link training and exhibit latencies below 300ps, and achieve industry-leading signal integrity parameters within the domain of linear ReDrivers.
The PI2DPX1066 powers up in a high-impedance safe state for notebook PC applications while the PI2DPX1217 reverts to a default USB bypass state when powering up, as needed in smartphone applications.
Also featuring a 1.8V voltage rating, the PI2DPX1263 is a 4-channel linear ReDriver for use in DP2.0 and DP1.4 based systems. Like the PI2DPX1066 and PI2DPX1217, it has a 10Gbps maximum data rate. DisplayPort transmission modes supported include UHBR10 (DP2.0 10Gbps), HBR3 (DP1.4 8.1Gbps), HBR2 (DP1.2 5.4Gbps), HBR (DP1.1 2.7Gbps), and RBR (DP1.0 1.62Gbps).
The I2C interface enables equalizer and flat gain adjustment so that channel loss may be compensated for and ISI jitter eliminated, maintaining the highest levels of signal integrity.
The ReDrivers from Diodes Incorporated offer engineers a compelling mix of lower-power operation, more compact size (without a heavy pin count), and considerable application flexibility (thanks to their signal integrity adjustment capabilities). All three ICs support an industrial temperature range covering -40° to +85° C. They all support power-saving operation when idle, unplugged, or disabled states apply.
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