Holophane | technical guide

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IP Rating

The ingress protection (IP) code denotes the protection against solid objects, moisture and impact provided by the luminaire enclosure.

Foreign body protection - 1st IP digit

Test Mark	Protection Type	Protection
	IP 1XX	Against foreign bodies ≥ 50 mm
	IP 2XX	Against foreign bodies ≥ 12 mm
	IP 3XX	Against foreign bodies ≥ 2.5 mm
	IP 4XX	Against foreign bodies ≥ 1 mm
	IP 5XX	Against harmful dust deposits
	IP 6XX	Against dust entry

Water protection - 2nd IP digit

Test Mark	Protection Type	Protection
	IP X1X	Against drops of water falling vertically
	IP X2X	Against drops of water from angles up to 15°
	IP X3X	Against showers up to 60°
	IP X4X	Against splash water
	IP X5X	Against heavy downpours
	IP X6X	Against water jets
	IP X7X	Against immersion
	IP X8X	Against submersion

Mechanical impact protection - 3rd IP digit

Test Mark	Protection Type	Protection
	IP XX1	Impact 0,225 joule
	IP XX2	Impact 0,375 joule
	IP XX3	Impact 0,500 joule
	IP XX5	Impact 2,00 joules
	IP XX7	Impact 6,00 joules
	IP XX9	Impact 20,00 joules

Safety Symbols

The ENEC symbol (European Norm Electrical Certification) is a European test and certification symbol for luminaires and electrical components in luminaires. The number 17 signifies that the test/certification symbol was awarded by the Nemko Institute for Testing and Certification in Norway.

Luminaires with the F mark can be fixed to normal flame-inhibiting materials (EN60598/VDE0711).

Electrical Characteristics

Typical electrical characteristics for lamp circuit

	Starting Current (A)*			Running Current (A)
Lamp Type & Wattage	220V	230V	240V	220V	230V	240V	Gear losses	Total circuit (W)	Power factor	Capacity value (µF)	Lowest starting temp°C	Fuse (A)
HID Wire Wound Circuits
High pressure sodium
50W	0.5	0.47	0.45	0.33	0.31	0.3	15	65	>0.9	8	-30	5
70W	0.66	0.63	0.6	0.44	0.42	0.4	16	86	>0.9	10	-30	5
100W	0.92	0.89	0.84	0.61	0.59	0.56	23	123	>0.9	12	-30	5
150W	1.31	1.26	1.2	0.87	0.84	0.8	25	175	>0.9	20	-30	5
250W	2	1.9	1.8	1.35	1.3	1.24	35	285	>0.9	35	-30	10
400W	3.1	3	2.85	2.07	1.98	1.9	45	445	>0.9	50	-30	10
600W	4.47	4.28	4.18	3.44	3.22	3.07	91	691	0.88	60	-30	10
1000W*	Less than operating			5	4.81	4.6	85	1085	>0.9	32 (480V)***	-30	20
Mercury (MBF/HPL)
50W	0.45	0.43	0.41	0.3	0.28	0.27	13	63	>0.9	7	-20	5
80W	0.71	0.68	0.65	0.47	0.45	0.43	16	96	>0.9	8	-20	5
125W	1.08	1.04	0.99	0.72	0.69	0.66	20	145	>0.9	10	-20	5
250W	2	1.9	1.8	1.34	1.28	1.23	30	280	>0.9	20	-20	10
400W	3	2.9	2.8	2	1.93	1.85	35	435	>0.9	30	-20	10
Metal Halide (MBI/HQI)
70HQI/MBI	0.66	0.63	0.6	0.44	0.42	0.4	16	86	>0.9	10	-20	5
100HQI/MBI	0.92	0.89	0.84	0.61	0.59	0.56	23	123	>0.9	12	-20	5
150HQI/MBI	1.31	1.26	1.2	0.87	0.84	0.8	25	175	>0.9	20	-20	5
250HQI/MBI	2	1.9	1.8	1.35	1.3	1.24	35	285	>0.9	35	-20	10
400HQI/MBI	3.8	3.7	3.6	2.8	2.4	2.2	40	440	>0.9	45	-20	10
450HQI/MBI	3.8	3.7	3.6	2.28	2.26	2.2	23	477	>0.9	50	-20
Euro Metal Halide
250W	2.4	2.3	2.2	1.6	1.5	1.5	26	310	>0.9	20	-20	10
400W	3.4	3.1	2.9	1.9	1.9	1.8	31	406	>0.9	30	-20	10
Ceramic Metal Halide (CMH/CDM)
35CDM	0.52	0.49	0.46	0.28	0.25	0.23	11	46	>0.9	6	-20	5
70CDM	0.74	0.71	0.67	0.52	0.48	0.46	17	87	>0.9	10	-20	5
100CDM	0.92	0.89	0.84	0.51	059	0.58	23	123	>0.9	12	-20	5
150CDM	1.53	1.46	1.41	0.85	0.79	0.79	25	175	>0.9	20	-20	5
250CDM	2	1.9	1.8	1.35	1.3	1.24	35	285	>0.9	35	-20	-10
400CDM	3.01	2.51	2.24	2.25	2.17	2.06	48	448	>0.9	50	-20	10
Multi Vapour (MV)
175W	Less than Running			1.04	0.99	0.95	30	205	>0.9	4	-20
250W	Less than Running			1.35	1.29	1.24	40	290	>0.9	10	-20	10
400W	Less than Running			2.18	2.09	2	65	465	>0.9	25.25	-20	10
1000W	Less than Running			4.92	4.72	4.5	65	1065	>0.9	28(480v)***	-20	20
Fluorescent PL/TRT
11W				0.06	0.06	0.05	2	13	>0.9	2	-10	5
13W				0.07	0.07	0.07	3	16	>0.9	2	-10	5
18W				0.12	0.11	0.11	6	24	>0.9	3	-10	5
26W				0.16	0.15	0.14	6	32	>0.9	3	-10	5
Fluorescent PLE
23W				0.13	0.13	0.12	6	29	>0.9	3	-10	5
Fluorescent 2D
28W				0.17	0.16	0.15	6	34	>0.9	3	-10	5
38W				0.24	0.23	0.22	10	48	>0.9	4	-10	5

	Starting Current (A)*			Running Current (A)
Lamp Type & Wattage	220V	230V	240V	220V	230V	240V	Gear losses	Total circuit (W)	Power factor	Capacity value (µF)	Lowest starting temp°C	Fuse (A)
Electronic HID Ballasts
Philips Cosmopolis
60W Cosmopolis White	0.19	0.17	0.2	0.32	0.31	0.3	8	66	0.95	N/A	-20	5
140W Cosmopolis White	0.44	0.37	0.41	0.71	0.7	0.66	17	152	0.96	N/A	-30	5
Zodion
50W Zodion SON/CMH	Less than Running			0.26	0.25	0.24	8	56	0.987	N/A	-30(SON)/-20(CMH)	5
70W Zodion SON/CMH	Less than Running			0.37	0.35	0.34	10	80	0.988	N/A	-30(SON)/-20(CMH)	5
100W Zodion SON/CMH	Less than Running			0.5	0.48	0.46	13	109	0.986	N/A	-30(SON)/-20(CMH)	5
150W Zodion SON/CMH	Less than Running			0.76	0.72	0.69	14	165	0.996	N/A	-30(SON)/-20(CMH)	5
Harvard
50W Harvard SON/CMH	Less than Running			0.25	0.24	0.23	8	56	0.991	N/A	-30(SON)/-20(CMH)	5
70W Harvard SON/CMH	Less than Running			0.35	0.34	0.32	7	77	0.996	N/A	-30(SON)/-20(CMH)	5
100W Harvard SON/CMH	Less than Running			0.49	0.47	0.45	8	106	0.995	N/A	-30(SON)/-20(CMH)	5
150W Harvard SON/CMH	Less than Running			0.7	0.67	0.64	15	153	0.998	N/A	-30(SON)/-20(CMH)	5
SELC
50W SELC SON/CMH	Less than Running			0.27	0.26	0.25	12	58	0.974	N/A	-30(SON)/-20(CMH)	5
70W SELC SON/CMH	Less than Running			0.27	0.33	0.32	11	74	0.983	N/A	-30(SON)/-20(CMH)	5
100W SELC SON/CMH	Less than Running			0.5	0.48	0.46	13	109	0.993	N/A	-30(SON)/-20(CMH)	5
150W SELC SON/CMH	Less than Running			0.75	0.72	0.69	19	165	0.995	N/A	-30(SON)/-20(CMH)	5
Philips CDO - TT
Mastercity 70W	Less than Running			0.37	0.35	0.34	8	78	0.97	N/A	-20(CMH)	5
Mastercity 100W	Less than Running			0.52	0.5	0.48	10	112	0.98	N/A	-20(CMH)	5
Mastercity 150W	Less than Running			0.75	0.72	0.69	15	165	0.99	N/A	-20(CMH)	5
Metrolight Super HID™
Super HID™ 50	Less than Running			0.27	0.27	0.26	7	56	0.94	N/A	-30(SON)/-20(CMH)	5
Super HID™ 70	Less than Running			0.36	0.35	0.34	8	77	0.96	N/A	-30(SON)/-20(CMH)	5
Super HID™ 100	Less than Running			0.51	0.49	0.47	8	112	0.98	N/A	-30(SON)/-20(CMH)	5
Super HID™ 150	Less than Running			0.74	0.7	0.68	14	162	0.985	N/A	-30(SON)/-20(CMH)	5
Prismatron Metal Halide
*PTNG1L320 (1x320W)	Less than Running			1.6	1.5	1.4	24	339	>0.9	N/A	-20	5
PTNG2L320 (2x320W)	Less than Running			3.1	3	2.9	16 per lamp	685	>0.9	N/A	-20	5
*PTNG1L350 (1x350W)	Less than Running			1.7	1.6	1.6	22	369	>0.9	N/A	-20	5
PTNG2L350 (2x350W)	Less than Running			3.4	3.3	3.2	17.5 per lamp	750	>0.9	N/A	-20	5
*PTNG1L400 (1x400W)	Less than Running			1.9	1.9	1.8	30	422	>0.9	N/A	-20	5
PTNG2L400 (2x400W)	Less than Running			3.9	3.7	3.6	20.5 per lamp	857	>0.9	N/A	-20	5
Fluorescent PL/TRT
32W				0.18	0.17	0.16	3	35	>0.9	N/A	-10	5
42W				0.2	0.19	0.19	2	44	>0.9	N/A	-10	5
57W				0.28	0.27	0.26	5	62	>0.9	N/A	-10	5
70W				0.34	0.32	0.31	4	74	>0.9	N/A	-10	5
Fluorescent PLL
2x55				0.52	0.5	0.48	5	115	>0.9	N/A	-10	5
Fluorescent 2D
55W				0.27	0.26	0.25	5	60	>0.9	N/A	-10	5
Fluorescent 5T
2x24				0.23	0.22	0.21	5	48	>0.9	N/A	-10	5
2x28				0.28	0.27	0.26	6	60	>0.9	N/A	-10	5
2x39				0.37	0.35	0.35	7	82	>0.9	N/A	-10	5
2x49				0.48	0.46	0.44	9	104	>0.9	N/A	-10	5
LED Circuits
3WAY						0.03	3.81	7.2	0.98	N/A	-20
6WAY						0.032	1.34	7.6	0.98	N/A	-20
9WAY						0.04	0.94	11	0.98	N/A	-20
12WAY						0.061	2.66	14.6	0.98	N/A	-20

The performance specification of the electrical circuits and fusing guide represents typical values obtained in accordance with accepted test methods and are subject to normal manufacturing variations of lamps, control gear and luminaires. They are issued as a technical service guide, but are subject to change without prior notice.

Circuit Diagrams


High Pressure Sodium 50 - 400 Watt Metal Halide 70 - 400 Watt Reactor & Superimposed ignitor circuit used for integral version.	High Pressure Sodium 50 - 400 Watt Metal Halide 70 - 400 Watt Reactor & impulser ignitor circuit used for remote gear version to achieve greater starting distances.

High Pressure Sodium 50 - 400 Watt Metal Halide 250 - 400 Watt Standby Relay Circuit.	High Pressure Sodium 1000 Watt C.W.A Circuit & Ignitor

4-pin PL 2D Fluorescen	Multi-Vapor 1000 Watt C.W.A. Circuit

Fusing Guide

Circuit Protection for Multiple Luminaire Circuits

Within the electrical characteristics table shown on page 19.2, standard individual fuse values are quoted against each lamp type. These can be used when looking to fuse individual luminaires, however we cannot recommend fuse sizes for multiple luminaires due to the individual nature of each installation.

We have no control over many variables. Therefore we would recommend that all installations are planned and installed with reference to the IEE wiring regulations (17th edition) which take effect from 1st July 2008. Using section 533 which deals with fusing, and section 559 which deals with lighting and luminaires, and any other sections of the regulations which are relevant to the installation.

Our only recommendation can be to use a type ‘C’ or better MCB, which will prevent nuisance tripping due to inrush currents.

When calculating fuse ratings please keep in mind the following points;

High inrush current at initial switch on (as much as 25 times that of normal running
current - although only for a few milliseconds)
Running up currents
Hot re-strike conditions
Lamp rectifying during stabilisation and with aged lamps
Peaks in supply voltage. In order to compensate for these high currents it is
recommended to rate the protection device larger than those stated for normal
running conditions.

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