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DS90CR213_05 Datasheet, PDF (13/15 Pages) Texas Instruments – 21-Bit Channel Link-66 MHz
Applications Information (Continued)
01288825
FIGURE 19. CHANNEL LINK
Decoupling Configuration
CLOCK JITTER
The CHANNEL LINK devices employ a PLL to generate and
recover the clock transmitted across the LVDS interface. The
width of each bit in the serialized LVDS data stream is
one-seventh the clock period. For example, a 66 MHz clock
has a period of 15 ns which results in a data bit width of 2.16
ns. Differential skew (∆t within one differential pair), intercon-
nect skew (∆t of one differential pair to another) and clock
jitter will all reduce the available window for sampling the
LVDS serial data streams. Care must be taken to ensure that
the clock input to the transmitter be a clean low noise signal.
Individual bypassing of each VCC to ground will minimize the
noise passed on to the PLL, thus creating a low jitter LVDS
clock. These measures provide more margin for channel-to-
channel skew and interconnect skew as a part of the overall
jitter/skew budget.
COMMON MODE vs. DIFFERENTIAL MODE NOISE
MARGIN
The typical signal swing for LVDS is 300 mV centered at
+1.2V. The CHANNEL LINK receiver supports a 100 mV
threshold therefore providing approximately 200 mV of dif-
ferential noise margin. Common mode protection is of more
importance to the system’s operation due to the differential
data transmission. LVDS supports an input voltage range of
Ground to +2.4V. This allows for a ±1.0V shifting of the
center point due to ground potential differences and common
mode noise.
POWER SEQUENCING AND POWERDOWN MODE
Outputs of the CHANNEL LINK transmitter remain in TRI-
STATE until the power supply reaches 3V. Clock and data
outputs will begin to toggle 10 ms after VCC has reached
4.5V and the Powerdown pin is above 2V. Either device may
be placed into a powerdown mode at any time by asserting
the Powerdown pin (active low). Total power dissipation for
each device will decrease to 5 µW (typical).
The CHANNEL LINK chipset is designed to protect itself
from accidental loss of power to either the transmitter or
receiver. If power to the transmit board is lost, the receiver
clocks (input and output) stop. The data outputs (RxOUT)
retain the states they were in when the clocks stopped.
When the receiver board loses power, the receiver inputs are
shorted to V CC through an internal diode. Current is limited
(5 mA per input) by the fixed current mode drivers, thus
avoiding the potential for latchup when powering the device.
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