HSE HS 1000 Mode D'emploi page 7

5.1 Initial Start-Up with New Lamp
After assembly (and / or lamp replacement), the electronics will signal the presence of a
new lamp during the initial start up of the fixture. During the first few minutes of initial start
up of the system, a number of lamps may not light up immediately but only after a few
minutes. Since the lamp has to burn in, the electronics will automatically reduce the power
fed to the lamps to a level that is below nominal specifications. They will continue to do so
for the first 100 hours and this ensures that both lamp and electronics are protected from
high currents generated in new lamps.
6 Maintenance / Safety
The HSE driver unit is basically maintenance free.
The electronics are equipped with 2 fuses. These have been fitted for safety reasons (fire
safety) rather than for service purposes. The driver has no service parts and the electronics
should not be subjected to any attempts at repair or otherwise. The combination of high-
frequency and high capacity is a potential hazard to (un)qualified personnel. Opening the
housing will therefore cause the warrantee to expire (see warrantee conditions).
6.1 Assembly Instructions Reflector
The following applies to the HSE 600 system; the reflector is attached to the housing
through an adapter, which is located in the recess over the lamp holder. The adapter of the
reflector is located beneath the spring that holds the reflector in place. The lamp should be
screwed in place with some caution in order to ensure the correct lamp position. Lamps
that have not been correctly placed will have an adverse effect on the light distribution.
Screw in the lamp before placing the reflector at all times. (also refer to light plan notes)
The socket of the HSE 600 has been mounted to a plate, and is equipped with a special
feature that allows you to slightly adjust the socket afterwards. This may be necessary to
realize the perfect lamp position once the lamp has been placed.
Assembly Delta reflector.
These reflectors are situated in a special support bracket.
Simply push the reflector with little force over the snappers and it will position itself
correctly.
For removal you have to slightly push the reflector side wards and lift it up in order to pass
the snappers.
Do not use any force on these type of reflectors because they can be deformed easily and
will influence light uniformity.
In HSE 1000 systems, simply push the reflector with little force into the bracket. The
footprint of the reflector fits underneath the snappers in the lamp bracket and will position
the reflector correctly. (figure 3)
Technical specs.
Input (mains side)
Parameter
Mains voltage V
mains
Mains frequency f
mains
Mains power P
mains
Mains current I
mains
Power factor
Distortion
THD
Inrush current I
mains_pk
1 The input of the driver is protected against transients and over voltage typically happens at 460V, Beyond that the driver will fail (not repairable by the end user).
Output (lamp side)
Parameter
Lamp power P
la
Ignition voltage V
ign
2 Typically cable capacity 100pF/meter
Conditions
Operational performance
Operational safety 1
Operational performance
Operational safety
P = 615W
la
P = 1000W
la
At P , V = 400V
la_nom mains
At P , V = 368V
la_max mains
Within oper. performance mains and at P
la_nom
Within oper. performance mains and at P
la_nom
V = 424V, Z = 0.4Ω + 0.8mH
mains mains
Conditions
V ±3% (P )
mains la_nom
V -8%, +6% (P )
mains la_nom
C < 100pF 2
load
For removal you have to slightly push the reflector side wards and lift it up .
Do not use any force on this type of reflectors because they can be deformed easily and
will influence light uniformity.
6.2 Operating the Lamp without the Reflector
Lamps may not be operated without reflectors. The amount of heat generated is hazardous
to any materials present above the fixture.
6.3 Maintenance of the Reflector
Alcohol based cleaning product can be used for regular cleaning. Avoid the use of abrasive
cleaners on the reflectors and always ensure to rinse thoroughly with demineralized water.
In general, calcium pollution can be removed with cleaning vinegar. If, for some reason,
cleaning activities have not been executed for an extended period of time, the pollution
may have corroded the anodizing layer. In such cases it is important to take appropriate
action to clean the polluted surface. The use of more aggressive cleaning agents should be
avoided to prevent irreparable damage to the reflectors. In case of grave pollution, please
consult a specialist cleaner. In case of even more severe pollution, the reflectors may have
to be subjected to a re-anodizing treatment.
Reflectors constructed from scaled materials (such as the Alpha/Delta reflector) cannot be
re-anodized. Also, cleaning activities should be executed carefully to prevent loss of shape
of the reflector.
7 Liability
In the interest of promotion of fire safety in greenhouses, a critical assessment should
be made of the spacing of the fixtures and any screening fabrics present, possibly in
consultation with your insurance adviser.
Hortilux Schréder b.v. is not liable for any damages caused by failure to comply with
the installation instructions in accordance with NEN 1010 and EnergieNed. publications,
or any provisions assigned to function as substitutes thereof, and the above assembly
instructions.
The conditions of the Metaalunie (Dutch Metal Association) and Hortilux Schréder b.v.
additional terms of guarantee are exclusively applicable to all deliveries.
600W
Min Typ
368 400
360
47.5
45
635
1.61
0.95 0,98
According to EN61000-3-2
9
120
600W
Min Typ
597 615
585
7
1000W
Max Min Typ Max
424 368 400 424
440 360 440
63 47.5 63
66 45 66
640
1032 1040
1.65 2.61 2.68
1.9 3.0
0.95 0,98
According to EN61000-3-2
15 9 15
175
1000W
Max Min Typ Max
633 970 1000 1030
645 950 1050
2500 2500
EN
Unit
V
V
Hz
Hz
W
W
A
A
%
A
Unit
W
W
Vpk