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DSLVDS1048

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3.3-V LVDS quad channel high-speed differential line receiver

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Data sheet

DSLVDS1048

ACTIVE
Data sheet Order now

Product details

Function Receiver Protocols LVDS Number of transmitters 0 Number of receivers 4 Supply voltage (V) 3.3 Signaling rate (MBits) 400 Input signal LVDS Output signal LVTTL, TTL Rating Catalog Operating temperature range (°C) -40 to 85
Function Receiver Protocols LVDS Number of transmitters 0 Number of receivers 4 Supply voltage (V) 3.3 Signaling rate (MBits) 400 Input signal LVDS Output signal LVTTL, TTL Rating Catalog Operating temperature range (°C) -40 to 85
TSSOP (PW) 16 32 mm² 5 x 6.4
  • Designed for Signal Rates up to 400 Mbps
  • Flow-Through Pinout Simplifies PCB Layout
  • 150-ps Channel-to-Channel Skew (Typical)
  • 100-ps Differential Skew (Typical)
  • 2.7-ns Maximum Propagation Delay
  • 3.3-V Power Supply Design
  • High Impedance LVDS Inputs on Power Down
  • Low Power Design (40 mW at 3.3-V Static)
  • Interoperable With Existing 5-V LVDS Drivers
  • Accepts Small Swing (350 mV Typical) Differential Signal Levels
  • Supports Input Failsafe
    • Open, Short, and Terminated
  • 0 V to −100 mV Threshold Region
  • Operating Temperature Range: –40°C to +85°C
  • Meets or Exceeds ANSI/TIA/EIA-644 Standard
  • Available in TSSOP Package
  • Designed for Signal Rates up to 400 Mbps
  • Flow-Through Pinout Simplifies PCB Layout
  • 150-ps Channel-to-Channel Skew (Typical)
  • 100-ps Differential Skew (Typical)
  • 2.7-ns Maximum Propagation Delay
  • 3.3-V Power Supply Design
  • High Impedance LVDS Inputs on Power Down
  • Low Power Design (40 mW at 3.3-V Static)
  • Interoperable With Existing 5-V LVDS Drivers
  • Accepts Small Swing (350 mV Typical) Differential Signal Levels
  • Supports Input Failsafe
    • Open, Short, and Terminated
  • 0 V to −100 mV Threshold Region
  • Operating Temperature Range: –40°C to +85°C
  • Meets or Exceeds ANSI/TIA/EIA-644 Standard
  • Available in TSSOP Package

The DSLVDS1048 device is a quad CMOS flow-through differential line receiver designed for applications requiring ultra-low power dissipation and high data rates. The device is designed to support data rates in excess of 400 Mbps (200 MHz) using Low Voltage Differential Signaling (LVDS) technology.

The DSLVDS1048 accepts low voltage (350 mV typical) differential input signals and translates them to 3-V CMOS output levels. The receiver supports a TRI-STATE function that may be used to multiplex outputs. The receiver also supports open, shorted, and terminated (100-Ω) input fail-safe. The receiver output is HIGH for all fail-safe conditions. The DSLVDS1048 has a flow-through pinout for easy PCB layout.

The EN and EN* inputs are ANDed together and control the TRI-STATE outputs. The enables are common to all four receivers. The DSLVDS1048 and companion LVDS line driver (for example, DSLVDS1047) provide a new alternative to high-power PECL/ECL devices for high-speed point-to-point interface applications.

The DSLVDS1048 device is a quad CMOS flow-through differential line receiver designed for applications requiring ultra-low power dissipation and high data rates. The device is designed to support data rates in excess of 400 Mbps (200 MHz) using Low Voltage Differential Signaling (LVDS) technology.

The DSLVDS1048 accepts low voltage (350 mV typical) differential input signals and translates them to 3-V CMOS output levels. The receiver supports a TRI-STATE function that may be used to multiplex outputs. The receiver also supports open, shorted, and terminated (100-Ω) input fail-safe. The receiver output is HIGH for all fail-safe conditions. The DSLVDS1048 has a flow-through pinout for easy PCB layout.

The EN and EN* inputs are ANDed together and control the TRI-STATE outputs. The enables are common to all four receivers. The DSLVDS1048 and companion LVDS line driver (for example, DSLVDS1047) provide a new alternative to high-power PECL/ECL devices for high-speed point-to-point interface applications.
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Type Title Date
* Data sheet DSLVDS1048 3.3-V LVDS Quad Channel High-Speed Differential Line Receiver datasheet PDF | HTML 27 Sep 2018
Application note Applications of Low-Voltage Differential Signaling (LVDS) in LED Walls 29 Oct 2020
Application note Applications of Low-Voltage Differential Signaling (LVDS) in Ultrasound Scanners 29 Jun 2019
Application brief LVDS to Improve EMC in Motor Drives 27 Sep 2018
Application brief How Far, How Fast Can You Operate LVDS Drivers and Receivers? 03 Aug 2018
Application brief How to Terminate LVDS Connections with DC and AC Coupling 16 May 2018
Application note An Overview of LVDS Technology 05 Oct 1998

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