PEF2256EV22NP Lantiq, PEF2256EV22NP Datasheet - Page 219
PEF2256EV22NP
Manufacturer Part Number
PEF2256EV22NP
Description
Manufacturer
Lantiq
Datasheet
1.PEF2256EV22NP.pdf
(533 pages)
Specifications of PEF2256EV22NP
Number Of Transceivers
1
Screening Level
Industrial
Mounting
Surface Mount
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Lead Free Status / RoHS Status
Supplier Unconfirmed
10
The three HDLC controllers can be programmed to operate in various modes, which are
different in the treatment of the HDLC frame in receive direction. Thus, the receive data
flow and the address recognition features can be performed in a very flexible way, to
satisfy almost any practical requirements.
There are 4 different operating modes which can be set via the mode registers (MODE,
MODE2 and MODE3).
If not mentioned otherwise, all functions described for HDLC channel 1 apply to channel
2 and 3 as well.
10.1
All frames with valid addresses are forwarded directly via the RFIFO to the system
memory.
Depending on the selected address mode, the FALC
address recognition (MODE.MDS0).
If a 2-byte address field is selected, the high address byte is compared to the fixed value
FEH or FCH (group address) as well as with two individually programmable values in
RAH1 and RAH2 registers. According to the ISDN LAPD protocol, bit 1 of the high byte
address is interpreted as command/response bit (C/R) and is excluded from the address
comparison.
Similarly, two compare values can be programmed in special registers (RAL1, RAL2) for
the low address byte. A valid address is recognized in case the high and low byte of the
address field correspond to one of the compare values. Thus, the FALC
called (addressed) with 6 different address combinations. HDLC frames with address
fields that do not match any of the address combinations, are ignored by the FALC
In case of a 1-byte address, RAL1 and RAL2 are used as compare registers. The HDLC
control field, data in the I-field and an additional status byte are temporarily stored in the
RFIFO. Additional information can also be read from a special register (RSIS).
As defined by the HDLC protocol, the FALC
(bit stuffing) in the transmit/receive data stream automatically. That means, it is
guaranteed that at least one “0” will appear after 5 consecutive “1”s.
10.1.1
(MODE.MDS(2:1) = 01; MODE2.MDS22..21=01; MODE3.MDS32..31=01)
Characteristics: address recognition, flag- and CRC generation/check, bit stuffing
All frames with valid addresses are forwarded directly via the RFIFO (RFIFO2, RFIFO3)
to the system memory.
Data Sheet
Signaling Controller Operating Modes
HDLC Mode
Non-Auto Mode
219
®
56 performs the zero bit insertion/deletion
Signaling Controller Operating Modes
®
56 can perform a 1- or 2-byte
Rev. 1.1, 2005-06-13
PEF 2256 H/E
®
FALC
56 can be
®
®
56.
56
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