SOLID SHINE
Ecology-Conscious LED/Laser Projectors
with an Excellent Total Cost of Ownership
Professional model
PT-RZ470K * 3,500 lm Full HD
PT-RW430K* 3,500 lm WXGA
Basic model
20,000:1
PT-RZ370
3,500 lm Full HD 10,000:1
20,000:1
PT-RW330
3,500 lm WXGA
10,000:1
* White cabinet models (PT-RZ470W and PT-RW430W) also available.
A new light source with long-lasting brightness
SOLID SHINE Technology
Reduces Running Costs
Brightness
100%
Long-lasting brightness continues for approximately 20,000
hours. Moreover, the SOLID SHINE Series’ linear brightness
drop provides greater brightness over a given time. This helps
to lower maintenance requirements by eliminating the need for
lamp replacement and reducing running costs.
Light
Ligh
ht
source
e
life
LED/Laser
New Light
Source
A conventional
long-life lamp
66,000
,000 hr
hr
20,000 hr
For example, when used in a classroom, etc., many exchange the
lamp after about 2,000 – 3,000 hours. The new light source can
maintain the same lamp brightness for about 10,000 hours.
Saving you
the cost of
5 lamps
Example: Lamp Cost $193 (€145)/pc
$193 × 5 pcs = $965 (€725)
5,000
[Example]
In 10,000 hours
1
10,000
0,000
15,000
15,0
00
0
20,000
Hours
Brightness
100%
Average
Lamp-replacement
brightness cut off
2,000 hr
Cost-Effective
2,000 hr
2,000 hr
2,000 hr
2,000 hr
10,000 hr
Hours
Quick On/Off
y Free
Mercury
Less wasted power consumption.
Conventional Lamp Projector
Start-up time
100%
Current
Electron flow
M
Visible light
The emission of light
Glass tube
Phosphor
P-type
semiconductor
Ultraviolet light
N-type
semiconductor
Electrons
C
Mercury atom
LED/Laser Projector
Start-up time
Arc tube
The LED is a semiconductor, and light is
generated by the recombination of holes and
electrons. Therefore, no mercury is required.
The lamp emits ultraviolet light generated from
mercury atoms to excite the phosphor.
BL
Mercury is required.
2013/03/11 23:24 J:CTHBM X_FK
Mercury Free!
Environment-friendly
100%
Visible
brightness
Power is
turned on
Brightness
Y
The principle of
LED emission
Brightness
The principle of lamp emission
Lamp goes on
Time
Power is
turned on
Light source goes on
Time
Wasted power consumption is reduced since the warm-up and
cool-down processes are unnecessary.
Compliant with the RoHS Directive
The substances that are designated as hazardous are not used.
The Eco-Friendliness of the SOLID SHINE Series
Low power consumption
CO² Emission Reduction
Further Power Consumption Reduction
with Eco Save 1/2 Modes
The new light source reduces power consumption compared to
conventional models.
Eco Save 1 Mode*
(W)
300
Reduces CO ² emission by approximately 24%
Reduces CO ² emission by approximately 26%
200
250 W
Conventional LCD model A
100
Max. power consumption: 460 W
SOLID SHINE Series
ECO
Normal
200 W
Normal Mode*
-20%
Eco Save 2 Mode*
178 W
(Light resource setting)
* Calculated assuming 8 hours of use per day, 250 days per year, for a total of 2,000 hours/year.
* The formula used for CO ² conversion was 0.41 kg CO ² /kWh. (Based on data published by Japan’s
Ministry of the Environment.)
Power
consumption
Approx.
Power
consumption
Approx.
-30%
*With the Picture mode set to Standard or Graphic.
NOTE: Based on the IEC 62087 Ed. 2.0 measurement method.
Power consumption may vary depending on the projected scenes.
Low heat dissipation
Conventional lamp projector with equivalent brightness
LED/Laser projector
Exhaust temperature
Approx. 40°C
Ambient air temperature is affected.
Exhaust temperature
Approx. 60°C
• Requires air conditioning adjustment
Increases air conditioner cost, wastes
power consumption
• You have to wait until the projector
temperature lowers before shutdown, etc.
A difference of
Heat
pipe
system
Ambient air temperature isn’t affected.
• No need to worry about air conditioning
Lowers air conditioner cost, reduces
wasted power consumption
• Makes it possible to tidy up the room
immediately after use
7.5°C occurs in the room temperature when used for 5 hours.
Conventional lamp projector
1,,1
123
23 Btu / 283
28 kcal x 5 h =
1,415 kcal
30.7°C 23.2 °C
LED/Laser
Laser projector
kcal
850 Btu / 214 kcall x 5 h = 1
1,070
,070
070 kca
* Test
Test roo
rroom:
oom: 8 m x 8 m x 2.5
2 5 m = 160 m3. * The ttest
est roo
room
om assum
om
a
assumes
s m
ssum
mes
es complete insu
insulation
insulation.
ulation * Calculated when the quantity o
off heat required
require
req
uir d to
o raise the ttemperature
em
mpera
perat
atu
ture o
ture
off 1 m3 of air by 1°C
1 C is defined as 0.288
0 28
2
288
88
8 kcal.
kkc
kcal
cal
al
Professional
model
Basic
model
Eco Points and Advantages Summary
Eco Points and Advantages Summary
Maintenance Free for 20,000 Hours
Maintenance-Free and Quick On/Off
2
CO
Maintenance time and cost
Labor cost
Traffic movement
CO² emission
Example: When traveling to a place 30 km away (Fuel consumption: 15 km/L)
2L × 2.3*/30 km = Approx. 0.15 kg/km NOTE: Total CO² emission is 4.64 kg/per visit
* CO ² emission coefficient of gasoline
Lamp/Filter Free
Can be turned on/off only when required
Reduces power consumption
No waiting time for warming up
No delay for lessons or meetings
Y
Lamp/Filter Free
Low Heat Dissipation
• No need to carry a ladder
across campus
• Mercury free
• No need to keep stock
• No need to dispose of used
lamps
• No need to worry about air
conditioning
• Safe and comfortable for
children
Low Heat Dissipation
Ambient temperature is not
affected and no influence on
other equipment
• Lowers running cost
• Mercury free
• No need for a special
recycling process.
•
•
•
•
Less hassle to control
the temperature around
the projector
Projector doesn’t get hot
M
C
BL
The projectors in this leaflet are intended to project images onto a screen.
They are not intended for use as lighting equipment for ordinary homes.
Specifications and appearance are subject to change without notice.
Product availability differs depending on region and country.
This product may be subject to export control regulations.
All trademarks are the property of their respective trademark owners.
© 2013 Panasonic Corporation. All rights reserved.
2013/03/11 23:24 J:CTHBM X_FK
All information included here is valid as of March 2013.
PT-SSIECO Printed in Japan.