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DS90CR486_06 Datasheet, PDF (11/18 Pages) National Semiconductor (TI) – 133MHz 48-Bit Channel Link Deserializer (6.384 Gbps)
DS90CR486 Pin Descriptions — Channel Link Receiver
Pin Name
RxINP
RxINM
RxOUT
RxCLKP
RxCLKM
RxCLKOUT
PLLSEL
PD
DESKEW
BAL
CON1
VCC
GND
PLLVCC
PLLGND
LVDSVCC
LVDSGND
NC
I/O
No.
Description
I
8
Positive LVDS differential data inputs.
I
8
Negative LVDS differential data inputs.
O
48
LVCMOS/LVTTL level data outputs. In PowerDown (PD = Low) mode, receiver
outputs are forced to a Low state.
I
1
Positive LVDS differential clock input.
I
1
Negative LVDS differential clock input.
O
1
LVCMOS/LVTTL level clock output. The rising edge acts as data strobe.
I
1
Control input for PLL range select. This pin must be tied to VCC. No connect or
tied to GND is reserved for future use.
I
1
Power Down pin. This pin must be tied to input level of 2.5V to Vcc for normal
operation. When de-asserted (low input) the receiver outputs are Low. Please
refer to the Applications Information on the back for more information.
I
1
This pin must be tied to logic High or Vcc for normal operation of Deskew function.
De-asserting a pulse of duration greater than 4 clock cycles will restart the deskew
initialization. Do NOT tie this pin to LOW. Please refer to the Applications
Information on the back for more information.
I
1
LVCMOS/LVTTL level input. This pin must be tied to logic High or Vcc to enable
DC Balance function(Figure 9). When tied low or left open, the DC Balance
function is disabled(Figure 8). Please refer to the Applications Information on the
back for more infomation.
I
1
Control Pin. This pin must be tied to logic High or Vcc.
I
6
Power supply pins for LVCMOS/LVTTL outputs and digital circuitry.
I
8
Ground pins for LVCMOS/LVTTL outputs and digital circuitry.
I
1
Power supply for PLL circuitry.
I
2
Ground pin for PLL circuitry.
I
2
Power supply pin for LVDS inputs.
I
3
Ground pins for LVDS inputs.
6
No Connect. Make NO Connection to these pins - leave open.
Note 10: These receivers have input fail-safe bias circuitry to guarantee a stable receiver output for floating or terminated receiver inputs. Under these conditions
receiver inputs will be in a HIGH state. If a clock signal is present, outputs will all be HIGH; if the cable inter-connects are disconnected which results in floating/
terminated inputs, the outputs will remain in the last valid state. A floating/terminated clock input will result in a LOW clock output.
11
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