The
EB
-
ECONOMY
is even designed to the same mounting
size as electromagnetic ballasts, allowing for easy removal of
electromagnetic ballasts, starter and capacitors and their
replacement with the more advanced
EB
-
ECONOMY
electronic ballasts.When comfort, cost of installation and
operation, safety and reliability are key considerations, the
EB
-
ECONOMY
is the answer.
The
EB
-
ECONOMY
range of electronic ballasts is in a class
of its own where cost is a key consideration but comfort and
quality are no less important.
Using up to 20% less energy than electromagnetic ballasts,
Philips
EB
-
ECONOMY
electronic ballasts equal bottom line
savings, which makes them the smart choice in situations
that require a lighting system to balance comfort and
confidence with cost-efficiency.
The versatile
EB
-
ECONOMY
is flexible enough to be used
with ‘
TL
’,‘
TL
’
D
and
PL
-
L
lamps and, designed to the highest
specifications, the
EB
-
ECONOMY
complies with
IEC
928
safety standards. Manufacture takes place in facilities certified
ISO
9001-compliant as a further assurance of safety and
reliability.
ISO
14001 certification of the manufacturing process
gives customers the peace of mind that comes from knowing
the products they use are made in an environmentally
responsible way.
Lamp life is guaranteed by a crest factor of under 1.7 and
heating lamp electrodes during ignition. Even strong mains
voltage fluctuations cannot impede the comfortable flicker-
free operation of a lamp operating through an
EB
-
ECONOMY
electric ballast.The robust construction of the
EB
-
ECONOMY
,
including internal potting, also prevents interference from
moisture and dust. Lightweight, compact, cost-saving and
energy efficient, the Philips
EB
-
ECONOMY
is an easy choice
to replace dated electromagnetic systems.
Benefits
* data subject to change
Energy saving calculation
Step 1 Determine traditional ‘TL’ 40W, 52W System power
electromagnetic system
(
T12+ballast+starter
)
Step 2 Determine new ‘TL’D 36W, 36W System power
electronic system
(
T8+EB-E ballast
)
Step 3 Determine average 4,000 hours
burning hours per year
(
Typical office building
)
Step 4 Determine cost US$0.10
per KWH
(
Depending on local
supply condition
)
Annual cost saving =
(
Step 1 - Step 2
)
x Step 3 x Step 4
1000
Example:
Annual cost saving =
(
52
-
36
)
x 4000 x US$0.10
*
= US$6.40
1000 Savings per lamp
Product portfolio
Lamp Quantity of lamps
family Wattage on one ballast
18W, 36W 1 or 2 lamps
PL-L 18W, 36W 1 or 2 lamps
22W, 32W 1 lamp
‘TL’D
‘TL’E
