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XRT72L58 Datasheet, PDF (8/486 Pages) Exar Corporation – EIGHT CHANNEL DS3/E3 FRAMER IC WITH HDLC CONTROLLER
XRT72L58
EIGHT CHANNEL DS3/E3 FRAMER IC WITH HDLC CONTROLLER
REV. P1.1.2
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PRELIMINARY
face block of the XRT72L58 for Mode 2 (Serial/Local-Timed/Frame-Slave) Operation ...................... 157
Figure 47. Behavior of the Terminal Interface signals between the XRT72L58 and the Terminal Equipment
(Mode 2 Operation) ............................................................................................................................. 158
FRAMER OPERATING MODE REGISTER (ADDRESS = 0X00) ..................................................................... 158
Figure 48. Illustration of the Terminal Equipment being interfaced to the Transmit Payload Data Input Inter-
face block of the XRT72L58 for Mode 3 (Serial/Local-Timed/Frame-Master) Operation .................... 159
Figure 49. Behavior of the Terminal Interface signals between the XRT72L58 and the Terminal Equipment
(DS3 Mode 3 Operation) ..................................................................................................................... 160
FRAMER OPERATING MODE REGISTER (ADDRESS = 0X00) ..................................................................... 161
Figure 50. Illustration of the Terminal Equipment being interfaced to the Transmit Payload Data Input Inter-
face block of the XRT72L58 for Mode 4 (Nibble-Parallel/Loop-Timed) Operation .............................. 162
Figure 51. Behavior of the Terminal Interface signals between the XRT72L58 and the Terminal Equipment
(Mode 4 Operation) ............................................................................................................................. 163
FRAMER OPERATING MODE REGISTER (ADDRESS = 0X00) ..................................................................... 163
Figure 52. Illustration of the Terminal Equipment being interfaced to the Transmit Payload Data Input Inter-
face block of the XRT72L58 for Mode 5 (Nibble-Parallel/Local-Timed/Frame-Slave) Operation ........ 165
Figure 53. Behavior of the Terminal Interface signals between the XRT72L58 and the Terminal Equipment
(DS3 Mode 5 Operation) ..................................................................................................................... 166
FRAMER OPERATING MODE REGISTER (ADDRESS = 0X00) ..................................................................... 166
Figure 54. Illustration of the Terminal Equipment being interfaced to the Transmit Payload Data Input Inter-
face block of the XRT72L58 for Mode 6 (Nibble-Parallel/Local-Timed/Frame-Master) Operation ...... 167
Figure 55. Behavior of the Terminal Interface signals between the XRT72L58 and the Terminal Equipment
(DS3 Mode 6 Operation) ..................................................................................................................... 168
FRAMER OPERATING MODE REGISTER (ADDRESS = 0X00) ..................................................................... 169
4.2.2 The Transmit Overhead Data Input Interface ........................................................................................ 169
Figure 56. Simple Illustration of the Transmit Overhead Data Input Interface block .......................... 169
TABLE 20: A LISTING OF THE OVERHEAD BITS WITHIN THE DS3 FRAME, AND THEIR POTENTIAL SOURCES, WITHIN
THE XRT72L58 IC ................................................................................................................................ 170
TABLE 21: DESCRIPTION OF METHOD 1 TRANSMIT OVERHEAD INPUT INTERFACE SIGNALS ...................... 171
Figure 57. Illustration of the Terminal Equipment being interfaced to the Transmit Overhead Data Input In-
terface (Method 1) ............................................................................................................................... 172
TABLE 22: THE RELATIONSHIP BETWEEN THE NUMBER OF RISING CLOCK EDGES IN TXOHCLK, (SINCE TXO-
HFRAME WAS LAST SAMPLED "HIGH") TO THE DS3 OVERHEAD BIT, THAT IS BEING PROCESSED ............... 173
Figure 58. Illustration of the signal that must occur between the Terminal Equipment and the XRT72L58,
in order to configure the XRT72L58 to transmit a Yellow Alarm to the remote terminal equipment .... 175
TABLE 23: DESCRIPTION OF METHOD 2 TRANSMIT OVERHEAD INPUT INTERFACE SIGNALS ...................... 176
Figure 59. Illustration of the Terminal Equipment being interfaced to the Transmit Overhead Data Input In-
terface (Method 2) ............................................................................................................................... 177
TABLE 24: THE RELATIONSHIP BETWEEN THE NUMBER OF TXOHENABLE PULSES (SINCE THE LAST OCCURRENCE
OF THE TXOHFRAME PULSE) TO THE DS3 OVERHEAD BIT, THAT IS BEING PROCESSED BY THE XRT72L58 178
Figure 60. Behavior of Transmit Overhead Data Input Interface signals between the XRT72L58 and the
Terminal Equipment (for Method 2) ..................................................................................................... 180
4.2.3 The Transmit DS3 HDLC Controller ...................................................................................................... 180
TX DS3 FEAC REGISTER (ADDRESS = 0X32) ........................................................................................ 181
TRANSMIT DS3 FEAC CONFIGURATION AND STATUS REGISTER (ADDRESS = 0X31) ............................... 181
TRANSMIT DS3 FEAC CONFIGURATION AND STATUS REGISTER (ADDRESS = 0X31) ............................... 181
Figure 61. A Flow Chart depicting how to transmit a FEAC Message via the FEAC Transmitter ...... 182
Figure 62. LAPD Message Frame Format .......................................................................................... 183
TABLE 25: THE LAPD MESSAGE TYPE AND THE CORRESPONDING VALUE OF THE FIRST BYTE, WITHIN THE INFOR-
MATION PAYLOAD .................................................................................................................................. 183
TRANSMIT DS3 LAPD CONFIGURATION REGISTER (ADDRESS = 0X33) ................................................... 184
TABLE 26: RELATIONSHIP BETWEEN TXLAPD MSG LENGTH AND THE LAPD MESSAGE SIZE .................. 184
TRANSMIT DS3 LAPD CONFIGURATION REGISTER (ADDRESS = 0X33) ................................................... 184
TABLE 27: RELATIONSHIP BETWEEN TXLAPD MSG LENGTH AND THE LAPD MESSAGE SIZE .................. 184
TRANSMIT DS3 LAPD STATUS/INTERRUPT REGISTER (ADDRESS = 0X34) ............................................... 185
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