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DS90LV047ATMX Datasheet(PDF) 6 Page - Texas Instruments

Part No. DS90LV047ATMX
Description  DS90LV047A 3V LVDS Quad CMOS Differential Line Driver
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Manufacturer  TI [Texas Instruments]
Direct Link  http://www.ti.com
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DS90LV047ATMX Datasheet(HTML) 6 Page - Texas Instruments

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SNLS044C – MAY 2000 – REVISED APRIL 2013
Typical Application
Figure 7. Point-to-Point Application
General application guidelines and hints for LVDS drivers and receivers may be found in the following application
notes: LVDS Owner's Manual (lit #550062-001), AN808, AN977, AN971, AN916, AN805, AN903.
LVDS drivers and receivers are intended to be primarily used in an uncomplicated point-to-point configuration as
is shown in Figure 7. This configuration provides a clean signaling environment for the fast edge rates of the
drivers. The receiver is connected to the driver through a balanced media which may be a standard twisted pair
cable, a parallel pair cable, or simply PCB traces. Typically, the characteristic differential impedance of the media
is in the range of 100
Ω. A termination resistor of 100Ω (selected to match the media), and is located as close to
the receiver input pins as possible. The termination resistor converts the driver output current (current mode) into
a voltage that is detected by the receiver. Other configurations are possible such as a multi-receiver
configuration, but the effects of a mid-stream connector(s), cable stub(s), and other impedance discontinuities as
well as ground shifting, noise margin limits, and total termination loading must be taken into account.
The DS90LV047A differential line driver is a balanced current source design. A current mode driver, generally
speaking has a high output impedance and supplies a constant current for a range of loads (a voltage mode
driver on the other hand supplies a constant voltage for a range of loads). Current is switched through the load in
one direction to produce a logic state and in the other direction to produce the other logic state. The output
current is typically 3.1 mA, a minimum of 2.5 mA, and a maximum of 4.5 mA. The current mode driver requires
(as discussed above) that a resistive termination be employed to terminate the signal and to complete the loop
as shown in Figure 7. AC or unterminated configurations are not allowed. The 3.1 mA loop current will develop a
differential voltage of 310mV across the 100
Ω termination resistor which the receiver detects with a 250mV
minimum differential noise margin, (driven signal minus receiver threshold (250mV – 100mV = 150mV)). The
signal is centered around +1.2V (Driver Offset, VOS) with respect to ground as shown in Figure 8. Note that the
steady-state voltage (VSS) peak-to-peak swing is twice the differential voltage (VOD) and is typically 620mV.
The current mode driver provides substantial benefits over voltage mode drivers, such as an RS-422 driver. Its
quiescent current remains relatively flat versus switching frequency. Whereas the RS-422 voltage mode driver
increases exponentially in most case between 20 MHz–50 MHz. This is due to the overlap current that flows
between the rails of the device when the internal gates switch. Whereas the current mode driver switches a fixed
current between its output without any substantial overlap current. This is similar to some ECL and PECL
devices, but without the heavy static ICC requirements of the ECL/PECL designs. LVDS requires > 80% less
current than similar PECL devices. AC specifications for the driver are a tenfold improvement over other existing
RS-422 drivers.
The TRI-STATE function allows the driver outputs to be disabled, thus obtaining an even lower power state when
the transmission of data is not required.
The DS90LV047A has a flow-through pinout that allows for easy PCB layout. The LVDS signals on one side of
the device easily allows for matching electrical lengths of the differential pair trace lines between the driver and
the receiver as well as allowing the trace lines to be close together to couple noise as common-mode. Noise
isolation is achieved with the LVDS signals on one side of the device and the TTL signals on the other side.
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