pef22504 Infineon Technologies Corporation, pef22504 Datasheet - Page 110

pef22504

Manufacturer Part Number

pef22504

Description

Quad E1/t1/j1 Line Interface Component For Long- And Short-haul Applications Pef 22504 E, Pef 22504 Ht, Version 2.1

Manufacturer

Infineon Technologies Corporation

Datasheet

1.PEF22504.pdf (255 pages)

Current page: 110 of 255
Download datasheet (8Mb)

•

In single rail mode of the transmit direction (LIM3.DRX = ´0´, LIM3), the input for the unipolar data of the framer is

XDIP.

If dual rail mode is selected in transmit direction by setting of register bit LIM3.DRX, the input for the positive rail

of the data is XDIP and the input for the negative rail of the data is the multi function port XDIN. Therefore one of

the both transmit multifunction ports must be configured to XDIN (for example PC1.XPX1(3:0) = ´1101

seeTable

Clocking (sampling) of XDIP and XDIN is done with the rising or falling edge of the internal transmit clock, selected

by DIC3.RESX. The internal transmit clock can be sourced either

•

3.11

The following chapters describe the different test function of the QuadLIU

3.11.1

All bits of all slots in a E1T1/J1 frame are used for PRBS.

The QuadLIU

PRBS pattern is transmitted to the remote end on pins XL1/2 and can be inverted optionally. Generating and

monitoring of PRBS pattern is done according to ITU-T O.150 and ITU-T O.151.

The PRBS monitor senses the PRBS pattern in the incoming data stream. Synchronization is done on the inverted

and non-inverted PRBS pattern. The current synchronization status is reported in status and interrupt status

registers. Enabled by bit LCR1.EPRM each PRBS bit error increments an error counter BEC (BECL).

Synchronization is reached within 400 ms with a probability of 99.9% at a bit error rate of up to 10

The PRBS pattern (polynomials) can be selected to be 211-1, 215-1, 220-1or 223-1 by the register bits

TPC0.PRP(1:0) and LCR1.LLBP (LCR1), see

T O.150, O.151. and TR62441. The polynomials 211-1 and 223-1 can be selected only if TPC0.PRM unequal

´00b´.

Transmission of PRBS pattern is enabled by register bit LCR1.XPRBS. With the register bit LCR1.FLLB switching

between not inverted and inverted transmit pattern can be done.

The receive monitoring of PRBS patterns is enabled by register bit LCR1.EPRM. In general, depending on bit

LCR1.EPRM the source of the interrupt status bit ISR1.LLBSC changed, see register description. The type of

detected PRBS pattern in the receiver is shown in the status register bits PRBSSTA.PRS. Every change of the

bits PRS in PRBSSTA sets the interrupt bit ISR1.LLBSC if register bit LCR1.EPRM is set. No pattern is also

detected if the mode “alarm simulation” is active.

The detection of all_zero or all_ones pattern is done over 12, 16, 21 or 24 consecutive bits, depending on the

selected PRBS polynomial (211-1, 215-1, 220-1or 223-1 respectively). The detection of all_zero or all_ones is

independent on LCR1.FLLB.

The distinction between all-ones and all-zeros pattern is possible by combination of.

•

If an “all-one” or an “all-zero” pattern is detected by the PRBS monitor, the interrupt status bit ISR1.LLBSC is set

not only once, but is set permanent. To avoid that the LLBSC interrupt is issued permanent and the HOST micro

controller would permanent be occupied, the following proceeding is recommended:

After reading of the interrupt status bit ISR1.LLBSC , the appropriate interrupt routine should set the interrupt mask

bits IMR1.LLBSC to ´1´, after an “all-one” or an “all-zero” pattern was indicated, to avoid permanent interrupts

issued by the QuadLIU

Data Sheet

By the FCLKR input pin. In that case FCLKR input pin function must be selected by PC5.CSRP = ´0´ to use

the receiver clock from the framer.

By the internal receive clock of the receive system (CMR2.IXSC = ´1´). To support the framer with these clock

FCLKR output pin function must be selected by PC5.CSRP = ´1´. or

By the FCLKX input pin (CMR2.IXSC = ´0´). In that case FCLKX is supported by the framer.

The information about the first reached PRBS status after the PRBS monitor was enabled (“PRBS pattern

detected” or “inverted PRBS pattern detected”) with

The status information “all-zero pattern detected” or “all-ones pattern detected”

34.

Test Functions

Pseudo-Random Binary Sequence Generation and Monitor

has the ability to generate and monitor pseudo-random binary sequences (PRBS). The generated

. The PRBS status register bits PRBSSTA.PRS should be polled to detect changes in

Table

33. For definition of this polynomials see the Standards ITU-

110

Functional Description

Rev. 1.3, 2006-01-25

-1

QuadLIU

PEF 22504

´),

pef22504 Infineon Technologies Corporation, pef22504 Datasheet - Page 110

pef22504

Related parts for pef22504