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XRT75L00DIV Datasheet(PDF) 7 Page - Exar Corporation |
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XRT75L00DIV Datasheet(HTML) 7 Page - Exar Corporation |
7 / 92 page XRT75L00D E3/DS3/STS-1 LINE INTERFACE UNIT WITH SONET DESYNCHRONIZER REV. 1.0.2 3 FIGURE 38. A SIMPLE ILLUSTRATION OF A DS3 DATA-STREAM BEING MAPPED INTO AN STS-1 SPE, VIA A PTE .............................. 57 9.2.2.2 THE 44.736MBPS + 1PPM CASE ........................................................................................................................... 58 FIGURE 39. AN ILLUSTRATION OF THE STS-1 SPE TRAFFIC THAT WILL BE GENERATED BY THE "SOURCE" PTE, WHEN MAPPING IN A DS3 SIGNAL THAT HAS A BIT RATE OF 44.736MBPS + 1PPM, INTO AN STS-1 SIGNAL................................................................ 58 9.2.2.3 THE 44.736MBPS - 1PPM CASE ............................................................................................................................ 59 9.3 JITTER/WANDER DUE TO POINTER ADJUSTMENTS .............................................................................. 60 9.3.1 THE CONCEPT OF AN STS-1 SPE POINTER........................................................................................................... 60 FIGURE 40. AN ILLUSTRATION OF THE STS-1 SPE TRAFFIC THAT WILL BE GENERATED BY THE SOURCE PTE, WHEN MAPPING A DS3 SIGNAL THAT HAS A BIT RATE OF 44.736MBPS - 1PPM, INTO AN STS-1 SIGNAL ............................................................................ 60 FIGURE 41. AN ILLUSTRATION OF AN STS-1 SPE STRADDLING ACROSS TWO CONSECUTIVE STS-1 FRAMES .................................... 61 9.3.2 POINTER ADJUSTMENTS WITHIN THE SONET NETWORK .................................................................................. 62 FIGURE 42. THE BIT-FORMAT OF THE 16-BIT WORD (CONSISTING OF THE H1 AND H2 BYTES) WITH THE 10 BITS, REFLECTING THE LOCATION OF THE J1 BYTE, DESIGNATED......................................................................................................................................... 62 FIGURE 43. THE RELATIONSHIP BETWEEN THE CONTENTS OF THE "POINTER BITS" (E.G., THE 10-BIT EXPRESSION WITHIN THE H1 AND H2 BYTES ) AND THE LOCATION OF THE J1 BYTE WITHIN THE ENVELOPE CAPACITY OF AN STS-1 FRAME ................................ 62 9.3.3 CAUSES OF POINTER ADJUSTMENTS ................................................................................................................... 63 FIGURE 44. AN ILLUSTRATION OF AN STS-1 SIGNAL BEING PROCESSED VIA A SLIP BUFFER ............................................................. 64 FIGURE 45. AN ILLUSTRATION OF THE BIT FORMAT WITHIN THE 16-BIT WORD (CONSISTING OF THE H1 AND H2 BYTES) WITH THE "I" BITS DESIGNATED ................................................................................................................................................................... 65 FIGURE 46. AN ILLUSTRATION OF THE BIT-FORMAT WITHIN THE 16-BIT WORD (CONSISTING OF THE H1 AND H2 BYTES) WITH THE "D" BITS DESIGNATED ................................................................................................................................................................... 66 9.3.4 WHY ARE WE TALKING ABOUT POINTER ADJUSTMENTS? ............................................................................... 67 9.4 CLOCK GAPPING JITTER ............................................................................................................................. 67 FIGURE 47. ILLUSTRATION OF THE TYPICAL APPLICATIONS FOR THE LIU IN A SONET DE-SYNC APPLICATION.................................. 67 9.5 A REVIEW OF THE CATEGORY I INTRINSIC JITTER REQUIREMENTS (PER TELCORDIA GR-253-CORE) FOR DS3 APPLICATIONS ............................................................................................................................ 68 TABLE 18: SUMMARY OF "CATEGORY I INTRINSIC JITTER REQUIREMENT PER TELCORDIA GR-253-CORE, FOR DS3 APPLICATIONS.. 68 9.5.1 DS3 DE-MAPPING JITTER......................................................................................................................................... 69 9.5.2 SINGLE POINTER ADJUSTMENT ............................................................................................................................. 69 9.5.3 POINTER BURST........................................................................................................................................................ 69 FIGURE 48. ILLUSTRATION OF SINGLE POINTER ADJUSTMENT SCENARIO ......................................................................................... 69 9.5.4 PHASE TRANSIENTS................................................................................................................................................. 70 FIGURE 49. ILLUSTRATION OF BURST OF POINTER ADJUSTMENT SCENARIO..................................................................................... 70 FIGURE 50. ILLUSTRATION OF "PHASE-TRANSIENT" POINTER ADJUSTMENT SCENARIO ..................................................................... 70 9.5.5 87-3 PATTERN............................................................................................................................................................ 71 9.5.6 87-3 ADD ..................................................................................................................................................................... 71 FIGURE 51. AN ILLUSTRATION OF THE 87-3 CONTINUOUS POINTER ADJUSTMENT PATTERN ............................................................. 71 9.5.7 87-3 CANCEL.............................................................................................................................................................. 72 FIGURE 52. ILLUSTRATION OF THE 87-3 ADD POINTER ADJUSTMENT PATTERN ................................................................................ 72 FIGURE 53. ILLUSTRATION OF 87-3 CANCEL POINTER ADJUSTMENT SCENARIO................................................................................ 72 9.5.8 CONTINUOUS PATTERN........................................................................................................................................... 73 9.5.9 CONTINUOUS ADD ................................................................................................................................................... 73 FIGURE 54. ILLUSTRATION OF CONTINUOUS PERIODIC POINTER ADJUSTMENT SCENARIO................................................................ 73 9.5.10 CONTINUOUS CANCEL........................................................................................................................................... 74 FIGURE 55. ILLUSTRATION OF CONTINUOUS-ADD POINTER ADJUSTMENT SCENARIO ........................................................................ 74 FIGURE 56. ILLUSTRATION OF CONTINUOUS-CANCEL POINTER ADJUSTMENT SCENARIO................................................................... 74 9.6 A REVIEW OF THE DS3 WANDER REQUIREMENTS PER ANSI T1.105.03B-1997. ................................. 75 9.7 A REVIEW OF THE INTRINSIC JITTER AND WANDER CAPABILITIES OF THE LIU IN A TYPICAL SYSTEM APPLICATION ............................................................................................................................................... 75 9.7.1 INTRINSIC JITTER TEST RESULTS.......................................................................................................................... 75 TABLE 19: SUMMARY OF "CATEGORY I INTRINSIC JITTER TEST RESULTS" FOR SONET/DS3 APPLICATIONS..................................... 75 9.7.2 WANDER MEASUREMENT TEST RESULTS............................................................................................................ 76 9.8 DESIGNING WITH THE LIU ........................................................................................................................... 76 9.8.1 HOW TO DESIGN AND CONFIGURE THE LIU TO PERMIT A SYSTEM TO MEET THE ABOVE-MENTIONED INTRIN- SIC JITTER AND WANDER REQUIREMENTS ............................................................................................................ 76 FIGURE 57. ILLUSTRATION OF THE LIU BEING CONNECTED TO A MAPPER IC FOR SONET DE-SYNC APPLICATIONS.......................... 76 CHANNEL CONTROL REGISTER..................................................................................................................... 77 CHANNEL CONTROL REGISTER..................................................................................................................... 78 JITTER ATTENUATOR CONTROL REGISTER.................................................................................................... 78 9.8.2 RECOMMENDATIONS ON PRE-PROCESSING THE GAPPED CLOCKS (FROM THE MAPPER/ASIC DEVICE) PRIOR TO ROUTING THIS DS3 CLOCK AND DATA-SIGNALS TO THE TRANSMIT INPUTS OF THE LIU ........................ 79 9.8.2.1 SOME NOTES PRIOR TO STARTING THIS DISCUSSION: ............................................................................ 79 JITTER ATTENUATOR CONTROL REGISTER.................................................................................................... 79 JITTER ATTENUATOR CONTROL REGISTER.................................................................................................... 79 9.8.2.2 OUR PRE-PROCESSING RECOMMENDATIONS ............................................................................................ 80 |
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