PM7344 S/UNI-MPH
DATA SHEET
PMC-950449
ISSUE 6
MULTI-PHY USER NETWORK INTERFACE
14.1 Using the JT2F
Figure 31
- J2 Framer Example
JT2F
PM7344
RX
S/UNI-MPH
RSD
RSC
RTS
RCG
RP
RDD[x]
RN
RCLKI[x]
RCK
ROH[x]
TTS
TCG
TX
TOHI
TCOUT
TFOUT
XSD
TCLKI
TP
TN
TDD[x]
TCK
XCK
TCLKO[x]
XSF
TOHO[x]
TCIN
SER
+5
6.312 MHz
The JT2F J2 framer can be connected to the S/UNI-MPH as shown above. The
S/UNI-MPH is configured to select the J2 interface by setting the register bits
MODE[1] to logic 1 and MODE[0] to logic 0. The register bits TFALL, TOHINV,
TRISE, and TDNINV are all set to logic 1 so that TOHI is sampled on the falling
TCLKI edge, TOHI is active low, TDD[x] and TOHO[x] are updated on the rising
edge of TCLKO[x], and TOHO[x] is active low. The register bits RDNINV and
RFALL are set to logic 1 so that ROH[x] is active low and so RDD[x] and ROH[x]
are sampled on the falling edge of RCLKI[x].
Using the ROH and TOHI inputs from the JT2F, the S/UNI-MPH internally
generates additional J2 overhead signals which identify the J2 signalling and
framing bit positions. The S/UNI-MPH also generates the J2 multiframe output
on TOHO. Additional information on the J2 Transmit and Receive timing is
provided in the S/UNI-MPH Functional Timing section.
14.2 Using the Digital Jitter Attenuator
The key to using DJAT lies in selecting the appropriate divisors for the phase
comparison between the selected reference clock and the generated smooth
TCLKO[x].
PROPRIETARY AND CONFIDENTIAL TO PMC-SIERRA, INC., AND FOR ITS CUSTOMERS’ INTERNAL USE
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