PSB21150FV14XT Lantiq, PSB21150FV14XT Datasheet - Page 99
PSB21150FV14XT
Manufacturer Part Number
PSB21150FV14XT
Description
Manufacturer
Lantiq
Datasheet
1.PSB21150FV14XT.pdf
(270 pages)
Specifications of PSB21150FV14XT
Number Of Line Interfaces
1
Control Interface
HDLC
Lead Free Status / Rohs Status
Compliant
3.7.1.1
With its four controller data access registers (CDA10, CDA11, CDA20, CDA21) the
IPAC-X IOM-2 handler provides a very flexible solution for the host access to up to 32
IOM-2 time slots.
The functional unit CDA (controller data access) allows with its control and configuration
registers
• Looping of up to four independent PCM channels from DU to DD or vice versa over
• Shifting of two independent PCM channels to another two independent PCM channels
• Monitoring of up to four time slots on the IOM-2 interface simultaneously
• Microcontroller read and write access to each PCM timeslot
The access principle which is identical for the two channel register pairs CDA10/11 and
CDA20/21 is illustrated in
description can be 1 or 2 for x and 0 or 1 for y. The prefix ’CDA_’ from the register names
has been omitted for simplification.
To each of the four CDAxy data registers a TSDPxy register is assigned by which the
time slot and the data port can be determined. With the TSS (Time Slot Selection) bits a
time slot from 0...31 can be selected. With the DPS (Data Port Selection) bit the output
of the CDAxy register can be assigned to DU or DD respectively. The time slot and data
port for the output of CDAxy is always defined by its own TSDPxy register. The input of
CDAxy depends on the SWAP bit in the control registers CRx.
• If the SWAP bit = ’0’ (swap is disabled) the time slot and data port for the input and
• If the SWAP bit = ’1’ (swap is enabled) the input port and timeslot of the CDAx0 is
The input and output of every CDAxy register can be enabled or disabled by setting the
corresponding EN (-able) bit in the control register CDAx_CR. If the input of a register is
disabled the output value in the register is retained.
Usually one input and one output of a functional unit (transceiver, HDLC controllers, CDA
register) is programmed to a timeslot on IOM-2 (e.g. for B-channel transmission in
upstream direction the HDLC controller writes data onto IOM and the transceiver reads
data from IOM). For monitoring data in such cases a CDA register is programmed as
described below under “Monitoring Data”. Besides that none of the IOM timeslots must
be assigned more than one input and output of any functional unit.
Data Sheet
the four CDA registers
on both data ports (DU, DD). Between reading and writing the data can be
manipulated (processed with an algorithm) by the microcontroller. If this is not the
case a switching function is performed
output of the CDAxy register is defined by its own TSDPxy register.
defined by the TSDP register of CDAx1 and the input port and timeslot of CDAx1 is
defined by the TSDP register of CDAx0. The input definition for timeslot and data port
CDAx0 are thus swapped to CDAx1 and for CDAx1 swapped to CDAx0. The output
timeslots are not affected by SWAP.
Controller Data Access (CDA)
Figure
52. Each of the index variables x,y used in the following
99
Description of Functional Blocks
PSB/PSF 21150
2003-01-30
IPAC-X
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