7 C.F.R. § 1755.522
(a) General.
(b) Reliability.
(c) System type acceptance tests.
(d) Types of requirements.
(e) General requirements.
(19) When specified in appendix A of this section, the system shall be capable of processing emergency calls to a 911 service bureau connected either by a group of one-way 911 lines or a trunk group.
(f) Line circuit requirements—(1) General.
(iii) Subscriber line pushbutton dialing frequencies.
(A) The frequency pairs assigned for pushbutton dialing shall be as follows, with an allowable variation of ±1.5 percent:
| Low Group Frequencies (Hz) | High Group Frequencies (Hz) | |||
|---|---|---|---|---|
| 1209 | 1336 | 1477 | 1633 | |
| 697 | 1 | 2 | 3 | Spare |
| 770 | 4 | 5 | 6 | Spare |
| 852 | 7 | 8 | 9 | Spare |
| 941 | * | 0 | # | Spare |
(4) Lockout.
(6) Loop extension.
(g) Intraoffice switching requirements.
(1) The switching system shall:
(2) The switching system shall offer at least the following originating and terminating class-of-service indications on a per-line basis to subscribers, as specified by the owner:
(3) The switching system shall provide PBX hunting.
(5) To meet dialing requirements, the switching system shall:
(6) The switching system shall provide for appropriate circuit usage.
(7) The switching system shall provide busy verification facilities with the method of access specified by the owner.
(8) The switching system shall provide intercept facilities.
(10) The switching system shall follow appropriate release procedures.
(11) The switching system shall provide line load control facilities, when specified by the owner, to give preference for originating service to a limited group of subscribers during emergencies.
(3) Requirements for interoffice connections.
(4) Requirements for direct digital connections.
(2) Tone specifications.
(j) System clock.
(2) The end office central office system clock shall be a Stratum 3 clock with:
(3) The access tandem central office system clock shall be a Stratum 2 clock with:
(2) Operation.
(3) Components.
(n) Stored program control (SPC) equipment requirements.
(4) The switching system shall be able to offer, by request, at least the following printouts of its routine stored data for administrative purposes:
(o) Maintenance facilities—(1) Alarm features, including alarm sending.
(ii) The alarms shall be classified in accordance with their effect on the system.
(x) When the alarm checking number is dialed, the alarm indications received shall be as follows:
(xi) Audible and visual local alarms and transmitted alarms shall be provided as follows:
| Delay Interval | ||
|---|---|---|
| Classification | Local Alarms | Alarms Transmitted |
| Catastrophic | 0 | 0 |
| Major | 0 | 0 1 |
| Minor | 0 | 0-30 Min. |
| 1 Except no charge alarm delayed 15 minutes. |
(2) Trouble location and test.
(i) Equipment.
(ii) Maintenance system.
(iii) Outside plant and subscriber stations.
(A) A subscriber loop test set or equivalent shall be provided either as a separate set or as a part of the maintenance center, as specified in item 11.2 of appendix A of this section. This circuit shall include a high resistance volt-ohm meter, wiring to tip and ring terminals to permit a portable wheatstone bridge to be used, an operator's telephone circuit, a dial circuit (and pushbutton dialing keys, if specified), outgoing trunks to dial equipment for access to lines under test without use of the main distributing frame (MDF) test shoe and the necessary test keys. No dry cell batteries shall be accepted for test potentials. Circuits shall be designed so that alternating current (ac) induction on the line will have no effect on dc measurements. All functions shall be under control of lever or pushbutton keys. As a minimum the test system shall:
(1) Test for bridged foreign electromotive force (EMF);
(2) Test for regular line battery;
(3) Test for booster battery voltage and polarity using the test shoe;
(4) Test for open circuits, short, tip ground, and ring ground;
(5) Test for tip or ring negative potential;
(6) Test for capacitance of a subscriber's line;
(7) Supply talking battery to the line with and without booster battery;
(8) Ring the subscriber through the test access circuit or through a test shoe;
(9) Test in and out of the central office; and
(10) Supply a reverse polarity key for voltage readings, except when positive or negative values are displayed directly.
(3) Transmission testing.
(p) Traffic—(1) General engineering guidelines.
(i) The Traffic Table, based on the Erlang Lost-Calls-Cleared Formula, shall be used for determining the quantity of intraoffice paths, registers, and senders where full availability conditions apply. The following table shows the traffic capacity in CCS for 1 to 200 trunks at nine grades of service.
| Number of Trunks | B-.001 | .002 | .005 | .01 | .02 | .05 | .1 | .2 | .5 | Number of Trunks |
|---|---|---|---|---|---|---|---|---|---|---|
| 1 | 0 | 0 | 0 | 0 | 1 | 2 | 4 | 9 | 36 | 1 |
| 2 | 2 | 3 | 4 | 5 | 8 | 14 | 22 | 36 | 98 | 2 |
| 3 | 7 | 9 | 13 | 17 | 22 | 32 | 46 | 69 | 165 | 3 |
| 4 | 16 | 19 | 25 | 31 | 39 | 55 | 74 | 106 | 234 | 4 |
| 5 | 27 | 32 | 41 | 49 | 60 | 80 | 104 | 144 | 304 | 5 |
| 6 | 41 | 48 | 58 | 69 | 82 | 107 | 135 | 184 | 374 | 6 |
| 7 | 57 | 65 | 78 | 90 | 106 | 135 | 168 | 224 | 445 | 7 |
| 8 | 74 | 83 | 98 | 113 | 131 | 163 | 202 | 265 | 516 | 8 |
| 9 | 92 | 103 | 120 | 136 | 156 | 193 | 236 | 307 | 586 | 9 |
| 10 | 111 | 123 | 143 | 161 | 183 | 224 | 270 | 348 | 656 | 10 |
| 11 | 131 | 145 | 166 | 186 | 210 | 255 | 306 | 391 | 729 | 11 |
| 12 | 152 | 167 | 190 | 212 | 238 | 286 | 341 | 433 | 801 | 12 |
| 13 | 174 | 190 | 215 | 238 | 266 | 318 | 377 | 476 | 872 | 13 |
| 14 | 196 | 213 | 240 | 265 | 295 | 350 | 413 | 519 | 944 | 14 |
| 15 | 219 | 237 | 266 | 292 | 324 | 383 | 449 | 562 | 1015 | 15 |
| 16 | 242 | 261 | 292 | 320 | 354 | 415 | 486 | 605 | 1087 | 16 |
| 17 | 266 | 286 | 318 | 347 | 384 | 449 | 523 | 648 | 1158 | 17 |
| 18 | 290 | 311 | 345 | 376 | 414 | 482 | 560 | 692 | 1230 | 18 |
| 19 | 314 | 337 | 372 | 404 | 444 | 515 | 597 | 735 | 1302 | 19 |
| 20 | 339 | 363 | 399 | 433 | 474 | 549 | 634 | 779 | 1374 | 20 |
| 21 | 364 | 388 | 427 | 462 | 505 | 583 | 671 | 823 | 1445 | 21 |
| 22 | 389 | 415 | 455 | 491 | 536 | 617 | 709 | 866 | 1517 | 22 |
| 23 | 415 | 441 | 483 | 521 | 567 | 651 | 747 | 910 | 1589 | 23 |
| 24 | 441 | 468 | 511 | 551 | 599 | 685 | 784 | 954 | 1661 | 24 |
| 25 | 467 | 495 | 540 | 580 | 630 | 720 | 822 | 998 | 1733 | 25 |
| 26 | 493 | 523 | 568 | 611 | 662 | 754 | 860 | 1042 | 1805 | 26 |
| 27 | 520 | 550 | 598 | 641 | 693 | 788 | 898 | 1086 | 1876 | 27 |
| 28 | 546 | 578 | 627 | 671 | 725 | 823 | 936 | 1130 | 1948 | 28 |
| 29 | 573 | 606 | 656 | 702 | 757 | 858 | 974 | 1174 | 2020 | 29 |
| 30 | 600 | 634 | 685 | 732 | 789 | 893 | 1012 | 1218 | 2092 | 30 |
| 31 | 628 | 662 | 715 | 763 | 822 | 928 | 1050 | 1263 | 2164 | 31 |
| 32 | 655 | 690 | 744 | 794 | 854 | 963 | 1089 | 1307 | 2236 | 32 |
| 33 | 683 | 719 | 774 | 825 | 887 | 998 | 1127 | 1351 | 2308 | 33 |
| 34 | 711 | 747 | 804 | 856 | 919 | 1033 | 1165 | 1395 | 2380 | 34 |
| 35 | 739 | 776 | 834 | 887 | 951 | 1068 | 1203 | 1439 | 2452 | 35 |
| 36 | 767 | 805 | 864 | 918 | 984 | 1104 | 1242 | 1484 | 2524 | 36 |
| 37 | 795 | 834 | 895 | 950 | 1017 | 1139 | 1281 | 1528 | 2595 | 37 |
| 38 | 823 | 863 | 925 | 981 | 1050 | 1174 | 1319 | 1572 | 2667 | 38 |
| 39 | 851 | 892 | 955 | 1013 | 1083 | 1210 | 1358 | 1617 | 2739 | 39 |
| 40 | 880 | 922 | 986 | 1044 | 1116 | 1246 | 1396 | 1661 | 2811 | 40 |
| 41 | 909 | 951 | 1016 | 1076 | 1149 | 1281 | 1435 | 1706 | 2883 | 41 |
| 42 | 937 | 980 | 1047 | 1108 | 1182 | 1317 | 1474 | 1750 | 2955 | 42 |
| 43 | 966 | 1010 | 1078 | 1140 | 1215 | 1352 | 1512 | 1795 | 3027 | 43 |
| 44 | 995 | 1040 | 1109 | 1171 | 1248 | 1388 | 1551 | 1839 | 3099 | 44 |
| 45 | 1024 | 1070 | 1140 | 1203 | 1282 | 1424 | 1590 | 1884 | 3171 | 45 |
| 46 | 1053 | 1099 | 1171 | 1236 | 1315 | 1459 | 1629 | 1928 | 3243 | 46 |
| 47 | 1083 | 1129 | 1202 | 1268 | 1349 | 1495 | 1668 | 1973 | 3315 | 47 |
| 48 | 1112 | 1159 | 1233 | 1300 | 1382 | 1531 | 1706 | 2017 | 3387 | 48 |
| 49 | 1141 | 1189 | 1264 | 1332 | 1416 | 1567 | 1745 | 2062 | 3459 | 49 |
| 50 | 1170 | 1220 | 1295 | 1364 | 1449 | 1603 | 1784 | 2106 | 3531 | 50 |
| 51 | 1200 | 1250 | 1327 | 1397 | 1483 | 1639 | 1823 | 2151 | 3603 | 51 |
| 52 | 1229 | 1280 | 1358 | 1429 | 1516 | 1675 | 1862 | 2195 | 3675 | 52 |
| 53 | 1259 | 1310 | 1390 | 1462 | 1550 | 1711 | 1901 | 2240 | 3747 | 53 |
| 54 | 1289 | 1341 | 1421 | 1494 | 1584 | 1747 | 1940 | 2285 | 3819 | 54 |
| 55 | 1319 | 1371 | 1453 | 1527 | 1618 | 1783 | 1979 | 2329 | 3891 | 55 |
| 56 | 1349 | 1402 | 1484 | 1559 | 1652 | 1819 | 2018 | 2374 | 3962 | 56 |
| 57 | 1378 | 1432 | 1516 | 1592 | 1686 | 1856 | 2057 | 2418 | 4034 | 57 |
| 58 | 1408 | 1463 | 1548 | 1625 | 1719 | 1892 | 2096 | 2463 | 4106 | 58 |
| 59 | 1439 | 1494 | 1579 | 1657 | 1753 | 1928 | 2136 | 2508 | 4178 | 59 |
| 60 | 1468 | 1525 | 1611 | 1690 | 1787 | 1965 | 2174 | 2552 | 4250 | 60 |
| 61 | 1499 | 1556 | 1643 | 1723 | 1821 | 2001 | 2214 | 2597 | 4322 | 61 |
| 62 | 1529 | 1587 | 1675 | 1756 | 1855 | 2037 | 2253 | 2642 | 4394 | 62 |
| 63 | 1559 | 1617 | 1707 | 1789 | 1889 | 2073 | 2292 | 2687 | 4466 | 63 |
| 64 | 1590 | 1648 | 1739 | 1822 | 1923 | 2110 | 2331 | 2731 | 4538 | 64 |
| 65 | 1620 | 1679 | 1771 | 1855 | 1958 | 2146 | 2370 | 2776 | 4610 | 65 |
| 66 | 1650 | 1710 | 1803 | 1888 | 1992 | 2182 | 2409 | 2821 | 4682 | 66 |
| 67 | 1681 | 1742 | 1835 | 1921 | 2026 | 2219 | 2449 | 2865 | 4754 | 67 |
| 68 | 1711 | 1773 | 1867 | 1954 | 2060 | 2255 | 2488 | 2910 | 4826 | 68 |
| 69 | 1742 | 1804 | 1900 | 1987 | 2094 | 2291 | 2527 | 2955 | 4898 | 69 |
| 70 | 1773 | 1835 | 1932 | 2020 | 2129 | 2328 | 2566 | 3000 | 4970 | 70 |
| 71 | 1803 | 1867 | 1964 | 2053 | 2163 | 2364 | 2606 | 3044 | 5042 | 71 |
| 72 | 1834 | 1898 | 1997 | 2087 | 2197 | 2401 | 2645 | 3089 | 5114 | 72 |
| 73 | 1865 | 1929 | 2029 | 2120 | 2232 | 2438 | 2684 | 3134 | 5186 | 73 |
| 74 | 1895 | 1961 | 2061 | 2153 | 2266 | 2474 | 2723 | 3178 | 5258 | 74 |
| 75 | 1926 | 1992 | 2093 | 2186 | 2300 | 2511 | 2763 | 3223 | 5330 | 75 |
| 76 | 1957 | 2024 | 2126 | 2219 | 2335 | 2547 | 2802 | 3268 | 5402 | 76 |
| 77 | 1988 | 2055 | 2159 | 2253 | 2369 | 2584 | 2841 | 3313 | 5474 | 77 |
| 78 | 2019 | 2087 | 2191 | 2286 | 2404 | 2620 | 2881 | 3357 | 5546 | 78 |
| 79 | 2050 | 2118 | 2223 | 2319 | 2438 | 2657 | 2920 | 3402 | 5618 | 79 |
| 80 | 2081 | 2150 | 2256 | 2353 | 2473 | 2694 | 2959 | 3447 | 5690 | 80 |
| 81 | 2112 | 2182 | 2289 | 2386 | 2507 | 2730 | 2999 | 3492 | 5762 | 81 |
| 82 | 2143 | 2213 | 2321 | 2420 | 2542 | 2767 | 3038 | 3537 | 5834 | 82 |
| 83 | 2174 | 2245 | 2354 | 2453 | 2577 | 2803 | 3077 | 3581 | 5906 | 83 |
| 84 | 2206 | 2277 | 2386 | 2487 | 2611 | 2840 | 3117 | 3626 | 5977 | 84 |
| 85 | 2237 | 2309 | 2419 | 2521 | 2646 | 2877 | 3156 | 3671 | 6049 | 85 |
| 86 | 2268 | 2340 | 2452 | 2554 | 2680 | 2913 | 3196 | 3716 | 6121 | 86 |
| 87 | 2299 | 2372 | 2485 | 2588 | 2715 | 2950 | 3235 | 3761 | 6193 | 87 |
| 88 | 2331 | 2404 | 2517 | 2621 | 2750 | 2987 | 3275 | 3805 | 6265 | 88 |
| 89 | 2362 | 2436 | 2550 | 2655 | 2784 | 3024 | 3314 | 3850 | 6337 | 89 |
| 90 | 2393 | 2468 | 2583 | 2688 | 2819 | 3060 | 3353 | 3895 | 6409 | 90 |
| 91 | 2425 | 2500 | 2616 | 2722 | 2854 | 3097 | 3393 | 3940 | 6481 | 91 |
| 92 | 2456 | 2532 | 2649 | 2756 | 2889 | 3134 | 3432 | 3984 | 6553 | 92 |
| 93 | 2488 | 2564 | 2682 | 2790 | 2923 | 3171 | 3471 | 4029 | 6625 | 93 |
| 94 | 2519 | 2596 | 2715 | 2823 | 2958 | 3208 | 3511 | 4074 | 6697 | 94 |
| 95 | 2551 | 2628 | 2748 | 2857 | 2993 | 3244 | 3551 | 4119 | 6769 | 95 |
| 96 | 2582 | 2660 | 2781 | 2891 | 3028 | 3281 | 3590 | 4164 | 6841 | 96 |
| 97 | 2614 | 2692 | 2814 | 2925 | 3063 | 3318 | 3630 | 4209 | 6913 | 97 |
| 98 | 2645 | 2724 | 2847 | 2958 | 3097 | 3355 | 3669 | 4253 | 6985 | 98 |
| 99 | 2677 | 2757 | 2880 | 2992 | 3132 | 3392 | 3708 | 4298 | 7057 | 99 |
| 100 | 2709 | 2789 | 2913 | 3026 | 3167 | 3429 | 3748 | 4343 | 7129 | 100 |
| 105 | 2867 | 2950 | 3078 | 3196 | 3342 | 3613 | 3946 | 4567 | 7489 | 105 |
| 110 | 3027 | 3112 | 3244 | 3366 | 3516 | 3798 | 4143 | 4792 | 7849 | 110 |
| 115 | 3186 | 3275 | 3411 | 3536 | 3691 | 3983 | 4341 | 5016 | 8209 | 115 |
| 120 | 3347 | 3437 | 3578 | 3707 | 3867 | 4168 | 4539 | 5241 | 8569 | 120 |
| 125 | 3507 | 3601 | 3745 | 3878 | 4043 | 4353 | 4737 | 5465 | 8929 | 125 |
| 130 | 3669 | 3765 | 3912 | 4049 | 4219 | 4539 | 4935 | 5689 | 9289 | 130 |
| 135 | 3830 | 3929 | 4081 | 4221 | 4395 | 4724 | 5133 | 5914 | 9649 | 135 |
| 140 | 3992 | 4093 | 4249 | 4392 | 4571 | 4910 | 5332 | 6138 | 10009 | 140 |
| 145 | 4155 | 4258 | 4418 | 4564 | 4748 | 5095 | 5530 | 6363 | 10369 | 145 |
| 150 | 4318 | 4423 | 4586 | 4737 | 4925 | 5282 | 5728 | 6587 | 10729 | 150 |
| 155 | 4481 | 4589 | 4755 | 4909 | 5102 | 5467 | 5927 | 6812 | 11089 | 155 |
| 160 | 4644 | 4755 | 4925 | 5082 | 5279 | 5654 | 6125 | 7037 | 11449 | 160 |
| 165 | 4808 | 4920 | 5094 | 5255 | 5457 | 5840 | 6324 | 7261 | 11809 | 165 |
| 170 | 4972 | 5087 | 5264 | 5428 | 5634 | 6026 | 6523 | 7486 | 12169 | 170 |
| 175 | 5137 | 5253 | 5434 | 5602 | 5811 | 6213 | 6722 | 7710 | 12529 | 175 |
| 180 | 5301 | 5420 | 5604 | 5775 | 5989 | 6399 | 6920 | 7935 | 12889 | 180 |
| 185 | 5466 | 5587 | 5775 | 5949 | 6167 | 6586 | 7119 | 8160 | 13249 | 185 |
| 190 | 5631 | 5754 | 5945 | 6123 | 6345 | 6773 | 7318 | 8384 | 13609 | 190 |
| 195 | 5797 | 5922 | 6116 | 6296 | 6524 | 6960 | 7517 | 8609 | 13969 | 195 |
| 200 | 5962 | 6089 | 6287 | 6471 | 6702 | 7146 | 7716 | 8834 | 14329 | 200 |
(vi) The traffic capacity in the following table should be used for small trunk groups such as pay station, special service trunks, intercept, and PBX trunks, unless otherwise specified in appendix A of this section:
| Number of Circuits | Permissible CCS |
|---|---|
| 1 | 10 |
| 2 | 20 |
| 3 | 30 |
| 4 | 40 |
(2) Grade of service.
(v) The blocking probabilities related to trunks include both “mismatch” probability and probability of “all trunks busy.” It is likely that the “mismatch” will be negligible in that many digital central offices have essentially nonblocking switching characteristics. The objectives for trunk connections are as follows:
(vi) Groups of common service circuits are to be engineered utilizing the full availability traffic tables that appear in paragraph (p)(1)(i) of this section at the following stipulated probabilities:
(3) Holding times. For the purpose of estimating the quantity of common control circuits, the following average holding times may be used. These holding times are conservative and represent the average effective and ineffective call. If these holding times are to be used, it must be so stated in appendix A of this section.
(i) The following average call holding times (HT) may be used.
| Type of Call | HT—Seconds |
|---|---|
| Intraoffice | 120 |
| EAS | 150 |
| Special Service, Intercept, Verification | 60 |
| Toll, CLR | 300 |
| Toll, S-S | 24 |
| Toll, PPCS | 270 |
(ii) The following average subscriber dialing holding times may be used (times used to dial digits do not include machine time).
| Digits Dialed | DP Sec. | Pushbutton Sec. | |
|---|---|---|---|
| Operator, Non-Pay Station | 1 | 4.7 | 3.4 |
| Special Service | 3 | 7.7 | 5.0 |
| Local | 7 | 13.7 | 8.2 |
| EAS | 7 | 13.7 | 8.2 |
| DDD: 1/0 + 7 | 8 | 15.2 | 9.0 |
| DDD: 1/0 + 10 | 11 | 19.7 | 11.4 |
| Dialing Time Per Digit | - | 1.5 | 0.8 |
| Dial Tone Response | - | 3.2 | 2.6 |
(iii) The following average incoming register holding times may be used (times for digit registrations do not include machine time).
| Basic | Additional Per Digit | ||
|---|---|---|---|
| Holding Time (Sec.) | Digits | ||
| MF Receiver from: | |||
| No. 5 Crossbar—Non-LAMA | 1.4 | 4 | 0.14 |
| No. 5 Crossbar—LAMA | 2.3 | 4 | 0.14 |
| Crossbar Tandem & 4A Toll | 3.1 | 4 | 0.14 |
| No. 1 ESS | 1.4 | 4 | 0.14 |
| Key Pulsing Switchboard | 5.2 | 4 | 0.60 |
| DP Receivers—10 PPS from: | |||
| SxS | 6.0 | 4 | 1.5 |
| Dialing Switchboard | 6.6 | 4 | 1.3 |
| 4A Toll | 5.6 | 5 1 | - |
| Crossbar Tandem | 4.9 | 4 | 1.2 |
| 1 No reduction for fewer digits. |
(iv) The following average sender holding times may be used (does not include machine setup and release time).
| Basic | Additional Per Digit | ||
|---|---|---|---|
| Holding Time (Sec.) | Digits | ||
| MF Senders: | |||
| No. 5 Crossbar | 1.5 | 4 | 0.14 |
| Crossbar Tandem & 4A Toll 1 | 2.0 | 4 | 0.14 |
| TSP/TSPS | 2.4 | 7 | 0.14 |
| SxS—CAMA, Called Number | 3.7 | 7 | 0.14 |
| SxS—CAMA, Calling Number | 1.3 | 7 | - |
| DP Senders—10 PPS: | |||
| With Overlap Pulsing 2 | 9.1 | Up to 6 | 1.8 |
| Without Overlap Pulsing | 4.6 | 4 | 1.2 |
| 1 Add 1.3 seconds for ANI outpulsing on special toll (0 + ) calls and on DDD calls if AMA is not provided. | |||
| 2 Assumes overlap outpulsing starting on receiving of third digit; applies only to calls handled on direct trunk groups. |
(4) Traffic data requirements.
(i) Traffic measurements are composed of primarily two types—counts and usage. The following types of traffic data recording are required:
(3) Insertion loss. The insertion loss in both directions of transmission at 1004 Hz shall meet the following requirements when measured with a 0 dBm input signal at 900 ohms (or 600 ohms, when required) at a temperature of 77 °F ±9 °F (25 °C ±5 °C).
(4) Frequency response (loss relative to 1004 hz) shall meet the following requirements.
(i) Trunk-to-trunk.
| Loss at 0 dBm0 Input 1 | ||
|---|---|---|
| Frequency (Hz) | 2-Wire to 2-Wire | 4-Wire to 4-Wire |
| 60 | 20 dB Min. 2 | 16 dB Min. 2 |
| 200 | 0 to 5 dB | 0 to 3 dB |
| 300-3000 | −0.5 dB to 1 dB | −0.3 to + 0.3 dB |
| 3300 | 1.5 dB Max. | 1.5 dB Max. |
| 3400 | 0 to 3 dB | 0 to 3 dB |
| 1 (−) means less loss and (+) means more loss. | ||
| 2 Transmit End |
(ii) Line-to-line.
| Frequency (Hz) | Loss at 0 dBm0 Input 1 |
|---|---|
| 60 | 20 dB Min. 2 |
| 300 | −1 to + 3 dB |
| 600-2400 | ±1 dB |
| 3200 | −1 to + 3 dB |
| 1 (−) means less loss and (+) means more loss. | |
| 2 Transmit End |
(6) Gain tracking (linearity) shall meet the following requirements.
| Input Signal Level 1 | Maximum Gain Deviation |
|---|---|
| + 3 to −37 dBm0 | ±0.5 dB |
| −37 to −50 dBm0 | ±1 dB |
| 1 1004 Hz reference at 0 dBm0. |
(7) Return loss.
(ii) Far end test terminations shall be as follows:
(9) 60 hz longitudinal current immunity. Under test conditions with 60 Hz, the system noise shall be no greater than 23 dBrnC0 as measured using the configuration in Figure 1.
Figure 1—Measuring the Effects of Low Frequency Induction

Notes: 1. 900 ohm termination, C-message weighting, hold coil off 2. SNC Noise Choke 35 W, or equivalent 3. Test at 0.020 Adc and 0.070 Adc 4. 2 ±0.001 microfarad, 150 Vdc
(13) Quantizing distortion.
(i) The switching system shall meet the following requirements.
| Input Level (dBm0) 1004 or 1020 Hz | Minimum Signal to Distortion with C-Message Weighting |
|---|---|
| 0 to −30 | 33 dB |
| −30 to −40 | 27 dB |
| −40 to −45 | 22 dB |
(15) Envelope delay distortion. On any properly established connection, the envelope delay distortion shall not exceed the following limits.
| Frequency Range (Hz) | Microseconds |
|---|---|
| 1000 to 2600 | 190 |
| 800 to 2800 | 350 |
| 600 to 3000 | 500 |
| 400 to 3200 | 700 |
(7) Timing intervals for signals involved in distance dialing. Timing intervals shall be provided to meet the requirements for distance dialing equipment, which have been established in Bellcore document SR-TSV-002275, BOC Notes on the LEC Networks—1990. Some of the more important times which this document specifies are for:
(2) Batteries.
(3) Charging equipment.
(iii) The charger noise shall not exceed 22 dBrnC when measured with a suitable noise measuring set and under the rated battery capacitance and load conditions as determined in Figure 2.
Figure 2—Charger Noise Test

The manufacturer may elect to eliminate the capacitor C from the measurement. A. Capacitance in µF = 30,000 µF per ampere-hour per cell. For example, 25 cells at 100 ampere-hour would be equivalent to a capacitance of: (30,000 × 100) / 25 = 120,000 µF B. The value of the resistive load R is determined by the nominal battery voltage in volts divided by the full load rating in amperes. For example, for a 48 volt battery and a full load current of 24 amperes, the load resistance R is 48/24 = 2 ohms of appropriate power handling capacity.
(viii) Minimum equipment requirement for chargers is one of the following:
(4) Miscellaneous voltage supplies.
(ii) Power converters required for the purpose of providing various operating voltages to printed circuit boards or similar equipment employing electronic components shall be provided in duplicate with each unit capable of immediately assuming the full operating load upon failure of a unit. An exception to the duplicate power converter requirement permits nonduplicated power converter(s) to be utilized where there is full compliance with the following criteria.
(5) Ringing generators. Ringing generators supplied on an ancillary basis shall be selected from RUS Bulletin 1755I-100, List of Materials Acceptable for Use on Telephone Systems of RUS Borrowers. Regardless of whether the ringing is generated on an ancillary basis or is generated integrally to the switching system, the ringing equipment shall meet the requirements of this section.
(i) Ringing equipment provisioning.
(B) An exception to the redundant ringing equipment requirement permits nonredundant ringing equipment to be utilized where there is full compliance with the following service criteria.
(1) In a central office switching system of 400 or more equipped lines, a single nonduplicated ringing source failure shall not cause the complete loss of ringing capability to more than 100 lines.
(2) In a central office switching system of less than 400 equipped lines, a single nonredundant ringing source failure shall not cause the complete loss of ringing capability to more than 25 percent of the total equipped lines.
(ii) Output voltage.
(C) The output of each generator shall have three or more voltage taps or a single tap with associated variable control. Taps or control shall be easily accessible as installed in the field. Software control of ringing generator outputs via I/O devices may be provided in lieu of taps. The taps, or equivalent, shall be designated L, M, and H. The variable control shall have a locking device to prevent accidental readjustment. The outputs at the terminals of the generators with a voltage input of 52.1 volts and rated full resistive load shall be as follows for the ringing frequencies provided:
| Frequency Range (Hz) | Output Volts rms(Tolerance 3 Volts) | ||
|---|---|---|---|
| L | M | H | |
| 162⁄3 through 20 | 90 | 105 | 120 |
| 21 through 30 | 95 | 110 | 120 |
| 31 through 42 | 100 | 115 | 130 |
| 43 through 54 | 110 | 125 | 140 |
(iii) Voltage regulation.
(6) Interrupter equipment.
(7) Power panels.
(t) Main distributing frames.
(u) Electrical protection—(1) Surge protection.
(ii) Central office switching equipment shall pass laboratory tests, simulating the hostile electrical environment, before being placed in the field for the purpose of obtaining field experience. There are five basic types of laboratory tests which shall be applied to exposed terminals in an effort to determine if the equipment will survive. Figure 3 summarizes these tests and the minimum acceptable levels of protection for equipment to pass them.
| Test | Application Criteria | Peak Voltage or Current | Surge Waveshape | No. of Applications & Max. Time Between | Comments |
|---|---|---|---|---|---|
| Current Surge | Low Impedance Paths Exposed to Surges | 500A or Lesser Current (See Fig. 5) | 10 × 1000 µs | 5 each Polarity at 1 minute intervals | |
| 60 Hz Current Carrying | High or Low Impedance paths Exposed to Surges | 10A rms or Lesser Current (See Fig. 6) | 11 Cycles of 60 Hz (0.183 Sec.) | 3 each Polarity at 1 minute intervals | |
| AC Power Service Surge Voltage | AC Power Service Connection | 2500V or + 3 σ clamping V of arrester employed at 10kV/µs | 1.2 × 50 µs | 5 each Polarity at 1 minute intervals | AC arrester, if used, must be removed. Communications line arresters, if used, remain in place. |
| Voltage Surge | High Impedance Paths Exposed to Surges | 1000V or + 3 σ dc breakdown of arrester employed | 10 × 000 µs | Same | All primary arresters, if used, must be removed. |
| Arrester Response Delay | Paths protected by arresters, such as gas tubes, with breakdown dependent on V. rate of rise. | + 3 σ breakdown of arrester employed at 100V/µs of rise | 100V/µs rise decay to 1/2 V. in tube's delay time | Same | Same |
(iii) Two categories of surge tests.
(A) Current surge tests simulate the stress to which a relatively low impedance path may be subjected before main frame protectors break down. Paths with a 100 Hz impedance of 50 ohms or less shall be subjected to current surges, employing a 10 × 1000 microseconds waveshape as defined in Figure 4. For the purpose of determining this impedance, arresters which are mounted within the equipment are to be considered zero impedance. The crest current shall not exceed 500A; however, depending on the impedance of the test specimen this value of current may be lower. The crest current through the sample, multiplied by the sample's 100 Hz impedance, shall not exceed 1000 volts (V). Where sample impedance is less than two ohms, crest current shall be limited to 500A as shown in Figure 5.
Figure 4—Explanation of Surge Waveshape

Surge Waveshape is defined as follows: Rise Time × Time to Decay to Half Crest Value (For example, 10 × 1000 µs) Notes: T1 = Time to determine the rate of rise. The rate of rise is determined as the slope between 10% and 90% of peak voltage or current. T2 = Time to 50% of peak voltage (decay to half value).
Figure 5—Explanation of Surge Waveshape

VL = Not to exceed 1000V VB = Charging Voltage Z100 = Test Specimen Impedance to be measured at 100 Hz. RP = Parallel Resistance (Waveshape) RS = Series Resistance (Current Limiting)
| Z100 | RS | RP | VB |
|---|---|---|---|
| 0 | 5 | ∞ | 2500 |
| 1 | 4 | ∞ | 2500 |
| 2 | 3 | ∞ | 2500 |
| 3 | 2 | ∞ | 1670 |
| 4 | 1 | ∞ | 1250 |
| 5 | 0 | ∞ | 1000 |
| 7.5 | 0 | 15 | 1000 |
| 10 | 0 | 10 | 1000 |
| 15 | 0 | 7.5 | 1000 |
| 20 | 0 | 6.7 | 1000 |
| 25 | 0 | 6.25 | 1000 |
| 30 | 0 | 6 | 1000 |
| 40 | 0 | 5.7 | 1000 |
| 50 | 0 | 5.5 | 1000 |
(B) Sixty Hertz (60 Hz) current-carrying tests should be applied to simulate an ac power fault which is conducted to the unit over the cable pairs. The test should be limited to 10 amperes rms at 60 Hz for a period of 11 cycles (0.1835 seconds) and should be applied longitudinally from line to ground (see Figures 3 and 6 of this section).
Figure 6—60 Hz Current Surge Test

V—700 Volts RMS (Approximately 1000V Peak). Z60—Test specimen impedance to be measured at 60 Hz. RS—Series Resistance (current limiting) in each side of line. (Source impedance never less than 50 Ω longitudinal.)
| Z60 Hz | RS |
|---|---|
| 0 | 140 |
| 10 | 120 |
| 20 | 100 |
| 50 | 100 |
| Over 50 | 100 |
(E) Arrester response delay tests are designed to stress the equipment in a manner similar to that caused by the delayed breakdown of gap type arresters when subjected to rapidly rising voltages. Arresters shall be removed for these tests, the peak surge voltage should be the + 3 sigma breakdown of the arrester in question on a voltage rising at 100V per microsecond and the time for the surge to decay to half voltage shall equal at least the delay time of the tube, as explained in Figure 7.
Figure 7—Explanation of Arrester Response Delay Time

The delay time is that period of time when the potential across an arrester exceeds its dc firing level.
(iv) Five applications of each polarity for the surge tests and three for the 60 Hz Current Carrying Test are the minimum required. All tests should be conducted with not more than 1 minute between consecutive applications in each series of three or five to a specific configuration so that heating effects will be cumulative. As not all tests are required in every application, nonapplicable tests should be omitted. Tests should be conducted in the following sequence.
(v) Tests should be applied between each of the following terminal combinations for all line operating conditions.
(5) Self-protection.
(2) Wire wrapped terminals. These terminals are preferred and where used shall be of a material suitable for wire wrapping. The connections to them shall be made with a wire wrapping tool with the following minimum number of successive nonoverlapping turns of bare tinned copper wire in contact with each terminal.
(3) Switching.
(4) Subscriber line test.
(ii) Ringing equipment provisioning.
(B) An exception to the duplicated ringing source requirement permits nonduplicated ringing source(s) to be utilized where there is full compliance with the following service criteria.
(1) In a remote switching terminal (RST) of 400 or more equipped lines, a single nonduplicated ringing source failure shall not cause the complete loss of ringing capability to more than 100 lines.
(2) In a remote switching terminal (RST) of less than 400 equipped lines, a single nonredundant ringing source failure shall not cause the complete loss of ringing capability to more than 25 percent of the total equipped lines.
(iii) Power converter.
(B) An exception to the duplicate power converter requirement permits nonduplicated power converter(s) to be utilized where there is full compliance with the following criteria.
(1) The failure of any single nonduplicated power converter shall not reduce the grade of service of common control and service circuits to any individual line or trunk by more than 50 percent.
(2) The failure of any single nonduplicated power converter shall not reduce the traffic carrying capacity of any trunk group or service links to a host office by more than 50 percent.
(3) In a remote switching terminal (RST) of 400 or more equipped lines, any single nonduplicated power converter failure shall not cause a complete loss of service to more than 100 equipped lines.
(4) In a remote switching terminal (RST) of less than 400 equipped lines, any single nonduplicated power converter failure shall not cause a complete loss of service to more than 25 percent of the total equipped lines.
(3) Drawings and printed material.
(i) The bidder shall supply instructional material for each exchange involved at the time of delivery of the equipment. It is not the intent of this section to require system documentation necessary for the repair of individual circuit boards. The bidder shall supply three complete sets of legible drawings, each set to include all of the following drawings and documentation:
(ii) The following information shall also be furnished:
(6) Spare parts.
(i) The spare parts bid price shall be based upon the required quantities of spares shown in Item 6.2 of appendix C of this section, and shall be added to the base bid for comparison purposes in awarding the bid. It is the supplier's responsibility to provide all spares required by this section. If the supplier neglects to list certain spare parts in Item 6.2 of appendix C of this section, but they are necessary to comply with this section, they shall be provided by the supplier at no additional cost to the owner.
(vi) The spare parts for all of the hosts and the RST's included in this contract shall be provided as follows:
| Quantity of Units used in the CO's & RST's To Be Bid | Required Quantity of Spares By Class of Unit | |||
|---|---|---|---|---|
| Class ---> | 1 | 2 | 3 | 4 |
| 1 through 9 | 1 | 1 | 0 | 0 |
| 10 through 24 | 2 | 2 | 1 | 0 |
| 25 through 49 | 3 | 2 | 2 | 0 |
| 50 through 99 | 4 | 3 | 2 | 0 |
| 100 or More | 5% | 3% | 3% | 0 |
(y) Installation. The following responsibilities apply to the central office equipment installation and Remote Switching Terminal (RST) installations, unless otherwise noted.
(1) Responsibilities of owner. The owner shall:
(2) Responsibilities of bidder. The bidder shall:
(3) Installation requirements.
(iii) An inspection shall be made by the owner or its representatives prior to performing operational and performance tests on the equipment. However, this inspection shall be made after all installing operations which might disturb apparatus adjustments have been completed. The inspection shall be of such character and extent as to disclose with reasonable certainty any unsatisfactory condition of apparatus or equipment. During these inspections, or inspections for apparatus adjustments, or soldering, or in testing of equipment, a sufficiently detailed examination shall be made throughout the portion of the equipment within which such condition is observed, or is likely to occur, to disclose the full extent of its existence, where any of the following conditions are observed:
(4) Operational test requirements.
(5) Grounding system audit.
(vii) The acceptance statement facesheet of the audit checklist in appendix D of this section shall be signed by authorized representatives of the supplier and owner to indicate mutual approval of the single-point grounding system. Copies of all completed grounding system audit documents are to be provided to the supplier, owner and appropriate RUS telephone program regional offices.
(The information and recordkeeping requirements of this section have been approved by the Office of Management and Budget under the control number 0572-0059)
Appendix A to § 1755.522—Specification for Digital, Stored Program Controlled Central Office Equipment Detailed Requirements (Host) (Information To Be Supplied by Owner) Telephone Company Name Location Central Office Name (By Location) Town County State ________ Attended ________ Unattended ________ Remotes 1. General 1.1 Notwithstanding the bidder's equipment lists, the equipment and materials furnished by the bidder must meet the requirements of paragraphs (a) through (x), Appendix A and Appendix B of § 1755.522. 1.2 Paragraphs (a) through (x) of § 1755.522 cover the minimum general requirements for digital, stored program controlled central office switching equipment. 1.3 Paragraph (y) of § 1755.522 covers requirements for installation, inspection, and testing when such service is included as part of the contract. 1.4 Appendices A and B of § 1755.522 cover the technical data for application engineering and detailed equipment requirements insofar as they can be established by the owner. These appendices are to be filled in by the owner. 1.5 Appendix C of § 1755.522 covers detailed information on the switching network equipment and the common control equipment, and information as to system reliability and heavy traffic delays as proposed by the bidder. This appendix is to be filled in by the bidder and must be presented with the bid. 1.6 Appendix D of § 1755.522 is the single-point grounding system audit checklist. 2. Numbering Scheme 2.1 This office shall be arranged to serve the following area and office code(s): If more than one code is to be served, discrimination shall be determined by the following: Number Translation ____ Separate Trunk Groups ____ Both (Explain in Item 16, Appendix A) ____ 2.2 This office shall be arranged to provide EAS service to the following: Connecting office Code Connecting office Code 2.2.1 Seven digits shall be dialed for all local and EAS calls. 2.3 Additional dialing procedures to be provided include the following: Feature Required Station Paid Toll (Including Coin): Home Numbering Plan Area (HNPA): “1” + 7 Digits ______________ “1” + 10 Digits ______________ Other (Explain in Item 16, Appendix A) ______________ Foreign Numbering Plan Area (FNPA): “1” + 10 Digits ______________ Other (Explain in Item 16, Appendix A) ______________ 10XXX Dialing to Interexchange Carriers: Name Access code Feature Required Person, Special (Including Coin): HNPA—“0” + 7 Digits “0” + 10 Digits FNPA “0” + 10 Digits Other (Explain in Item 16, Appendix A) Directory Assistance: HNPA Local—411 “1” + 411 HNPA Toll “1” + 555-1212 FNPA Toll “1” + NPA + 555-1212 IDDD: Operator Serviced 01 Station-Station 011 Other service codes No. to be dialed Wire Chief Repair Service Business Office Emergency Calls to 911 Lines Emergency Calls to 911 Trunks Time Weather 100 Test Line 102 Test Line 105 Test Line Other (Explain in Item 16, Appendix A) 2.4 Assistance calls are answered: (Check appropriate items) 2.4.1 At the operator office in ________________ 2.4.1.1 By means of the regular interoffice toll trunks ________ 2.4.1.2 By means of the regular interoffice EAS trunks ________ 2.4.1.3 By means of a separate special service trunk group ________ 2.4.1.4 Locally ________ Explain: 3. Office Clock 3.1 This office is to be slave clock synchronized with another office: ________ Yes ________ No (Explain details in Appendix A, Item 16 if “Yes”.) 3.2 This office is to be a master clock office to provide synchronization timing for other offices: ________ Yes ________ No (Explain details in Appendix A, Item 16 if “Yes”.) 4. Interoffice Trunking Diagram 4.1 A sketch showing relative location of exchanges, RST's, and number of circuits shall be included, also the office and area codes of the direct trunk points. The diagram should indicate whether toll or EAS trunk groups are “High Usage” or “Final.” Alternate routes should be included. Indicate whether the trunk termination is direct digital or analog. 5. Translator Function Chart Called point Subscriber dials First route Alternate routes Translator action Send Translator action Send Deletes Prefixes Deletes Prefixes 6. Line Circuit Requirements (Includes all lines associated with RST's.)
| No. of lines | No. of EAS areas | Total No. of lines required | ||
|---|---|---|---|---|
| Local service only | both local and EAS service | |||
| 6.1.1 Individual—Flat Rate | ____________ | ____________ | ____________ | ____________ |
| 6.1.2 Individual—Message Rate | ____________ | ____________ | ____________ | ____________ |
| 6.1.3 Pay Station | ____________ | ____________ | ____________ | ____________ |
| 6.1.4 Telephone Company Official Lines | ____________ | ____________ | ____________ | ____________ |
| 6.1.5 Wire Chief | ____________ | ____________ | ____________ | ____________ |
| 6.1.6 911 Emergency Service Bureau Lines | ____________ | ____________ | ____________ | ____________ |
| 6.1.7 Number Hunting PBX Groups: | ____________ | ____________ | ____________ | ____________ |
| No. of lines in group | No. of groups | Direct in dial * | Restricted service at COE | Type | No. of lines | No. of EAS areas | Total No. of lines required | ||
|---|---|---|---|---|---|---|---|---|---|
| Ground start | Loop start | Local service only | Both local and EAS service | ||||||
| ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ |
| ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ |
| ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ |
| ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ |
| ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ | ______ |
| * Furnish translation information under Item 5. |
6.1.8 WATS Lines (Give details in Appendix A, Item 16) Number of Inward WATS Lines ________ Number of Outward WATS Lines ________ 6.1.9 Special Lines Required ________ (Explain in Item 16, Appendix A) 6.1.10 Total Number of Lines Required Host ______ (Incl. DDI Concentrator Lines) RST 1 ______ RST 2 ______ RST 3 ______ Total ______ 6.1.11 Total Director Numbers Required ______ (Including RST's) (see Item 7.1, Appendix A) 6.1.12 Pay Station Type ____________ New ____ Reused ____ (Describe in Item 16, Appendix A) 6.1.13 Line Concentrator 6.1.13.1 Supplied by Owner (see Item 16, Appendix A, for details) ____ Yes ____ No 6.1.13.2 Supplied by Bidder (If “Yes”, attach REA Form 397g, Performance Specification for Line Concentrators) ____ Yes ____ No 6.2. Data on Lines Required Range Extension 6.2.1 Number of non-pay station lines having a loop resistance, including the telephone set, as follows: No. of lines 1901-3200 ohms ______ 3201-3600 ohms ______ 6.2.2 Number of pay station lines having loop resistance, excluding the telephone set, greater than: No. of lines 1200 ohms (For Prepay) ______ 1000 ohms (For Semi-Postpay Operation) ______ 6.2.3 Range extension equipment is to be provided: 6.2.3.1 Loop Extenders: Total Quantity ______ By Bidder—Quantity ______ By Owner—Quantity ______ (Explain in Item 16, Appendix A) 6.2.3.2 VF Repeaters: Total Quantity ______ By Bidder—Quantity ______ (Bidder must have information on loading and cable size.) By Owner—Quantity ______ (Explain in Item 16, Appendix A) 6.2.3.3 Range extension may be furnished as an extended range line circuit at the option of the supplier. If this option is used, the quantities of loop extenders and VF repeaters will be different from the quantities listed above (see Item 6.1,a, Appendix C). ____ Yes ____ No 7. Traffic Data-Line Originating and Terminating Traffic 7.1 Originating Line Traffic—Estimated per Busy Hour (Includes all Lines Associated With RST's): (a)CCS per Main Station (b)No. of Main Stations (axb)Total CCS No. of Lines Required 1 Ind.—Res __________ __________ __________ __________ Ind.—Bus __________ __________ __________ __________ Special Lines __________ __________ __________ __________ Pay Station __________ __________ __________ __________ Telco Official __________ __________ __________ __________ Wire Chief __________ __________ __________ __________ No. Htg. or PBX __________(2) __________(3) __________ __________ WATS __________ __________ __________ __________ Data Service __________ __________ __________ __________ 911 Emerg. Service __________ __________ __________ __________ Total __________ __________ __________(4) (c) (d) (e) 1 See Appendix A, Item 6.1. 2 This figure is the CCS per PBX trunk. 3 This figure is the number of PBX trunks. 4 This is the total number of line equipments required. The number to be provided will be determined by the equipment design of the system of the selected bidder. See Appendix C, Item 3.1.1.2. 7.2 Average Originating CCS per Line per Busy Hour (d) / (e) = ____ / ____ = ____ CCS/Line This office shall be engineered to handle an initial average originating busy hour traffic of ____ CCS per line. It is anticipated that the average originating busy hour traffic will increase to ____ CCS per line. Originating Traffic Attributed to Host Only ____ CCS/Line 7.3 Terminating Traffic—Estimated CCS per Busy Hour It is assumed that the total CCS for terminating traffic is the same as for originating traffic. Since digital switch networks are on a terminal per line basis, the terminating CCS per line will be the same as the originating CCS per line as shown in Item 7.2, Appendix A. Terminating Traffic Attributed to Host Only ____ CCS/Line 7.4 Percent of Pushbutton Lines ____ 7.5 Anticipated Ultimate Capacity (20 years) 7.5.1 Subscriber Lines Host ________ (Incl. DDI Concentrator Lines) RST 1 ________ RST 2 ________ RST 3 ________ Total ________ 8. Trunk Circuit Requirements
8.1 Interoffice Trunking
| 1. Connecting Office | ||||
| 2. Use of Trunk | ||||
| 3. Trk. Grp. Ntwk. Connection 1 | ||||
| 4. Quantity Equipped | ||||
| 5. Ultimate % Growth | ||||
| 6. CCS Capacity | ||||
| 7. Direction | ||||
| 8. No. Digits Dialed | ||||
| 9. No. Digits Outpulsed | ||||
| 10. No. Digits Inpulsed | ||||
| 11. Type Signaling | ||||
| 12. Type Pulsing | ||||
| 13. Carrier Type (2-Wire) | ||||
| 14. Carrier Type (4-Wire) | ||||
| 15. Physical | ||||
| 16. Repeat Coils 2 | ||||
| 17. DX Signaling Set | ||||
| 18. Other Type Signaling | ||||
| 19. Delay Dial | ||||
| 20. Direct Digital Interface | ||||
| 21. a. Feature Group B | ||||
| b. Feature Group C | ||||
| c. Feature Group D | ||||
| 1 Designation of trunk group network connection involves the following categories: | ||||
| IC—Direct Inter-LATA Connecting Trunk = (IC/POP) | ||||
| TC—Tandem Connecting Trunks | ||||
| IT—Intertandem Connecting Trunks | ||||
| IL—Intra-LATA Connecting Trunks | ||||
| TIC—Tandem Inter-LATA Connecting Trunks | ||||
| Misc.—Intercept, Busy Verification, etc. | ||||
| 2 Omit repeating coils for carrier derived trunks. |
8.1.2 Pads for 4-Wire Carrier (7dB and 16dB) Total Quantity ______ By Bidder Quantity ______ By Owner Quantity ______ Refer to the attached information regarding connecting company trunk circuit drawing numbers and name of manufacturer. 8.2 Switched Traffic Data 8.2.1 Originating Traffic Type CCS H.T. secs. BHC No. of digits out-pulsed Sender sig. mode Remarks Toll “0”−1 Toll “0” + 7 1 2 Toll “0” + 10 1 2 Toll S-S “1” + 7 2 Toll S-S “1” + 10 2 Toll Other Special Service Intercept Intraoffice XXXXXXX XXXXXXX EAS EAS EAS Tandem Tandem Tandem 911 Emerg. Service Total 1 PPCS traffic assumed to be divided 20 percent “0”− and 80 percent “0” + if unknown. 2 Toll calls assumed to be divided two-thirds 7 digits and one-third 10 digits. Busy Hour Attempts = BHC Total × 1.4 = ____ 8.2.2 Terminating Traffic Type CCS H.T. secs. BHC No. of digits inpulsed Receiver sig. mode Remarks Toll Compl. Test & Ver. Intraoffice EAS EAS EAS Tandem Tandem Tandem Total 9. Checklist of Features Required 9.1 Alternate Routing (Explain in Item 16, Appendix A) 9.2 Data Service (Explain in Item 16, Appendix A) 9.3 This office shall be: 9.3.1 End Office Only 9.3.2 End Office and Intermediate Tandem (Explain in Item 16, Appendix A) 9.3.3 End Office and Access Tandem (Explain in Item 16, Appendix A) 9.4 Billing Data Trunk group Send ANI feature group Store billing data B C D AMA system Pollable system 9.4.1 This office only 9.4.2 Trunks from Tributaries 9.4.3 Local Message Detail Recording: 9.5 Pollable Systems 9.5.1 Polling device to be provided on this contract ____ Required ____ Not Required (Provide details in Item 16, Appendix A) 9.5.2 Pollable system to be backed up by tape or disc standby ____ Required ____ Not Required 9.6 AMA Format 9.6.1 Bellcore Format ____ Required ____ Not Required (Provide details in Item 16, Appendix A) 10. Miscellaneous Operating Features 10.1 Busy Verification 10.1.1 By dedicated trunk from toll operator: ____ 10.1.1.1 One-Way, Inward ____ 10.1.1.2 Two-Way (Busy verification inward, intercept outward) ____ 10.1.2 By prefix digit over intertoll trunk ____ (Indicate digit(s) dialed) ____ 10.1.3 Access by Switchman 10.1.3.1 Dedicated Trunk ____ 10.1.3.2 Multiple of Operator Trunk ____ 10.2 Intercept Facilities 10.2.1 Vacant code, disconnected number, and unassigned number intercept shall be: (Check One) By recorded announcement: Without cut-through to operator ____ With cut-through to operator ____ By operator ____ 10.2.2 Changed number intercept shall be: (Check One) By recorded announcement: Without cut-through to operator ____ With cut-through to operator ____ By operator ____ By automatic intercept system (AIS) in distant office ____ 10.2.3 Method of Reaching Operator, if required: Separate trunk group ____ Regular interoffice toll trunks with idle trunk selecting over at least three trunks when three or more toll trunks are equipped ____ 10.2.4 Number of separate intercept trunk circuits ____ 10.3 Line Load Control 10.3.1 Line load control facilities are: ____ Required ____ Not Required (Explain in Item 16, Appendix A) 10.4 Service Observing Facilities 10.4.1 Service observing facilities are: ____ Required ____ Not Required (Explain in Item 16, Appendix A) 10.5 Hotel-Motel Arrangements 10.5.1 Hotel-motel arrangements for operation of message registers at the subscriber's premises are: ____ Required ____ Not Required (Explain in Item 16, Appendix A) 10.5.1.1 How are message registers to be activated? Line Reversal ____ Third Wire ____ Other ____ (Explain in Item 16, Appendix A) 10.6 Nailed-Up Connections ____ Required ____ Not Required (Explain in Item 16, Appendix A) 10.7 Vertical Services: (RST Lines are Included) Initially Ultimate 10.7.1 Call Waiting—No. of Lines ____________ ____________ 10.7.2 Call Forwarding—No. of Lines ____________ ____________ ____ Local ____ Remote (Explain in Item 16, Appendix A) 10.7.3 Abbreviated Dialing No. of Lines ____________ ____________ No. of Codes per Line ____ for ____ Lines No. of Codes per Line ____ for ____ Lines 10.7.4 Three-Way Calling—No. of Lines ____________ ____________ CCS Per Line ____________ ____________ 10.7.5 Other ____ (Explain in Item 16, Appendix A) 11. Maintenance Facility Requirements 11.1 Alarm Signals 11.1.1 Handled locally ____ Explain in Detail: 11.1.2 Transmitted to attended point 11.1.2.1 Via operator office trunks ____ 11.1.2.2 Via printout or other display service ____ Explain in Detail: 11.1.2.3 Type of tone to operator 11.1.2.3.1 Distinctive tone (see (i)(2)(ix) of § 1755.522) ____ 11.1.2.3.2 Other Explain in Detail: 11.1.3 Alarm checking signals for carrier and mobile radio systems 11.1.3.1 Minor Alarm 11.1.3.2 Major Alarm 11.1.3.3 Terminals for both 11.2 Trouble Location and Test 11.2.1 Outside plant and stations (check desired items) 11.2.1.1 Subscriber's loop test circuit: 11.2.1.1.1 As part of the maintenance center 11.2.1.1.2 Separately 11.2.1.2 Remote test set (Explain in Item 16, Appendix A) 11.2.1.3 Dial speed test circuit (Explain in Item 16, Appendix A) 11.2.1.4 Pushbutton dialing test circuit 11.2.1.5 Howler (per (o)(2)(iii)(C) of § 1755.522) 11.2.1.6 Hand test sets, number required ____ (Explain in Item 16, Appendix A) 11.3 Transmission Tests 11.3.1 Furnish reference tone Yes ____ No ____ Frequencies and order in which applied Time interval for application of each frequency ____ Hz ____ Seconds ____ Hz ____ Seconds ____ Hz ____ Seconds ____ Hz ____ Seconds 11.3.2 Test Lines 11.3.2.1 Test Line 100 ____ 11.3.2.2 Test Line 102 ____ 11.3.2.3 Test Line 104 ____ 11.3.2.4 Test Line 105 ____ (Explain in Item 16, Appendix A) 11.3.2.5 Test Line 107 ____ 11.3.2.6 Remote Office Test Line ____ (Explain in Item 16, Appendix A) 11.4 Line Testing 11.4.1 Automatic line insulation testing Yes ____ No ____ 11.4.2 Owner supplied equipment Yes ____ No ____ 11.4.2.1 Vendor supplied interface only Yes ____ No ____ If supplied by owner, explain in Item 16, Appendix A, including manufacturer, model, location. 11.5 Remote Control 11.5.1 Remote control of the system shall be provided. Yes ____ No ____ If required, explain in Item 16, Appendix A, including number, type and location. 12. Power Equipment Requirements (Host Office Only) 12.1 Central Office Battery 12.1.1 A battery reserve of ____ busy hours shall be provided for this office when it reaches ____ lines at the ultimate anticipated traffic rates specified in Item 7.2, Appendix A. 12.1.1.1 The owner will furnish a standby generator, permanently installed in this office, with capacity sufficient to power air conditioning equipment required for cooling of the central office equipment and to maintain an adequate dc supply in the event of a failure of the commercial ac supply. Yes ____ No ____ 12.1.2 Type of battery: (Check One) Lead Calcium ____ Lead Antimony ____ 12.1.3 Voltmeter (portable 3-60-150 volt scale, 1% accuracy) shall be furnished. Yes ____ No ____ 12.1.4 Hydrometer in a hydrometer holder with glass or plastic drop cup shall be furnished. Yes ____ No ____2112.1.5 Type of battery rack required: (Check One) Two Tier ____ Other ____ Explain: 12.1.6 Special equipment power requirements (carrier, voice frequency repeaters, etc.). Drain in amperes ____ 12.1.6.1 Supply all necessary equipment to provide the following 48-volt battery taps: Number of circuits Fuse (or circuit breaker) size 12.2 Charging Equipment 12.2.1 Charging equipment shall be provided capable of charging the office battery on a full float basis when the office reaches ____ lines at the ultimate anticipated traffic rates specified in Item 7.2, Appendix A. 12.2.2 Charger input rating shall be: 3-Phase Connection: Voltage ____ 3-Wire ____ Phase ____ 4-Wire ____ Frequency ____ Delta ____ Y ____ 12.3 Ringing Equipment 12.3.1 Solid-state ringing equipment in accordance with paragraph (s)(5)(i) of § 1755.522 shall be provided for generating the frequencies specified by check marks in the following table. Ringing generator sets serving the entire office shall each be sized to carry the full office ringing load when the office size reaches ____ lines at the ultimate anticipated traffic rates specified in Item 7.2, Appendix A. 12.3.2 Ringing frequencies to be supplied: Frequency in Hz Maximum No. of telephones Single Frequency 20 Decimonic 20 30 40 50 Harmonic 162⁄3 25 331⁄3 50 Synchromonic 20 30 42 54 12.3.3 Furnish frequency meter (accurate within 1.3 Hz) and voltmeter (5% accuracy) for ringing measurements (see paragraph (s)(7)(ii) of § 1755.522). Check One: Panel Mounted ____ Portable ____ Not Required ____ 12.4 Power Board The power panel and associated wiring shall be of ample size to meet the load requirements when this office reaches ____ lines at the ultimate anticipated traffic rates specified in Item 7.2, Appendix A. 13. Distributing Frame Requirements (Host Office Only) 13.1 Total number of outside plant cable pairs to be terminated 13.1.1 Gauge of outside plant cable pairs 13.2 Number of outside plant cable pairs to be protected 13.3 Number of additional protector pair units to be provided on MDF Explain: 13.4 Main Frame Details Is present MDF to be reused? Yes ____ No ____ If “Yes,” Type ____ Reused protectors are: ____ (Mfgr.) ____ (Type) 13.4.1 Number of pairs of arrester units (switching equipment) ____ 13.4.2 Number of pairs of gas tube arrester units (special equipment) ____ 13.4.2.1 Gas tubes to be: ____ light, ____ medium, ____ heavy, ____ max. duty units 13.4.2.2 Fail shorted/low breakdown failure mode required Yes ____ No ____ 13.4.2.3 Breakdown voltage of gas tube arresters ____ 13.4.3 Number of terminated pairs to be grounded ____ 13.4.4 Factory assembled tip cable Yes ____ No ____ 13.4.4.1 Tip cable length [if other than 20 feet (610 cm)] ____ 13.4.4.2 Tip cable formed Up ____ Down ____ 13.4.5 Pairs per vertical ____ 13.4.6 Height of vertical ____ feet ____ inches 14. Building and Floor Plan Information (Host Office Only) 14.1 Equipment is to be installed in an existing building (Attach detailed plan.) ____ 14.2 A new building is planned ____ 14.2.1 Tentative plan (Note to Engineer: Show sketch without dimensions.) 14.3 Detailed Arrangements 14.3.1 Partition required (to isolate space containing battery, charger, power board, test panel, main distributing frame and subscriber's loop test circuit (wire chief's test desk) from that of the remaining equipment). Yes ____ No ____ 14.3.2 Vestibule required Yes ____ No ____ 14.3.3 Cable entrance Overhead____ Underground ____ 14.3.4 Additional floor space will be required for the following equipment which is being furnished by the owner or by the connecting company: 14.3.5 The office will be arranged for Overhead Interbay Cabling ____ Underfloor (Computer Room Type) Interbay Cabling ____ 14.3.6 Is earthquake bracing required? Yes ____ No ____ (If “Yes,” explain zone and criteria used for zone in Item 16, Appendix A.) 14.3.7 Office ground will be ____ ohms or less (Refer to Item 4.6.3 of RUS TE&CM 810.) 14.3.8 The office is considered to be in the following category for lightning damage probability based on the Figure 1 map of RUS TE&CM 823 (see paragraph (u)(2) of 1755.522). ____ Very High ____ Higher than Average ____ Average ____ Lower than Average ____ Very Low 14.3.9 The following is additional information regarding operating environment conditions which should be considered in determining system protection requirements (tower in vicinity, high exposure, etc.): 15. Alternate Requests 16. Explanatory Notes (Include a detailed description of any equipment to be reused, or otherwise supplied by the owner, loop extenders, subscriber carrier, VF repeaters, etc.)
Appendix B to 7 CFR 1755.522—Detailed Information on Remote Switching Terminals (RST's) (Complete One Form For Each RST) 1. Number of Subscriber Lines (These lines included in totals in Item 6, Appendix A). 1.1 Single-Party: ________ Flat Rate ________ Message Rate. 1.2 Semi-Postpay Pay Station ________. 1.3 Prepay Pay Station ________. 1.4 PABX Lines ________ Loop Start________ Ground Start ________ Restricted at Office ________ Other ________ (Describe in Item 12, Appendix B) 1.5 Number of lines to be pushbutton ________________ 1.6 911 Emergency Lines ________ 1.7 Anticipated ultimate capacity (20-Year) ________ 2. Traffic 2.1 Originating traffic per line—CCS/BH: ________ Initial ________ Ultimate. 2.2 Terminating traffic per line—CCS/BH: ________ Initial ________ Ultimate 2.2.1 Terminating will be made equal to originating if it is not known to be different. 3. Subscriber Loop Resistance 3.1 Number of subscriber lines having loop resistance, including the telephone set of: No. of Lines 1501-1900 Ohms __________ 1901-3200 Ohms ________ 3.2 Number of pay station lines having loop resistance, excluding the telephone set, greater than: No. of Lines 1200 Ohms (For Prepay) ____________ 1000 Ohms (For Semi-Post Pay Operation) __________. 4. Range Extension 4.1 If no standby power is available at the site, loop extenders may be required on 1501 to 1900 ohms loops. 4.2 Loop extenders: Total Quantity __________ By Bidder—Quantity ________ By Owner—Quantity (Explain in Item 12, Appendix B) 4.3 VF repeaters: Total Quantity __________ By Bidder—Quantity __________ By Owner—Quantity __________. (Explain in Item 12, Appendix B) 5. Power Supply 5.1 Power Board. 5.1.1 The power board and associated wiring shall be of ample size to meet the load requirements when this RST reaches ________ lines at the ultimate anticipated traffic rates specified in Item 2, Appendix B. 5.2 Charger input rating shall be: Voltage __________ Phase __________ Frequency __________ 3-Phase Connection: 3-Wire __________ 4-Wire __________ Delta __________ Y__________ 5.2.1 Charger shall be capable of charging the RST battery on a full float basis when the RST reaches ________ lines at ultimate traffic rate specified in Item 2, Appendix B. 5.2.2 Charger shall be redundant ________. 5.3 Battery reserve shall be ________ busy hours when the RST reaches ________ lines at the ultimate anticipated traffic specified in Item 2, Appendix B. 5.4 Standby power is available. Yes ______ No ______. 5.5 Special equipment power requirements ________ amps. 5.6 Ringing. 5.6.1 Type of Ringing. 5.6.2 Frequency No. 1. 2. 3. 4. Frequency (Hz) Max. No. Phones/Frequency 5.6.3 Wattage to be sized for ________ lines. 5.6.4 Frequency Meter (see Item 12.3.3, Appendix A). Panel Mounted ______ Not Required ______. 6. Emergency Operation 6.1 If path to central office is opened, the RST shall be able to complete calls between subscribers in its own system: Yes ______ No ______ Further requirements should be listed under Item 12, Appendix B. 7. RST Distribution Frame Requirements 7.1 Total number of outside plant cable pairs to be terminated ______. 7.1.1 Gauge of outside plant cable pairs ________. 7.2 Number of outside plant cable pairs to be protected ________. 7.3 Number of additional protector pair units to be provided on MDF ________. Explain: 7.4 Main Frame Details 7.4.1 Present MDF to be reused Yes______ No______. If “Yes”, Type ________. Reused protectors are: ________ (Mfr.) ________ (Type). 7.4.2 Number of pairs of arrester units (switching equipment) ________. 7.4.3 Number of pairs of gas tube arrester units (special equipment) ________. 7.4.3.1 Gas tubes to be: ______ light, ______ medium, ______ heavy, ______ maximum duty units. 7.4.3.2 Fail shorted/low breakdown failure mode required Yes ______ No ______. 7.4.3.3 Breakdown voltage of gas tube arresters ________. 7.4.4 Number of terminated pairs to be grounded ________. 7.4.5 Factory assembled tip cable Yes ______ No ______. 7.4.5.1 Tip cable length [if other than 20 feet (610 cm)] ______. 7.4.5.2 Tip cable formed Up ______ Down ______. 7.4.6 Pairs per vertical ________. 7.4.7 Height of vertical ________ feet ________ inches. 8. Building and Floor Plan Information 8.1 RST to be mounted in building ______. 8.1.1 Earthquake bracing required Yes ______ No ______ (see Item 14.3.6, Appendix A). 8.1.2 Supply building floor plan. 8.2 RST to be mounted in cabinet out of doors ______. 8.2.1 Cabinet to be mounted ______ on pole ______ on ground. 9. Subscriber Line Test 9.1 Remote testing of subscriber lines is required Yes ______ No ______. 9.2 Subscriber loop test set ______. 10. Span Lines to Host Central Office 10.1 To be supplied by Owner ______. 10.2 To be supplied by Bidder ______. 10.2.1 When the bidder is to supply the span lines, an RUS Form 397b, Trunk Carrier Systems, with the applicable parts completed must be attached with a physical layout of the span line. 11. Grounding Considerations 11.1 The RST ground will be ______ ohms or less. (Refer to Item 4.6.3 of RUS TE&CM 810.) 11.2 This RST is considered to be in the following category for lightning damage probability based on the Figure 1 map of RUS TE&CM 823.________ Very High ________ Higher than Average ________ Average ________ Lower than Average ________ Very Low 11.3 The following is additional information regarding operating environment conditions which should be considered in determining system protection requirements (tower in vicinity, high exposure, etc.): 12. Explanatory Notes
Appendix C to 7 CFR 1755.522—Specifications for Digital, Stored Program Controlled Central Office Equipment Detailed Requirements—Bidder Supplied Information Telephone Company Name Location Central Office Name (By Location) Town __________ County __________________ State ______ Attended ______ Unattended ______ 1. General 1.1 The equipment and materials furnished by the bidder must meet the requirements of paragraphs (a) through (x), Appendix A, and Appendix B of § 1755.522. 1.2 Paragraphs (a) through (x) of § 1755.522 cover the minimum general requirements for digital, stored program controlled central office switching equipment. 1.3 Paragraph (y) of § 1755.522 covers requirements for installation, inspection, and testing when such service is included as part of the contract. 1.4 Appendices A and B of § 1755.522 cover the technical data for application engineering and detailed equipment requirements insofar as they can be established by the owner. These appendices are to be filled in by the owner. 1.5 Appendix C of § 1755.522 covers detailed information on the switching network equipment and the stored program controlled equipment, and information as to system reliability and heavy traffic delays as proposed by the bidder. This appendix is to be filled in by the bidder and must be presented with the bid. 1.6 Appendix D of § 1755.522 is the single-point grounding system audit checklist. 2. Performance Objectives 2.1 Reliability (see paragraph (b) of § 1755.522). 2.2 Busy Hour Load Capacity and Traffic Delay (see paragraph (e)(10) of § 1755.522. Describe basis for traffic analysis). 3. Equipment Quantities Dependent on System Design 3.1 Switch Frames and Circuits. 3.1.1 Number of Lines. 3.1.1.1 The number of lines to be provided shall include the number required for the termination of subscriber lines, Item 7, Appendix A, plus the number required for routine testing plus any additional to meet the minimum switch increment of the selected system. 3.1.1.2 The number of lines provided for this office will be ______ 3.1.2 Number of Ports Used for Trunks 3.1.2.1 The number of trunk ports to be provided shall be based on the trunk quantities required (Item 8, Appendix A) as modified by the minimum increment of the selected system. Provision shall be made for at least 5 percent additional inlet and outlet ports over those required initially. The additional ports shall be used for connecting additional trunks that may be required in the future. 3.1.2.2 The number of trunk ports provided for this office will be ____________ 3.1.3 Number of Subscriber Directory Numbers 3.1.3.1 The number of directory numbers provided shall be based on the total directory numbers required (Item 6.1.11, appendix A), as modified by the memory increment of the proposed system. 3.1.3.2 The number of subscriber directory numbers provided for this office will be ____________ 4. RST 4.1 Information for RST's must be supplied for each RST to be furnished. 4.2 Number of line terminals for this RST will be ____________ . 4.3 Number of span line terminations to the central office being supplied ____________ . 4.4 If the emergency operation option is required, it will provide the following service when connection to the main office is severed: 4.5 The ac power drain at the remote end will be: Initial ____________ Ultimate ____________ Voltage: Single-Phase ____________ Three-Phase ____________ 4.6 Special environmental requirements for the remote end: 5. Power 5.1 AC Power Drain Watts Initial ____________ Ultimate ____________ 5.2 Heat Dissipation Watts Provide the initial and ultimate equipment dissipation for each equipment room. 5.2.1 Operating Temperature Range Minimum ____________ Maximum ____________ 5.2.2 Operating Humidity Range Minimum ____________ Maximum ____________ 6. Additional Information to be Furnished by Bidder 6.1 The bidder shall accompany its bid with the following information: a. Two copies of the equipment list and the calculations from which the quantities in the equipment list are determined; b. Two copies of the traffic tables from which the quantities are determined, other than the full availability tables shown in paragraph (p)(1)(i) of § 1755.522; c. Two copies of detailed switching diagram showing the traffic on each route, the grade of service, the quantity of circuits, and main distributing frames; d. Block diagram of stored program control and associated maintenance equipment; e. A prescribed method and criteria for acceptance of the completed central office, which is subject to review; f. Location of technical assistance service with 24-hour maintenance, and conditions when owner will be charged for access to the service; g. Calculations showing the method by which ringing machine sizes were derived; h. Precautions to be taken against static discharge; i. Details of central office grounding requirements, recognizing local grounding conditions; j. Details concerning traffic measurement capabilities and formats; and k. Details concerning AMA features and formats to be provided. 6.2 As a part of the response to the bid, the bidder must also list information concerning the types and quantities of spare parts to be furnished. All units, excluding those units described in paragraph (x)(6)(i)(C) of § 1755.522, must fall into one of the four classes. The information must be in the following format: Unit No. Unit name Quantity of units in the CO's and RST's which are bid Quantity of spare parts furnished with this bid Class 1 Class 2 Class 3 Class 4 Class 1 Class 2 Class 3 Class 4 7. Explanatory Notes
Appendix D to 7 CFR 1755.522—Acceptance Checklist—Single-point Grounding System 1. Approval Statement Telephone Company: RUS Borrower Designation: RUS Contract Number: N/A Name: Central Office: Remote: Date of Inspection: Names of Inspectors: Owner Representative Central Office Supplies Consulting Engineer Mutually Approved Exceptions: Grounding System Approval: Name (Owner Representative) Signature Title Date Name (Supplier Representative) Signature Title Date 2. General Survey 2.1 This office is considered to be in the following category for probability of lightning damage based on the Figure 1 map in RUS TE&CM 823 (also refer to paragraph (u)(2) of § 1755.522) ____ Very High ____ Higher than Average ____ Average ____ Lower than Average ____ Very low 2.2 Central office ground field (COGF) to be inspected for proper bonding of conductors to ground rods, etc. COGF to earth grounding reading is ________ ohms. (Refer to RUS TE&CM 802, Appendices C and D, Measurement Techniques.) Is this resistance reading acceptable? (Refer to RUS TE&CM 810, Items 1.6, 4.6.2 and 4.6.3 for protection considerations.) Acceptable: ____ Yes ____ No Comments: 2.3 Ground connection to be inspected from the master ground bar (MGB) to the central office ground field (COGF) to ensure it is properly sized and installed by most direct route with no sharp bends. (Refer to RUS TE&CM 810, Item 4.3.2 and section 8.1.) Acceptable: ____ Yes ____ No Comments: 2.4 Building structure grounds (steel rebar in footings, ironwork, etc.) are to be properly bonded and connected to the MGB. (Refer to RUS TE&CM 810, Item 4.3.4.) Acceptable: ____ Yes ____ No Comments: 2.5 Metallic central office door(s) are to be painted with metallic paint with doorknobs left bare. Door(s) and frames are to be grounded to the building structural ground or the MGB. Acceptable: ____ Yes ____ No Comments: 2.6 Metallic fences within 6 feet (183 cm) of the exchange building, storage facilities ground field, etc. are to be properly bonded to the COGF outside of the central office building. Handhole enclosure is to be used for the COGF connection to permit inspection and disconnect for earth resistance testing. (Refer to RUS TE&CM 810, Appendix C, Item 4.6.1.) Acceptable: ____ Yes ____ No Comments: 2.7 Lightning rod systems are to be grounded by a separate dedicated ground field. A bond should be provided between the COGF and the lightning rod ground field. Handhole enclosure is to be used for the COGF connection to permit inspection and disconnect for earth resistance testing. (Refer to RUS TE&CM 810, Item 4.3.2.1.) Acceptable: ____ Yes ____ No Comments: 2.8 Radio/microwave tower ground grid is to be properly bonded to the COGF by a direct outside connection. Handhole enclosure is to be used for the COGF connection to permit inspection and disconnect for earth resistance testing. (Refer to RUS TE&CM 810, Item 4.3.2 and section 10.) Acceptable: ____ Yes ____ No Comments: 2.9 If a qualified metallic water system is present, inspect the MGB connecting conductor to ensure that it is properly sized and installed by the most direct route with no sharp bends and that it is clamped solidly on the water pipes. (Refer to RUS TE&CM 810, Item 4.3.3 for details on metallic water system grounding.) Acceptable: ____ Yes ____ No Comments: 2.10 All power and grounding conductors are to be continuous, end to end, with no splices, size discontinuity or intermediate terminations. If an exception is necessary, unusual care must be taken to assure proper bonding between the two sections. (Refer to RUS TE&CM 810, Appendix C, section 5.) Acceptable: ____ Yes ____ No Comments: 2.11 All ground conductors should be void of sharp bends along their entire lengths. (Refer to RUS TE&CM 810, Item 8.2.2.) Acceptable: ____ Yes ____ No Comments: 2.12 Ground conductors should only be placed in nonmetallic conduit. Those routed through metallic conduit require that both ends of the conduit be bonded to the ground conductor. (Refer to RUS TE&CM 810, Item 8.2.4.) Acceptable: ____ Yes ____ No Comments: 2.13 Ground conductors should not be encircled by metallic clamp. Metallic straps are to be removed and replaced with nonmetallic clamps. (Refer to RUS TE&CM 810, Item 8.2.4.) Acceptable: ____ Yes ____ No Comments: 2.14 If metallic conduit is used, it is to be insulated from all ironwork. Acceptable: ____ Yes ____ No Comments: 2.15 Inspect to determine if the required central office supplier electrostatic discharge plates, wrist wraps, antistatic floor mats, etc. are available and properly installed. (Refer to RUS TE&CM 810, Item 12.3.) Acceptable: ____ Yes ____ No Comments: 2.16 Ground conductors, except green wires, should not be routed close and parallel to other conductors so as to minimize induction on surges into equipment wiring. It is also better not to route these ground conductors through cable racks or troughs, or within the confines of any iron work. (Refer to RUS TE&CM 810, Item 8.2.3.) Acceptable: ____ Yes ____ No Comments: 3. Master Ground Bar (MGB) 3.1 The designated P, A, N, and I segments of the master ground bar (MGB) should be clearly identified. (Refer to RUS TE&CM 810, Figure 1 for MGB segmentation arrangement.) Acceptable: ____ Yes ____ No Comments: 3.2 Check for appearance and proper location of following on MGB: (a) R—Interior radio equipment 1 1 Surge Producer—(P) (b) C—Cable entrance ground bar 1 (c) M—MDF ground bar 1 (d) G—Standby power equipment frame ground 1 (e) N—Commercial power MGN 2 2 Surge Absorber—(A) (f) B—Building structure ground 2 (g) L—Central office ground field 2 (h) W—Water pipe system 2 (i) N 1—Battery Return 3 3 Grounds to non-IGZ Equipment—(N) (j) N 2—Outside IGZ: ____________ 3 (k) N 3—Outside IGZ: ____________ 3 (l) I 1—Ground window bar 4 4 Grounds to IGZ Equipment (GWB's)—(I) (m) I 2—Ground window bar 4 Acceptable: ____ Yes ____ No Comments: 3.3 All connections to MGB are to be two-hole bolted down copper crimped or compression type terminal lugs. (NOTE: No solder connections are permitted.) Acceptable: ____ Yes ____ No Comments: 3.4 MGB is to be properly insulated from the mounting surface. Acceptable: ____ Yes ____ No Comments: 3.5 All connections are to be tight. Acceptable: ____ Yes ____ No Comments: 3.6 The MGB is to have an anticorrosion coating of the type which enhances conductivity. Acceptable: ____ Yes ____ No Comments: 3.7 Bar is to be clearly stenciled or legibly labeled “MGB.” Acceptable: ____ Yes ____ No Comments: 3.8 All ground leads are to be properly sized and labeled as to point of origin. (Refer to RUS TE&CM 810, Item 8.3.1 and section 8.1.) Acceptable: ____ Yes ____ No Comments: 4. Ground Window Bar (GWB) 4.1 All equipment grounds that originate inside of an Isolated Ground Zone (IGZ) are to be terminated on the GWB which is preferably located physically inside the IGZ and insulated from its support. (Refer to RUS TE&CM 810, Item 5.1.) Acceptable: ____ Yes ____ No Comments: 4.2 Each GWB is to be connected to the MGB by the most direct route with a conductor of 2/0-gauge or coarser, or resistance of less than 0.005 ohms. Parallel conductors for redundancy if required by the supplier. (Refer to RUS TE&CM 810, Item 8.1.2.) Acceptable: ____ Yes ____ No Comments: 4.3 The metal framework grounds of only that switching equipment and associated electrical equipment located inside of the IGZ should be connected to the GWB as required by the central office equipment supplier. (Refer to RUS TE&CM 810, Item 5.5.) Acceptable: ____ Yes ____ No Comments: 4.4 GWB is to be clearly stenciled or labeled “GWB.” Acceptable: ____ Yes ____ No Comments: 4.5 All connections are to be tight. Acceptable: ____ Yes ____ No Comments: 5. Isolated Ground Zone (IGZ) 5.1 IGZ areas are to be clearly marked on the floor or in some other easily recognizable manner. (Refer to RUS TE&CM 810, Item 6.1.1) Acceptable: ____ Yes ____ No Comments: 5.2 Confirm that all framework, cabinets, etc., within the IGZ are ground connected only to the GWB. (Refer to RUS TE&CM 810, Item 5.5.) Acceptable: ____ Yes ____ No Comments: 5.3 All cable racks, ground mats, switching and transmission equipment within the IGZ are to have ground leads only to the GWB. (Refer to RUS TE&CM 810, Item 5.5.2.) Acceptable: ____ Yes ____ No Comments: 5.4 Review ac power feed arrangement within the IGZ for acceptable receptacle type and confirm that all green wires are properly connected. (Refer to RUS TE&CM 810, Item 5.5.4.) Acceptable: ____ Yes ____ No Comments: 5.5 All ironwork, metallic conduit, and other equipment associated with the switch are to be properly insulated at the IGZ boundary as stipulated by the supplier. (Refer to RUS TE&CM 810, Item 6.2.) Acceptable: ____ Yes ____ No Comments: 5.6 With the GWB disconnected from the MGB, the resistance reading of ______ ohms between the GWB and the MGB indicates adequate isolation. (CAUTION: Test is to be conducted only with the approval and under the direction of the central office supplier.) Acceptable: ____ Yes ____ No Comments 6. Entrance and Tip Cables 6.1 When neither a cable vault nor a splicing trough exists, the outside plant cable should be brought into the central office and spliced to tip cables with a PVC outer jacket (ALVYN R) or equivalent as close as practical to the cable entrance. (Refer to RUS TE&CM 810, Item 7.3.4.) Acceptable: ____ Yes ____ No Comments: 6.2 All outside entrance cables and all tip cable shields are to be separated by at least a 3-inch (7.6 cm) gap between shield ends. Acceptable: ____ Yes ____ No Comments: 6.3 All entrance cable shields are to be bonded separately to #6 AWG or larger insulated wire or bonding ribbon and connected to the Cable Entrance Ground Bar (CEGB) by most direct route with minimum bends. Acceptable: ____ Yes ____ No Comments: 6.4 Outside plant cable shields are to be connected only to the CEGB, and the tip cable shields are to be connected only to the Main Distributing Frame Bar (MDFB). Acceptable: ____ Yes ____ No Comments: 7. Cable Entrance Ground Bar (CEGB) 7.1 The CEGB is to be properly insulated from the mounting surface. (Refer to TE&CM 810, Item 4.2.1.) Acceptable: ____ Yes ____ No Comments: 7.2 The CEGB is to be located as close as possible to the physical ends of the entrance cable shields. Acceptable: ____ Yes ____ No Comments: 7.3 All connections are to use two-hole bolted down copper crimped or compression type terminal lugs. (NOTE: No solder connections are permitted.) Acceptable: ____ Yes ____ No Comments: 7.4 All connections are to be tight. Acceptable: ____ Yes ____ No Comments: 7.5 Bar is to be clearly stenciled or legibly labeled “CEGB.” Acceptable: ____ Yes ____ No Comments: 7.6 All ground leads are to be properly sized and labeled. Acceptable: ____ Yes ____ No Comments: 7.7 The CEGB is to have an anticorrosion coating of the type which enhances conductivity. Acceptable: ____ Yes ____ No Comments: 7.8 The CEGB is to be connected to the MGB by a properly sized conductor and by the most direct route. (Refer to RUS TE&CM 810, section 8.1.) Acceptable: ____ Yes ____ No Comments: 8. Main Distributing Frame (MDF) 8.1 RUS strongly recommends that MDF protectors be furnished without heat coils. (Refer to RUS TE&CM 810, section 7.6.) Acceptable: ____ Yes ____ No Comments: 8.2 Incoming cable pairs terminated on MDF protector assemblies should be protected with protector modules. These modules should contain white coded carbon blocks or orange coded gas tube arrestors that are included in the RUS List of Materials. (Refer to RUS TE&CM 810, Item 7.4) Acceptable: ____ Yes ____ No Comments: 7 8.3 All incoming subscriber cable pairs are to be properly terminated at either a protector equipped terminal or connected to ground. Acceptable: ____ Yes ____ No Comments 8.4 MDF protector assemblies may be mounted directly on the vertical frame ironwork. Protector assemblies on each vertical are interconnected with each other and the Main Distributing Frame Bar (MDFB) with a #6 copper grounding conductor. Alternative means of connecting to the MDFB are also acceptable which do not rely on the frame ironwork for conducting surge currents to ground. (Refer to RUS TE&CM 810, section 7.) Acceptable: ____ Yes ____ No Comments 8.5 Protective “ground connections” should be provided between the MDFB and the frame ironwork for personnel protection regardless of the type of protector assembly used. Protective ground leads should be 14-gauge, less than 12 inches (30.5 cm) in length with paint thoroughly removed at point of connection to the ironwork. (Refer to RUS TE&CM 810, Item 7.1.3.) Acceptable: ____ Yes ____ No Comments 8.6 The MDFB should be insulated from the frame ironwork in all cases where it is used as a Master Ground Bar (MGB). (Refer to RUS TE&CM 810, Item 7.1.2.) Acceptable: ____ Yes ____ No Comments 8.7 Where the MDFB is used as the MGB in very small offices the protective “ground connections” should be connected on the N section of the bar. The MDF line protector assembly grounds should be connected to the P section of the bar. (Refer to RUS TE&CM 810, Item 7.1.4.) Acceptable: ____ Yes ____ No Comments 8.8 The MDFB is to be connected to the MGB by the most direct path with minimum bends and proper conductor size. (Refer to RUS TE&CM 810, Item 8.1.4.) Acceptable: ____ Yes ____ No Comments 8.9 The MDFB should be free of all other ground leads when not used as an MGB. Acceptable: ____ Yes ____ No Comments 8.10 Alternative arrangements which insulate the line protector assemblies and MDFB from the frame ironwork may require a direct ground connection of the frame ironwork to the MGB for personnel protection. Conductor is properly sized and tightened with paint removal on main frame ironwork at point of connection. Acceptable: ____ Yes ____ No Comments 9. Power Service Protection and Grounding 9.1 The ground conductor between the ac power system multigrounded neutral (MGN) at the main ac disconnect panel and the master ground bar (MGB) is to be properly sized and connected. (Refer to RUS TE&CM 810, Items 2.19, 4.3.1 and 8.1.3.) Acceptable: ____ Yes ____ No Comments: 9.2 If there is a non-MGN ac power system, there is to be a properly sized and connected insulated conductor bond between the power service ground electrode and the MGB. (Refer to RUS TE&CM 810, Item 4.3.1.1.) Acceptable: ____ Yes ____ No Comments: 9.3 AC conductors including ground conductors serving 120-volt ac electric convenience receptacles and all direct wire peripheral equipment, located in the IGZ, should be sized in accordance with normal “green wire” criteria. (Refer to RUS TE&CM 810, Items 5.5.4, 5.5.5, and 5.5.6.) Acceptable: ____ Yes ____ No Comments: 9.4 Minimum protection for ac power serving the central office buildings should consist of an RUS accepted secondary arrestor at the service entrance. (Refer to RUS TE&CM 810, section 9.) Acceptable: ____ Yes ____ No Comments: 9.5 A properly sized conductor for ground bonding between the standby power plant framework (not separately derived) and the MGB is to be provided to equalize framework voltages for personnel safety reasons. (Refer to RUS TE&CM 810, Item 4.2.4.) Acceptable: ____ Yes ____ No Comments: 10. Miscellaneous 10.1 All non-IGZ equipment frames, relay racks, cable racks and other ironwork are to be properly connected to the MGB. (Refer to TE&CM 810, Item 4.4.) Acceptable: ____ Yes ____ No Comments: 10.2 Shields on high frequency intra-office cables are to be properly isolated and connected only to an isolation ground bar in the relay rack. All shielded cables entering the IGZ should only be referenced at the IGZ termination point as given by the manufacturer. (Refer to RUS TE&CM 810, Item 7.2.1.2.) Acceptable: ____ Yes ____ No Comments: 10.3 Isolation ground bars in the relay racks are to be properly connected to the MGB with appropriate sized conductor with no sharp bends. Acceptable: ____ Yes ____ No Comments: 10.4 All radio equipment cabinet(s) are to be at least 10 feet (305 cm) from the IGZ. Acceptable: ____ Yes ____ No Comments: 10.5 The metal spare parts cabinet is to be grounded with a #6 AWG or larger insulated wire to non-IGZ cable rack, etc. or directly to the MGB. Acceptable: ____ Yes ____ No Comments:
[58 FR 30938, May 28, 1993; 58 FR 36252, July 6, 1993, as amended at 60 FR 1711, Jan. 5, 1995, 60 FR 64312, 64314, Dec. 15, 1995; 69 FR 18803, Apr. 9, 2004]