MC10SX1405FJ 查看數據表(PDF) - Motorola => Freescale
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MC10SX1405FJ Datasheet PDF : 9 Pages
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MC10SX1405
RETIME
FF
OC3
OC12
Interface
PARALLEL
DATA INPUT
DI1:8
RETIME
FF
MUX
EPI
PARITY
CHECK
RETCK
PLLCK
2
DIV
8
VARCK 2
REFCK 2
PHASE–LOCKED
LOOP
MC10SX1405
DIFFERENTIAL
TX OUTPUT
SOP
LASER
SOM
DRIVER
PERR
FCM
EO
OOL
CONTROL
SYSTEM
Figure 2. MC10SX1405 Simplified Block Diagram
SX1405 Theory of Operation
Operation of the SX1405 is straightforward. Parallel data
is input to the device. Serial–to–parallel conversion is
performed. Then the serial data is output at the selected line
rate clock. The 78 MByte/s or 19 MByte/s parallel data is
converted into a bit–serial 622 Mbit/s or 155 Mbit/s data
stream.
The on–chip PLL generates the 622 MHz or 155 MHz line
rate clock from a subrate clock. For testing and applications
which provide an external high–frequency bit clock, the
internal clock generation PLL may be bypassed.
SX1405 Block Diagram Functional Description
Phase Locked Loop
The on–chip Phase Locked Loop (PLL) synthesizes the
internal bit rate clock from the 19.44 / 38.66 / 77.78 MHz input
reference clock. The PLL consists of a phase / frequency
detector, loop filter, and Voltage Controlled Oscillator (VCO)
nominally operating at 1.2 GHz. Dividers provide the internal
clocks and a sub–rate clock output PLLCKP/PLLCKM
(differential PECL) for phase comparison.
REFCK/REFCKM is the differential input PLL reference
clock. The feedback, to close the loop of the PLL, is
VARCK/VARCKM, the differential input variable clock. Both
the REFCK and VARCK inputs can be driven by TTL levels if
the “minus” input (REFCKM and VARCKM) are left open.
An Out Of Lock indicator (OOL) is driven HIGH if the PLL
is not frequency locked with the input reference clock.
Parallel to Serial Conversion
In OC3 mode, converts a 4–bit (Nibble) 38.88 Mb/s or
8–bit (Byte) 19.44 Mb/s input to a differential 155.52 Mb/s
serial data output. In OC12 mode, converts an 8–bit 77.76
Mb/s input to a differential 622.08 Mb/s serial data output.
The input data is loaded into the Retime FF’s by the Retiming
Clock RETCK. Then the data is loaded into a shift register by
PLLCK. The data shifted out is ordered MSB (DI1) first and
LSB (DI8 or DI4) last.
Parity Check
The parity check provides a means of verifying the
integrity of the parallel to serial converter with minimal
overhead. The parity of the serial output data stream is
compared to the value of the Even Parity Input (EPI). If a
parity error is deteced, the Parity Error (PERR) output is set
HIGH. The PERR pin has an Open Collector TTL Output and
must be given a falling edge to reset the parity error detector.
SX1405 Control Signals
Reset (RSTN) – Used for testing and verification, the TTL
outputs are set to Tri–State and all divider flip–flops
and the parity generator are reset when RSTN = LOW.
This also sets PERR HIGH and PERR must be given a
falling edge to reset the parity error detector for normal
operation. An internal pull–up is provided on RSTN
allowing the device to operate normally if RSTN is not
used.
Low Speed Select (LSS) – Selects data rate. LOW = OC–12
(622.08 Mb/s), HIGH = OC–3 (155.52 Mb/s). An
MOTOROLA
2
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DL140 — Rev 3
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