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Halbduplex-M-LVDS-Transceiver

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Ähnliche Funktionalität wie verglichener Baustein
SN65MLVD200A AKTIV Halbduplex-M-LVDS-Transceiver This is a newer generation of this product

Produktdetails

Function Transceiver Protocols M-LVDS Number of transmitters 1 Number of receivers 1 Supply voltage (V) 3.3 Signaling rate (Mbps) 100 Input signal LVTTL, M-LVDS Output signal LVTTL, M-LVDS Rating Catalog Operating temperature range (°C) -40 to 85
Function Transceiver Protocols M-LVDS Number of transmitters 1 Number of receivers 1 Supply voltage (V) 3.3 Signaling rate (Mbps) 100 Input signal LVTTL, M-LVDS Output signal LVTTL, M-LVDS Rating Catalog Operating temperature range (°C) -40 to 85
SOIC (D) 8 29.4 mm² 4.9 x 6
  • Low-Voltage Differential 30- up to 100 Mbps
  • Power Dissipation at 100 Mbps
    • Driver: 50 mW Typical
    • Receiver: 30 mW Typical
  • Meets or Exceeds Current Revision of M-LVDS Standard TIA/EIA–899 for Multipoint Data Interchange
  • Controlled Driver Output Voltage Transition Times for Improved Signal Quality
  • –1-V to 3.4-V Common-Mode Voltage Range Allows Data Transfer With up to 2 V of Ground Noise
  • Type-1 Receivers Incorporate 25 mV of Hysteresis
  • Type-2 Receivers Provide an Offset (100 mV) Threshold to Detect Open-Circuit and Idle-Bus Conditions
  • Operates From a Single 3.3-V Supply
  • Propagation Delay Times Typically 2.3 ns for Drivers and 5 ns for Receivers
  • Power-Up/Down Glitch-Free Driver
  • Driver Handles Operation Into a Continuous Short Circuit Without Damage
  • Bus Pins High Impedance When Disabled or VCC ≤ 1.5V
  • 200-Mbps Devices Available (SN65MLVD201, 203, 206, and 207)

The signaling rate of a line is the number of voltage transitions that are made per second expressed in bps (bits per second) units.

  • Low-Voltage Differential 30- up to 100 Mbps
  • Power Dissipation at 100 Mbps
    • Driver: 50 mW Typical
    • Receiver: 30 mW Typical
  • Meets or Exceeds Current Revision of M-LVDS Standard TIA/EIA–899 for Multipoint Data Interchange
  • Controlled Driver Output Voltage Transition Times for Improved Signal Quality
  • –1-V to 3.4-V Common-Mode Voltage Range Allows Data Transfer With up to 2 V of Ground Noise
  • Type-1 Receivers Incorporate 25 mV of Hysteresis
  • Type-2 Receivers Provide an Offset (100 mV) Threshold to Detect Open-Circuit and Idle-Bus Conditions
  • Operates From a Single 3.3-V Supply
  • Propagation Delay Times Typically 2.3 ns for Drivers and 5 ns for Receivers
  • Power-Up/Down Glitch-Free Driver
  • Driver Handles Operation Into a Continuous Short Circuit Without Damage
  • Bus Pins High Impedance When Disabled or VCC ≤ 1.5V
  • 200-Mbps Devices Available (SN65MLVD201, 203, 206, and 207)

The signaling rate of a line is the number of voltage transitions that are made per second expressed in bps (bits per second) units.

This series of SN65MLVD20x devices are low-voltage differential line drivers and receivers complying with the proposed multipoint low-voltage differential signaling (M-LVDS) standard (TIA/EIA–899). These circuits are similar to their TIA/EIA-644 standard compliant LVDS counterparts, with added features to address multipoint applications. Driver output current has been increased to support doubly-terminated, 50- load multipoint applications. Driver output slew rates are optimized for signaling rates up to 100 Mbps.

Types 1 and 2 receivers are available. Both types of receivers operate over a common-mode voltage range of –1 V to 3.4 V to provide increased noise immunity in harsh electrical environments. Type-1 receivers have their differential input voltage thresholds near zero volts (±50 mV), and include 25 mV of hysteresis to prevent output oscillations in the presence of noise. Type-2 receivers include an offset threshold to detect open-circuit, idle-bus, and other fault conditions, and provide a known output state under these conditions.

The intended application of these devices is in half-duplex or multipoint baseband data transmission over controlled impedance media of approximately 100- characteristic impedance. The transmission media may be printed circuit board traces, backplanes, or cables. (Note: The ultimate rate and distance of data transfer is dependent upon the attenuation characteristics of the media, the noise coupling to the environment, and other application-specific characteristics).

These devices are characterized for operation from –40°C to 85°C.

This series of SN65MLVD20x devices are low-voltage differential line drivers and receivers complying with the proposed multipoint low-voltage differential signaling (M-LVDS) standard (TIA/EIA–899). These circuits are similar to their TIA/EIA-644 standard compliant LVDS counterparts, with added features to address multipoint applications. Driver output current has been increased to support doubly-terminated, 50- load multipoint applications. Driver output slew rates are optimized for signaling rates up to 100 Mbps.

Types 1 and 2 receivers are available. Both types of receivers operate over a common-mode voltage range of –1 V to 3.4 V to provide increased noise immunity in harsh electrical environments. Type-1 receivers have their differential input voltage thresholds near zero volts (±50 mV), and include 25 mV of hysteresis to prevent output oscillations in the presence of noise. Type-2 receivers include an offset threshold to detect open-circuit, idle-bus, and other fault conditions, and provide a known output state under these conditions.

The intended application of these devices is in half-duplex or multipoint baseband data transmission over controlled impedance media of approximately 100- characteristic impedance. The transmission media may be printed circuit board traces, backplanes, or cables. (Note: The ultimate rate and distance of data transfer is dependent upon the attenuation characteristics of the media, the noise coupling to the environment, and other application-specific characteristics).

These devices are characterized for operation from –40°C to 85°C.

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Typ Titel Datum
* Data sheet SN65MLVD200/2/4/5: Multipoint-LVDS Line Drivers and Receivers datasheet (Rev. E) 25 Apr 2003

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