Ing konstruksi jaringan listrik modern, panjaluk transmisi voltase dhuwur bebarengan lan backhaul data kanthi kacepetan dhuwur durung nate luwih dhuwur.Orientalfibernawakake specializedKabel Ground Overhead Komposit Serat Optik tabung terdampar (OPGW), kabel hibrida canggih sing dirancang kanggo ngganti kabel tameng tradisional. Kanthi nggabungake serat optik ing struktur metalik sing terdampar, OPGW kita nyedhiyakake solusi dual-fungsi: nyedhiyakake proteksi kilat sing bisa dipercaya kanggo garis voltase dhuwur nalika dadi penyangga kanggo telekomunikasi lan otomatisasi kothak.
IngTerdampar-tabung Serat Optik Komposit Overhead Ground Wireiku kabel nduwur sirah sing nindakake fungsi saka kabel ground conventional (nglindhungi saluran transmisi saka serangan kilat lan arus short-circuit) nalika omah serat optik kanggo transmisi data. Desain terdampar iki ngidini jumlah serat sing luwih dhuwur lan daya tahan sing luwih gedhe, dadi pilihan sing disenengi kanggo konstruksi jaringan backbone ing sektor sarana tenaga.
milihOrientalfiberminangka mitra pasokan sampeyan mesthekake yen infrastruktur sampeyan nyukupi panjaluk lanskap energi 2026 sing ketat. Keuntungan utama pengadaan kalebu:
IngOrientalfiberOPGW diprodhuksi kanthi presisi kanggo mesthekake yen tuwuh ing lingkungan ruangan sing paling molah malih:
Konfigurasi teknis sakaTerdampar-tabung Serat Optik Komposit Overhead Ground Wirebisa disesuaikan adhedhasar span lan syarat listrik proyek kasebut:
| Fitur | Spesifikasi standar | Kaluwihan Operasional |
|---|---|---|
| Tingkat voltase | 110KV, 220KV, 500KV, 750KV | Versatile kanggo jaringan regional lan nasional. |
| Jumlah Serat | Nganti 144 Serat (utawa luwih saka panyuwunan) | Ndhukung throughput data massive. |
| Komposisi Bahan | ACS (Aluminium Clad Steel) + AA (Aluminium Alloy) | Rasio kekuatan-kanggo-bobot dhuwur. |
| Kepatuhan Standar | IEEE 1138, IEC 60794-4 | Njamin interoperabilitas lan safety global. |
IngTerdampar-tabung Serat Optik Komposit Overhead Ground WiresakaOrientalfiberminangka komponen kritis ing sawetara sektor utama:
● Kontrol proses sing tepat kanggo njamin kinerja mekanik lan suhu sing apik
● diameteripun luwih gedhe lan serat optik liyane
● Struktur stabil lan linuwih dhuwur
● High tensile kekuatan lan gedhe short-time kapasitas saiki
|
|
Atenuasi |
Bandwidth |
Polarisasi Mode Dispersi |
|||||
|
@850nm |
@1300nm |
@1310nm |
@1550nm |
@850nm |
@1300nm |
individu Serat |
Desain Nilai Link (M=20, Q=0,01%) |
|
|
G652D |
— |
— |
≤0,35dB/km |
≤0,21dB/km |
— |
— |
≤0.20ps/ km |
≤0.1ps/ km |
|
G655 |
— |
— |
— |
≤0,22dB/km |
— |
— |
≤0.20ps/ km |
≤0.1ps/ km |
|
50/125μm |
≤3.0dB/km |
≤1.0dB/km |
— |
— |
≥600MHz.km |
≥1200MHz.km |
— |
— |
|
62,5 / 125μm |
≤3.5dB/km |
≤1.0dB/km |
— |
— |
≥200MHz.km |
≥600MHz.km |
— |
— |
|
|
Klasifikasi |
Bahan |
Nilai |
|
Konstruksi |
Serat Optik |
G652D / G655 lsp. |
2 - 144 |
|
Tube Proteksi |
Tabung baja tahan karat |
1,5 - 6 mm |
|
|
Garis Terdampar |
AS kawat/AA kawat/Al Rod |
1,5 - 6 mm |
|
|
Maks. Dhiameter |
30 mm |
||
|
Maks. Cross Section |
500 mm2 |
||
|
Ciri khas |
Miturut standar minangka DL / T 832, IEC60794-4-10, IEEE1138 |
||
|
Maks. Kekuwatan Tarik (RTS) (kN) |
700 |
||
|
Maks. Kekuwatan Remuk (N/100mm) |
3000 |
||
|
Maks. Kapasitas Arus Singkat (40 ℃ nganti 200 ℃) (kA2s) |
2000 |
||
|
Min. Radius Bending (Dinamis) |
20D |
||
|
Min. Radius lengkung (statis) |
15D |
||
|
Lingkungan Kinerja |
Instalasi (℃) |
-10 kanggo +50 |
|
|
Transportasi lan Operasi (℃) |
-40 kanggo +65 |
||
Cathetan: D yaiku diameter kabel.
|
Ora. |
Data Teknis |
||||||||
|
Jinis produk |
Tipe Struktur |
Maks. Serat |
Bagian AS Wire |
Dhiameter (mm) |
Bobot Kabel |
Rate Tensile Strength (kN) |
20 ℃ DC Resistance (Ω/km) |
Short Time Kapasitas Saiki (40-200 ℃ kA2.s) |
|
|
1 |
OPGW-48B1.3-90- [112;45] |
1/2.6/20AS+4/2.5/20AS+ 11/2.8/20AS, Unit Optik 2/2.5 |
48 |
≈90 |
13.2 |
≤641 |
≥112 |
≤0,98 |
≥45 |
|
2 |
OPGW-48B1.3-90- [57;67] |
1/2.6/40AS+4/2.5/40AS+ 11 / 2.8 / 40AS, Unit Optik 2 / 2.5 |
48 |
≈90 |
13.2 |
≤457 |
≥57 |
≤0,52 |
≥67 |
|
3 |
OPGW-24B1.3-100-[118;50] |
1/2.6/20AS+5/2.5/20AS+ 11 / 2.8 / 20AS, Unit Optik 1 / 2.5 |
24 |
≈100 |
13.2 |
≤674 |
≥118 |
≤0,93 |
≥50 |
|
4 |
OPGW-24B1.3-100-[60;74] |
1/2.6/40AS+5/2.5/40AS+ 11 / 2.8 / 40AS, Unit Optik 1 / 2.5 |
24 |
≈100 |
13.2 |
≤479 |
≥60 |
≤0,49 |
≥74 |
|
5 |
OPGW-24B1.3-110-[133;63] |
1/2.6/20AS+5/2.5/20AS+ 10/3.2/20AS, Unit Optik 1/2.5 |
24 |
≈110 |
14 |
≤760 |
≥133 |
≤0,83 |
≥63 |
|
6 |
OPGW-24B1.3-110-[140;68] |
1/2.8/20AS+5/2.7/20AS+ 11/3.05/20AS, Unit Optik 1/2.6 |
24 |
≈110 |
14.3 |
≤791 |
≥140 |
≤0,80 |
≥68 |
|
7 |
OPGW-24B1.3-110-[67;95] |
1/2.9/20AS+5/2.8/20AS+ 12/2.8/AA, Unit Optik 1/2.7 |
24 |
≈37 ≈74(AA) |
14.1 |
≤473 |
≥67 |
≤0.40 |
≥95 |
|
8 |
OPGW-36B1.3-120-[145;73] |
1/3.0/20AS+5/2.9/20AS+ 12/2.9/20AS, Unit Optik 1/2.8 |
36 |
≈120 |
14.6 |
≤820 |
≥145 |
≤0,77 |
≥73 |
|
9 |
OPGW-36B1.3-120-[95;98] |
1/3.0/30AS+5/2.9/30AS+ 12 / 2.9 / 30AS, Unit Optik 1 / 2.8 |
36 |
≈120 |
14.6 |
≤700 |
≥95 |
≤0,55 |
≥98 |
|
10 |
OPGW-36B1.3-120-[74;110] |
1/3.0/40AS+5/2.9/40AS+ 12 / 2.9 / 40AS, Unit Optik 1 / 2.8 |
36 |
≈120 |
14.6 |
≤582 |
≥74 |
≤0,42 |
≥110 |
|
11 |
OPGW-72B1.3-120-[147;76] |
1/3.2/20AS+4/3.0/20AS+ 12/3.0/20AS, Unit Optik 2/2.9 |
72 |
≈120 |
15.2 |
≤832 |
≥147 |
≤0,76 |
≥76 |
|
12 |
OPGW-72B1.3-120-2[96;101] |
1/3.2/30AS+4/3.0/30AS+ 12/3.0/30AS, Unit Optik 2/2.9 |
72 |
≈120 |
15.2 |
≤711 |
≥96 |
≤0,53 |
≥101 |
|
13 |
OPGW-72B1.3-120-[74;114] |
1/3.2/40AS+4/3.0/40AS+ 12/3.0/40AS, Unit Optik 2/2.9 |
72 |
≈120 |
15.2 |
≤591 |
≥74 |
≤0.40 |
≥114 |
|
14 |
OPGW-36B1.3-130-[155;85] |
1/3.2/20AS+5/3.0/20AS+ 12/3.0/20AS, Unit Optik 1/2.9 |
36 |
≈130 |
15.2 |
≤879 |
≥155 |
≤0,72 |
≥85 |
|
15 |
OPGW-36B1.3-130-[102;114] |
1/3.2/30AS+5/3.0/30AS+ 12/3.0/30AS, Unit Optik 1/2.9 |
36 |
≈130 |
15.2 |
≤751 |
≥102 |
≤0,50 |
≥114 |
|
16 |
OPGW-36B1.3-130-[79;137] |
1/3.2/40AS+5/3.0/40AS+ 12/3.0/40AS, Unit Optik 1/2.9 |
36 |
≈130 |
15.2 |
≤624 |
≥79 |
≤0.40 |
≥137 |
|
17 |
OPGW-36B1.3-140-[175;100] |
1/3.3/20AS+5/3.2/20AS+ 12/3.2/20AS, Unit Optik 1/3.1 |
36 |
≈140 |
16.1 |
≤995 |
≥175 |
≤0,65 |
≥100 |
|
18 |
OPGW-36B1.3-140-[115;140] |
1/3.3/30AS+5/3.2/30AS+ 12/3.2/30AS, Unit Optik 1/3.1 |
36 |
≈140 |
16.1 |
≤850 |
≥115 |
≤0,45 |
≥140 |
|
19 |
OPGW-36B1.3-145-[86;170] |
1/3.3/20AS+5/3.2/20AS+ 12/3.2/AA, Unit Optik 1/3.1 |
36 |
≈49 ≈96(AA) |
16.1 |
≤611 |
≥86 |
≤0.31 |
≥170 |
|
20 |
OPGW-48B1.3-150-[182;123] |
1/3.4/20AS+5/3.3/20AS+ 12/3.3/20AS, Unit Optik 1/3.2 |
48 |
≈150 |
16.6 |
≤1055 |
≥182 |
≤0.60 |
≥123 |
|
21 |
OPGW-48B1.3-150-[122;165] |
1/3.4/30AS+5/3.3/30AS+ 12/3.3/30AS, Unit Optik 1/3.2 |
48 |
≈150 |
16.6 |
≤901 |
≥122 |
≤0,42 |
≥165 |
|
22 |
OPGW-48B1.3-150-[95;195] |
1/3.4/40AS+5/3.3/40AS+ 12/3.3/40AS, Unit Optik 1/3.2 |
48 |
≈150 |
16.6 |
≤747 |
≥95 |
≤0.33 |
≥195 |
|
23 |
OPGW-72B1.3-150-[172;110] |
1/3.4/20AS+4/3.3/20AS+ 12/3.3/20AS, Unit Optik 2/3.2 |
72 |
≈150 |
16.6 |
≤998 |
≥172 |
≤0,64 |
≥110 |
|
24 |
OPGW-72B1.3-150-[116;147] |
1/3.4/30AS+4/3.3/30AS+ 12/3.3/30AS, Unit Optik 2/3.2 |
72 |
≈150 |
16.6 |
≤853 |
≥116 |
≤0,45 |
≥147 |
|
25 |
OPGW-48B1.3-170-[198;150] |
1/3.6/20AS+5/3.5/20AS+ 12/3.5/20AS, Unit Optik 1/3.4 |
48 |
≈170 |
17.6 |
≤1190 |
≥198 |
≤0,54 |
≥150 |
|
26 |
OPGW-72B1.3-170-[199;156] |
1/3.8/20AS+4/3.6/20AS+ 12/3.6/20AS, Unit Optik 2/3.5 |
72 |
≈170 |
18.2 |
≤1187 |
≥199 |
≤0,54 |
≥156 |
|
27 |
OPGW-48B1.3-180-[252;125] |
1/3.8/14AS+5/3.6/14AS+ 12 / 3.6 / 14AS, Unit Optik 1 / 3.5 |
48 |
≈180 |
18.2 |
≤1372 |
≥252 |
≤0,72 |
≥125 |
|
28 |
OPGW-48B1.3-180-[211;175] |
1/3.8/20AS+5/3.6/20AS+ 12/3.6/20AS, Unit Optik 1/3.5 |
48 |
≈180 |
18.2 |
≤1255 |
≥211 |
≤0,50 |
≥175 |
|
29 |
OPGW-48B1.3-180-[147;234] |
1/3.8/30AS+5/3.6/30AS+ 12 / 3.6 / 30AS, Unit Optik 1 / 3.5 |
48 |
≈180 |
18.2 |
≤1071 |
≥147 |
≤0.35 |
≥234 |
|
30 |
OPGW-48B1.3-180-[113.262] |
1/3.8/40AS+5/3.6/40AS+ 12 / 3.6 / 40AS, Unit Optik 1 / 3.5 |
48 |
≈180 |
18.2 |
≤888 |
≥113 |
≤0,28 |
≥262 |
|
31 |
OPGW-48B1.3-235-[268;243.4] |
1/2.7/20AS+4/2.5/20AS+ 12/2.5/20AS+13/3.8/20AS, Unit Optik 1/3.5 |
48 |
≈235 |
20.3 |
≤1594 |
≥268 |
≤0.38 |
≥243.4 |
|
Item |
Tes Metode |
Syarat |
|
Ketegangan |
IEC 60794-1-2-E1 Muatan: miturut struktur kabel Sampel dawa: ora kurang saka 10m, dawa disambung ora kurang saka 100m Duration wektu: 1 min |
40% RTS ora ana galur serat tambahan (0,01%), ora ana tambahan atenuasi (0,03dB). 60% RTS galur serat≤0,25%, tambahan atenuasi≤0.05dB (Ora atenuasi tambahan sawise tes). |
|
Remuk |
IEC 60794-1-2-E3 Muatan: miturut tabel ing ndhuwur, telung poin Duration wektu: 10 min |
Tambahan atenuasi ing 1550nm ≤0.05dB/serat; Ora ngrusak unsur |
|
banyu Penetrasi |
IEC 60794-1-2-F5B Wektu : 1 jam Sample dawa: 0,5m banyu dhuwur: 1m |
Ora bocor banyu. |
|
Suhu Cycling |
IEC 60794-1-2-F1 Sampel dawa: Ora kurang saka 500m Suhu sawetara: -40 ℃ nganti + 65 ℃ Siklus: 2 Suhu wektu manggon test cycling: 12h |
Ing owah-owahan ing koefisien atenuasi kudu kurang saka 0.1dB/km ing 1550nm. |
Napa OPGW tabung terdampar luwih apik kanggo garis voltase dhuwur?
Desain tabung terdampar ngidini diameter kabel sing luwih gedhe lan jumlah serat sing luwih dhuwur. Iki uga nyebarake stres mekanik luwih merata ing antarane kabel, sing penting kanggo nyebrang dawa sing digunakake ing garis 500KV lan 750KV.
Kepiye cara Orientalfiber njamin kualitas OPGW?
Kita operate ing manajemen kualitas ISO9001 lan sistem safety ISO45001. Saben kumpulan Kawat Tanah Overhead Komposit Serat Optik Stranded-tube ngalami tes sing ketat kanggo kekuatan tarik, resistensi remuk, lan kinerja sirkuit cendhak sadurunge dikirim.
Apa kabel iki bisa digunakake ing garis sing wis ana?
Nalika asring digunakake kanggo garis "mentas dibangun", OPGW asring digunakake kanggo ngganti kabel bumi tradisional sing ana sajrone proyek modernisasi kothak kanggo nambah kemampuan komunikasi menyang rute lawas.
alamat
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