DS90LV047ATM/NOPB National Semiconductor, DS90LV047ATM/NOPB Datasheet - Page 5
DS90LV047ATM/NOPB
Manufacturer Part Number
DS90LV047ATM/NOPB
Description
IC LINE DRIVER QUAD CMOS 16-SOIC
Manufacturer
National Semiconductor
Type
Driverr
Datasheet
1.DS90LV047ATMTCNOPB.pdf
(13 pages)
Specifications of DS90LV047ATM/NOPB
Number Of Drivers/receivers
4/0
Protocol
LVDS
Voltage - Supply
3 V ~ 3.6 V
Mounting Type
Surface Mount
Package / Case
16-SOIC (3.9mm Width)
Supply Current
30mA
Supply Voltage Range
3V To 3.6V
Driver Case Style
SOIC
No. Of Pins
16
Operating Temperature Range
-40°C To +85°C
Msl
MSL 1 - Unlimited
Device Type
Line
Esd Hbm
10kV
Rohs Compliant
Yes
For Use With
LVDS47/48EVK - EVALUATION BOARD FOR LVDS47/48
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
*DS90LV047ATM
*DS90LV047ATM/DRSN
*DS90LV047ATM/NOPB
DS90LV047ATM
DS90LV047ATM/DRSN
DS90LV047ATM/DRSN
*DS90LV047ATM/DRSN
*DS90LV047ATM/NOPB
DS90LV047ATM
DS90LV047ATM/DRSN
DS90LV047ATM/DRSN
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
DS90LV047ATM/NOPB
Manufacturer:
TI/德州仪器
Quantity:
20 000
Parameter Measurement Information
Typical Application
Applications Information
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 6. This configuration provides a clean signaling
environment for the fast edge rates of the drivers. The re-
ceiver 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 100Ω.
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 cur-
rent source design. A current mode driver, generally speak-
FIGURE 5. Driver TRI-STATE Delay Waveform
FIGURE 6. Point-to-Point Application
5
(Continued)
ing 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 com-
plete the loop as shown in Figure 6. AC or unterminated
configurations are not allowed. The 3.1 mA loop current will
develop a differential voltage of 310mV across the 100Ω
termination resistor which the receiver detects with a 250mV
minimum differential noise margin, (driven signal minus re-
ceiver threshold (250mV – 100mV = 150mV)). The signal is
centered around +1.2V (Driver Offset, V
ground as shown in Figure 7. Note that the steady-state
voltage (V
voltage (V
The current mode driver provides substantial benefits over
voltage mode drivers, such as an RS-422 driver. Its quies-
cent current remains relatively flat versus switching fre-
quency. Whereas the RS-422 voltage mode driver increases
exponentially in most case between 20 MHz–50 MHz. This
OD
SS
) and is typically 620mV.
) peak-to-peak swing is twice the differential
10088708
OS
10088707
) with respect to
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