參數(shù)資料
型號: TP3420A
廠商: National Semiconductor Corporation
英文描述: ISDN S/T Interface Device
中文描述: 綜合業(yè)務數(shù)字網(wǎng)的S / T接口設備
文件頁數(shù): 17/32頁
文件大?。?/td> 524K
代理商: TP3420A
Functional Description
(Continued)
0 is being received, the loop is de-activated, Status Indica-
tion type DI is set and the INT output pulled low to indicate
De-activation.
I.430 does not provide for Deactivation to be initiated by a
TE. However, a Power-down state may be forced if required,
normally after Deactivation has been established by the net-
work.
If required, an external Timer 3 should be started when an
Activation Request is sent to the TP3420. The subsequentAI
interrupt, indicatingActivation is complete, should be used to
stop the timer. If the timer expires before an AI is generated,
Control Instruction type DR must be written to the device to
force the transmission of INFO 0.
TE MODE D-CHANNEL ACCESS
In TE Master mode and optionally in TES mode, the
TP3420A SID arbitrates access for Layer 2 Transmit frames
to the D-channel bit positions in accordance with the I.430
Priority Mechanism (I.430 Section 6.1). This mechanism is to
resolve contention for the D channel towards the network
when 2 or more TEs are connected to a Passive Bus. The
shifting of D-channel transmit data from the Layer 2 device
into the SID buffer is controlled by gating the DEN
output
with BCLK. When no Layer 2 frame is pending, “1”s are al-
ways transmitted by the SID in D-bit positions at the S inter-
face. DEN
output pulses are inhibited and no D-channel
data is shifted into the B
input. An external Layer 2 device
requiring to start transmission of a packet should first prime
its Transmit buffer such that the opening flag is ready to be
shifted across the digital interface. Then a DREQ command
will initiate the D-channel access sequence. DREQ com-
mands require either that a Priority Class 1 (signalling)
packet, or a Priority Class 2 packet, is selected.
In response to the DREQ command, the DEN
output is en-
abled to pre-fetch the opening flag from the Layer 2 device
into the D-channel buffer. (Note: it is not necessary to flush
the Layer 2 HDLC transmitter prior to clocking out the open-
ing flag; the TP3420Awill continue the pre-fetch until the flag
is uniquely recognized.) Meanwhile, the Priority Counter
checks that no other TE connected to the S interface (in a
point-to-multipoint wiring configuration) is transmitting in the
D-channel. This is assured by counting consecutive “1”s in
the E-bit position of frames received from the NT. At least 8
consecutive “1”s must be detected before transmission of
the pending D-channel frame begins, in accordance with
Table 7
TABLE 7. D-Channel Access Criteria
Number of
Consecutive
“1”s in the
E-Channel
7
D-Channel Access
Abort. Possible re-try by
the transmitting TE.
Signalling packet (Priority
Class 1) may begin (Note 13).
Signalling packet may begin
unconditionally.
Any packet type may begin
(Priority Class 2) (Note 14).
8
9
10
Number of
Consecutive
“1”s in the
E-Channel
11
D-Channel Access
Any packet type may
begin unconditionally
Note 13:
Only if, since the SID last transmitted a complete Class 1 packet, a
sequence of
9 consecutive “1”s has been detected in the E-channel.
Note 14:
Only if, since the SID last transmitted a complete packet of either
class, a sequence of
11 consecutive “1”s has been detected in the
E-channel.
If another TE is active in the D-channel, DEN
pulses are in-
hibited once the opening flag is in the Transmit buffer, to pre-
vent further fetching of transmit data from the Layer 2 device
until D-channel access is achieved. As soon as the required
number of consecutive E-channel “1”s has been counted,
the leading 0 of the opening flag is transmitted in the next
D-bit position towards the NT. DEN
pulses are also
re-enabled in order to shift D-channel bits from the Layer 2
device into the SID transmit buffer. No interrupts are neces-
sary for local flow control between the Layer 2 processor and
the TP3420.
During transmission in the D-channel the TP3420A SID con-
tinues to compare each E-bit received from the NT with the
D-channel bit previously transmitted before proceeding to
send the next D-bit. In the event of a mis-match, a contention
for the previous D-bit is assumed to have been won by an-
other TE. Transmission of the current packet therefore
ceases and “1”s are transmitted in all following D-bit posi-
tions. Status Indication type CON is set, and the INT output
is pulled low to interrupt the Layer 2 transmit processor.
DEN
x
output pulses are again inhibited.
In order to retransmit the lost packet, the Layer 2 device
must begin as before, by priming its Transmit buffer with the
packet header and writing a DREQ command into the Con-
trol Register.
DEN
pulses stop immediately after receiving the closing
flag on the B
x
input from the layer 2 device.
Successful completion of a transmit packet is detected by
the TP3420A when the closing flag is transmitted in the D
channel. “1”s are then transmitted in the following D bit posi-
tions. The INT output is pulled Low (if enabled), with Status
Indication type EOM set, to indicate the End of Message.
Also, the Priority Access counters are decremented to the
lower priority level within each priority class, in accordance
with the I.430 algorithm. Priority is subsequently restored to
the higher level when the specified number of consecutive
1’s (9 or 11) is detected in the D-echo-bit position.
D-CHANNEL ACCESS ALGORITHM IN TES MODE
Two MICROWIRE commands in the TP3420A provide the
option of enabling or disabling the D channel access algo-
rithm, for Passive Bus applications while in the TES and
TEM mode. An example of this would be for support of pas-
sive bus off a PBX trunk line. The commands are DACCE
(Access Algorithm Enable) and DACCD (Access Algorithm
Disable). The power-up default condition for TES mode is to
disable the D channel access mechanism, and for TEM
mode is to enable the D channel access mechanism.
ECHO-BIT CONTROL IN NT MODE
For certain applications it is desirable to be able to control
the E-bit sent from the NT device towards the TE. Three MI-
CROWIRE commands are provided to control this. The
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