AAC 1350 Conductor

Q: Q: Is the 1350 aluminum actually 99.5% pure?

A: Exactly. We stick to a minimum 99.5% purity . It’s the "sweet spot" for overhead lines—conducts electricity efficiently while staying flexible enough so the wire doesn't snap during stranding.

Q: Q: How do you guys pack these for shipping?

A: We use standard treated wooden reels . They are sealed tight to stop any scratches or "pre-oxidation" before the cable even gets to your site. It arrives ready for the crew to pull.

Q: Q: Need a quote or more specs?

A: Best way is to hit the "Contact Us" button right here. Or, just jump over to our profile and send a direct message. Our tech team usually gets back to people pretty quick.

High-Conductivity Aluminum Conductor for Overhead Transmission Lines

CONDUCTORS : The AAC 1350 Conductor features a concentric lay stranded design consisting of Aluminum Alloy 1350-H19 wires. Specifically, this AAC 1350 Conductor is available in both single-layer and multi-layer constructions to suit various overhead line requirements.
STANDARDS :
- American Standard & Canadian national standards ASTM B-230, ASTM B-231, CSA C49
- British Standards BS EN 50182 / BS 215
- German Standards DIN 48201-5
- International Electrotechnical Commission International Standards & China national standards IEC 61089, GB/T 1179
- Australian/New Zealand Standards AS/NZS 1531-91
- Russian National Standard GOST 839-80

Save at least 30% on average

Product Description

AAC 1350 Conductor : Product Description and Specifications

The AAC 1350 is a high-conductivity solution engineered for overhead power lines. At JOCA, we build these conductors using concentric lay stranded 1350-H19 aluminum alloy. Depending on your span and tension requirements, the cable comes in either single-layer or multi-layer configurations. We don’t just aim for quality; the entire production follows international distribution standards to ensure the wire handles grid loads without sagging or failing. It’s a clean, efficient choice for modern power networks where weight and conductivity are the top priorities.

Advantages

AAC 1350 Conductor : Benefits and Features

99.5% Pure Aluminum: High-conductivity 1350-H19 wires for low-loss transmission.
Oxide Protection: Naturally anti-corrosive material for long-term outdoor service.
Low Pole-Load: All-aluminum build reduces mechanical strain on infrastructure.
Standard Compliance: Verified against ASTM B-230 and B-231 benchmarks.
Economic Design: High electrical performance at a lower material cost.

Specification Of AAC 1350 Conductor

Category	Region/Organization	Standard Code / Description
Description	General	Concentric lay stranded conductor consisting of Aluminum Alloy 1350-H19 wires. AAC is available in both single layer and multi-layer constructions.
Standard	American Standard & Canadian national standards	ASTM B-230, ASTM B-231, CSA C49
Standard	British Standards	BS EN 50182 / BS 215
Standard	German Standards	DIN 48201-5
Standard	International Electrotechnical Commission International Standards & China national standards	IEC 61089, GB/T 1179
Standard	Australian/New Zealand Standards	AS/NZS 1531-91
Standard	Russian National Standard	GOST 839-80

Dimensions/Parameters

American Standard&Canadian national standards——ASTM B-230 ASTM B-231 CSA C49

Code	Nominal Area (AWG&MCM)	Nominal Area (mm^2)	Stranding (No.x mm)	Overall Diameter (mm)	Weight (kg/km)	Rated Strength (KN)	Electrical Resistance (Ω/Km)	Current Rating (A)
Peachbell	6	13.3	7/1.56	4.68	36.6	2.53	2.1477	75
Rose	4	21.1	7/1.96	5.88	58.2	3.91	1.3606	99
Iris	2	33.6	7/2.47	7.41	92.6	5.99	0.8567	132
Pansy	1	42.4	7/2.78	8.34	116.6	7.3	0.6763	153
Poppy	1/0	53.5	7/3.12	9.36	147.2	8.84	0.5369	176
Aster	2/0	67.4	7/3.50	10.5	185.7	11.1	0.4267	203
Phlox	3/0	85	7/3.93	11.79	233.9	13.5	0.3384	234
Oxlip	4/0	107.2	7/4.42	13.26	295.2	17	0.2675	270
Valerian	250	126.7	19/2.91	14.55	348.6	20.7	0.2274	299
Sneezewort	250	126.7	7/4.80	14.4	348.8	20.1	0.2269	299
Laurel	266.8	135.2	19/3.01	15.05	372.2	22.1	0.2125	312
Daisy	266.8	135.2	7/4.96	14.88	372.3	21.4	0.2125	311
Peony	300	152	19/3.19	15.95	418.3	24.3	0.1892	335
Tulip	336.4	170.5	19/3.38	16.9	469.5	27.3	0.1686	359
Daffodil	350	177.3	19/3.45	17.25	487.9	28.4	0.1618	369
Canna	397.5	201.4	19/3.67	18.35	554.9	31.6	0.143	397
Goldentuft	450	228	19/3.91	19.55	627.6	35	0.126	429
Syringa	477	241.7	37/2.88	20.16	664.8	38.6	0.1192	444
Cosmos	477	241.7	19/4.02	20.1	664.8	37	0.1192	444
Hyacinth	500	253.3	37/2.95	20.65	696.8	40.5	0.1136	458
Zinnia	500	253.3	19/4.12	20.6	697.1	38.9	0.1134	458
Dahlia	556.5	282	19/4.35	21.75	775.8	43.3	0.1018	489
Mistletoe	556.5	282	37/3.12	21.84	775.7	44.3	0.1016	490
Meadowsweet	600	304	37/3.23	22.61	836.3	47.5	0.0948	511
Orchid	636	322.3	37/3.33	23.31	886.9	50.4	0.0892	530
Heuchera	650	329.4	37/3.37	23.59	907.4	51.7	0.0871	538
Flag	700	354.7	61/2.72	24.48	975.8	57.1	0.0811	561
Varbena	700	354.7	37/3.49	24.43	975.7	55.4	0.0812	561
Nasturtium	715.5	362.6	61/2.75	24.75	998.5	58.4	0.0793	569
Violet	715.5	362.6	37/3.53	24.71	998.5	56.7	0.0794	568
Cattail	750	380	61/2.82	25.38	1046	60.3	0.0754	587
Petunia	750	380	37/3.62	25.34	1046	58.6	0.0755	586
Lilac	795	402.8	61/2.90	26.1	1110	63.8	0.0713	607
Arbutus	795	402.8	37/3.72	26.04	1109	61.8	0.0715	605
Snapdragon	900	456	61/3.09	27.81	1256	70.8	0.0628	654
Cockscomb	900	456	37/3.96	27.72	1256	68.4	0.0631	652
Goldenrod	954	483.4	61/3.18	28.62	1331	75	0.0593	677
Magnolia	954	483.4	37/4.08	28.56	1331	72.6	0.0594	676
Camellia	1000	506.7	61/3.25	29.25	1394	78.3	0.0568	695
Hawkweed	1000	506.7	37/4.18	29.26	1395	76.2	0.0566	696
Larkspur	1033.5	523.7	61/3.31	29.79	1442	81.3	0.0547	710
Bluebell	1033.5	523.7	37/4.25	29.75	1441	78.8	0.0547	710
Marigold	1113	564	61/3.43	30.87	1553	87.3	0.051	740
Hawthorn	1192.5	604.2	61/3.55	31.95	1662	93.5	0.0476	771
Narsissus	1272	644.5	61/3.67	33.03	1774	98.1	0.0445	802
Columbine	1351	694.8	61/3.78	34.02	1884	104	0.042	829
Carnation	1431	725.1	61/3.89	35.01	1997	108	0.0396	858
Gladiolus	1510.5	765.4	61/4.00	36	2108	114	0.0375	885
Coreopsis	1590	805.7	61/4.10	36.9	2216	120	0.0357	911
Jessamine	1750	886.7	61/4.30	38.7	2442	132	0.0324	962
Cowslip	2000	1013	91/3.77	41.47	2787	153	0.0286	1032
Sagebrush	2250	1140	91/3.99	43.89	3166	167	0.0255	1099
Lupine	2500	1267	91/4.21	46.31	3519	186	0.0229	1163
Bitterrot	2750	1393	91/4.42	48.62	3872	205	0.0208	1223
Trillium	3000	1520	127/3.90	50.7	4226	223	0.0193	1271
Bluebonnet	3500	1773	127/4.22	54.86	4977	261	0.0165	1373

British Standards——BS EN 50182/BS 215

Code	Nominal Area (Nominal mm^2)	Nominal Area (Teorical mm^2)	Stranding (No.x mm)	Overall Diameter (mm)	Weight (kg/km)	Rated Strength (KN)	Electrical Resistance (Ω/Km)	Current Rating (A)
Midge	22	23.33	7/2.06	6.18	64	3.99	1.227	106
Gnat	25	26.8	7/2.21	6.6	73.8	4.83	1.0643	122
Mosquito	35	37.0	7/2.59	7.8	102.1	6.27	0.7749	141
Ladybird	40	42.8	7/2.79	8.4	117.9	7.28	0.6678	157
Ant	50	52.83	7/3.10	9.3	145	8.28	0.5419	175
Fly	60	63.55	7/3.40	10.2	174	9.9	0.4505	196
Bluebottle	70	73.7	7/3.66	11.0	202	11.34	0.3881	215
Earwing	75	78.5	7/3.78	11.4	215	11.94	0.3644	232
Grasshopper	80	84.1	7/3.91	11.7	230	12.78	0.3406	249
Clegg	90	95.6	7/4.17	12.5	262	14.53	0.2944	253
Wasp	100	106	7/4.39	13.17	290	16.00	0.2702	268
Beetle	100	106.0	19/2.67	13.4	293	17.42	0.2704	260
Bee	125	132.0	7/4.90	14.7	361	19.44	0.2169	325
Cricket	150	157.9	7/5.36	16.1	432	23.85	0.1818	345
Hornet	150	157.6	19/3.25	16.25	434	25.7	0.1825	342
Caterpillar	175	186	19/3.53	17.7	512	28.63	0.1547	399
Chater	200	213.2	19/3.78	18.9	587	35.4	0.1349	412
Spider	225	236.9	19/3.99	20.0	652	36.01	0.1211	462
Cockroach	250	265.7	19/4.22	21.1	731	40.4	0.1083	471
Butterfly	300	322.7	19/4.65	23.25	888	48.75	0.08916	530
Moth	350	373.3	19/5.00	25.0	1027	56.37	0.07711	562
Drone	350	373.3	37/3.58	25.1	1029	57.45	0.07741	560
Locust	400	428.5	19/5.36	26.8	1179	64.73	0.06710	580
Centipede	400	415.2	37/3.78	26.46	1145	63.1	0.06944	616
Maybug	475	486.1	37/4.09	28.6	1342	74.01	0.05900	740
Scorpion	500	529.8	37/4.27	29.9	1460	79.98	0.05400	887
Cicada	600	628.3	37/4.65	32.6	1733	94.95	0.04500	1056
Tarantula	750	794.6	37/5.23	36.6	2191	120.1	0.03627	1320

German Standards——DIN 48201-5

Nominal Area (Nominal mm^2)	Nominal Area (Teorical mm^2)	Stranding (No.x mm)	Overall Diameter (mm)	Weight (kg/km)	Rated Strength (KN)	Electrical Resistance (Ω/Km)	Current Rating (A)
16	15.89	7/1.70	5.1	43	2.84	1.8022	83
25	24.25	7/2.10	6.3	66	4.17	1.181	108
35	34.36	7/2.50	7.5	94	5.78	0.8333	134
50	49.48	7/3.00	9	135	7.94	0.5787	168
50	48.35	19/1.80	9	133	8.45	0.5951	166
70	65.81	19/2.10	10.5	181	11.32	0.4372	200
95	93.27	19/2.50	12.5	256	15.68	0.3085	248
120	116.99	19/2.80	14	322	18.78	0.2459	285
150	147.11	37/2.25	15.8	406	25.3	0.196	328
185	181.62	37/2.50	17.5	500	30.54	0.1588	373
240	242.54	61/2.25	20.3	670	39.51	0.1191	445
300	299.43	61/2.50	22.5	827	47.7	0.0965	506
400	400.14	61/2.89	26	1104	60.86	0.0722	602
500	499.83	61/3.23	29.1	1379	74.67	0.0578	688
625	626.2	91/2.96	32.6	1732	95.25	0.0462	786
800	802.09	91/3.35	36.9	2218	118.39	0.036	907
1000	999.71	91/3.74	41.1	2767	145.76	0.0289	1026

International Electrotechnical Commission International Standards&China national standards——IEC 61089 GB/T 1179

Code	Nominal Area (mm^2)	Stranding (No.x mm)	Overall Diameter (mm)	Weight (kg/km)	Rated Strength (KN)	Electrical Resistance (Ω/Km)	Current Rating (A)
10	10	7/1.35	4.05	27.4	1.95	2.8633	62
16	16	7/1.71	5.13	43.8	3.04	1.7896	84
25	25	7/2.13	6.39	68.4	4.5	1.1453	110
40	40	7/2.70	8.1	109.4	6.8	0.7158	147
63	63	7/3.39	10.17	172.3	10.39	0.4545	195
100	100	19/2.59	12.95	274.8	17	0.2877	259
125	125	19/2.89	14.45	343.6	21.25	0.2302	297
160	160	19/3.27	16.35	439.8	26.4	0.1798	345
200	200	19/3.66	18.3	549.7	32	0.1439	396
250	250	19/4.09	20.45	687.1	40	0.1151	454
315	315	37/3.29	23.03	867.9	51.97	0.0916	522
400	400	37/3.71	25.97	1102	64	0.0721	603
450	450	37/3.94	27.58	1239.8	72	0.0641	647
500	500	37/4.15	29.05	1377.6	80	0.0577	688
560	560	37/4.39	30.73	1542.9	89.6	0.0515	736
630	630	61/3.63	32.67	1738.3	100.8	0.0458	789
710	710	61/3.85	34.65	1959.1	113.6	0.0407	845
800	800	61/4.09	36.81	2207.4	128	0.0361	905
900	900	61/4.33	38.97	2483.3	144	0.0321	967
1000	1000	61/4.57	41.13	2759.2	160	0.0289	1026
1120	1120	91/3.96	43.56	3093.5	179.2	0.0258	1091
1250	1250	91/4.18	45.98	3452.6	200	0.0231	1157
1400	1400	91/4.43	48.73	3866.9	224	0.0207	1226
1500	1500	91/4.58	50.38	4143.1	240	0.0193	1270

Australian/New Zealand Standards——AS/NZS 1531-91

Conductor codename	Stranding and wire diameter (no/mm)	Nominal overall diameter (mm)	Cross-sectional area (mm2)	Approximate mass (kg/km)	Breaking load (kN)	Modulus of elasticity (GPa)	Coefficient of linear expansion (x 10-6/°C)	DC resist. at 20°C (Ω/km)	AC resist. at 50Hz (Ω/km)
Leo	7/2.50	7.5	34.4	94.3	5.71	65	23	0.833	1.02
Leonids	7/2.75	8.25	41.6	113	6.72	65	23	0.689	0.842
Libra	7/3.00	9	49.5	135	7.98	65	23	0.579	0.707
Mars	7/3.75	11.3	77.3	211	11.8	65	23	0.37	0.452
Mercury	7/4.50	13.5	111	304	16.9	65	23	0.258	0.315
Moon	7/4.75	14.3	124	339	18.9	65	23	0.232	0.284
Neptune	19/3.25	16.3	158	433	24.7	65	23	0.183	0.224
Orion	19/3.50	17.5	183	503	28.7	65	23	0.157	0.192
Pluto	19/3.75	18.8	210	576	31.9	65	23	0.137	0.168
Saturn	37/3.00	21	262	721	42.2	64	23	0.11	0.135
Sirius	37/3.25	22.8	307	845	48.2	64	23	0.094	0.116
Taurus	19/4.75	23.8	337	924	51.3	65	23	0.0857	0.105
Triton	37/3.75	26.3	409	1120	62.2	64	23	0.0706	0.0872
Uranus	61/3.25	29.3	506	1400	75.2	64	23	0.0572	0.071
Ursula	61/3.50	31.5	587	1620	87.3	64	23	0.0493	0.0616
Venus	61/3.75	33.8	673	1860	97.2	64	23	0.0429	0.0539

Russian National Standard——GOST 839-80 Type ACP Wire, Greased All Aluminium Conductor

Nominal Cross-section (mm2)	Number of Wires	Wire Diameter (mm)	Calculated Cross-section (mm2)	Overall Diameter (mm)	D.C. Resistance at 20 (Ω/km)	Min. Breaking Load	Conductor Weight (kg/km)	Grease Weight (kg/km)
10	7	1.35	10.0	4.05	2.8631	1950	27.4	-
16	7	1.70	15.9	5.10	1.8007	3021	43.0	0.5
25	7	2.13	24.9	6.40	1.1498	4500	68.0	0.5
35	7	2.50	34.3	7.50	0.8347	5913	94.0	0.5
40	7	2.70	40.0	8.09	0.7157	6800	109.4	-
50	7	3.00	49.5	9.00	0.5784	8198	135.0	0.5
63	7	3.39	63.0	10.16	0.4544	10390	172.3	-
70	7	3.55	69.3	10.70	0.4131	11288	189.0	1.0
95	7	4.10	92.4	12.30	0.3114	14784	252.0	1.0
100	19	2.59	100.0	12.94	0.2877	17000	274.9	-
120	19	2.80	117.0	14.00	0.2459	19890	321.0	16
125	19	2.89	125.0	14.47	0.2301	21250	343.6	-
150	19	3.15	148.0	15.80	0.1944	24420	406.0	20
160	19	3.27	160.0	16.37	0.1798	26400	439.8	-
185	19	3.50	182.8	17.50	0.1574	29832	502.0	25
200	19	3.66	200.0	18.30	0.1438	32000	549.7	-
240	19	4.00	238.7	20.00	0.1205	38192	655.0	33
250	19	4.09	250.0	20.47	0.1150	40000	687.1	-
300	37	3.15	288.3	22.10	0.1000	47569	794.0	54
315	37	3.29	315.0	23.05	0.0915	51970	867.5	-
350	37	3.45	345.8	24.20	0.0833	57057	952.0	65
400	37	3.66	389.2	25.60	0.0740	63420	1072.0	73
450	37	3.90	449.1	27.30	0.0642	71856	1206.0	84
500	37	4.15	500.4	29.10	0.0576	80000	1378.0	94
550	61	3.37	544.0	30.30	0.0529	89760	1500.0	117
560	37	4.39	560.0	30.73	0.0531	89600	1542.2	-
600	61	3.50	586.8	31.50	0.0491	95632	1618.0	126
630	61	3.63	630.0	32.64	0.0458	100800	1738.4	-
650	61	3.66	641.7	32.90	0.0450	104575	1771.0	138
700	61	3.80	691.7	34.20	0.0417	112725	1902.0	149
710	61	3.85	710.0	34.65	0.0406	113600	1959.2	-
750	61	3.95	747.4	35.60	0.0386	119584	2062.0	161

Russian National Standard——GOST 839-80 AAC Conductor, Type a Wire, All Aluminium Conductor

Nominal Cross-section (mm2)	Number of Wires	Wire Diameter (mm)	Calculated Cross-section (mm2)	Overall Diameter (mm)	D.C. Resistance at 20 (Ω/km)	Min. Breaking Load	Conductor Weight (kg/km)
10	7	1.35	10.0	4.05	2.8631	1950	27.4
16	7	1.70	15.9	5.10	1.8007	3021	43.0
25	7	2.13	24.9	6.40	1.1498	4500	68.0
35	7	2.50	34.3	7.50	0.8347	5913	94.0
40	7	2.70	40.0	8.09	0.7157	6800	109.4
50	7	3.00	49.5	9.00	0.5784	8198	135.0
63	7	3.39	63.0	10.16	0.4544	10390	172.3
70	7	3.55	69.3	10.70	0.4131	11288	189.0
95	7	4.10	92.4	12.30	0.3114	14784	252.0
100	19	2.59	100.0	12.94	0.2877	17000	274.9
120	19	2.80	117.0	14.00	0.2459	19890	321.0
125	19	2.89	125.0	14.47	0.2301	21250	343.6
150	19	3.15	148.0	15.80	0.1944	24420	406.0
160	19	3.27	160.0	16.37	0.1798	26400	439.8
185	19	3.50	182.8	17.50	0.1574	29832	502.0
200	19	3.66	200.0	18.30	0.1438	32000	549.7
240	19	4.00	238.7	20.00	0.1205	38192	655.0
250	19	4.09	250.0	20.47	0.1150	40000	687.1
300	37	3.15	288.3	22.10	0.1000	47569	794.0
315	37	3.29	315.0	23.05	0.0915	51970	867.5
350	37	3.45	345.8	24.20	0.0833	57057	952.0
400	37	3.66	389.2	25.60	0.0740	63420	1072.0
450	37	3.90	449.1	27.30	0.0642	71856	1206.0
500	37	4.15	500.4	29.10	0.0576	80000	1378.0
550	61	3.37	544.0	30.30	0.0529	89760	1500.0
560	37	4.39	560.0	30.73	0.0531	89600	1542.2
600	61	3.50	586.8	31.50	0.0491	95632	1618.0
630	61	3.63	630.0	32.64	0.0458	100800	1738.4
650	61	3.66	641.7	32.90	0.0450	104575	1771.0
700	61	3.80	691.7	34.20	0.0417	112725	1902.0
710	61	3.85	710.0	34.65	0.0406	113600	1959.2
750	61	3.95	747.4	35.60	0.0386	119584	2062.0

Production Processes Of Overhead Bare Conductors

JOCA operates a digitalized production line specifically for manufacturing overhead bare conductors. The process flow starts with raw aluminum rod inspection, moving through high-speed wire drawing and precision stranding within a single, data-tracked environment. To prevent defects, we’ve integrated intelligent sensors that monitor the diameter and surface smoothness of every conductor layer in real-time. This automated setup utilizes laser measurement technology to enforce strict adherence to ASTM, IEC, and BS standards. By removing manual variability, the system ensures that every reel of AAC, AAAC, or ACSR maintains consistent tensile strength and stable electrical performance, even under extreme environmental exposure.

Packing For Shipment

To meet various transportation needs, there are many methods of packaging that can be used.

Have more questions?

We’ve compiled the most common questions regarding specifications, safety standards, and applications below. If you don't see what you're looking for, or have a specific custom requirement, just contact our engineering team directly.

Q: What makes AAC different from ACSR?

A: It really comes down to the core material. AAC is 100% aluminum—super light and great for conductivity, but it isn’t built for high tension. ACSR, on the other hand, has that steel center to handle the heavy pulling over long distances.

Q: Can I use AAC for those really long spans between towers?

A: Honestly? Not a good idea. Pure aluminum tends to sag too much when the gap is wide. If you’ve got a long span, go with ACSR or even AAAC instead. You need that extra mechanical “backbone.”

Q: Is the 1350 aluminum actually 99.5% pure?

A: Exactly. We stick to a minimum 99.5% purity. It’s the “sweet spot” for overhead lines—conducts electricity efficiently while staying flexible enough so the wire doesn’t snap during stranding.

Q: Will it hold up near the ocean?

A: Yes, it’s surprisingly tough against salt air. Aluminum forms a natural oxide skin that blocks corrosion. In high-humidity coastal spots, AAC (and AAAC) usually outlasts steel-based cables.

Q: What's the maintenance schedule like?

A: Very low-key. Once they’re up on the poles, you can mostly forget about them. The metal resists oxidation on its own, so there’s no need for constant checkups.

Q: How do you guys pack these for shipping?

A: We use standard treated wooden reels. They are sealed tight to stop any scratches or “pre-oxidation” before the cable even gets to your site. It arrives ready for the crew to pull.

Q: Can I install these in city networks or just rural areas?

A: They work fine for both, but AAC is a favorite for urban distribution where the spans are shorter and you want to keep the weight on the poles as low as possible.

Q: Need a quote or more specs?

A: Best way is to hit the “Contact Us” button right here. Or, just jump over to our profile and send a direct message. Our tech team usually gets back to people pretty quick.

Name	Basic Cookie
Provider	Owner of this website
Purpose	Saves the visitors preferences selected in the Cookie Box of Basic Cookie.
Cookie Name	wish-cookie
Cookie Expiry	1 Year

Accept	Google Ads
Name	Google Ads
Provider	Google Ireland Limited, Gordon House, Barrow Street, Dublin 4, Ireland
Purpose	Cookie by Google used for conversion tracking of Google Ads.
Privacy Policy	https://policies.google.com/privacy?hl=en

Accept	Google Analytics
Name	Google Analytics
Provider	Google Ireland Limited, Gordon House, Barrow Street, Dublin 4, Ireland
Purpose	Cookie by Google used for website analytics. Generates statistical data on how the visitor uses the website.
Privacy Policy	https://policies.google.com/privacy?hl=en
Cookie Name	_ga,_gat,_gid
Cookie Expiry	2 Months

Accept	Google Tag Manager
Name	Google Tag Manager
Provider	Google Ireland Limited, Gordon House, Barrow Street, Dublin 4, Ireland
Purpose	Cookie by Google used to control advanced script and event handling.
Privacy Policy	https://policies.google.com/privacy?hl=en
Cookie Name	_ga,_gat,_gid
Cookie Expiry	2 Years

Accept	Facebook
Name	Facebook
Provider	Meta Platforms Ireland Limited, 4 Grand Canal Square, Dublin 2, Ireland
Purpose	Used to unblock Facebook content.
Privacy Policy	https://www.facebook.com/privacy/explanation
Host(s)	.facebook.com

Accept	OpenStreetMap
Name	OpenStreetMap
Provider	Openstreetmap Foundation, St John’s Innovation Centre, Cowley Road, Cambridge CB4 0WS, United Kingdom
Purpose	Used to unblock OpenStreetMap content.
Privacy Policy	https://wiki.osmfoundation.org/wiki/Privacy_Policy
Host(s)	.openstreetmap.org
Cookie Name	_osm_location, _osm_session, _osm_totp_token, _osm_welcome, _pk_id., _pk_ref., _pk_ses., qos_token
Cookie Expiry	1-10 Years

Accept	Vimeo
Name	Vimeo
Provider	Vimeo Inc., 555 West 18th Street, New York, New York 10011, USA
Purpose	Used to unblock Vimeo content.
Privacy Policy	https://vimeo.com/privacy
Host(s)	player.vimeo.com
Cookie Name	vuid
Cookie Expiry	2 Years